CN210209360U - Refrigerator body assembly system - Google Patents

Abstract

The utility model provides a refrigerator box assembly system, it includes: the bottom steel storage warehouse is used for storing bottom steel materials of the refrigerator body; the refrigerator comprises a plurality of refrigerator body assembly lines, a plurality of refrigerator body assembly lines and a plurality of refrigerator body assembly lines, wherein the refrigerator body assembly lines are used for providing assembly line of a bottom steel material and a refrigerator shell into a refrigerator body; the bottom steel transferring equipment is connected with the bottom steel storage warehouse and is used for transferring the bottom steel materials from the bottom steel storage warehouse to the lower part of the plurality of box body assembly lines; and each box assembly line is respectively provided with a first lifting device used for extracting bottom steel materials from the bottom steel transferring device. The scheme avoids material conveying on an assembly line by manpower, improves the production efficiency and saves the occupied space.

Description

Refrigerator body assembly system

Technical Field

The utility model relates to a production facility especially relates to refrigerator box assembly system.

Background

The production process of the refrigerator mainly comprises the processes of part processing, assembling, final assembly, complete machine performance testing, packaging, delivery and the like. Wherein the assembly of the components is an important link. Since the refrigerator body is the largest component in the refrigerator, the assembly of the refrigerator body is an important part in the component assembling process.

The existing main refrigerator body assembling process generally stacks various materials (such as bottom steel materials) in a factory material area, and when the refrigerator body assembling process needs to be used, the materials are conveyed to a production line through a material conveying vehicle. This kind of assembly method, on the one hand need consume a large amount of delivery manpowers, and on the other hand needs set up the material temporary storage area on the production line limit, has occupied the space of production line. And the shuttle vehicles are shuttled in the production line, which also causes mess in the production field.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a solve refrigerator box assembly system of any aspect in the above-mentioned technical problem at least.

The utility model discloses a further purpose reduces the manpower of material delivery.

The utility model discloses another further purpose is to save the production line space that the material occupy.

Particularly, the utility model provides a refrigerator box assembly system, it includes:

the bottom steel storage warehouse is used for storing bottom steel materials of the refrigerator body;

the refrigerator comprises a plurality of refrigerator body assembly lines, a plurality of refrigerator body assembly lines and a plurality of refrigerator body assembly lines, wherein the refrigerator body assembly lines are used for providing assembly line of a bottom steel material and a refrigerator shell into a refrigerator body; and

the bottom steel transfer equipment is connected with the bottom steel storage warehouse and is used for transferring the bottom steel materials from the bottom steel storage warehouse to the lower part of the plurality of box body assembly lines; and is

Each box assembly line is respectively provided with a first lifting device used for extracting bottom steel materials from the bottom steel transferring device.

Optionally, the bottom steel transfer device comprises: the first conveyor belt extends from the bottom steel storage bank to output the bottom steel materials from the bottom steel storage bank to the outside; the second lifting device is positioned at the tail end of the first conveyor belt and used for conveying the bottom steel materials on the first conveyor belt downwards; and a second conveyor belt extending from a lower portion of the second lifting device to a lower portion of the first lifting device of the multiple carton assembly line.

Optionally, a plurality of box assembly lines are arranged in parallel at intervals; the extension direction of the second conveyor belt is perpendicular to the assembly line of the plurality of boxes.

Optionally, the bottom carrier of the first lifting device of each box assembly line is arranged close to the second conveyor belt.

Optionally, each box assembly line further comprises: and the bottom steel buffer placement area is arranged close to the top loading object of the first lifting equipment and is used for temporarily placing the bottom steel materials lifted by the first lifting equipment.

Optionally, the conveying speed of the first conveyor belt is adapted to the conveying speed of the second conveyor belt.

Optionally, the lifting speed of the first lifting device is adapted to the lifting speed of the second lifting device.

Optionally, each cabinet assembly line has a cabinet transfer device thereon, and a code scanner is mounted at a start position of the cabinet assembly line for scanning an identification of the cabinet transferred on the cabinet transfer device.

Optionally, the bottom steel storage bank further comprises: and the bottom steel ex-warehouse equipment is used for extracting bottom steel materials matched with the box shell conveyed on the box shell conveying equipment.

The utility model discloses a refrigerator box assembly system arranges end steel transfer apparatus in the lower part of box assembly line. When carrying out refrigerator box assembly, can transport the box assembly line through end steel transfer apparatus and lifting means with end steel material on, avoided carrying out the material on the assembly line and carry.

Further, the utility model discloses a refrigerator box assembly system utilizes lifting means to carry out the automatic of end steel material and carries, has reduced the delivery manpower.

Further, the utility model discloses a refrigerator box assembly system through the matching to end steel repository, end steel transfer device, lifting means and box assembly line conveying process for end steel material matches with the case shell is automatic, has improved production efficiency.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the present invention will be described in detail hereinafter, by way of illustration and not by way of limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

FIG. 1 is a schematic block diagram of a refrigerator cabinet assembly system according to one embodiment of the present invention;

FIG. 2 is a schematic view of one orientation of a refrigerator cabinet assembly system according to one embodiment of the present invention; and

fig. 3 is a schematic view of another orientation of a refrigerator cabinet assembly system according to an embodiment of the present invention.

Detailed Description

The utility model provides a refrigerator box assembly system 10. Fig. 1 is a schematic block diagram of a refrigerator cabinet assembly system 10 according to one embodiment of the present invention. The refrigerator cabinet assembly system 10 may generally include: a bottom steel storage warehouse 110, a bottom steel transferring device 130 and a plurality of box assembly lines 140.

The bottom steel storage 110 is used for storing bottom steel materials of refrigerator boxes. The bottom steel storage warehouse 110 can store the bottom steel materials according to the specification and model thereof.

Many box assembly lines 140, can set up at intervals, as the assembly line who provides the end steel material and the assembly of case shell into refrigerator box, also is that box assembly line 140 is the production line of assembly case shell and end steel.

The base steel storage 110 may be located at a different manufacturing plant than the plurality of case assembly lines 140, for example, the base steel storage 110 may be located at a component assembly plant while the plurality of case assembly lines 140 may be located at an assembly plant.

The bottom steel transfer device 130 is connected with the bottom steel storage warehouse 110 and is used for transferring the bottom steel materials from the bottom steel storage warehouse 110 to the lower part of the box assembly lines 140; the portion of the bottom steel transfer apparatus 130 below the multiple box assembly line 140 may be located below ground level.

Each of the tank assembly lines 140 has a first lifting device 142 for extracting the bottom steel material from the bottom steel transfer device 130.

FIG. 2 is a schematic view of one orientation of a refrigerator cabinet assembly system 10 according to one embodiment of the present invention; fig. 3 is a schematic view of another orientation of the refrigerator cabinet assembly system 10 according to an embodiment of the present invention. Wherein fig. 2 shows a longitudinal structure of the refrigerator cabinet assembling system 10, and fig. 3 is a top view.

The bottom steel transfer device 130 may include: a first conveyor 131, a second lifting device 132, a second conveyor 133.

And a first conveyor belt 131 extending from the bottom steel storage 110 to output the bottom steel material from the bottom steel storage 110 to the outside. A second lifting device 132 is located at the end of the first conveyor belt 131 to transfer the bottom steel material on the first conveyor belt 131 down to the second conveyor belt 133. The second conveyor belt 133 extends from the lower portion of the second lifting device 132 to the lower portion of the first lifting device 142 of the plurality of box assembly lines 140. For example, the second conveyor belt 133 may be disposed below the floor of the plurality of cassette assembly lines 140.

The bottom steel transfer device 130 may dispense bottom steel material to a plurality of tank assembly lines 140.

Multiple case assembly lines 140 may be provided in parallel at spaced intervals; the second conveyor belt 133 extends in a direction perpendicular to the plurality of box assembly lines 140. That is, a plurality of the casing assembly lines 140 are provided at intervals in the conveying direction of the second conveyor belt 133.

The bottom carrier of the first lifting device 142 of each tank assembly line 140 is arranged close to the second conveyor belt 133.

Each tank assembly line 140 also includes a bottom steel buffer placement area 148, the bottom steel buffer placement area 148 being disposed adjacent to the top load level of the first lifting device 142 for temporarily placing the bottom steel material lifted by the first lifting device 142. The first lifting device 142 loads the bottom steel material on the bottom steel transfer device 130 at the bottom loading position, lifts the bottom steel material to the top loading position, and unloads the bottom steel material in the bottom steel buffer storage area 148. Multiple cabinet assembly lines 140 may be arranged in parallel and may be used simultaneously to assemble different or identical refrigerator cabinets. Each cabinet assembly line 140 has cabinet transfer equipment thereon, and a scanner 146 is mounted at the start of the cabinet assembly line, the scanner 146 being configured to scan the identity of the cabinets transferred on the cabinet transfer equipment. The base steel storage reservoir 110 may further include: and (5) bottom steel ex-warehouse equipment. The bottom steel warehouse-out equipment is used for extracting bottom steel materials matched with the box shell conveyed on the box shell conveying equipment.

The conveying speed of the second conveyor belt 133 is adapted to the conveying speed of the first conveyor belt 131, and the lifting speed of the first lifting device 142 is adapted to the lifting speed of the second lifting device 132. That is, the bottom steel materials output from the bottom steel storage bank 110 can be synchronously loaded onto the second conveyor 133 through the first conveyor 131 and correspondingly move to the bottom steel buffer storage area 148. The bottom steel material can be automatically conveyed to the box assembly line 140 through the matched conveying of the first conveying belt 131, the second conveying belt 133, the first lifting device 142 and the second lifting device 132.

For example, in the case of the refrigerator cabinet assembling system 10 including two cabinet assembling lines 140, the two cabinet assembling lines 140 respectively assemble different kinds of refrigerator cabinets, and the cabinet conveying device conveys the cabinet to the cabinet assembling lines, and the identification of the cabinet conveyed by the code scanner 146 identifies the type of the cabinet.

The bottom steel warehouse-out equipment extracts the bottom steel materials matched with the box shell conveyed on the box shell conveying equipment, the bottom steel materials are conveyed through the first conveying belt 131, and the second lifting equipment 132 hoists the bottom steel materials to the second conveying belt 133. The second conveyor 133 conveys the bottom steel materials to the lower part of the box assembly line 140, and the bottom steel materials are hoisted to the bottom steel buffer placing area 148 of the corresponding box assembly line 140 through the first hoisting device 142 to be prepared for assembly.

Because the supply process of the bottom steel material and the assembly process of the box body can be carried out simultaneously, the retention time of the bottom steel material on a production line is reduced, and the occupied space is reduced.

The utility model discloses a specific use of refrigerator box assembly system 10 can be for: after the box shell matching is completed, the code scanner 146 scans the code to identify the box signal, the refrigerator box assembly system 10 judges the box assembly line 140 which needs to deliver the bottom steel material, and the bottom steel warehouse-out equipment is ready to output the needed bottom steel material. The bottom steel material is conveyed downwards by the second lifting device 132 to the second conveyor belt 133. The second conveyor belt 133 conveys the bottom steel materials to the lower side of the corresponding box assembly line 140, and the first lifting device 142 of the box assembly line 140 conveys the bottom steel materials to the bottom steel buffer placement area 148. The assembler performs the assembly of the boxes on a box assembly line 140.

The utility model discloses a refrigerator box assembly system 10 arranges end steel transfer device 130 below box assembly line 140. When the refrigerator box assembly is carried out, the bottom steel material can be transferred to the box assembly line 140 through the bottom steel transfer device 130 and the lifting device, the material conveying on the assembly line is avoided, and the problem of messy transportation is avoided.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described in detail herein, many other variations and modifications can be made, consistent with the principles of the invention, which are directly determined or derived from the disclosure herein, without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and interpreted to cover all such other variations or modifications.

Claims (9)

1. A refrigerator cabinet assembly system, comprising:

the bottom steel storage warehouse is used for storing bottom steel materials of the refrigerator body;

the multiple box body assembly lines are used for providing a production line for assembling the bottom steel material and the box shell into a refrigerator body; and

the bottom steel transferring equipment is connected with the bottom steel storage warehouse and is used for transferring the bottom steel materials from the bottom steel storage warehouse to the position below the plurality of box assembly lines; and is

Each box assembly line is respectively provided with a first lifting device used for extracting the bottom steel material from the bottom steel transferring device.

2. The refrigerator cabinet assembly system of claim 1, wherein the bottom steel transfer apparatus comprises:

a first conveyor belt extending from the bottom steel storage to output the bottom steel material from the bottom steel storage to the outside;

the second lifting device is positioned at the tail end of the first conveyor belt and used for conveying the bottom steel materials on the first conveyor belt downwards;

a second conveyor belt extending from a lower portion of the second lifting device to a lower portion of the first lifting device of the plurality of box assembly lines.

3. A refrigerator cabinet assembly system as claimed in claim 2 wherein

A plurality of box body assembly lines are arranged in parallel at intervals;

the extending direction of the second conveyor belt is perpendicular to the plurality of box assembly lines.

4. A refrigerator cabinet assembly system as claimed in claim 2 wherein

The bottom carrier of the first lifting device of each box assembly line is arranged close to the second conveying belt.

5. A refrigerator cabinet assembly system as claimed in claim 2, wherein each of said cabinet assembly lines further comprises:

and the bottom steel buffer placement area is arranged close to the top loading object of the first lifting equipment and is used for temporarily placing the bottom steel materials lifted by the first lifting equipment.

6. A refrigerator cabinet assembly system as claimed in claim 2 wherein

The conveying speed of the first conveyor belt is matched with the conveying speed of the second conveyor belt.

7. A refrigerator cabinet assembly system as claimed in claim 2 wherein

The lifting speed of the first lifting device is adapted to the lifting speed of the second lifting device.

8. A refrigerator cabinet assembly system as claimed in claim 1 wherein

Each box assembly line is provided with a box conveying device, and a code scanner is installed at the initial position of the box assembly line and used for scanning the identification of the box conveyed on the box conveying device.

9. The refrigerator cabinet assembly system of claim 8, wherein the bottom steel storage magazine further comprises:

and the bottom steel ex-warehouse equipment is used for extracting bottom steel materials matched with the box shell conveyed on the box shell conveying equipment.

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