[0001] The present invention relates to a container handle, and more particularly to a handle
of a movable reactor such as a fermentation tank.
[0002] Before the fermentation process is performed in a well-conditioned reaction room,
the fermentation tank as well as the fermentation broth usually needs to be sterilized
first to avoid contamination of the product by undesired microorganisms. For facilitating
the movement of the fermentation tank between the reaction room and the sterilization
room, handles are provided on the fermentation tank for user's hands to work on. Figs.
1A and 1B schematically show conventional fermentation tanks with two different handles,
respectively.
[0003] Fig. 1A illustrates the arrangement of handles on the top surface of the cover 101
of the fermentation tank 10. It is known that during the fermentation process, various
inlets are required for feeding reacting and conditioning material, e.g. nutrient
media, carbon, gas, energy source, etc. In addition, the fermentation conditions and
products need to be monitored frequently via a sampling line for quality control.
In other words, a variety of lines 102 communicating the fermentation tank 10 with
the external are arranged on the cover 101 of the fermentation tank 10 and the operator
has a lot of work on the cover 101. Therefore, the handles 103 fixed uprightly on
the top surface of the cover 101, as shown in Fig. 1A, occupy too much space and will
baffle the operator's work on the cover 101.
[0004] Fig. 1B illustrates the arrangement of bar-shaped handles mounted to side walls of
the cover 111 of the fermentation tank 11. When the fermentation tank 11 is to be
moved, the handles 112 are pivoted to and stopped at the position A for the operator
to exert the raising force. After the fermentation tank 11 is positioned, the handles
112 are pivoted to the position B to minimize the occupied space. Since the sterilization
of the fermentation tank 11 is usually performed in a sterilization room, which is
usually a high-temperature tank having a diameter only slightly larger than the diameter
of the fermentation tank 11, the pivoting operation of the handles 112 may be performed
at the risk of bum.
[0005] The present invention provides a handle having an adapted configuration for raising
a container, and the configuration, after the container is settled, can be changed
to vacate the operating space over the cover.
[0006] A first aspect of the present invention relates to a handle structure to be held
for moving a container. The handle structure comprises a base member fixed onto a
surface of a container to be moved; a handle member pivotal relative to the base member;
a clutch member coupled to the base member and the handle member, and optionally switched
between a first mode permitting the pivoting operation of the handle member relative
to the base member and a second mode prohibiting the pivoting operation of the handle
member relative to the base member.
[0007] Preferably, the clutch member is pivotally coupled to the base member and rotatably
coupled to the handle member.
[0008] In an embodiment, the clutch member is switched from the first mode to the second
mode by being rotated relative to the handle member to form steric hindrance in front
of the handle member in a specified direction. For example, when the handle member
has an arch shape with a pillar thereof coupled to the clutch member, the specified
direction is preferably a normal direction of the arch plane.
[0009] In an embodiment, the clutch member and the base member are linked together with
two opposite bridging plates and two connecting pins, one of the connecting pins penetrates
through the bridging plates and the clutch member, and the other of the connecting
pins penetrates through the bridging plates and the base member. Preferably, it is
the bridging plates rotated to lie in the specified direction to form the steric hindrance
in the second mode
[0010] In an embodiment, the clutch member has a hollow main portion for receiving therein
the pillar of the handle member and two posts supporting the hollow main portion and
disposed at two opposite sides of the base member. The two posts are rotated to lie
in the specified position to form the steric hindrance in the second mode.
[0011] In an embodiment, the handle member droops by pivoting the clutch member relative
to the base member in the first mode.
[0012] In an embodiment, the handle member is allowed to be pivotally switched between a
working configuration and a resting configuration when the clutch member is in the
first mode and is kept in the working configuration when the clutch member is in the
second mode. For example, the working configuration is that the handle member stands
upright over the container and the resting configuration is that the handle member
droops.
[0013] Preferably, the handle member is positioned on an upper surface of a cover of the
container via the base member.
[0014] In an embodiment, the base member comprises a pillar portion for penetrating through
a cover of the container and rendering a protrudent portion; and a confining element
for attaching the pillar portion onto the cover. For example, the confining element
is screw means.
[0015] Alternatively, the base member comprises a pillar portion for penetrating through
a cover of the container and rendering a protrudent portion; a first confining element
connected to the pillar portion at a first side of the cover to prevent the pillar
portion from escaping from the cover; and a second confining element connected to
the pillar portion at a second side of the cover opposite to the first side after
the pillar portion penetrates through the cover to prevent the pillar portion from
escaping from the cover. For example, the first confining element is a flange around
the pillar portion for sustaining against the cover, and the second confining element
is a retaining ring for clamping the protrudent portion of the pillar portion and
sustaining against the cover.
[0016] In an embodiment, the pillar portion has a first traverse through hole in the protrudent
portion, and the first traverse through hole is aligned with a second traverse through
hole of the clutch member for concatenating the clutch member and the base member
with a connecting pin penetrating through the first and second traverse through holes.
By this way, the clutch member is allowed to be pivoted and transmit the handle member
to pivot relative to the base portion in the first mode.
[0017] In an embodiment, the handle member and the clutch member are rotatably coupled to
each other with screw means.
[0018] According to a second aspect of the present invention, the handle structure to be
held for moving a reacting container, which comprises a hollow container body, a cover
and a plurality of cannulae penetrating through the cover for communicating the hollow
container body with the external, comprises a handle member standing upright for a
user to exert a holding force thereon in a working mode and drooping away from the
cannulae in a resting mode; and a clutch member rotatably coupled to the handle member,
and optionally rotated about the handle member to switch between a first mode allowing
the handle member to enter the resting mode and a second mode prohibiting the handle
member from entering the resting mode.
[0019] In an embodiment, the clutch member is pivotally coupled to a base member, which
is fixed onto the cover, and switched from the first mode to the second mode by being
rotated about the handle member to form steric hindrance in front of the handle member
in a specified direction.
[0020] In an embodiment, the handle member is pivoted relative to the base member to droop
by pivoting the clutch member relative to the base member in the first mode.
[0021] In an example, the reacting container is a fermentation tank.
[0022] The above objects and advantages of the present invention will become more readily
apparent to those ordinarily skilled in the art after reviewing the following detailed
description and accompanying drawings, in which:
Fig. 1A is a perspective diagram schematically showing a conventional fermentation
tank with fixed handles;
Fig. 1B is a perspective diagram schematically showing another conventional fermentation
tank with side bar handles;
Fig. 2A is a perspective diagram schematically showing the working configuration of
a handle structure according to an embodiment of the present invention;
Fig. 2B is a perspective diagram schematically showing the resting configuration of
the handle structure of Fig. 2A;
Fig. 3 is a schematic resolving diagram of the handle structure of Fig. 2A;
Fig. 4A is a cross-sectional view of an embodiment of a base member having penetrated
through the cover;
Fig. 4B is a top plane view of the base member of Fig. 4A;
Fig. 5 is a perspective diagram viewed from the bottom of the structure for schematically
showing the coupling of the clutch member to the handle member;
Fig. 6 is a perspective diagram schematically showing an enlarged view of the clutch
member of the handle structure of Fig. 2A;
Fig. 7A is a side view of a handle structure schematically showing the handle-bending-allowing
mode of the clutch member according to another embodiment of the present invention;
and
Fig. 7B is a side view of the handle structure of Fig. 7A schematically showing the
handle-bending-prohibiting mode of the clutch member.
[0023] For moving a reacting container such as a fermentation tank or any other container
requiring to work over the container, a configuration-changeable handle is provided
according to the present invention.
[0024] A fermentation tank with a handle structure according to an embodiment of the present
invention is illustrated in Figs. 2A and 2B. The handle structure 1 is mounted to
a cover 2 of the fermentation tank. The cover 1 is used for covering a hollow tank
body 3 from the external while a plurality of cannulae 4 communicate the hollow tank
body 3 with the external for feeding reacting and conditioning material, e.g. nutrient
media, carbon, gas, energy source, etc. into the tank body 3 or sampling products
from the tank body 3. When the fermentation tank is to be moved, for example to a
sterilization room, the handle structure 1 is fixed in a working mode, i.e. stands
upright over the cover 2, so that the user can hold the handle 1 to move the tank
3. On the other hand, when the fermentation tank is settled (not to be moved temporarily)
and for example various inlets are to be introduced into the tank body 3 via the cannulae
4, the handle structure 1 is preferably bent down or drooped, as shown in Fig. 2B,
to vacate some space over the cover 2 so as not to barrier the feeding or sampling
operation.
[0025] An assembling embodiment of the handle structure 1 will be illustrated hereinafter
with reference to the resolving diagram of Fig. 3 and the assembled diagrams of Figs.
2A, 2B and 6. The handle structure 1 includes a base member 20, a clutch member 22
and a handle member 25. The base member 20 has a pillar portion 200 penetrating through
the cover 2 from the lower surface (not shown) of the cover 2, a neck portion 201
in the middle of the pillar portion 200 and a flange portion 202 around an end of
the pillar portion 200. The base member 20 is fixed onto the upper surface 29 of the
cover 2 with the flange portion 202 sustaining against the lower surface of the cover
2 and a retaining ring 21 engaging with the neck portion 201 and sustaining against
the upper surface of the cover 2, as shown in Fig. 4A. Fig. 4A is a cross-sectional
view of the base member 20 having penetrated through the cover 2. Alternatively, the
base member 20 can be fixed onto the cover 2 via screw means. It is to be noted that
the base member 20, although fixed onto the cover 2, should be kept rotatable in the
through hole of the cover 2. In the protrudent portion 203 protruding from the upper
surface 29 of the cover 2, a traverse through hole 204 is provided. A top plane view
of the base member 20 is shown in Fig. 4B.
[0026] The clutch member 22 has a hollow main portion 221 and two posts 222 supporting the
hollow main portion 221. In each of the posts 222, a traverse through hole 223 (Fig.
5) is provided. In addition, another through hole 224 is provided in the bottom of
the hollow main portion 221. For assembling the clutch member 22 with the base member
30, the posts 222 of the clutch member 22 is sleeved on the base portion 20 with the
traverse through holes 223 disposed at opposite sides of and aligned with the traverse
through hole 204 of the base member 20. A connecting pin 23 are then inserted into
the through holes 223 and 204 and secured with a stopper ring 24 for concatenating
the clutch member 22 and the base member 20 together while allowing the clutch member
22 to pivot about the connecting pin 23 relative to the base member 20. The stopper
24, for example, can be a screw hold, a retaining ring, a split pin, a key groove
or any other suitable pin-retaining element.
[0027] The handle member 25 for example has an arch shape, and comprises a holding portion
250 and two pillars 251. Each of the pillars 251 has a threaded hole (not shown) at
an end thereof to be aligned with the through hole 224 of one clutch member 22. When
the pillar 251 is received in the hollow main portion 221 of the clutch member 22,
the pillar 251 is fixed to the bottom of the hollow main portion 221 with screw means
26. It is to be noted that the pillar 251 and the hollow main portion 221 should be
kept rotatable relative to each other. The assembled handle structure 1 is shown in
Fig. 2A, 2B or 6.
[0028] For keeping the handle member 25 standing upright in the working mode, the clutch
member 22 is rotated along with the base member 20 to have the posts 222 lie in the
normal direction of the arch plane of the handle member 25. By this way, the posts
222 form steric hindrance at both sides of the handle member 225 so as to prohibit
the pivoting operation of the clutch member 22 and the handle member 25 about the
connecting pin 23 relative to the base member. On the other hand, for allowing the
handle structure to enter the resting mode, the clutch member 22 is rotated along
with the base member 20 to move the posts 251 away from the bending path of the handle
member 25. Meanwhile, the handle member 25 can freely droop with the pivoting operation
of the clutch member 22 about the connecting pin 23 relative to the base member 20.
[0029] A handle structure according to another embodiment of the present invention is illustrated
with Figs 7A and 7B. In the handle structure as shown, a base member 60 is rotatably
fixed to the cover 6 of a container via a coupling member 61. A clutch member 62 is
pivotally coupled to the base member 60 via two opposite bridging plates 63 and two
pins 641 and 642. The pin 641 penetrates through the bridging plates 63 and a traverse
through hole 601 of the base member 60 and the pin 642 penetrates through the bridging
plates 63 and a traverse through hole 621 of the clutch member 62. The handle member
65 is coupled to the clutch member 62 via screw means and allows the clutch member
62 to rotate therein. Fig. 7A illustrates a first mode of the clutch member 62, wherein
the bridging plates 63 are rotated away from the bending path of the handle member
65. Accordingly, the handle member 65 can be transmitted to bend with the pivoting
operation of the clutch member 62 about the pins 641 and/or 642 relative to the base
portion 60. Fig. 7B illustrates a second mode of the clutch member 65, wherein the
bridging plates 23 at one or both sides of the handle member 65 are rotated with the
base member 20 to orient a specified direction as shown in Fig. 7B, where the bending
operation of the handle member 25 is hindered by the bridging plates 63. Therefore,
according to the present invention, the handle structure can be easily operated to
have a working configuration like Fig. 2A or a resting configuration like Fig. 2B.
[0030] By using the handle structure according to the present invention in a fermentation
tank or any other suitable container, the movement of the container can be easily
achieved, and the operation performed over the cover can be performed smoothly. Further,
by arranging the handle structure on the upper surface of the cover, the risk of burn
can be minimized.
[0031] The features disclosed in the foregoing description, in the claims and/or in the
accompanying drawings may, both separately and in any combination thereof, be material
for realizing the invention in diverse forms thereof.
1. A handle structure to be held for moving a container,
characterized in that the handle structure comprises:
a base member fixed onto a surface of a container to be moved;
a handle member pivotal relative to the base member;
a clutch member coupled to the base member and the handle member, and optionally switched
between a first mode permitting the pivoting operation of the handle member relative
to the base member and a second mode prohibiting the pivoting operation of the handle
member relative to the base member.
2. The handle structure according to claim 1, characterized in that the clutch member is pivotally coupled to the base member and rotatably coupled to
the handle member.
3. The handle structure according to claim 2, characterized in that the clutch member is switched from the first mode to the second mode by being rotated
relative to the handle member to form steric hindrance in front of the handle member
in a specified direction.
4. The handle structure according to claim 3, characterized in that the clutch member and the base member are linked together with two opposite bridging
plates and two connecting pins, one of the connecting pins penetrates through the
bridging plates and the clutch member, and the other of the connecting pins penetrates
through the bridging plates and the base member.
5. The handle structure according to claim 4, characterized in that the bridging plates are rotated to lie in the specified direction to form the steric
hindrance in the second mode.
6. The handle structure according to claim 3, characterized in that the handle member has an arch shape with a pillar thereof coupled to the clutch member.
7. The handle structure according to claim 6, characterized in that the clutch member has a hollow main portion for receiving therein the pillar of the
handle member and two posts supporting the hollow main portion and disposed at two
opposite sides of the base member, and the two posts are rotated to lie in the specified
position to form the steric hindrance in the second mode.
8. The handle structure according to claim 2, characterized in that the handle member is pivoted relative to the base member by pivoting the clutch member
relative to the base member in the first mode.
9. The handle structure according to claim 1, characterized in that the handle member is allowed to be pivotally switched between a working configuration
and a resting configuration when the clutch member is in the first mode and is kept
in the working configuration when the clutch member is in the second mode.
10. The handle structure according to claim 9, characterized in that the working configuration is that the handle member stands upright over the container
and the resting configuration is that the handle member droops.
11. The handle structure according to claim 1, characterized in that the handle member is positioned on an upper surface of a cover of the container via
the base member.
12. The handle structure according to claim 1,
characterized in that the base member comprises:
a pillar portion for penetrating through a cover of the container and rendering a
protrudent portion; and
a confining element for attaching the pillar portion onto the cover.
13. The handle structure according to claim 1, characterized in that the confining element is screw means.
14. The handle structure according to claim 1,
characterized in that the base member comprises:
a pillar portion for penetrating through a cover of the container and rendering a
protrudent portion;
a first confining element connected to the pillar portion at a first side of the cover
to prevent the pillar portion from escaping from the cover; and
a second confining element connected to the pillar portion at a second side of the
cover opposite to the first side after the pillar portion penetrates through the cover
to prevent the pillar portion from escaping from the cover.
15. The handle structure according to claim 14, characterized in that the first confining element is a flange around the pillar portion for sustaining
against the cover.
16. The handle structure according to claim 14, characterized in that the second confining element is a retaining ring for clamping the protrudent portion
of the pillar portion and sustaining against the cover.
17. The handle structure according to claim 14, characterized in that the pillar portion has a first traverse through hole in the protrudent portion, and
the first traverse through hole is aligned with a second traverse through hole of
the clutch member for concatenating the clutch member and the base member with a connecting
pin penetrating through the first and second traverse through holes, thereby allowing
the clutch member to be pivoted and transmit the handle member to pivot relative to
the base portion in the first mode.
18. The handle structure according to claim 1, characterized in that the handle member and the clutch member are rotatably coupled to each other with
screw means.
19. A handle structure to be held for moving a reacting container, the reacting container
comprising a hollow container body, a cover and a plurality of cannulae penetrating
through the cover for communicating the hollow container body with the external,
characterized in that the handle structure comprises:
a handle member standing upright for a user to exert a holding force thereon in a
working mode and drooping away from the cannulae in a resting mode; and
a clutch member rotatably coupled to the handle member, and optionally rotated relative
to the handle member to switch between a first mode allowing the handle member to
enter the resting mode and a second mode prohibiting the handle member from entering
the resting mode.
20. The handle structure according to claim 19, characterized in that the clutch member is pivotally coupled to a base member, which is fixed onto the
cover, and switched from the first mode to the second mode by being rotated about
the handle member to form steric hindrance in front of the handle member in a specified
direction.
21. The handle structure according to claim 20, characterized in that the handle member is pivoted relative to the base member to droop by pivoting the
clutch member relative to the base member in the first mode.
22. The handle structure according to claim 19, characterized in that the reacting container is a fermentation tank.