Field of the Invention
[0001] The present invention refers to a apparatus for forming commonly known connecting
tubes, also known as passing tubes, intended to be used in compressors to connect
said apparatus to suction and discharge lines to which they couple. Therefore, the
present invention pertains to the field of industrial apparatuses and was more specifically
developed to render the production of these apparatuses more effective, practical
and optimized.
Background of the Invention
[0002] As generally known, compressors are apparatuses used in refrigeration systems to
cause the refrigerant to circulate through the system pipes, which couple thereto
by means of suction or discharge connecting tubes (or passing tubes), wherein said
connecting tubes are usually made of copper or steel and to assure the suitable sealing
of the system they are usually provided with flanges near one of the edges thereof.
[0003] Nevertheless, it occurs that the process for forming said connecting tubes is nowadays
conducted in a complex way, involving many apparatuses and productive stages requiring
a long time of production and, consequently, a significant increase in costs is involved
since from a cylindrical tube which will serve as raw material for making passing
tubes the following processing stages are required: removing burrs from the tube cuts,
forming variable diameters along the length thereof, forming a flange - these two
last stages being commonly conducted in different apparatuses.
[0004] An example of the present state of the art is an apparatus disclosed in
JP Patent Application 2003/205340 which teaches forming tubes with variable diameter along their length. In this case,
the method of diametrically forming tubes is made by a combination of compression
forces with thermal molding, wherein, however, the method of forming flange is not
performed in the apparatus and therefore the resulting product has to be sent to a
specifically suitable apparatus.
[0005] Complementarily, the apparatus disclosed in
US Patent 5,651,173 forms tubes, more specifically flanges are formed, but in many processing stages,
more precisely 9 stages, using mechanical impact.
[0006] Other documents also teach apparatuses exclusively intended to manufacture tubes
per se; see, for example,
EP Patent 0004989 (manufacture of cylindrical tubes) and
US Patent 3,257,836 (forming tubes with asymmetrical cross-section).
[0007] It is observed that the present state of the art requires using many apparatuses
to form connecting tubes, wherein each of these apparatuses refers to one specific
manufacturing stage and involves unique techniques - or thermal molding or mechanical
forming (by means of impacts).
[0008] Therefore, the present state of the art lacks a technological solution capable of
optimizing, accelerating and even standardizing the methods of manufacturing connecting
tubes for refrigeration systems so as:
- to permit forming reductions and flanges into one same apparatus;
- to permit manufacturing two or more different products into a single apparatus by
simply substituting punctures, dies, and parameters with no need to use many individual
apparatuses; and
- to permit large-scale production to fulfill demand of hermetic compressor industry
with accuracy and standardization.
Objects of the Invention
[0009] Therefore, an object of the present invention is to provide an apparatus for forming
connecting tubes, said apparatus being capable of simultaneously forming a flange
and other regions of connecting tubes for hermetical compressors and other similar
applications.
[0010] Another object of the present invention is to provide a configuration of an apparatus
for forming connecting tubes, wherein said apparatus can produce at least one connecting
tube with specification features. Further, the stages can be multiplied such that
two or more connecting tubes having the same or different features can be simultaneously
made, thereby imparting a great versatility to the process.
[0011] Yet another object of the present invention is to provide an apparatus to form connecting
tubes by a machining and mechanical forming process, wherein the working temperature
can be cold, warm or hot, this being determined by the homologous temperature of the
material being formed.
Summary of the Invention
[0012] The above-mentioned objects are achieved by means of an apparatus for forming connecting
tubes operating interconnected with an electric system comprising at least a motor
and control elements, and a modulus in which at least one reservoir for storing tubes
to be formed with reduction regions and flanges are disposed.
[0013] According to a preferred embodiment of the present invention, said apparatus for
forming connecting tubes comprises:
at least a surface on which at least four production stages are disposed;
said at least four production stages comprise a feed stage, a deburring or reaming
stages, a forming stage (forming reduction and/or forming flange) and a dimensional
control stage;
many production stages being interconnected with at least one longitudinal trail on
which at least four claws slide;
at the end of the process, in the case that the dimensions of the connecting tube
do not meet the predetermined specifications, an electronic signal is sent to a control
element of the apparatus and said tube is discarded.
[0014] According to a preferred embodiment of the present invention, the feed stage comprises
at least one vibratory pan cooperating with a conveyor which can be, for example,
a conveyor belt.
[0015] The deburring stage is composed of support elements and drill bits driven by drills
which, by sliding on the axes, move toward the edges of the connecting tube such that
the drill bits in a rotary movement remove the material and form chamfers or grooves
on said edges.
[0016] Preferably, the forming stage comprises at least a system to secure the tube and
at least one tool selected from die and puncture element, wherein said at least one
tool has a profile corresponding to the profile of the connecting tube to form one
of the sides of said connecting tube. One of the dies has a diameter corresponding
to the diameter required in the reduction region of the connecting tube and the other
die acts to form a flange.
[0017] Said at least two dies are also preferably movable and replaceable by other distinct
dimensional features.
[0018] In a conceptual configuration, the dimensional control stage comprises at least one
bipartite cavity having an inner diameter corresponding to the outer diameter of the
connecting tube flange, wherein said at least one bipartite cavity cooperates with
a sensor system and a measurement column programmed with the possible variation limits
for the connecting tube.
[0019] Preferably, the apparatus is composed of four double stages so as to comprise 8 stages
for simultaneously producing connecting tubes having distinct features. It should
be pointed out that this preferred configuration is not limitative and permit that
further stages of similar or distinct features are used in the apparatus, or single
stages can also be used, that is, no double stages. By virtue of the multiplication
of stages it is possible to obtain simultaneous production of connecting tubes having
distinct or similar features, thus rendering the disclosed apparatus versatile.
[0020] The disclosed objects are, therefore, achieved by means of an apparatus for forming
connecting tubes, said apparatus being characterized in that it comprises means for
forming reductions and flanges of connecting tubes in a single and simultaneous production
stage.
[0021] The present invention further relates to a process for forming connecting tubes in
an apparatus as defined above for conducting the following steps:
- individually and sequentially positioning the tube through a continuously sequential
feed, aligned by the tube length through a vibratory pan and conveyor belt, making
the tube ready for further handling;
- conveying the connecting tube from the feed stage to the deburring stage by means
of at least one claw sliding on at least one longitudinal trail;
- displacing the drill bits driven by drills by sliding on the axes toward the connecting
tube edges such that said drill bits, in rotary movement, remove burrs and form chamfers
or grooves on said tube edges;
- conveying the connecting tube from the deburring stage to the forming stage by means
of a claw sliding on at least one longitudinal trail;
- applying force to cause the connecting tube to pass by a die having a diameter corresponding
to the diameter required for the forming region such that through a forward movement
said connecting tube rests on the die bottom and the material is forced to retrieve,
filling other die with a shape corresponding to the flange;
- additionally, depending on the profile defined on the product, the connecting tube
passes through a second tool (puncture tool or die) to alter the profile of the opposite
tip of the connecting tube;
- conveying the connecting tube of the forming stage to the flange forming stage by
means of the at least one claw sliding on the at least one longitudinal trail;
- carrying out an optional operation; forming chamber on the connecting tube edge by
using a puncture element driven forward the edge corresponding to the reduction edge;
- carrying out an optional expansion operation for the opposite edge of the connecting
tube, comprising moving forward a second puncture element having a diameter corresponding
to the outer diameter of the expanded tube, also by a die corresponding to the outer
diameter of the expanded connecting tube;
- conveying the connecting tube from the flange forming stage to the dimensional control
stage of said apparatus by means of said at least one claw sliding on said at least
one longitudinal trail;
- positioning the connecting tube into a bipartite cavity having an inner diameter corresponding
to the outer diameter of the tube flange;
- driving the actuator such that the bipartite cavity closes, wherein after such closing
a sensor system sends collected information to a measurement column programmed with
the possible variation limits to the connecting tube;
- in the case that the product dimensions do not fulfill predetermined specifications
an electronic signal is sent to the apparatus controller and the connecting tube is
discarded and thrown by the automated claw or by other suitable device to a discard
tray or similar compartment;
- in the case that the product dimensions fulfill the required and accepted specifications,
the ready connecting tube is sent to a storage place.
Brief Descrilotion of the Drawings
[0022] Next, the present invention will be described in detail based on the drawings, wherein:
Fig. 1 is a perspective view of an apparatus for forming connecting tubes in accordance
with a preferred embodiment of the present invention;
Fig. 2 is an enlarged detail view of the feed stage of the apparatus illustrated in
Fig. 1;
Fig. 3 is an enlarged detail view of the deburring stage of the apparatus illustrated
in Fig. 1;
Fig. 4 is an enlarged detail view of the forming apparatus illustrated in Fig. 1;
Figs. 5.1 and 5.2 show representative schemes of the press jaw in the apparatus forming
stages illustrated in Fig. 1;
Fig. 6 is an enlarged detail view of dimension control stage of the apparatus illustrated
in Fig. 1; and
Figs. 7.1, 7.2 and 7.3 are examples of connecting tubes formed in the apparatus illustrated
in Fig. 1.
Detailed Description of the Invention
[0023] The invention will be described in detail based on the attached drawings, containing
reference numerals, for a better comprehension.
[0024] An apparatus 100 for forming connecting tubes, in accordance with the invention,
is shown in Fig. 1 which depicts one of its preferred embodiments, wherein it is possible
to note that the same is composed of several stages, each of them configuring the
die (or blank) which will form the final product or connecting tube depicted in Figs.
7.1, 7.2 and 7.3. Thus, upon driving drill bits, punctures and dies commanded as specified
by the design of the workpieces to be formed, connecting tubes 6 provided with reductions
in diameter 61 and flanges 52 are produced.
[0025] In the preferred embodiment of the invention as illustrated in Fig. 1, the apparatus
100 comprises five stages 10, 20, 30, 40, and 50, which are shown in detail and individually
represented in Figs. 2 to 6. It should be pointed that optionally said apparatus 100
can be composed of double stages, that is, 10 stages, for example, such that there
would comprise five pairs of stages, wherein such flexible possibility allows for
a significant increase in the production rate and/or also permit to create arrangements
for the simultaneous manufacture of two or more different products in one single apparatus.
This is possible due to the fact that it refers to an apparatus having ten stages,
wherein five of them can be parameterized to a product having determined features
whereas the other five stages are parameterized to have distinct final features, thus
rendering a highly versatile production. Further, it is worth to say that, as previously
mentioned, the apparatus can be produced with only four stages, i.e., having only
one forming stage (30 or 40).
[0026] Generally, the apparatus 100 for forming connecting tubes 6 is connected to a hydraulic
system comprising a motor 2 and elements 3 which are responsible for the operation
of many production stages, wherein near said apparatus 100 there is a module 4 at
which two vibratory pans 5 are disposed for storing copper or steel tubes to be formed,
wherein said vibratory pans 5 cooperate with a conveyor belt 11.
[0027] It should be clear that over a surface or table 7 on which several production stages
are disposed, there will be disposed at least one longitudinal trail 8 whereby claws
9, which can be automated, convey the tubes between the several production stages
such that at no moment in the production process human interference is required and,
therefore, process acceleration and process safety are enhanced.
[0028] According to a preferred embodiment of the invention, the first production stage,
that is, feed stage 10 that is illustrated in detail in Fig. 2, comprises an individualized
raw material feed system; in this case the tube 6 had already been cut in the required
dimension. Such individualization is preferably, but not limitative, carried out by
means of vibratory pans which can be operated in synchronism with a conveyor belt
11, thereby releasing the tubes 6 in a specific position to be further conveyed.
[0029] As can be observed in more detail from Fig. 3, in the deburring stage 20 the reaming
process takes place to remove burrs from the cut of tube 6 (or blank) formerly conducted
by other apparatus (not shown). To this effect, same is placed between support 21
and drill bits 22 driven by drills 23 moving toward, by sliding on trails 24, the
edges 63 of said tube 6 such that said drill bits 22, in rotary movement, remove the
material and form chamfers on said edges 63.
[0030] In the product deburring stage 30, as illustrated in Fig. 5.1, there is the formation
of reductions 61 and flange 62. To this effect, tube 6 which had been processed in
the deburring stage 20 is conveyed with the aid of claw 9 to the forming stage 30
wherein it is forced to pass through a die 31 having a diameter corresponding to diameter
required in the reduction region 61. Thus, by means of forward movement, said tube
6 rests on the bottom of die 31 and the material is forced to retrieve, filling another
die 32 to a shape corresponding to flange 62.
[0031] Therefore, it is noted that said forming stage 30 of the apparatus 100 forms in one
sole step the reduction 61 and flange 62 of the connecting tube 6, in a significantly
more rapid, effective and practical way than that of the state of the art.
[0032] Therefore, the production deburring stage 30 comprises at least a tube securing system
and at least a tool - die (31, 32) and/or puncture element (41) - , wherein such tool
has a profile corresponding to the profile of the connecting tube 6 at which one of
the sides is formed. Depending on the product features, there can be provided a second
tool serving to form the opposite side of the connecting tube 6. Said tools are movable
and replaceable by other tools having distinct dimensional features. Furthermore,
depending on the product or raw material features there may be necessary to implant
at least one additional stage with features similar to that of the forming stage 30,
aiming at the final profile of the product in question.
[0033] Next, said tube 6 being formed is sent to flange forming stage 40 illustrated in
Fig. 5.2 in which through a process involving the puncture element (41) of the tube
6 and its driving toward the edge 63A corresponding to the reduction edge, a chamfer
is formed.
[0034] At the opposite edge 63 of tube 6, the expanding operation can be optionally conducted,
where it is formed by advancing a second puncture element 42 having a diameter corresponding
to the outer diameter of the expanded tube, also by a die 43 corresponding to the
outer diameter of the expanded tube 6, wherein a clearance is added.
[0035] By this way, passing the connecting tube 6 trough the flange forming stage 40 is
an indication of the end of the forming process, and the next step comprises a new
stage, that is, dimensional control stage 50 shown in detail in Fig. 6, where the
previously formed tube 6 is measured to control the diameter of flange 62. It should
be pointed out that, to this effect, claw 9 collects the tube 6 from the die of the
flange forming stage 40 and sends it to be positioned into a bipartite cavity 51 having
an inner diameter corresponding to the outer diameter of flange 82 of tube 6. Thus,
said tube 6 is positioned, the actuator 52 is driven such that the bipartite cavity
51 closes, and after such closing a strategically positioned sensor system sends collected
information to a measurement column programmed with possible variation limits for
the connecting tube 6. In the case that the product dimensions do not fulfill the
predetermined specifications, an electronic signal is sent to the apparatus controller
and the workpiece is discarded and thrown by the claw 9 or by other suitable means
onto a discard tray or similar compartment.
[0036] Analogously, in the case that the product dimensions meet the required and accepted
specifications, the product is sent to a storage place.
[0037] It should be emphasized that another patent application was filed and assigned to
the same owner as the one of the present patent application to claim patent protection
for said stage 50, which separately comprises the dimensional control system for connecting
tubes.
[0038] Further, it should be clarified that the main advantages of the present invention
reside in the capacity of forming reduction 61 and flan 62 in one same production
stage in a practically simultaneous mode, thus significantly optimizing the product
process, thereby providing a produced volume much higher than that obtained by known
similar apparatuses at the same period of time.
[0039] Another advantage refers to the flexible possibility of producing two or more connecting
tubes having different features in a single apparatus 100 by simple replacement of
puncture elements 41, 42, dies 31, 32, and 43, and parameters, according to the design
of each product to be formed.
[0040] Finally, it should be herein assured that the highest technological gain of said
apparatus 100 disclosed herein is the possibility of manufacturing the final product
in a large scale production, which is capable of meeting demand of hermetic compressor
manufacturers.
[0041] It should be emphasized that although the preferred embodiments of the present invention
have been shown, it is to be understood that eventual omissions, substitutions, electric
pole inversion, and construction modifications can be made by a person skilled in
the art without departing from the spirit and claimed scope of protection. It is also
expressly predicted that all combinations of elements that perform the same function
substantially in the same form to achieve the same results are within the scope of
the invention. Substitutions of elements of a described embodiment by others are also
fully intended and contemplated.
1. Apparatus for forming connecting tubes, wherein said apparatus (100) is interconnected
with an electric system comprising at least a motor (2) and control means (3) and
a modulus (4), at which at least one reservoir is disposed for storing tubes (6) to
be formed in reduction regions (61) and flanges (62), said apparatus being
CHARACTERIZED in that it comprises:
at least a surface (7) on which at least four production stages (10, 20, 30 or 40,
and 50) are disposed;
said at least four production stages comprise a feed stage (10), a deburring or reaming
stage (20), at least one forming stage - forming reduction stage (30) and/or flange
forming stage (40) and a dimensional control stage (50);
many production stages (10, 20, 30 ou 40 and 50) are interconnected with at least
a longitudinal trail(8) on which at least four claws (9) slide;
at the end of the process, in the case that the dimensions of the connecting tube
(6) do not meet the predetermined specifications, an electronic signal is sent to
a control element (3) of the apparatus (100) and said tube (6) is discarded.
2. Apparatus, in accordance with claim 1, CHARACTERIZED in that the feed stage (10) comprises at least one vibratory pan (5) cooperating with a conveyor
(11).
3. Apparatus, in accordance with claim 1, CHARACTERIZED in that said deburring stage (20) comprise support elements (21) and drill bits (22) driven
by drills (23) which, sliding on axes (24) moves toward the edges (63) of the connecting
tubes (6) such that the drill bits (22) in a rotary movement remove the material and
form chamfers or grooves on said edges.
4. Apparatus, in accordance with claim 1, CHARACTERIZED in that the forming stage (3) comprises at least a tube securing system and at least one
tool selected from a die (31, 32) and a puncture element (41), wherein said at least
one tool (31, 31, 41) has a profile corresponding to the profile of said connecting
tube (6) to form one of the sides of said connecting tube (6).
5. Apparatus, in accordance with claim 4, CHARACTERIZED in that said die (31) has a diameter corresponding to the diameter required for the reduction
region (61) of said connecting tube (6), and the die (32) acts on forming the flange
(62).
6. Apparatus, in accordance with claims 4 and 5, CHARACTERIZED in that said at least two dies (31, 32) are movable and replaceable by other dies having
different dimensional features.
7. Apparatus, in accordance with claim 1, CHARACTERIZED in that the dimensional control stage (50) comprises at least one bipartite cavity (51) having
an inner diameter corresponding to the outer diameter of the flange (62) of said connecting
tube (6), wherein said at least one bipartite cavity (52) cooperates with a sensor
system and a measurement column programmed with the possible variation limits for
the connecting tube (6).
8. Apparatus, in accordance with claim 1, CHARACTERIZED in that said apparatus (100) comprises at least four double stages (10, 20, 30 or 40 and
50) so as to comprise 8 stages for simultaneous production of connecting tubes (6)
having distinct features.
9. Apparatus for forming connecting tubes, CHARACTERIZED in that it comprises means for forming reductions (61) and flanges (62) of connecting tubes
(6) in a single and simultaneous production step.
10. Process for forming connecting tubes,
CHARACTERIZED in that it comprises an apparatus as defined in any of claims 1 to 5 for carrying out the
following steps:
- individually and sequentially positioning the connecting tube (6) through a continuously
sequential feed, aligned by the length of the connecting tube (6) through a vibratory
pan (5) and conveyor belt (11), making the connecting tube (6) ready for further handling;
- conveying the connecting tube (6) from the feed stage (20) to the deburring stage
by means of at least one claw (9) sliding on at least one longitudinal trail (8);
- displacing the drill bits (22) driven by drills by sliding on the axes (24) toward
the edges (63, 63A) of the connecting tube (6) such that said drill bits (22), in
rotary movement, remove burrs and form chamfers or grooves on said edges (63) of said
tube (6);
- conveying the connecting tube (6) from the deburring stage (20) to the forming stage
(30) by means of a claw (9) sliding on at least one longitudinal trail (8);
- applying force to cause the connecting tube (6) to pass by a die (31) having a diameter
corresponding to the diameter required for the forming region (61) such that through
a forward movement said connecting tube (6) rests on the bottom of the die (31) and
the material is forced to retrieve, filling other die (32) with a shape corresponding
to the flange;
- additionally, depending on the profile defined on the product, the connecting tube
(6) passes through a second puncture tool or die tool to alter the profile of the
opposite tip of the connecting tube (6);
- conveying the connecting tube (6) from the forming stage (30) to the flange forming
stage (40) by means of the at least one claw (9) sliding on the at least one longitudinal
trail (8);
- forming a chamfer on the edge (63A) of the connecting tube (6) through a puncture
element (41) driven toward the edge (63A) corresponding to the reduction edge;
- carrying out an optional expansion operation for the opposite edge (63) of the connecting
tube (6), comprising moving forward a second puncture element (42) having a diameter
corresponding to the outer diameter of the expanded tube, also by a die (43) corresponding
to the outer diameter of the expanded connecting tube (6);
- conveying the connecting tube (6) from the flange forming stage (40) to the dimensional
control stage (50) by means of said at least one claw (9) sliding on said at least
one longitudinal trail (8);
- positioning the connecting tube (6) into a bipartite cavity (51) having an inner
diameter corresponding to the outer diameter of the flange (62) of the tube (6);
- driving the actuator (52) such that the bipartite cavity (51) closes, wherein after
such closing a sensor system sends collected information to a measurement column programmed
with the possible variation limits for the connecting tube (6);
- in the case that the product dimensions do not fulfill predetermined specifications,
an electronic signal is sent to the apparatus controller and the connecting tube (6)
is discarded and thrown by the automated claw or by other suitable device to a discard
tray or similar compartment;
- in the case that the product dimensions fulfill the required and accepted specifications,
the ready connecting tube is sent to a storage place.