CN213362943U - Raw materials refrigerating plant that can food processing used - Google Patents

Abstract

The utility model provides a raw materials cold storage plant of canned food processing usefulness, include: the interlayer is arranged in the refrigerating chamber, a separation cavity is formed between the interlayer and a bottom plate of the refrigerating chamber, the upper surface of the interlayer is provided with water permeable holes for separating raw materials and ice blocks from the bottom plate, and the ice water after the ice blocks are melted enters the separation cavity through the water permeable holes; the water absorbing pieces are respectively arranged in the separate cavities; the detection pieces are respectively connected to the water absorption pieces and used for detecting the moisture content of the water absorption pieces; raw materials and ice blocks are stacked on the upper surface of the interlayer, when the local temperature is high, the ice blocks are melted, ice water flows to the water absorbing piece along the water permeable holes and is absorbed by the water absorbing piece, the detection piece detects the moisture content on the water absorbing piece, when the moisture content is high and is more than 10%, an operator adopts the modes of reducing the temperature in the refrigerating chamber or adding the ice blocks, and the like, so that the temperature in the refrigerating chamber is further reduced, and the monitoring is more accurate; the method is used for solving the technical problem of inaccurate monitoring in the raw material refrigeration process.

Description

Raw materials refrigerating plant that can food processing used

Technical Field

The utility model belongs to the technical field of can food processing and specifically relates to a raw materials cold storage plant of can food processing usefulness is related to.

Background

The general processing procedures of canned food are pretreatment of raw materials → canning and injection → exhaust sealing → sterilization and cooling; the raw material pretreatment also comprises the working procedures of refrigeration, unfreezing, cleaning, sterilization and the like;

wherein, the canned food of marine products generally adopts fish as raw material, such as grouper, weever, eel, tuna, squid, cuttlefish, salmon, green ban, etc.; in order to ensure the freshness of the fishes, the fishes are usually stored in a refrigerating chamber in a cabin after being caught at sea, the fishes are mixed with ice blocks, the temperature in the refrigerating chamber is controlled, a temperature sensor is adopted to monitor the temperature, and the temperature in the refrigerating chamber is kept between-30 ℃ and-20 ℃; however, some fishes have large volume, and when the fishes are just caught, body temperature exists, ice cubes can be melted, and the whole refrigerating chamber cannot be covered by the temperature sensor, so that temperature monitoring is not accurate, particularly the temperature at the bottom plate of the refrigerating chamber is high due to the melted ice water, and the refrigerating quality of the fishes can be affected.

SUMMERY OF THE UTILITY MODEL

The utility model provides a raw materials cold storage plant of canned food processing usefulness to solve the raw materials cold-stored in-process among the correlation technique, monitor unsafe technical problem.

The technical scheme of the utility model is realized like this: a raw material refrigerating apparatus for canned food processing, comprising:

the separation layer is arranged in the refrigerating chamber, a plurality of separation cavities are formed between the separation layer and the bottom plate of the refrigerating chamber, a plurality of water permeable holes are formed in the upper surface of the separation layer and used for separating raw materials and ice blocks from the bottom plate, and ice water after the ice blocks are melted enters the separation cavities through the water permeable holes;

the water absorbing pieces are respectively arranged in the separate cavities;

and the plurality of detection pieces are respectively connected to the water absorption pieces and used for detecting the moisture content of the water absorption pieces.

Further: the interlayer includes: a supporting frame, the side wall of which is contacted with the inner wall of the refrigerating chamber, the bottom of which is contacted with the bottom plate, and a separation chamber is formed between the bottom plate and the supporting frame;

and a plurality of partitions attached to the top of the support frame covering the compartment and having a plurality of water permeable holes in contact with the material and the ice cubes.

Further: the top of the supporting frame is also provided with a plurality of first grooves which are used for being clamped with the partition plates respectively, and the upper surfaces of the partition plates are flush with the upper surface of the supporting frame.

Further: the support frame includes: a side frame part, the outer wall of which is attached to the inner wall of the refrigerating chamber, and the shape of which is matched with the shape of the inner wall of the refrigerating chamber;

and the bottom of the middle partition part is attached to the bottom plate, is arranged in the frame part, and forms the separation cavity between the frame part and the bottom plate.

Further: the cross-sectional shape of the frame portion is as follows: the first component is of a rectangular structure, and the upper surface of the first component is in contact with the partition plate; the second member is of a rectangular structure, is arranged in parallel and aligned with the first member, has the same area, and has the lower surface attached to the bottom plate; and a third member vertically connected to one end of the first member and the second member to form a first cavity with the first member and the second member;

the outer wall of the third component is attached to the inner wall of the refrigerating chamber;

the first cavity can receive an end of the absorbent member.

Further: the middle lattice blocking part includes: the grid blocking pieces are arranged in a crossed manner, and a partition is formed in the frame part;

the height dimension of the lattice member is equal to the height dimension of the frame portion.

Further: the cross-sectional shape of the lattice member is as follows: the fourth component is of a rectangular structure, and the upper surface of the fourth component is in contact with the partition plate; the fifth component is of a rectangular structure, is arranged in parallel and aligned with the fourth component, has the same area, and has the lower surface attached to the bottom plate; the sixth member is vertically connected to the middle parts of the fourth member and the fifth member, and two second cavities are formed between the sixth member and the fourth member and between the sixth member and the fifth member;

the second cavity can receive an end of the absorbent member.

Further: and two ends of the grid blocking piece are symmetrically provided with a protruding block which is used for being spliced with the first concave cavity or the second concave cavity.

Further: the frame part and the middle grid blocking part are also provided with a plurality of first through holes for penetrating out of the lead on the detection piece;

further comprising: the at least two blocking pieces are connected to the upper surface of the frame portion, and when the lead penetrates out of the first through hole, the lead is arranged in the blocking pieces;

the cross-sectional shape of the stopper is as follows: the two connecting parts are of rectangular structures and are used for being connected with the frame part; and the bending part is of an arc-shaped structure, is connected between the connecting parts and blocks the lead.

A raw material refrigeration method for processing canned food is characterized in that raw materials are placed in a refrigeration chamber, ice blocks are mixed on the upper surface of an interlayer, ice water after the ice blocks are melted penetrates through the interlayer and is adsorbed by a water absorbing piece, a detection piece detects the moisture content of the water absorbing piece, data is displayed, and an operator is instructed to take measures.

By adopting the technical scheme, the beneficial effects of the utility model are that: compared with the prior art, the raw material refrigerating device for processing the canned food is provided with an interlayer, a separation cavity is formed at the bottom plate of a refrigerating chamber, a water absorbing piece is arranged in the separation cavity, and then a detection piece is contacted with the water absorbing piece; raw materials and ice blocks are stacked on the upper surface of the interlayer, when the local temperature is high, the ice blocks are melted, ice water flows to the water absorbing piece along the water permeable holes and is absorbed by the water absorbing piece, the detection piece detects the moisture content on the water absorbing piece, when the moisture content is high and is generally more than 10%, an operator adopts the modes of reducing the temperature in the refrigerating chamber or adding the ice blocks and the like, so that the temperature in the refrigerating chamber is further reduced, the monitoring is more accurate, the operator can find problems in time, measures are taken, and the refrigerating quality of the raw materials is ensured; therefore, the technical problem of inaccurate monitoring in the raw material refrigeration process is solved, and the technical effect of relatively accurate monitoring is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic view of the three-dimensional assembly structure of the present invention after being installed in a refrigerating chamber;

FIG. 2 is a schematic view of the three-dimensional structure of the partition, the water absorbing member and the detecting member of the present invention;

FIG. 3 is a front view of the partition, the water absorbing member and the detecting member of the present invention;

fig. 4 is a cross-sectional view a-a of fig. 3 of the present invention;

fig. 5 is a cross-sectional view taken along line B-B of fig. 3 in accordance with the present invention;

fig. 6 is a schematic three-dimensional structure diagram of the support frame of the present invention;

fig. 7 is an exploded view of the support frame of the present invention;

fig. 8 is a partial cross-sectional view of the frame portion of the present invention;

FIG. 9 is a partial cross-sectional view of a stop of the present invention;

fig. 10 is a schematic view of a partial three-dimensional structure of the blocking member of the present invention;

fig. 11 is a schematic three-dimensional structure of the separator according to the present invention;

fig. 12 is a schematic three-dimensional structure of the stopper and the support frame of the present invention;

fig. 13 is a partial cross-sectional view of a stopper of the present invention;

FIG. 14 is a schematic view of a three-dimensional assembly structure of the present invention, which enters the refrigerating chamber from the top to stack raw materials and ice cubes during actual use;

FIG. 15 is a schematic view of a three-dimensional assembly structure of the present invention, which enters the refrigerating chamber from the side to stack the raw material and ice cubes during the actual use;

wherein: 10. the refrigerator comprises a partition layer, 11 parts of a compartment, 12 parts of water permeable holes, 13 parts of a supporting frame, 131 parts of a first groove, 132 parts of a frame part, 132-1 parts of a first component, 132-2 parts of a second component, 132-3 parts of a third component, 132-4 parts of a first concave cavity, 133 parts of a middle partition part, 133-1 parts of a partition part, 133-11 parts of a fourth component, 133-12 parts of a fifth component, 133-13 parts of a sixth component, 133-14 parts of a second concave cavity, 133-15 parts of a protruding block, 133-16 parts of a first through hole, 14 parts of a partition plate, 20 parts of a water absorbing part, 30 parts of a detecting part, 40 parts of a baffle part, 41 parts of a connecting part, 42 parts of a bending part and 100 parts of a refrigerating chamber.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The utility model provides a raw materials cold storage plant of canned food processing usefulness, has solved the raw materials cold-stored in-process among the correlation technique, monitors unsafe technical problem, has reached the positive effect of monitoring relative accuracy, and the general thinking is as follows:

one embodiment is as follows:

as shown in fig. 1, 2, 3, 4, 5, 14, 15; a raw material refrigerating apparatus for canned food processing, comprising: a partition layer 10, which is arranged in the refrigerating chamber 100, forms a plurality of separation chambers 11 with the bottom plate of the refrigerating chamber 100, the upper surface of the partition layer is provided with a plurality of water permeable holes 12, which are used for separating raw materials and ice blocks from the bottom plate, and the ice water after the ice blocks are melted enters the separation chambers 11 through the water permeable holes 12; a plurality of water absorbing members 20 respectively disposed in the compartments 11; the detection pieces 30 are respectively connected to the water absorbing piece 20 and used for detecting the moisture content of the water absorbing piece 20;

a raw material refrigeration method for processing canned food is characterized in that raw materials are placed in a refrigeration chamber 100 and mixed with ice blocks on the upper surface of an interlayer 10, ice water after the ice blocks are melted passes through the interlayer 10 and is adsorbed by a water absorbing piece 20, a detection piece 30 detects the moisture content of the water absorbing piece 20, data is displayed, and an operator is instructed to take measures;

specifically, in practice, the partition 10 is provided, the compartment 11 is formed at the bottom plate of the refrigerating chamber 100, the water absorbing member 20 is provided in the compartment 11, and the detecting member 30 is in contact with the water absorbing member 20; raw materials (marine products, particularly large-volume marine fishes such as groupers and tunas) and ice blocks are stacked on the upper surface of the interlayer 10, when the local temperature is high, the ice blocks are melted, ice water flows onto the water absorbing piece 20 along the water permeable holes 12 and is absorbed by the water absorbing piece 20, the water content of the water absorbing piece 20 is detected by the detecting piece 30, when the water content is high and is generally more than 10%, an operator adopts the modes of reducing the temperature in the refrigerating chamber 100 or increasing the ice blocks and the like, so that the temperature in the refrigerating chamber 100 is further lowered, the monitoring is more accurate, the operator can find problems in time, and measures are taken to ensure the refrigerating quality of the raw materials; therefore, the technical problem of inaccurate monitoring in the process of refrigerating raw materials is solved, and the technical effect of relatively accurate monitoring is achieved;

in another embodiment:

as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 14, fig. 15; in practice, the barrier 10 comprises: a supporting frame 13, the side wall of which is in contact with the inner wall of the refrigerating chamber 100, the bottom of which is in contact with the bottom plate, and the bottom plate and the supporting frame form the compartment 11; and a plurality of partitions 14, connected to the top of said supporting frame 13, covering said compartment 11, and having a plurality of said water permeable holes 12, in contact with said raw material and said ice cubes;

the support frame 13 includes: a frame portion 132 having an outer wall attached to an inner wall of the refrigerating compartment 100 and an outer shape matching the shape of the inner wall of the refrigerating compartment 100; the bottom of the middle barrier part 133 is attached to the bottom plate, is arranged in the frame part 132, and forms the separation chamber 11 with the frame part 132 and the bottom plate; the shape of the frame portion 132 is various, such as a square shape, a circle shape, an oval shape, a fan shape, etc., and the shape matches with the shape of the inner wall of the refrigerating compartment 100 and is welded and positioned with the inner wall of the refrigerating compartment 100; the middle blocking part 133 and the frame part 132 are welded and arranged at intervals to form the separation chamber 11, and a plurality of separation chambers 11 are arranged, so that the volume of a single water absorbing part 20 is relatively small, the replacement is relatively convenient, different data can be detected from a plurality of angles respectively, an operator can independently process some local positions, the operation is relatively convenient, the structural strength is ensured, and the weight of raw materials and ice cubes can be borne;

since the shapes of the frame portions 132 are various, the shapes of the middle partitions 133 are various, the shapes of the compartments 11 are various, the shapes of the partition plates 14 are various, and the shapes of the water absorbing members 20 are various and need to be matched with each other, for example, in one of the patterns shown in fig. 2, if the frame portions 132 are square, the compartments 11 are also square, the water absorbing members 20 are also square, and the partition plates 14 are also square; other shapes are also the same, and the arrangement needs to be performed according to the shape of the frame portion 132, and after seeing the disclosure, a person skilled in the art can directly and unambiguously know how to form different arrangements according to the shape, without the creative labor and without the need of undue experiment;

the water permeable holes 12 are fully distributed with the partition plates 14, the diameter is about one millimeter generally, ice water can be ensured to flow down smoothly, and ice blocks can be prevented from falling down;

the top of the supporting frame 13 is further provided with a plurality of first grooves 131 for respectively engaging with the partition plates 14, and the upper surfaces of the partition plates 14 are flush with the upper surface of the supporting frame 13; the first groove 131 is arranged to match the shape of the partition 14, so that the partition 14 can be easily positioned with the support frame 13 without moving the position when being arranged;

the thickness of the partition plate 14 is more than ten millimeters, and the partition plate 14 is also provided with at least one threaded blind hole, so that a lifting bolt can be conveniently inserted, and the partition plate 14 can be conveniently opened during replacement and other operations;

the cross-sectional shape of the frame portion 132 includes: a first member 132-1 having a rectangular configuration with an upper surface in contact with the partition 14; a second member 132-2 having a rectangular configuration, aligned parallel to the first member 132-1, and having an equal area, and a lower surface attached to the bottom plate; and a third member 132-3 vertically connected to one ends of the first member 132-1 and the second member 132-2 to form a first cavity 132-4 with the first member 132-1 and the second member 132-2; the first member 132-1, the second member 132-2 and the third member 132-3 are integrally formed by hot rolling, when the refrigerator is installed, the outer wall of the third member 132-3 is attached and welded with the inner wall of the refrigerating chamber 100, and the height dimension of the frame part 132 is about fifteen centimeters so as to form a support;

the first cavity 132-4 can receive one end of the absorbent member 20, so that the absorbent member 20 can be reliably positioned;

the middle barrier 133 includes: the lattice pieces 133-1 are arranged in a crossed manner, and partitions are formed in the frame part 132; the lattice pieces 133-1 are welded and combined with each other and the frame part 132, and the height dimension of the lattice pieces 133-1 is equal to that of the frame part 132, so that a stable supporting structure is formed, and the partition plates 14, the water absorbing members 20 and the detecting members 30 are conveniently arranged;

the cross-sectional shape of the barrier 133-1 is such that it includes: a fourth member 133-11 having a rectangular configuration, an upper surface of which is in contact with the partition 14; a fifth member 133-12 having a rectangular configuration, aligned in parallel with the fourth member 133-11, and having an equal area, and having a lower surface attached to the bottom plate; and a sixth member 133-13 vertically connected to the middle portions of the fourth member 133-11 and the fifth member 133-12, and forming two second cavities 133-14 between the fourth member 133-11 and the fifth member 133-12; the fourth component 133-11, the fifth component 133-12 and the sixth component 133-13 are integrally formed by hot rolling, and after being welded and combined with the frame part 132 and the bottom plate of the refrigerating chamber 100, the structural strength is high;

the second cavity 133-14 can receive one end of the absorbent member 20, so that the absorbent member 20 can be reliably positioned;

two ends of the barrier 133-1 are symmetrically provided with a protruding block 133-15 for plugging with the first cavity 132-4 or the second cavity 133-14; the protruding blocks 133-15 are square plates and are welded with the grid blocking pieces 133-1, when the frame part 132 and the middle grid blocking part 133 are welded and combined, the protruding blocks 133-15 can be inserted into the first concave cavities 132-4 or the second concave cavities 133-14 and then welded, so that each partition cavity 11 is in a relatively independent state, and due to relative independence, the falling position of ice water is relatively accurate, and the ice water cannot flow everywhere because the combined gap between the frame part 132 and the middle grid blocking part 133 is too large, so that detection data formed by the detection piece 30 during detection can deviate from the detected position, an operator can accurately find a place with a high local temperature, and when necessary, local processing is performed, and compared with a mode of removing the part of ice water;

the frame portion 132 and the middle barrier portion 133 are further provided with a plurality of first through holes 133-16 for passing through the wires on the detecting member 30; the first through holes 133-16 are arranged, so that the detection pieces 30 can be more flexibly inserted into and pulled out of the lead, and the operation is more convenient;

in another embodiment:

as shown in fig. 1, 2, 3, 4, 11; during implementation, a plurality of V-shaped grooves can be further arranged on the upper surface of the partition plate 14 in parallel, the section of each V-shaped groove is approximately of a V-shaped structure, a plurality of water permeable holes 12 are formed in the side wall of each V-shaped groove, ice water can flow easily due to the arrangement of the V-shaped grooves, the inclination angle is small, normal stacking of raw materials and ice blocks cannot be influenced, and the situation that an operator slips down cannot occur;

in another embodiment:

as shown in fig. 1, 2, 3, 4, 5, 14, 15;

in practice, the water absorbing member 20 is made of nontoxic water absorbing sponge; the water absorbing piece 20 is matched with the shape of the separation cavity 11, and the upper surface of the water absorbing piece is tightly attached to the lower surface of the partition plate 14, so that the amount of melted ice water is not large at some time, the ice water can not flow onto the water absorbing piece 20 necessarily and can be suspended on the lower surface of the partition plate 14, the detection effect is influenced, and the water absorbing piece 20 is tightly attached to the lower surface of the partition plate 14, so that the ice water can be in full contact with the water absorbing piece 20;

in another embodiment:

as shown in fig. 1, 2, 3, 4, 5, 14, 15;

in implementation, the detecting elements 30 are moisture measuring instruments in the prior art, such as SK-100 type moisture measuring instruments, when the probes are arranged, the probes are inserted into the water absorbing elements 20, at least one detecting element 30 is arranged on one water absorbing element 20, generally two detecting elements are arranged, one detecting element is arranged on the upper surface, one detecting element is arranged on the lower surface, the probes are embedded in the water absorbing elements 20, the wires need to be lengthened, the wires are arranged from the first through holes 133-16, and finally the wires are led out and connected with a liquid crystal display screen arranged outside the refrigerating chamber 100, so that the purpose of moisture monitoring is achieved, each water absorbing element 20 is respectively monitored to form different data, and an operator can conveniently operate the water absorbing device according to the processing;

in another embodiment:

as shown in fig. 12, 13, 14, 15; when in implementation, the method further comprises the following steps: at least two stoppers 40 connected to the upper surface of the frame portion 132, wherein the wires are arranged in the stoppers 40 when the wires pass through the first through holes 133-16;

the stopper 40 has a cross-sectional shape including: two connecting portions 41 each having a rectangular structure and connected to the frame portion 132; and a bending part 42, which is an arc structure, is connected between the connection parts 41 and blocks the lead;

the connecting part 41 and the bending part 42 are integrally formed by punching and molding through plates, and when the connecting part and the bending part are arranged, the shape of the connecting part is matched with that of the frame part 132, and the connecting part 41 and the frame part 132 are connected through penetrating screws along the inner wall of the refrigerating chamber 100, so that the conducting wires on the detection part 30 can be protected;

in another embodiment:

as shown in fig. 14, 15; the refrigerating compartment 100 is a common refrigerating structure in the prior art, and generally includes a receiving box body, and a refrigerating system; the shape of the containing box body is various, the shape is approximately a tetragonal structure, the utility model lists two common types, which is convenient for operators to enter the containing box body from the side or the top and take raw materials, and after seeing the disclosed contents, the ordinary technical personnel in the field can directly and unambiguously know how to set to form different arrangements without creative labor and excessive tests;

the working principle is as follows: in practice, the partition layer 10 is provided, a compartment 11 is formed at the bottom plate of the refrigerating chamber 100, a water absorbing member 20 is arranged in the compartment 11, and then the detecting member 30 is contacted with the water absorbing member 20; raw materials and ice blocks are stacked on the upper surface of the interlayer 10, when the local temperature is high, the ice blocks are melted, ice water flows to the water absorbing piece 20 along the water permeable holes 12 and is absorbed by the water absorbing piece 20, the detection piece 30 detects the moisture content on the water absorbing piece 20, when the moisture content is high and is generally more than 10%, an operator adopts the modes of reducing the temperature in the refrigerating chamber 100 or adding the ice blocks and the like, so that the temperature in the refrigerating chamber 100 is further reduced, the monitoring is more accurate, the operator can find problems in time, and measures are taken to ensure the refrigerating quality of the raw materials;

in the description, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on the positional relationships illustrated in the drawings, and are only for convenience of description or simplicity of description, but do not indicate that a particular orientation must be provided; the operation process described in the embodiment is not an absolute use step, and corresponding adjustment can be made during actual use;

unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art; the use of "first," "second," and the like in the description and in the claims does not denote any order, quantity, or importance, but rather the terms "a" and "an" and the like are used to distinguish one element from another, and likewise, no limitation of quantity is implied, but rather at least one is implied, as is determined by the context of the embodiment;

the above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A raw material refrigerating device for canned food processing is characterized by comprising:

the partition layer (10) is arranged in the refrigerating chamber (100), a plurality of separation chambers (11) are formed between the partition layer and the bottom plate of the refrigerating chamber (100), the upper surface of the partition layer is provided with a plurality of water-permeable holes (12) for separating raw materials and ice blocks from the bottom plate, and the ice water after the ice blocks are melted enters the separation chambers (11) through the water-permeable holes (12);

a plurality of water absorbing members (20) respectively arranged in the separate chambers (11);

and the detection pieces (30) are respectively connected to the water absorbing pieces (20) and are used for detecting the moisture content of the water absorbing pieces (20).

2. A raw material refrigerating apparatus for can food processing according to claim 1, characterized in that: the barrier (10) comprises: a supporting frame (13) having side walls in contact with the inner wall of said refrigerating compartment (100) and a bottom in contact with said bottom plate, said compartment (11) being defined between said bottom plate and said side walls;

and a plurality of partitions (14) connected to the top of said support frame (13), covering said compartment (11), having a plurality of said water permeable holes (12) in contact with said raw material and said ice cubes.

3. A raw material refrigerating apparatus for can food processing according to claim 2, characterized in that: the top of the supporting frame (13) is further provided with a plurality of first grooves (131) which are used for being clamped with the partition plates (14) respectively, and the upper surfaces of the partition plates (14) are flush with the upper surface of the supporting frame (13).

4. A raw material refrigerating apparatus for can food processing according to claim 2, characterized in that: the support frame (13) comprises: a side frame part (132), the outer wall of which is attached to the inner wall of the refrigerating chamber (100), and the shape of which is matched with the shape of the inner wall of the refrigerating chamber (100);

and a middle blocking part (133), the bottom of which is attached to the bottom plate, is arranged in the frame part (132), and forms the separation chamber (11) with the frame part (132) and the bottom plate.

5. A raw material cold storage apparatus for can food processing according to claim 4, wherein: the cross-sectional shape of the frame portion (132) is such that it comprises: a first member (132-1) of rectangular configuration, the upper surface of which is in contact with said partition (14); a second member (132-2) having a rectangular configuration, aligned parallel to the first member (132-1), and having an equal area, the lower surface of which is attached to the base plate; and a third member (132-3) vertically connected to one end of the first member (132-1) and the second member (132-2) to form a first cavity (132-4) with the first member (132-1) and the second member (132-2);

the outer wall of the third component (132-3) is attached to the inner wall of the refrigerating chamber (100);

the first cavity (132-4) is capable of receiving an end of the absorbent member (20).

6. A raw material cold storage apparatus for can food processing according to claim 5, wherein: the intermediate barrier (133) comprises: a plurality of lattice pieces (133-1), wherein the lattice pieces (133-1) are arranged in a crossed manner and form partitions in the frame part (132);

the height dimension of the lattice member (133-1) is equal to the height dimension of the frame portion (132).

7. A raw material cold storage apparatus for can food processing according to claim 6, wherein: the cross-sectional shape of the lattice (133-1) is as follows: a fourth member (133-11) of rectangular configuration, the upper surface of which is in contact with said partition (14); a fifth member (133-12) which is rectangular and is aligned with the fourth member (133-11) in parallel, has the same area, and has the lower surface attached to the bottom plate; and a sixth member (133-13) vertically connected to the middle portions of the fourth member (133-11) and the fifth member (133-12) to form two second cavities (133-14) between the fourth member (133-11) and the fifth member (133-12);

the second cavity (133-14) is capable of receiving an end of the absorbent member (20).

8. A raw material cold storage apparatus for can food processing according to claim 7, wherein: the two ends of the grid member (133-1) are symmetrically provided with a protruding block (133-15) for plugging with the first cavity (132-4) or the second cavity (133-14).

9. A raw material cold storage apparatus for can food processing according to claim 4, wherein: the frame part (132) and the middle partition part (133) are also provided with a plurality of first through holes (133-16) for penetrating out of the lead on the detection piece (30);

further comprising: at least two stoppers (40) connected to the upper surface of the frame portion (132), wherein the wires are arranged in the stoppers (40) when the wires pass through the first through holes (133-16);

the stopper (40) has a cross-sectional shape including: two connecting portions (41) having a rectangular configuration and connected to the frame portion (132); and a bent portion (42) having an arc-shaped structure, connected between the connection portions (41), and blocking the wire.

Images