CN220852716U - Matching structure of liquid material refrigerating device - Google Patents

Abstract

The utility model discloses a matching structure of a liquid material refrigerating device, which comprises a cabinet body, a refrigerating unit shell, a liquid material refrigerating box, a material refrigerating box, an evaporator, two pipelines and a sealing plate. According to the utility model, through the arrangement of the refrigerator set shell, the liquid material refrigerator, the evaporator and other structural components, the two clamping blocks can be moved to the inside of the convex block through the use of the clamping assembly in the cavity, the fixation of the sealing plate and the liquid material refrigerator is realized, and the two clamping blocks can be moved out of the inside of the convex block through the cooperation of the moving assembly and the clamping assembly, so that the separation of the sealing plate and the liquid material refrigerator is realized.

Description

Matching structure of liquid material refrigerating device

Technical Field

The utility model belongs to the technical field of liquid material refrigeration, and particularly relates to a matching structure of a liquid material refrigeration device.

Background

The liquid material refrigerating plant is a device capable of refrigerating and preserving heat to liquid material, the liquid material is placed into the liquid material refrigerating plant, the liquid material refrigerating plant can freeze and preserve heat to the liquid material through cold air generated by a refrigerating unit, the liquid material refrigerating plant needs to be overhauled and cleaned in the liquid material refrigerating box of the liquid material refrigerating plant regularly in the using process, and a sealing plate at the top of the liquid material refrigerating box is fixed with the liquid material refrigerating box usually through a special tool, so that the sealing plate can be excessively and time-consuming to disassemble and assemble, the sealing plate cannot be manually disassembled and assembled, and the problems in the prior art are that: the liquid material refrigerator needs to be overhauled and cleaned in a regular liquid material refrigerating device, and the sealing plates of the liquid material refrigerator are disassembled and assembled through special tools and cannot be disassembled and assembled manually, so that the matching structure of the liquid material refrigerating device is provided for solving the problems.

Disclosure of utility model

Aiming at the problems in the prior art, the utility model provides a matching structure of a liquid material refrigerating device, which has the advantage of being capable of quickly disassembling and assembling a liquid material refrigerating box and a sealing plate, and solves the problems that the inside of the liquid material refrigerating box of the liquid material refrigerating device needs to be overhauled and cleaned regularly, and the sealing plate of the liquid material refrigerating box is disassembled and assembled through a special tool and can not be disassembled and assembled manually.

The utility model is realized in this way, a matching structure of a liquid material refrigerating device, which comprises a cabinet body, a refrigerating unit shell, a liquid material refrigerating box, a material refrigerating box, an evaporator, two pipelines and a sealing plate, wherein the refrigerating unit shell, the liquid material refrigerating box, the evaporator, the two pipelines and the sealing plate are all arranged in the cabinet body, the right side of the refrigerating unit shell is fixedly connected with the left side of the liquid material refrigerating box, the material refrigerating box is arranged at the bottom of the liquid material refrigerating box, the evaporator is fixed in the liquid material refrigerating box, two sides of the two pipelines are respectively fixedly communicated with the liquid material refrigerating box and the material refrigerating box, and the surface of the sealing plate is in plug connection with the top of the liquid material refrigerating box, and the matching structure is characterized in that: the liquid material refrigerator is characterized in that the left side and the right side of the top of the liquid material refrigerator are fixedly connected with protruding blocks, the left side and the right side of the top of the sealing plate are fixedly connected with matching blocks, one side, close to the two protruding blocks, of each matching block is in close contact with the two protruding blocks, a cavity is formed in the matching blocks, and clamping assemblies and moving assemblies are respectively arranged in the cavities.

As the preferred clamping assembly of the utility model, the clamping assembly comprises two clamping blocks, the surfaces of the two clamping blocks are movably connected with the inside of the cavity, the opposite sides of the two clamping blocks are fixedly connected with extrusion springs, one sides of the two extrusion springs close to the inner wall of the cavity are fixedly connected with the cavity, the tops of the two clamping blocks are rotatably connected with movable rods, the two clamping blocks can move to the inside of the convex block through the cavity by arranging the clamping assembly, and the two clamping blocks and the two movable rods can automatically rebound to the original position after moving by using the two extrusion springs.

As the preferable mode of the utility model, the moving assembly comprises a moving block and a sliding block, the left side of the moving block is fixedly connected with the right side of the sliding block, the surfaces of the moving block and the sliding block are movably connected with the inside of the cavity, the left side of the sliding block is fixedly connected with a reset spring, the left side of the reset spring is fixedly connected with the left side of the inner wall of the cavity, the top of the sliding block is movably connected with the opposite ends of the two movable rods, the two clamping blocks can be moved out from the inside of the convex block through the moving assembly, and the sliding block and the moving block can automatically rebound to the original position after moving through the reset spring.

As the preferred one of the utility model, the front side and the back side inside the moving block are both connected with limiting blocks in a sliding way, the opposite ends of the two limiting blocks are trapezoidal, the bottoms of the two limiting blocks are fixedly connected with the bottom of the inner wall of the cavity, and the two limiting blocks are used for limiting the moving block and the sliding block in the cavity only in the left or right direction by arranging the two limiting blocks.

As the preferred mode of the utility model, the two clamping blocks are internally and slidably connected with the control rods, one sides of the two control rods, which are close to the inner wall of the cavity, are fixedly connected with the cavity, and the two control rods have a limiting and supporting function by being arranged, so that the two clamping blocks can only move forwards or backwards in the cavity.

As the preferred mode of the utility model, the left sides of the opposite ends of the two clamping blocks penetrate through the convex blocks through the cavities and extend to the interiors of the convex blocks, and the two clamping blocks penetrate through the interiors of the convex blocks to fix the sealing plate and the liquid material refrigerating box.

As the utility model is preferable, the surfaces of the two clamping blocks are tightly contacted with the inside of the convex block and the inside of the matching block, and the two clamping blocks are tightly contacted with the inside of the convex block and the inside of the matching block, so that the fixing effect of the sealing plate and the liquid material refrigerating box is firmer.

Compared with the prior art, the utility model has the following beneficial effects:

1. According to the utility model, through arranging the structural components such as the refrigerator set shell, the liquid material refrigerator, the material refrigerator and the evaporator, the two clamping blocks can move to the inside of the convex block through the use of the clamping assembly in the cavity, the fixation of the sealing plate and the liquid material refrigerator is realized, and the two clamping blocks can be moved out of the inside of the convex block through the cooperation of the moving assembly and the clamping assembly, so that the separation of the sealing plate and the liquid material refrigerator is realized, and the liquid material refrigerator has the advantage of being capable of quickly disassembling and assembling the liquid material refrigerator and the sealing plate.

2. According to the utility model, by arranging the structural components such as the shell of the refrigerating unit, the liquid material refrigerating box, the material refrigerating box and the evaporator, when the sealing plate is required to be dismantled for maintenance, the moving block is pulled to move leftwards by manpower and is enabled to move leftwards, the two movable rods are enabled to move in the moving process by the sliding block, and are enabled to rotate in opposite directions in the moving process, so that the two clamping blocks move in opposite directions and are enabled to move out of the inside of the protruding block, the sealing plate is enabled to move upwards, separation of the sealing plate and the liquid material refrigerating box is achieved, the restoring spring is enabled to generate a deformation force in the moving process by the sliding block, the restoring spring is enabled to apply the same force to the sliding block after the moving block is released, the sliding block drives the moving block and enables the two movable rods to rebound to the original position, the two clamping springs generate a deformation force in the moving process, and the two clamping blocks are enabled to give the same force when the moving block is released, and the two clamping blocks rebound to the inside of the protruding block is enabled to achieve fixation with the liquid material refrigerating box.

Drawings

FIG. 1 is a schematic diagram of a structure provided by an embodiment of the present utility model;

FIG. 2 is a perspective view of a seal plate separated from a liquid chiller according to an embodiment of the present utility model;

FIG. 3 is a top cross-sectional view of a mating block provided by an embodiment of the present utility model;

FIG. 4 is a detailed perspective view of a partial structure provided by an embodiment of the present utility model

Fig. 5 is a perspective view of a refrigerator set housing, a liquid material refrigerator and a material refrigerator in a cabinet according to an embodiment of the present utility model.

In the figure: 1. a refrigeration unit housing; 2. a liquid material refrigerator; 3. a material refrigerator; 4. an evaporator; 5. a pipe; 6. a sealing plate; 7. a bump; 8. a mating block; 9. a cavity; 10. a clamping assembly; 1001. a clamping block; 1002. extruding a spring; 1003. a movable rod; 11. a moving assembly; 1101. a moving block; 1102. a slide block; 1103. a return spring; 12. a limiting block; 13. a control lever.

Detailed Description

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

The structure of the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 5, the matching structure of a liquid material refrigerating device provided by the embodiment of the utility model includes a refrigerating unit shell 1, a liquid material refrigerating box 2, a material refrigerating box 3, an evaporator 4, a pipeline 5, a sealing plate 6, a bump 7, a matching block 8, a cavity 9, a clamping assembly 10, a clamping block 1001, a pressing spring 1002, a movable rod 1003, a moving assembly 11, a moving block 1101, a sliding block 1102, a reset spring 1103, a limiting block 12 and a control rod 13, wherein the refrigerating unit shell 1, the liquid material refrigerating box 2, the material refrigerating box 3, the evaporator 4, two pipelines 5 and the sealing plate 6 are all installed in the interior of a cabinet body, the right side of the refrigerating unit shell 1 is fixedly connected with the left side of the liquid material refrigerating box 2, the material refrigerating box 3 is installed at the bottom of the liquid material refrigerating box 2, the evaporator 4 is fixed in the interior of the liquid material refrigerating box 2, two sides of the two pipelines 5 are fixedly communicated with the liquid material refrigerating box 2 and the material refrigerating box 3, and the surface of the sealing plate 6 is in plug-in connection with the top of the interior of the liquid material refrigerating box 2, and the matching structure is characterized in that: the equal fixedly connected with lug 7 in the left and right sides at liquid material fridge 2 top, the equal fixedly connected with cooperation piece 8 in the left and right sides at shrouding 6 top, one side that two cooperation pieces 8 are close to two lugs 7 all with two lugs 7 in close contact, cavity 9 has been seted up to the inside of left side cooperation piece 8, and the inside of cavity 9 is provided with chucking subassembly 10 and removal subassembly 11 respectively.

Referring to fig. 4, the clamping assembly 10 includes two clamping blocks 1001, the surfaces of the two clamping blocks 1001 are movably connected with the inside of the cavity 9, the opposite sides of the two clamping blocks 1001 are fixedly connected with extrusion springs 1002, one sides of the two extrusion springs 1002 close to the inner wall of the cavity 9 are fixedly connected with the cavity 9, and the tops of the two clamping blocks 1001 are rotatably connected with movable rods 1003.

The scheme is adopted: by providing the clamping assembly 10, the two clamping blocks 1001 can be moved to the inside of the protruding block 7 through the cavity 9, and the use of the two pressing springs 1002 can enable the two clamping blocks 1001 and the two movable rods 1003 to automatically rebound to the original position after moving.

Referring to fig. 4, the moving assembly 11 includes a moving block 1101 and a slider 1102, wherein the left side of the moving block 1101 is fixedly connected with the right side of the slider 1102, the surfaces of the moving block 1101 and the slider 1102 are movably connected with the inside of the cavity 9, the left side of the slider 1102 is fixedly connected with a return spring 1103, the left side of the return spring 1103 is fixedly connected with the left side of the inner wall of the cavity 9, and the top of the slider 1102 is movably connected with the opposite ends of the two movable rods 1003.

The scheme is adopted: by providing the moving assembly 11, the two clamping blocks 1001 can be moved out of the inside of the bump 7, and the use of the return spring 1103 can automatically rebound the slider 1102 and the moving block 1101 to the original position after the movement.

Referring to fig. 4 and 5, the front side and the rear side inside the moving block 1101 are both slidably connected with the stoppers 12, the opposite ends of the two stoppers 12 are trapezoidal, and the bottoms of the two stoppers 12 are fixedly connected with the bottom of the inner wall of the cavity 9.

The scheme is adopted: by providing two stoppers 12, the use of the two stoppers 12 plays a role of a stopper for moving the moving block 1101 and the slider 1102 only in the left or right direction inside the cavity 9.

Referring to fig. 4 and 5, the two clamping blocks 1001 are slidably connected with control rods 13, and one sides of the two control rods 13, which are close to the inner wall of the cavity 9, are fixedly connected with the cavity 9.

The scheme is adopted: by providing two control rods 13, the use of the two control rods 13 serves as a limit support, so that the two clamping blocks 1001 can only move in the forward or backward direction inside the cavity 9.

Referring to fig. 1, the left side of the opposite ends of the two clamping blocks 1001 each extend through the bump 7 and into the inside of the bump 7 through the cavity 9.

The scheme is adopted: through setting up two chucking pieces 1001, two chucking pieces 1001 realize the fixed of shrouding 6 and liquid material fridge 2 through running through to the inside of lug 7.

Referring to fig. 1, the surfaces of both the clamping blocks 1001 are in close contact with the inside of the bump 7 and the inside of the fitting block 8.

The scheme is adopted: through setting up two chucking pieces 1001, the surface of two chucking pieces 1001 all with the inside of lug 7 and the inside in close contact of cooperation piece 8 to it is more firm to realize the fixed effect of shrouding 6 and liquid material fridge 2.

The working principle of the utility model is as follows:

When the movable block 1101 is pulled by manpower to move leftwards and the sliding block 1102 moves leftwards when the sealing plate 6 is required to be dismounted for overhauling and maintaining the inside of the liquid material refrigerator 2, the sliding block 1102 can move the two movable rods 1003 in the moving process, the two movable rods 1003 can rotate in opposite directions in the moving process, so that the two clamping blocks 1001 move in opposite directions and move out of the inside of the protruding block 7, the sealing plate 6 is moved upwards again, the separation of the sealing plate 6 and the liquid material refrigerator 2 is realized, the restoring spring 1103 can generate a deformation force in the moving process, the restoring spring 1103 can give the same force to the sliding block 1102 after the moving block 1101 is released, the sliding block 1102 drives the moving block 1101 and enables the two movable rods 1003 to rebound to the original position, the two clamping blocks 1001 can generate a deformation force in the moving process, the two clamping blocks 1001 can give the same force to rebound to the inside of the protruding block 7 when the moving block 1101 is released, and the two clamping blocks 1001 rebound to the inside of the protruding block 7, so that the liquid material refrigerator 2 is fixed with the sealing plate 6.

To sum up: this liquid material refrigerating plant's cooperation structure through setting up refrigerating unit shell 1, liquid material fridge 2, material fridge 3, evaporimeter 4, pipeline 5, shrouding 6, lug 7, cooperation piece 8, cavity 9, chucking subassembly 10, chucking piece 1001, extrusion spring 1002, movable rod 1003, remove the subassembly 11, remove the piece 1101, slider 1102, reset spring 1103, stopper 12 and control lever 13's cooperation is used, has solved the inside maintenance clearance of liquid material fridge that needs regular liquid material refrigerating plant now, and the shrouding of liquid material fridge is through specialized tool dismouting, can not carry out the problem of manual dismouting to the shrouding.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a liquid material refrigerating plant's cooperation structure, includes the cabinet body, refrigerating unit shell (1), liquid material fridge (2), material fridge (3), evaporimeter (4), two pipeline (5) and shrouding (6) all install in the inside of the cabinet body, the right side of refrigerating unit shell (1) and the left side fixed connection of liquid material fridge (2), the bottom in liquid material fridge (2) is installed in material fridge (3), evaporimeter (4) are fixed in the inside of liquid material fridge (2), the both sides of two pipeline (5) all are connected its characterized in that with inside top grafting of liquid material fridge (2) respectively with liquid material fridge (2) fixed intercommunication, the surface of shrouding (6). The liquid material fridge (2) the equal fixedly connected with lug (7) in left and right sides at top, the equal fixedly connected with cooperation piece (8) in left and right sides at shrouding (6) top, one side that two cooperation pieces (8) are close to two lugs (7) all with two lugs (7) in close contact with, the left side cavity (9) have been seted up to the inside of cooperation piece (8), the inside of cavity (9) is provided with chucking subassembly (10) and remove subassembly (11) respectively.

2. The fitting structure of a liquid material refrigerating apparatus as claimed in claim 1, wherein: the clamping assembly (10) comprises two clamping blocks (1001), the surfaces of the two clamping blocks (1001) are movably connected with the inside of the cavity (9), the opposite sides of the two clamping blocks (1001) are fixedly connected with extrusion springs (1002), one sides, close to the inner wall of the cavity (9), of the two extrusion springs (1002) are fixedly connected with the cavity (9), and the tops of the two clamping blocks (1001) are rotatably connected with movable rods (1003).

3. The fitting structure of a liquid material refrigerating apparatus as claimed in claim 2, wherein: the movable assembly (11) comprises a movable block (1101) and a sliding block (1102), wherein the left side of the movable block (1101) is fixedly connected with the right side of the sliding block (1102), the surfaces of the movable block (1101) and the sliding block (1102) are movably connected with the inside of the cavity (9), a reset spring (1103) is fixedly connected with the left side of the sliding block (1102), the left side of the reset spring (1103) is fixedly connected with the left side of the inner wall of the cavity (9), and the top of the sliding block (1102) is movably connected with the opposite ends of the two movable rods (1003).

4. A liquid material refrigerating apparatus as recited in claim 3 wherein: limiting blocks (12) are slidably connected to the front side and the rear side of the inside of the moving block (1101), the opposite ends of the two limiting blocks (12) are trapezoidal, and the bottoms of the two limiting blocks (12) are fixedly connected with the bottom of the inner wall of the cavity (9).

5. The fitting structure of a liquid material refrigerating apparatus as claimed in claim 2, wherein: the inside of two chucking pieces (1001) all sliding connection has control rod (13), and one side that two control rods (13) are close to cavity (9) inner wall all is with cavity (9) fixed connection.

6. The fitting structure of a liquid material refrigerating apparatus as claimed in claim 2, wherein: the left sides of the opposite ends of the two clamping blocks (1001) penetrate through the protruding blocks (7) through the cavities (9) and extend into the protruding blocks (7).

7. The fitting structure of a liquid material refrigerating apparatus as claimed in claim 2, wherein: the surfaces of the two clamping blocks (1001) are closely contacted with the inner parts of the protruding blocks (7) and the inner parts of the matching blocks (8).