CN218748936U - Refrigerator box foaming device - Google Patents

Abstract

The utility model discloses a refrigerator body foaming device, which belongs to the technical field of refrigerator production and comprises a foaming room, a ground rail, a plurality of mould cars, a feeding mechanism, a discharging mechanism and an industrial personal computer; the plurality of mould vehicles are arranged on the ground rail at equal intervals and are driven by the ground rail to circularly move; the die vehicle comprises a vehicle body, an outer die structure, an inner die structure and a lower computer; the outer mold structure is provided with two outer mold shells which can be opened and closed left and right, and the inner mold structure is provided with an inner mold shell which can move up and down; the blanking mechanism comprises a blanking conveying belt and a blanking pushing frame used for pushing the refrigerator body on the die car to the blanking conveying belt, and the feeding mechanism comprises a feeding conveying belt and a feeding pushing frame used for pushing the refrigerator body on the feeding conveying belt to the die car; the utility model provides a current refrigerator box foaming device not possess automatic feeding function and the problem that the mould car is with high costs.

Description

Refrigerator box foaming device

Technical Field

The utility model relates to a refrigerator production technical field, in particular to refrigerator box foaming device.

Background

In the production process of the refrigerator, a polyurethane foam heat-insulating layer is required to be obtained through a foaming reaction so as to improve the heat-insulating effect of the refrigerator. The foaming room is provided with a foaming inlet and a foaming outlet, and a refrigerator body of the refrigerator is fixed on the mold vehicle and is injected with foaming materials during working. The mould car is driven by the ground rail and the power mechanism, slowly enters the foaming chamber through the foaming inlet, and after a certain foaming time, comes out from the foaming outlet, so that the foaming process can be completed. However, in the process, an operator needs to manually fix the refrigerator body on the mold vehicle before foaming, and needs to manually detach the refrigerator body from the mold vehicle after foaming, so that the operation is troublesome, and a large amount of work is brought to the operator. The prior art CN 114179282A discloses an improved refrigerator foaming device, which is provided with a mechanical arm, and can automatically discharge materials, but has no automatic feeding function, and the mechanical arm has high operation precision requirement and relatively high cost. In addition, the die trolley of the device needs to adopt a plurality of electric control telescopic rods to match with the outer die and the inner die to realize the clamping and fixing effects, and has relatively complex structure and high cost. Therefore, further improvement thereof is necessary.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide a foaming device for refrigerator body, which is used to solve the problems that the existing foaming device for refrigerator body does not have the automatic feeding function and the cost of the mold vehicle is high.

In order to achieve the above purpose, the utility model adopts the technical proposal that:

a refrigerator body foaming device comprises a foaming room, a ground rail, a plurality of mould cars, a feeding mechanism, a discharging mechanism and an industrial personal computer;

a foaming inlet and a foaming outlet are formed in one side of the foaming room, the ground rail is a closed annular rail, is arranged in the foaming room and extends out of the foaming room through the foaming inlet and the foaming outlet;

the mould cars are arranged on the ground rail at equal intervals and driven by the ground rail to circularly move, and the ground rail is connected with a ground rail driving device; the die car comprises a car body, an outer die structure, an inner die structure and a lower computer; the top surface of the vehicle body is provided with a supporting plate, the outer mold structure comprises two outer mold shells and an outer mold driving device for driving the two outer mold shells to move left and right, the outer mold shells are connected with the supporting plate in a sliding manner, and the outer mold driving device is installed on the supporting plate; the inner mold structure comprises an inner mold shell and an electric control lifting rod; the middle part of the supporting plate is provided with a through hole, the inner mold shell is connected with the through hole in a sliding manner, the electric control lifting rod is vertically arranged in the vehicle body, and the top of the electric control lifting rod is connected with the inner mold shell; when the inner mold shell descends to the lowest point, the top surface of the inner mold shell is flush with the top surface of the support plate or is lower than the support plate; a clamping space for clamping the refrigerator body is formed between the inner mold shell and the two outer mold shells; the electric control lifting rod and the outer mold driving device are electrically connected with the lower machine;

the blanking mechanism is positioned on one side of the foaming outlet and comprises a blanking conveying belt and a blanking pushing frame used for pushing the refrigerator body on the die car to the blanking conveying belt; the ground rail is provided with a blanking area, and the blanking conveying belt and the blanking pushing frame are respectively arranged on two opposite sides of the blanking area; the feeding mechanism comprises a feeding conveyor belt and a feeding pushing frame used for pushing the refrigerator body on the feeding conveyor belt to the mold vehicle; the ground rail is provided with a feeding area, and the feeding area is positioned on one side of the blanking area;

a first laser transmitter is arranged on one side of the blanking area, a second laser transmitter is arranged on one side of the loading area, a laser receiver used for receiving a first laser transmitter signal and a second laser transmitter signal is arranged on the body of the die trolley, and the laser receiver is electrically connected with a lower part of the die trolley; the ground rail driving device, the blanking conveying belt, the blanking pushing frame, the feeding conveying belt and the feeding pushing frame are all electrically connected with the industrial personal computer; and the lower computers of all the mould cars are in wireless connection with the industrial personal computer.

Preferably, the supporting plate is provided with two sliding grooves which are arranged at intervals, the bottom of the outer die shell is in sliding connection with the sliding grooves through sliding blocks, the sliding blocks are limited and installed in the sliding grooves, and the through holes are located between the two sliding grooves.

Preferably, the external mold driving device comprises a screw rod, a transmission structure and an external mold driving motor; the screw rod is arranged above the supporting plate, two ends of the screw rod are connected with the supporting plate through bearings, the screw rod is provided with two groups of threads in opposite directions, the two groups of threads are in threaded connection with driving sleeves, and the two driving sleeves are respectively connected with the two outer mold shells; one end of the screw rod is connected with an output shaft of an outer mold driving motor through the transmission structure, the outer mold driving motor is fixedly installed on one side of the supporting plate, and the outer mold driving motor is electrically connected with a lower machine.

Preferably, the transmission structure is a bevel gear set.

Preferably, the middle of the sliding groove of the support plate close to the screw rod is provided with a positioning block for positioning the refrigerator body, the thickness of the positioning block is equal to that of the outer mold shell, and the outer mold shell is provided with a matching groove matched with the positioning block.

Preferably, the conveying direction of the feeding conveyor belt is perpendicular to the conveying direction of the discharging conveyor belt.

Preferably, the unloading push frame includes unloading support body and the unloading propelling movement pole of horizontal installation on the unloading support body, unloading propelling movement pole and unloading conveyer belt are located same straight line, unloading propelling movement pole and industrial computer electric connection.

Preferably, the material loading push frame includes material loading support body and the material loading push rod of horizontal installation on the material loading support body, material loading push rod sets up with the direction of delivery of material loading conveyer belt is perpendicular, the end of material loading conveyer belt is provided with the baffle, material loading push rod and industrial computer electric connection.

Preferably, the feeding mechanism is closer to the foaming inlet than the discharging mechanism.

Due to the adoption of the technical scheme, the utility model discloses following beneficial effect has:

1. the utility model discloses have the automatic feeding function, can reduce operating personnel's work load and improve operating personnel's work efficiency. In an initial state, two outer mold shells of the mold vehicle are in an open state, and an inner mold shell is at the lowest point; in the feeding process, when the mould vehicle moves to a feeding area, a laser receiver on the mould vehicle receives a signal transmitted by a second laser transmitter and feeds the signal back to a lower computer, the lower computer is in wireless communication with the industrial personal computer and feeds in-place information of the mould vehicle back to the industrial personal computer, the industrial personal computer controls the ground rail driving device to stop running and controls the feeding pushing frame to move, and a refrigerator box body on the feeding conveyor belt is pushed to the mould vehicle; after the refrigerator body is in place, the feeding pushing frame resets, the lower computer controls the outer mold driving device to drive the two outer mold shells to close, and the lower computer also controls the electric control lifting rod to act to drive the inner mold shell to ascend to the highest point so as to clamp and fix the refrigerator body. Like this, through automatic feeding's mode, avoid the manpower consumption that manual feeding brought.

2. The utility model discloses have automatic unloading function, can further reduce operating personnel's work load and improve operating personnel's work efficiency. In the blanking process, when the die car comes out of the foaming room and moves to a blanking area, a laser receiver on the die car receives a signal transmitted by a first laser transmitter and feeds the signal back to a lower computer, the lower computer controls the action of an electric control lifting rod to drive the inner die shell to descend to the lowest point, and the lower computer also controls an outer die driving device to drive the two outer die shells to slide left and right to expose the refrigerator body; meanwhile, the lower computer is in wireless communication with the industrial personal computer, the in-place information of the mold vehicle is fed back to the industrial personal computer, the industrial personal computer controls the ground rail driving device to stop running, the discharging pushing frame to move is controlled, the refrigerator box body on the mold vehicle is pushed to the discharging conveying belt, the discharging conveying belt acts, and the refrigerator box body after foaming is conveyed to the next process. After the feeding pushing frame finishes pushing operation, the industrial personal computer controls the ground rail driving device to continue to operate until the feeding operation of all the die cars is finished.

3. The utility model discloses still have simple structure and advantage with low costs, optimized the structure of mould car and manipulator, avoided using too much automatically controlled telescopic link and high accuracy manipulator, degree of automation is high, has better practicality.

Drawings

FIG. 1 is a top view of a foaming device for a refrigerator body according to an embodiment of the present invention;

fig. 2 is a front view of a mold cart provided in an embodiment of the present invention;

fig. 3 is a top view of a mold vehicle provided in an embodiment of the present invention;

fig. 4 is a schematic view of an internal structure of a mold cart according to an embodiment of the present invention;

fig. 5 is a schematic view of a mold cart for fixing a refrigerator body according to an embodiment of the present invention;

fig. 6 is a schematic view of a positioning block cooperating with two outer mold shells according to an embodiment of the present invention;

the main reference symbols in the drawings are as follows:

in the drawing, 1-a foaming room, 2-a foaming inlet, 3-a foaming outlet, 4-a ground rail, 5-a mould vehicle, 6-a vehicle body, 7-a supporting plate, 8-an outer mould shell, 9-a chute, 10-a slide block, 11-a screw rod, 12-a transmission structure, 13-an outer mould driving motor, 14-a driving sleeve, 15-a positioning block, 16-a perforation, 17-an inner mould shell, 18-an electric control lifting rod, 19-a lower machine, 20-a blanking conveying belt, 21-a blanking pushing frame, 22-a feeding conveying belt, 23-a feeding pushing frame, 24-a baffle and 25-a refrigerator box body.

The following detailed description of the invention will be further described in conjunction with the above-identified drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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. The accompanying drawings are only for illustrative purposes and are only schematic drawings rather than actual drawings, which are not intended to limit the present disclosure, and in order to better illustrate the embodiments of the present disclosure, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

In the description of the present invention, it should be further noted that, unless otherwise explicitly stated or limited, the terms "disposed" and "connected" should be interpreted broadly, and may be, for example, a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Examples

Referring to fig. 1-6, a refrigerator body foaming device includes a foaming chamber 1, a ground rail 4, a plurality of mold cars 5, a feeding mechanism, a discharging mechanism and an industrial personal computer. Wherein, one side of foaming room 1 is provided with foaming entry 2 and foaming export 3, and ground rail 4 is closed circular orbit, locates in foaming room 1 to extend to the foaming room 1 outside through foaming entry 2 and foaming export 3. Foaming room 1 and ground rail 4 are current structure, and foaming room 1 is used for providing suitable foaming temperature, and ground rail 4 is used for driving mould car 5.

The mould cars 5 are arranged on the ground rail 4 at equal intervals and are driven by the ground rail 4 to circularly move, and the ground rail 4 is connected with a ground rail 4 driving device. The ground rail 4 driving device is the prior art, and the specific mechanism thereof is not described in detail. The mold vehicle 5 includes a vehicle body 6, an outer mold structure, an inner mold structure, and a lower machine 19. In this embodiment, the lower computer 19 is a single chip microcomputer.

The top surface of the vehicle body 6 is provided with a supporting plate 7, the outer mold structure comprises two outer mold shells 8 and an outer mold driving device for driving the two outer mold shells 8 to move left and right, the outer mold shells 8 are connected with the supporting plate 7 in a sliding mode, and the outer mold driving device is installed on the supporting plate 7. The outline of the outer mold shell 8 is in a cuboid structure.

Specifically, two sliding grooves 9 arranged at intervals are formed in the supporting plate 7, the bottom of the outer die shell 8 is connected with the sliding grooves 9 in a sliding mode through sliding blocks 10, and the sliding blocks 10 are installed in the sliding grooves 9 in a limiting mode. The outer mold driving device comprises a screw rod 11, a transmission structure 12 and an outer mold driving motor 13. The lead screw 11 is installed above the supporting plate 7, two ends of the lead screw are connected with the supporting plate 7 through bearings, the lead screw 11 is provided with two sets of threads in opposite directions, the two sets of threads are in threaded connection with the driving sleeves 14, and the two driving sleeves 14 are connected with the two outer mold shells 8 respectively. One end of the screw rod 11 is connected with an output shaft of an outer mold driving motor 13 through a transmission structure 12, the outer mold driving motor 13 is fixedly installed on one side of the supporting plate 7, and the outer mold driving motor 13 is electrically connected with a lower computer 19. In this embodiment, the transmission structure 12 is a bevel gear set. The external mold driving motor 13 rotates to drive the screw rod 11 to rotate, the screw rod 11 drives the two driving sleeves 14 to be away from or close to each other through two groups of threads in opposite directions, and then the two external mold shells 8 are driven to be away from or close to each other, so that the opening and closing functions of the external mold shells 8 are realized.

In addition, a positioning block 15 for positioning the refrigerator body is arranged in the middle of the sliding groove 9 of the support plate 7 close to the screw rod 11, the thickness of the positioning block 15 is equal to that of the outer mold shell 8, and the outer mold shell 8 is provided with a matching groove matched with the positioning block 15. When the two outer mold shells 8 are folded, the two outer mold shells are perfectly matched with the positioning blocks 15.

The inner mould structure comprises an inner mould housing 17 and an electrically controlled lifting rod 18. The middle part of the supporting plate 7 is provided with a through hole 16, and the through hole 16 is positioned between the two sliding grooves 9. An inner mold shell 17 is connected with the through hole 16 in a sliding mode, an electric control lifting rod 18 is vertically arranged in the vehicle body 6, and the top of the electric control lifting rod is connected with the inner mold shell 17. When the inner mold shell 17 descends to the lowest point, the top surface of the inner mold shell is flush with the top surface of the support plate 7 or is lower than the support plate 7. In this embodiment, when the inner mold shell 17 descends to the lowest point, the top surface thereof is flush with the top surface of the support plate 7. A clamping space for clamping the refrigerator body 25 is formed between the inner mold shell 17 and the two outer mold shells 8. The electric control lifting rod 18 and the outer mold driving device are electrically connected with the lower machine 19. Specifically, the outer mold driving motor 13 of the outer mold driving device is electrically connected to the lower machine 19. As shown in fig. 5, the outer and inner mold structures of the mold cart 5 are engaged to fix the refrigerator cabinet 25.

The blanking mechanism is located on one side of the foaming outlet 3 and comprises a blanking conveyor belt 20 and a blanking pushing frame 21 used for pushing the refrigerator body on the mold vehicle 5 to the blanking conveyor belt 20. The ground rail 4 is provided with a blanking area, and the blanking conveyor belt 20 and the blanking push frame 21 are respectively arranged on two opposite sides of the blanking area. The feeding mechanism comprises a feeding conveyor belt 22 and a feeding pushing frame 23 used for pushing the refrigerator box bodies on the feeding conveyor belt 22 to the mold vehicle 5. The ground rail 4 is provided with the material loading district, and the material loading district is located one side in unloading district.

In this embodiment, the feeding mechanism is closer to the foaming inlet 2 than the discharging mechanism. The blanking pushing frame 21 comprises a blanking frame body and a blanking pushing rod horizontally arranged on the blanking frame body, and the blanking pushing rod and the blanking conveying belt 20 are located on the same straight line. The feeding push frame 23 comprises a feeding frame body and a feeding push rod horizontally mounted on the feeding frame body, the feeding push rod is perpendicular to the conveying direction of the feeding conveying belt 22, and a baffle 24 is arranged at the tail end of the feeding conveying belt 22. The feeding conveyor belt 22 is arranged in a conveying direction perpendicular to the conveying direction of the discharging conveyor belt 20. The arrangement is favorable for the installation and the work of the feeding mechanism and the blanking mechanism, and the blanking conveyor belt 20 and the blanking push rod are positioned on the same straight line due to the blocking of the foaming room 1, so that the blanking conveying is convenient. The feeding conveyor belt 22 is perpendicular to the discharging conveyor belt 20, so that the installation of the feeding push rod is facilitated, and the refrigerator box is pushed to the mold trolley 5 conveniently. The baffle 24 is used to block and position the refrigerator cabinet on the loading conveyor 22.

One side in unloading district is provided with first laser emitter, and one side in material loading district is provided with second laser emitter, and the automobile body 6 of mould car 5 is provided with the laser receiver who is used for receiving first laser emitter signal and second laser emitter signal, laser receiver and the next computer 19 electric connection of mould car 5. Ground rail 4 drive arrangement, unloading conveyer belt 20, unloading propelling movement frame 21, material loading conveyer belt 22, material loading propelling movement frame 23 all with industrial computer electric connection. And the lower computers 19 of all the mould cars 5 are in wireless connection with the industrial personal computer. Specifically, the unloading propelling movement pole and the industrial computer electric connection of unloading propelling movement frame 21, the material loading propelling movement pole and the industrial computer electric connection of material loading propelling movement frame 23.

The utility model discloses have the automatic feeding function, can reduce operating personnel's work load and improve operating personnel's work efficiency. In the initial state, the two outer mold shells 8 of the mold car 5 are in an open state, and the inner mold shell 17 is at the lowest point; in the feeding process, when the mold vehicle 5 moves to a feeding area, a laser receiver on the mold vehicle 5 receives a signal transmitted by a second laser transmitter and feeds the signal back to the lower computer 19, the lower computer 19 is in wireless communication with the industrial personal computer, the in-place information of the mold vehicle 5 is fed back to the industrial personal computer, the industrial personal computer controls the ground rail 4 driving device to stop running and controls the feeding pushing frame 23 to move, and a refrigerator box body on the feeding conveying belt 22 is pushed to the mold vehicle 5; after the refrigerator body is in place (namely, the refrigerator body is in contact with the positioning block 15), the feeding pushing frame 23 resets, the lower computer 19 controls the outer mold driving device to drive the two outer mold shells 8 to close each other, and the lower computer 19 also controls the electric control lifting rod 18 to act to drive the inner mold shell 17 to ascend to the highest point so as to clamp and fix the refrigerator body. Like this, through automatic feeding's mode, avoid the manpower consumption that manual feeding brought. The arrangement of the positioning block 15 is beneficial to positioning the refrigerator body at the correct position when the refrigerator body is pushed to the mold vehicle 5, and the position deviation is avoided.

The utility model discloses have automatic unloading function, can further reduce operating personnel's work load and improve operating personnel's work efficiency. In the blanking process, when the die trolley 5 comes out of the foaming room 1 and moves to a blanking area, a laser receiver on the die trolley 5 receives a signal transmitted by a first laser transmitter and feeds the signal back to a lower computer 19, the lower computer 19 controls an electric control lifting rod 18 to act to drive an inner die shell 17 to descend to the lowest point, and the lower computer 19 also controls an outer die driving device to drive two outer die shells 8 to slide left and right to expose a refrigerator body; meanwhile, the lower computer 19 is in wireless communication with the industrial personal computer, the in-place information of the mold vehicle 5 is fed back to the industrial personal computer, the industrial personal computer controls the driving device of the ground rail 4 to stop running and controls the blanking pushing frame 21 to move, the refrigerator box body on the mold vehicle 5 is pushed to the blanking conveyor belt 20, the blanking conveyor belt 20 acts, and the foamed refrigerator box body is conveyed to the next process. After the feeding pushing frame 21 finishes the pushing operation, the industrial personal computer controls the driving device of the ground rail 4 to continue to operate until the feeding operation of all the die trucks 5 is finished.

The utility model discloses still have simple structure and advantage with low costs, optimized the structure of mould car 5 and manipulator, avoided using too much automatically controlled telescopic link and high accuracy manipulator, degree of automation is high, has better practicality.

The above description is for the detailed description of the preferred possible embodiments of the present invention, but the embodiments are not intended to limit the scope of the present invention, and all equivalent variations or modifications made under the technical spirit of the present invention should fall within the scope of the present invention.

Claims (9)

1. The utility model provides a refrigerator box foaming device which characterized in that: the device comprises a foaming room, a ground rail, a plurality of mould cars, a feeding mechanism, a discharging mechanism and an industrial personal computer;

a foaming inlet and a foaming outlet are formed in one side of the foaming room, the ground rail is a closed annular rail, is arranged in the foaming room and extends out of the foaming room through the foaming inlet and the foaming outlet;

the mould cars are arranged on the ground rail at equal intervals and circularly move under the driving of the ground rail, and the ground rail is connected with a ground rail driving device; the die car comprises a car body, an outer die structure, an inner die structure and a lower computer; the top surface of the vehicle body is provided with a supporting plate, the outer mold structure comprises two outer mold shells and an outer mold driving device for driving the two outer mold shells to move left and right, the outer mold shells are connected with the supporting plate in a sliding manner, and the outer mold driving device is arranged on the supporting plate; the internal mold structure comprises an internal mold shell and an electric control lifting rod; the middle part of the supporting plate is provided with a through hole, the inner mold shell is connected with the through hole in a sliding manner, the electric control lifting rod is vertically arranged in the vehicle body, and the top of the electric control lifting rod is connected with the inner mold shell; when the inner mold shell descends to the lowest point, the top surface of the inner mold shell is flush with the top surface of the support plate or is lower than the support plate; a clamping space for clamping the refrigerator body is formed between the inner mold shell and the two outer mold shells; the electric control lifting rod and the outer mold driving device are electrically connected with the lower machine;

the blanking mechanism is positioned on one side of the foaming outlet and comprises a blanking conveying belt and a blanking pushing frame used for pushing the refrigerator body on the die car to the blanking conveying belt; the ground rail is provided with a blanking area, and the blanking conveying belt and the blanking pushing frame are respectively arranged on two opposite sides of the blanking area; the feeding mechanism comprises a feeding conveyor belt and a feeding pushing frame used for pushing the refrigerator body on the feeding conveyor belt to the mold vehicle; the ground rail is provided with a feeding area, and the feeding area is positioned on one side of the blanking area;

a first laser transmitter is arranged on one side of the blanking area, a second laser transmitter is arranged on one side of the loading area, a laser receiver used for receiving a first laser transmitter signal and a second laser transmitter signal is arranged on the body of the die trolley, and the laser receiver is electrically connected with a lower part of the die trolley; the ground rail driving device, the blanking conveying belt, the blanking pushing frame, the feeding conveying belt and the feeding pushing frame are all electrically connected with the industrial personal computer; and the lower computers of all the mould cars are in wireless connection with the industrial personal computer.

2. The foaming device of the refrigerator body of claim 1, wherein: the supporting plate is provided with two sliding grooves which are arranged at intervals, the bottom of the outer die shell is connected with the sliding grooves in a sliding mode through sliding blocks, the sliding blocks are installed in the sliding grooves in a limiting mode, and the through holes are located between the two sliding grooves.

3. The foaming device of the refrigerator body of claim 2, wherein: the outer mold driving device comprises a screw rod, a transmission structure and an outer mold driving motor; the screw rod is arranged above the supporting plate, two ends of the screw rod are connected with the supporting plate through bearings, the screw rod is provided with two groups of threads in opposite directions, the two groups of threads are in threaded connection with driving sleeves, and the two driving sleeves are respectively connected with the two outer mold shells; one end of the screw rod is connected with an output shaft of an outer mold driving motor through the transmission structure, the outer mold driving motor is fixedly installed on one side of the supporting plate, and the outer mold driving motor is electrically connected with a lower machine.

4. The foaming device of the refrigerator body of claim 3, wherein: the transmission structure is a bevel gear set.

5. The foaming device of the refrigerator body of claim 4, wherein: the middle of the sliding groove, close to the screw rod, of the supporting plate is provided with a positioning block for positioning the refrigerator body, the thickness of the positioning block is equal to that of the outer mold shell, and the outer mold shell is provided with a matching groove matched with the positioning block.

6. The foaming device of the refrigerator body of claim 1, wherein: the conveying direction of the feeding conveying belt is perpendicular to the conveying direction of the discharging conveying belt.

7. The foaming device of claim 6, wherein: the unloading propelling movement frame includes unloading support body and the unloading propelling movement pole of horizontal installation on the unloading support body, the unloading propelling movement pole is located same straight line with the unloading conveyer belt, unloading propelling movement pole and industrial computer electric connection.

8. The foaming device of claim 7, wherein: the material loading push frame comprises a material loading frame body and a material loading push rod horizontally mounted on the material loading frame body, the material loading push rod is perpendicular to the conveying direction of the material loading conveying belt, a baffle is arranged at the tail end of the material loading conveying belt, and the material loading push rod is electrically connected with the industrial personal computer.

9. The foaming device of the refrigerator body of claim 1, wherein: the feed mechanism is closer to the foaming inlet than the discharge mechanism.

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