(19)
(11)EP 3 333 521 A1

(12)EUROPEAN PATENT APPLICATION

(43)Date of publication:
13.06.2018 Bulletin 2018/24

(21)Application number: 17172276.2

(22)Date of filing:  22.05.2017
(51)International Patent Classification (IPC): 
F25D 25/04(2006.01)
F25D 3/12(2006.01)
F25D 13/06(2006.01)
F25D 3/11(2006.01)
(84)Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR
Designated Extension States:
BA ME
Designated Validation States:
MA MD

(30)Priority: 06.12.2016 US 201662430554 P

(71)Applicant: Linde Aktiengesellschaft
80331 München (DE)

(72)Inventor:
  • NEWMAN, Michael D.
    Hillsborough, NJ 08844 (US)

(74)Representative: Hofmann, Andreas et al
RGTH Patentanwälte PartGmbB Postfach 33 02 11
80062 München
80062 München (DE)

  


(54)APPARATUS AND METHOD FOR REDUCING TEMPERATURE OF PRODUCTS


(57) In order to overcome the limitations and problems that earlier apparatus and methods have experienced, an apparatus (10) for reducing a temperature of at least one product (22), in particular of at least one food product, for example of at least one individually quick-frozen (IQF) food product, is proposed, said apparatus (10) comprising:
- a housing (12) having a chamber (14) within, wherein the chamber (14) has an upper region (16) and a lower region (18);
- a conveyor (20) for transporting the at least one product (22) through the chamber (14), the conveyor (20) constructed for substantial gas flow to pass through the conveyor (20) without substantially reducing the ability of the conveyor (20) to transport the at least one product (22);
- an agitator (24) associated with the conveyor (20) for selective, intermittent contact with the conveyor (20) to displace the conveyor (20) from a plane of travel, thereby displacing the at least one product (22) on the conveyor (20) to substantially prevent the at least one product (22) from adhering to the conveyor (20) and other of the at least one product (22);
- a gas circulation device (26) disposed within the chamber (14) to generate circulating gas flow (32) within the chamber (14); and
- a shroud (30) disposed within the chamber (14) for coacting with the conveyor (20) to provide an interface between the upper region (16) and the lower region (18), the shroud (30) constructed and arranged to guide the circulating gas flow (32) from the lower region (18) to the upper region (16) and through the conveyor (20), thereby facilitating displacement of the at least one product (22) on the conveyor (20) to increase exposed surface area of said at least one product (22).
A related method of reducing a temperature of at least one product (22), in particular of at least one food product, for example of at least one individually quick-frozen (IQF) food product, is also proposed.




Description

Technical field of the present invention



[0001] The present invention basically relates to apparatus and methods for cooling or freezing at least one product, in particular at least one food product, for example at least one individually quick-frozen (IQF) food product.

[0002] More specifically, the present invention relates to an apparatus for reducing a temperature of at least one product, in particular of at least one food product, for example of at least one individually quick-frozen (IQF) food product.

[0003] The present invention further relates to a method of reducing a temperature of at least one product, in particular of at least one food product, for example of at least one individually quick-frozen (IQF) food product.

Technological background of the present invention



[0004] In certain apparatus for cooling or freezing product, such as tunnel freezers, products are conveyed through the apparatus on a conveyor, such as a belt. A circulating flow of coolant and/or cryogen may be provided within the apparatus, in a direction downward towards the conveyor, for transferring heat from the items to the circulating flow of coolant/cryogen.

[0005] In some embodiments, the apparatus are for freezing products intended to be individually quick-frozen (IQF). IQF products are desirably frozen without agglomerating with one another. In order to freeze IQF products, it is desirable to stack a certain amount of product onto the conveyor in order to quickly freeze as many products as possible.

[0006] However, the depth or height of the product stacked on the conveyor may limit heat transfer, as convective heat transfer is reduced by products near the top of the stack blocking air flow from reaching products near the bottom of the stack.

[0007] In certain embodiments, the conveyor may be agitated in order to break up agglomerated products, prevent products from adhering to the conveyor, and/or increase exposed surface area of the products to increase heat transfer.

[0008] However, such agitation may be insufficient to increase heat transfer when product is stacked too deeply on the conveyor, thereby limiting product throughput associated with such apparatus.

Disclosure of the present invention: object, solution, advantages



[0009] Starting from the disadvantages and shortcomings as described above as well as taking the prior art as discussed into account, an object of the present invention is to overcome the limitations and problems that earlier apparatus and methods have experienced.

[0010] This object is accomplished by an apparatus comprising the features of claim 1 as well as by a method comprising the features of claim 14. Advantageous embodiments, expedient improvements and other optional features of the present invention are set forth herein and disclosed in the respective dependent claims.

[0011] The present invention basically provides for an apparatus and method for reducing a temperature of at least one product, such as of at least one cooling product or freezing product, said apparatus and method allowing for increased heat transfer and/or for increased product throughput.

[0012] Provided is an apparatus for reducing a temperature of products, such as without the products adhering to the apparatus or other of the products, comprising: a housing having a chamber within, wherein the chamber has upper and lower regions; a conveyor for transporting the products through the chamber, the conveyor constructed for substantial gas flow to pass through the conveyor without substantially reducing the ability of the conveyor to transport the products; an agitator associated with the conveyor for selective, intermittent contact with the conveyor to displace the conveyor from a plane of travel, thereby displacing the products on the conveyor to substantially prevent the products from adhering to the conveyor and other of the products; a gas circulation device disposed within the chamber to generate circulating gas flow within the chamber; and a shroud disposed within the chamber for coacting with the conveyor to provide an interface between the upper and lower regions, the shroud constructed and arranged to guide the circulating gas flow from the lower region to the upper region and through the conveyor, thereby facilitating displacement of the products on the conveyor to increase exposed surface area of the products.

[0013] As used herein, the term "substantially" refers to a degree of deviation that is sufficiently small so as to not measurably detract from the identified property or circumstance. The exact degree of deviation allowable may in some cases depend on the specific context.

[0014] In certain embodiments, the chamber may have a shape or cross-sectional area for providing substantially constant gas flow velocities in the upper and/or lower regions of the chamber, based on an intended volumetric flow of the circulating gas.

[0015] For example, in certain embodiments, the gas circulation device may be situated to the side of the conveyor, and the chamber may have a cross-sectional area which decreases as distance from the gas circulation device increases.

[0016] As a result of these embodiments, the chamber may be shaped in such a way as to constantly reduce the cross-sectional area of the chamber in the direction of flow of the circulating gas, to provide constant gas flow velocity as the volumetric flow of gas decreases relative to the distance from the gas circulation device.

[0017] In embodiments in which the gas circulation device is situated to the side of the conveyor, volumetric gas flow may decrease across the width of the chamber in the direction of circulating gas flow created by the gas circulation device, and the cross-sectional area of the housing may also decrease in order to provide substantially constant gas flow velocity through the conveyor.

[0018] The substantially constant gas flow through the conveyor may allow for substantially even contact of the products on the conveyor, which results in even heat transfer throughout the products stacked on the conveyor.

[0019] In certain embodiments, the apparatus may further comprise at least one baffle disposed within the lower region of the chamber and having a surface constructed and arrange to direct the circulating gas flow through the conveyor.

[0020] In certain embodiments, the conveyor may comprise a belt.

[0021] In certain embodiments, the belt may comprise an open-mesh stainless steel (or other suitable material) belt which allows for the circulating gas flow to pass through the conveyor. The open-mesh belt does not substantially reduce the ability of the conveyor to transport the products.

[0022] In certain embodiments, an axial flow fan is disposed above the conveyor, generating gas flow downwardly toward the conveyor. The downward gas flow dampens the effect of agitation of the conveyor. By providing circulating gas flow from beneath the conveyor, the agitation of the conveyor may be assisted by the circulating gas flow, allowing for increased heat transfer and/or increased product loading on the conveyor.

[0023] The agitator may be associated with the conveyor such that the agitator makes selective, intermittent contact with the conveyor, displacing the conveyor from its plane of travel, thereby displacing the products on the conveyor during freezing to prevent products from adhering to the conveyor or to other products being conveyed.

[0024] In certain embodiments, the agitator may comprise a cam drive, a cam shaft and at least one cam, in particular a multiple cam.

[0025] In certain embodiments, a wave-like motion may be provided to the conveyor by utilizing a multiple cam wave axle for displacing a lifting bar, to contact and displace the conveyor. An optional bearing surface on the lifting bar may be engaged by the cam on the wave axle to displace the lifting bar. By "selective, intermittent contact", it is meant that the agitator may be engaged or disengaged (i.e., selective), and that, when engaged, the agitator may contact the conveyor at regular or random intervals (i.e., intermittent).

[0026] In certain embodiments of the agitator, the wave-like motion may be provided to the conveyor by utilizing a multiple cam wave axle for sequentially displacing consecutive lifting bars, to contact and displace the conveyor upwardly, in a forward or backward moving wave action on the conveyor belt. The bearing surface may include a lifting bar finger and the multiple cams on the wave axle comprise cam lifting lobes. The lifting bars may be engaged by cams that are disposed in a staggered or intermittent pattern about the radius of the axle and along its length.

[0027] The wave-like, sinuous or undulating motion (for the sake of brevity hereinafter "wave-like motion") provided through the conveying system may increase the product surface area exposed to the refrigeration medium, in which the refrigeration medium works either intermittently, simultaneously or continuously. The wave-like motion may also provide space between the products, such that the circulating gas flow proceeding upwardly through the conveyor and products is not substantially blocked.

[0028] In certain embodiments, the wave-like motion is present either in part of or along the entire length of the conveyor. In other embodiments, the wave-like motion is present so as to provide the conveyor with alternating sections of non-wave sections followed by wave sections, or wave sections followed by non-wave sections, or in any desired arrangement.

[0029] The wave-like motion may increase the heat transfer rates by increasing the product surface area exposed to the refrigeration medium that is normally not achieved when the product is touching other products or parts of the apparatus. This may result in more uniform heat transfer, leading to shorter freezing times, improved yields, higher product quality, and/or better cryogenic efficiency.

[0030] In certain embodiments, the gas circulation device may be a centrifugal blower or an axial flow fan. The gas circulation device is disposed within the chamber and associated with the shroud such that the circulating gas is directed through the conveyor from below.

[0031] In certain embodiments, the gas circulation device may comprise a centrifugal blower disposed within the chamber to the side of the conveyor, wherein the shroud is associated with the centrifugal blower in a manner to force the circulating gas downwardly from the centrifugal blower.

[0032] In certain embodiments, the gas circulation device may be driven by a motor, said motor
  • in particular being mounted external to the housing, and/or
  • in particular being connected by a shaft to drive the gas circulation device.


[0033] In certain embodiments, the housing may include at least one injection port for injecting a coolant or cryogen into the chamber. In certain embodiments, the coolant/cryogen may be injected into the lower region of the chamber, such that the coolant/cryogen mixes with the circulating gas flow prior to the circulating gas flow contacting the conveyor and the products.

[0034] The term "cryogen" as used herein is similar to the term "coolant", and is not intended to necessarily be limited to materials which have a purely cryogenic effect, although that meaning is intended to be included in the use of "cryogen". The term "coolant" as used herein means any material which provides a cooling effect to or reduces a temperature of an item. In certain embodiments, the apparatus may alternatively or additionally be equipped with a mechanical refrigeration device to transfer heat from the apparatus to the surrounding environment.

[0035] Also provided is a method of reducing a temperature of products using a cooling apparatus, including a housing having a chamber therein, comprising: conveying the products on a conveyor through the chamber, wherein the conveyor allows for substantial gas flow through the conveyor without substantially reducing the ability of the conveyor to transport the products; generating circulating gas flow within the chamber; selectively and intermittently agitating the conveyor to displace the conveyor from a plane of travel, thereby displacing the products on the conveyor to substantially prevent the products from adhering to the conveyor or other of the products; and directing the circulating gas flow from beneath and through the conveyor, thereby facilitating displacing the products on the conveyor for increasing exposed surface area of the products.

[0036] In certain embodiments, the method may further comprise providing the chamber with a shape or cross-sectional area which allows for substantially constant gas flow velocities in the chamber, based on an intended volumetric flow of the circulating gas.

Brief description of the drawings



[0037] For a more complete understanding of the present embodiment disclosures and as already discussed above, there are several options to embody as well as to improve the teaching of the present invention in an advantageous manner. To this aim, reference may be made to the claims dependent on claim 1 as well as on claim 14; further improvements, features and advantages of the present invention are explained below in more detail with reference to particular and preferred embodiments by way of non-limiting example and to the appended drawing figures taken in conjunction with the following description of exemplary embodiments, of which:
FIG. 1
is a cross-sectional view of an apparatus for reducing a temperature of products as described herein, said apparatus working according to the method of the present invention; and
FIG. 2
is an isometric view of an apparatus for reducing a temperature of products as described herein, said apparatus working according to the method of the present invention.


[0038] The accompanying drawings are included to provide a further understanding of the apparatus and method(s) provided herein and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments of the apparatus and method(s) provided herein and, together with the description, serve to explain the principles described herein but are not intended to limit the specification or any of the claims. In the accompanying drawings, like equipment is labelled with the same reference numerals throughout the description of FIG. 1 and of FIG. 2.

Detailed description of the drawings;


best way of embodying the present invention



[0039] Before explaining the present inventive embodiment in detail, it is to be understood that the embodiment is not limited in its application to the details of construction and arrangement of parts illustrated in the accompanying drawing, since the present invention is capable of other embodiments and of being practiced or carried out in various ways. Also, it is to be understood that the phraseology or terminology employed herein is for the purpose of description and not of limitation.

[0040] In the following description, terms such a horizontal, upright, vertical, above, below, beneath and the like, are used solely for the purpose of clarity illustrating the present invention and should not be taken as words of limitation. The drawings are for the purpose of illustrating the present invention and are not intended to be to scale.

[0041] In particular and referring to FIG. 1 and to FIG. 2, there is shown an illustrative apparatus 10 for reducing the temperature of products 22, such as individually quick-frozen (IQF) food products, the apparatus 10 having a housing 12 defining a chamber 14 within the apparatus 10, wherein the chamber 14 has an upper region 16 and a lower region 18.

[0042] A conveyor 20, such as a belt, transports the products 22 through the chamber 14. The conveyor 20 is of a construction which allows for substantial gas flow through the conveyor 20 without substantially reducing the ability of the conveyor to transport the products 22.

[0043] An agitator 24 is associated with the conveyor 20 for selective, intermittent contact with the conveyor 20 from a plane of travel, thereby providing displacement 25 of the products 22 on the conveyor 20 to substantially prevent the products 22 from adhering to the conveyor 20 or other of the products 22.

[0044] The agitator 24 may comprise a cam drive 34, a cam shaft 36 and at least one cam 38 for displacement of the conveyor 20 as described herein.

[0045] A gas circulation device 26, such as a centrifugal blower, is disposed within the chamber 14 and driven by a motor 28 to generate circulating gas flow 32 within the chamber 14. The motor 28 may be mounted external to the housing 12 and is connected by a shaft to drive the gas circulation device 26.

[0046] A shroud 30 is disposed within the chamber 14 such that the shroud 30 guides the circulating gas flow 32 from beneath and through the conveyor 20, thereby facilitating the displacement 25 of the products 22 on the conveyor 20, which in turn increases the exposed surface area of the products 22.

[0047] As shown in FIG. 1 and in FIG. 2, the conveyor 20 and the shroud 30 coact to define an interface between the upper region 16 of the chamber 14 and the lower region 18 of the chamber 14. The apparatus 10 may include at least one baffle 31 disposed within the lower region 18 of the chamber 14 to direct the circulating gas flow 32 through the conveyor 20.

[0048] It will be understood that the embodiments described herein are merely exemplary, and that one skilled in the art may make variations and modifications without departing from the spirit and scope of the present invention. All such variations and modifications are intended to be included within the scope of the present invention as described and claimed herein. Further, all embodiments disclosed are not necessarily in the alternative, as various embodiments of the present invention may be combined to provide the desired result.

List of reference signs



[0049] 
10
apparatus, in particular cooling apparatus or freezing apparatus
12
housing
14
chamber
16
upper region of chamber 14
18
lower region of chamber 14
20
conveyor, in particular belt, for example open-mesh stainless steel belt
22
product, in particular food product, for example individually quick-frozen (IQF) food product
24
agitator
25
displacement of product 22
26
gas circulation device, in particular centrifugal blower or axial flow fan
28
motor
30
shroud
31
baffle
32
circulating gas flow
34
cam drive
36
cam shaft
38
cam



Claims

1. An apparatus (10) for reducing a temperature of at least one product (22), comprising:

- a housing (12) having a chamber (14) within, wherein the chamber (14) has an upper region (16) and a lower region (18);

- a conveyor (20) for transporting the at least one product (22) through the chamber (14), the conveyor (20) constructed for substantial gas flow to pass through the conveyor (20) without substantially reducing the ability of the conveyor (20) to transport the at least one product (22);

- an agitator (24) associated with the conveyor (20) for selective, intermittent contact with the conveyor (20) to displace the conveyor (20) from a plane of travel, thereby displacing the at least one product (22) on the conveyor (20) to substantially prevent the at least one product (22) from adhering to the conveyor (20) and other of the at least one product (22);

- a gas circulation device (26) disposed within the chamber (14) to generate circulating gas flow (32) within the chamber (14); and

- a shroud (30) disposed within the chamber (14) for coacting with the conveyor (20) to provide an interface between the upper region (16) and the lower region (18), the shroud (30) constructed and arranged to guide the circulating gas flow (32) from the lower region (18) to the upper region (16) and through the conveyor (20), thereby facilitating displacement of the at least one product (22) on the conveyor (20) to increase exposed surface area of said at least one product (22).


 
2. The apparatus according to claim 1, wherein the chamber (14) comprises a shape for providing substantially constant gas flow velocities in the upper region (16) and/or in the lower region (18), based on an intended volumetric flow (32) of the circulating gas.
 
3. The apparatus according to claim 1 or 2, wherein the gas circulation device (26) is situated to the side of the conveyor (20) and the chamber (14) comprises a cross-sectional area which decreases as distance from the gas circulation device (26) increases.
 
4. The apparatus according to at least one of claims 1 to 3, further comprising at least one baffle (31) disposed within the lower region (18) and having a surface constructed and arranged to direct the circulating gas flow (32) through the conveyor (20).
 
5. The apparatus according to at least one of claims 1 to 4, wherein the conveyor (20) is a belt, in particular an open-mesh belt.
 
6. The apparatus according to at least one of claims 1 to 5, wherein the agitator (24) comprises a cam drive (34), a cam shaft (36) and at least one cam (38), in particular a multiple cam.
 
7. The apparatus according to at least one of claims 1 to 6, wherein the gas circulation device (26) is at least one centrifugal blower.
 
8. The apparatus according to at least one of claims 1 to 7, wherein the gas circulation device (26) is driven by a motor (28).
 
9. The apparatus according to claim 8, wherein the motor (28) is mounted external to the housing (12).
 
10. The apparatus according to claim 8 or 9, wherein the motor (28) is connected by a shaft to drive the gas circulation device 26.
 
11. The apparatus according to at least one of claims 1 to 10, wherein the housing (12) comprises at least one injection port for injecting a coolant or a cryogenic substance into the chamber (14).
 
12. The apparatus according to claim 11, wherein the coolant or the cryogenic substance is injected into the lower region (18) such that the coolant or the cryogenic substance mixes with the circulating gas flow (32) prior to the circulating gas flow (32) contacting the conveyor (20) and/or the at least one product (22).
 
13. The apparatus according to at least one of claims 1 to 12, wherein the at least one product (22) is at least one food product, in particular at least one individually quick-frozen (IQF) food product.
 
14. A method of reducing a temperature of at least one product (22), in particular of at least one food product, for example of at least one individually quick-frozen (IQF) food product, using a cooling apparatus (10), including a housing (12) having a chamber (14) therein, comprising:

- conveying the at least one product (22) on a conveyor (20) through the chamber (14), wherein the conveyor (20) allows for substantial gas flow through the conveyor (20) without substantially reducing the ability of the conveyor (20) to transport the at least one product (22);

- generating circulating gas flow (32) within the chamber (14);

- selectively and intermittently agitating (24) the conveyor (20) to displace the conveyor (20) from a plane of travel, thereby displacing the at least one product (22) on the conveyor (20) to substantially prevent the at least one product (22) from adhering to the conveyor (20) and other of the at least one product (22); and

- directing the circulating gas flow (32) from beneath and through the conveyor (20), thereby facilitating displacing the at least one product (22) on the conveyor (20) for increasing exposed surface area of the at least one product (22).


 
15. The method according to claim 14, further comprising providing the chamber (14) with a shape for providing substantially constant gas flow velocities in the chamber (14), based on an intended volumetric flow (32) of the circulating gas.
 




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