1. A material moves and carries device which characterized in that includes:

a base capable of receiving a holder;

the lifting system is connected between the base and the fixed seat and can drive the fixed seat to ascend and descend; and the number of the first and second groups,

the translation system comprises a translation assembly, the translation assembly is fixed on the fixed seat, the translation assembly comprises a belt line, the belt line is fixed on the outer sides of two oppositely arranged side walls of the fixed seat, the fixed seat rises to drive the belt line to rise so that the belt line protrudes out of the base, and therefore the belt line can drive materials to move in the conveying direction of the belt line.

2. The material transfer device as claimed in claim 1, wherein the lifting system comprises a lifting cylinder connected between the base and the fixed base for driving the fixed base to ascend and descend.

3. The material transfer device as in claim 1, wherein the lifting system further comprises a guide sleeve and a guide post;

the guide sleeve is fixed on the base, the top end of the guide post is fixed on the fixed seat, the bottom end of the guide post extends into the guide sleeve, or,

the guide sleeve is fixed on the fixing seat, the top end of the guide column extends into the guide sleeve, and the bottom end of the guide column is fixed on the base.

4. The material transfer device as in claim 1, wherein the translation assembly comprises:

the motor is used for providing power for the operation of the belt line;

the driving shaft is used for driving the belt line wheel to rotate so as to drive the belt line to run;

the chain wheel is fixed on the driving shaft; and the number of the first and second groups,

and the chain is connected with the output end of the motor and the chain wheel, so that the motor drives the chain wheel to rotate to drive the driving shaft to rotate.

5. The material transfer device as claimed in claim 4, wherein the belt pulley comprises a driving pulley and a driven pulley, and the driving pulley is connected to two ends of the driving shaft.

6. The material transfer device as claimed in claim 5, wherein the driving wheel and the driving shaft are connected with each other by a key slot, the driving wheel is provided with a key slot, and the driving shaft is provided with a corresponding key, so that the driving shaft and the driving wheel rotate synchronously.

7. The material transfer device as claimed in claim 5, wherein a fixing rod is connected to the outside of the side wall of the fixing base, the driven wheel is connected to the fixing rod through a bearing, the bearing is a double-row deep groove ball bearing, and the bearing is provided with a cover.

8. The material transfer device according to claim 4, wherein the belt line is a V-shaped adhesive tape, and the belt pulley is a V-belt pulley.

9. An assembly line comprising the material transfer device of any one of claims 1 to 8.

10. The assembly line of claim 9, comprising two wire bodies arranged parallel and adjacent to each other, wherein two material transfer devices are respectively arranged at one end of the two wire bodies and the belt lines of the two material transfer devices are arranged opposite to each other;

the fixed seat can receive the material conveyed from the wire body after descending;

the fixed seat can be lifted to drive the belt line to rise so that the belt line protrudes out of the base, and therefore the belt line can drive the material to be horizontally moved to another material transfer device on another line body along the conveying direction of the belt line, and transfer of the material between the line bodies is completed.

Background

With the rapid development of the air conditioner industry, automatic modification has become the development theme of the air conditioner production and manufacturing industry. The aim of automation transformation is to use automation equipment as far as possible to replace manual operation in the air conditioner production and manufacturing process.

The tooling plate is used as a bearing tool commonly used on a line body in the production line operation process, the transfer between the adjacent line bodies needs to realize automatic operation, namely, the tooling plate is automatically transferred from one line body to the other line body parallel to the line body along the direction vertical to the line body by a material transfer device.

Wherein, the frock board that bears air conditioner evaporimeter needs the material to move and carries the device and have higher stability. The stability of the existing material transfer device can not meet the requirement, so a new material transfer device is urgently needed to solve the technical problem that the tooling plate of the air conditioner evaporator transfers the materials between the lines, and further realize the automatic operation of transferring the materials between the adjacent lines.

Disclosure of Invention

The technical problem of moving the tooling plate of the air conditioner evaporator between the lines is solved, and the automatic operation of moving the materials between the adjacent lines is favorably realized.

In a first aspect, the present invention provides a material transfer apparatus, comprising: a base capable of receiving a holder; the lifting system is connected between the base and the fixed seat and can drive the fixed seat to ascend and descend; and the translation system comprises a translation assembly, the translation assembly is fixed on the fixed seat, the translation assembly comprises a belt line, the belt line is fixed on the outer sides of two oppositely arranged side walls of the fixed seat, the fixed seat rises to drive the belt line to rise so that the belt line protrudes out of the base, and therefore the belt line can drive materials to move in the conveying direction of the belt line. The lifting system and the translation system of the material transfer device can meet the requirement of stability, so that the technical problem of transferring the tooling plate of the air conditioner evaporator between the lines is solved, and the automatic operation of transferring the material between the adjacent lines is realized.

In an embodiment of the first aspect, the lifting system includes a lifting cylinder, and the lifting cylinder is connected between the base and the fixing base and is configured to drive the fixing base to ascend and descend. This embodiment facilitates a stable raising and lowering of the mounting.

In one embodiment of the first aspect, the lift system further comprises a guide sleeve and a guide post; the guide sleeve is fixed on the base, the top of guide post is fixed on the fixing base, the bottom of guide post stretches into the guide sleeve, perhaps, the guide sleeve is fixed on the fixing base, the top of guide post stretches into the guide sleeve, the bottom mounting of guide post is in on the base. Through this embodiment, guide post and uide bushing can prevent that the fixing base from rising or the vertical direction of in-process skew that descends, are favorable to promoting the stability that the fixing base rises and descends, avoid appearing rocking by a wide margin because of the vertical direction of skew.

In one embodiment of the first aspect, the translation assembly comprises: the motor is used for providing power for the operation of the belt line; the driving shaft is used for driving the belt line wheel to rotate so as to drive the belt line to run; the chain wheel is fixed on the driving shaft; and the chain is connected with the output end of the motor and the chain wheel, so that the motor drives the chain wheel to rotate to drive the driving shaft to rotate. The material is stably moved and carried by the aid of the moving system, the structure of the moving system is simple, and production cost is reduced.

In one embodiment of the first aspect, the belt pulley comprises a driving pulley and a driven pulley, and the driving pulley is connected to both ends of the driving shaft. Through this embodiment, be favorable to the driving shaft to drive the action wheel and rotate to the operation of drive belt line.

In one embodiment of the first aspect, the driving wheel and the driving shaft are connected with each other through a key slot, the driving wheel is provided with a key slot, and the driving shaft is provided with a corresponding key, so that the driving shaft and the driving wheel rotate synchronously. Through this embodiment, be favorable to avoiding taking place the slippage between action wheel and the driving shaft.

In one embodiment of the first aspect, a fixed rod is connected to an outer side of a side wall of the fixed seat, the driven wheel is connected to the fixed rod through a bearing, the bearing is a double-row deep groove ball bearing, and the bearing is provided with a cover body. Through this embodiment, the biserial deep groove ball bearing is favorable to promoting the load capacity of belt line, and the bearing is equipped with the lid and is favorable to preventing dust.

In one embodiment of the first aspect, the belt line is a V-shaped adhesive tape, and the belt pulley is a V-pulley. Through this embodiment, be favorable to avoiding the belt line to skid to promote the loading capacity of belt line.

In a second aspect, the present invention further provides a production line, which includes the material transfer device described in the first aspect and any one of the embodiments thereof. By utilizing the assembly line, both a lifting system and a translation system of the material transfer device can meet the requirement of stability, so that the technical problem of transferring the tooling plate of the air conditioner evaporator between the lines is solved, and the automatic operation of transferring the materials between the adjacent lines is realized.

In one embodiment of the second aspect, the assembly line comprises two line bodies which are parallel to each other and are arranged adjacently, two material transfer devices are respectively arranged at one end of each of the two line bodies, and the belt lines of the two material transfer devices are arranged oppositely; the fixed seat can receive the material conveyed from the wire body after descending; the fixed seat can be lifted to drive the belt line to rise so that the belt line protrudes out of the base, and therefore the belt line can drive the material to be horizontally moved to another material transfer device on another line body along the conveying direction of the belt line, and transfer of the material between the line bodies is completed. Through the embodiment, the technical problem that the tooling plate of the air conditioner evaporator moves between the lines is solved, and the automatic operation of transferring materials between the adjacent lines is realized.

The application provides a material moves and carries device and assembly line compares in prior art, has following beneficial effect.

1. The lifting system and the translation system of the material transfer device can meet the requirement of stability, so that the technical problem of transferring the tooling plate of the air conditioner evaporator between the lines is solved, and the automatic operation of transferring the material between the adjacent lines is realized.

2. The lifting system is beneficial to stable lifting of materials, has a simple structure and is beneficial to reduction of production cost and maintenance cost.

3. The translation system is favorable for stable lifting of materials, has a simple structure and is favorable for reducing the production cost and the maintenance cost.

4. By utilizing the assembly line, both a lifting system and a translation system of the material transfer device can meet the requirement of stability, thereby solving the technical problem of transferring the tooling plate of the air conditioner evaporator between the lines and being beneficial to realizing the automatic operation of transferring the materials between the adjacent lines.

The features mentioned above can be combined in various suitable ways or replaced by equivalent features as long as the object of the invention is achieved.

Drawings

The invention will be described in more detail hereinafter on the basis of embodiments and with reference to the accompanying drawings, in which:

fig. 1 shows a schematic structural diagram of a material transfer apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram illustrating a translation system of a material transfer apparatus according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram illustrating another view of a translation system of a material transfer apparatus according to an embodiment of the present invention;

fig. 4 shows a schematic structural diagram of a lifting system of a material transfer apparatus according to an embodiment of the invention;

FIG. 5 shows a schematic diagram of a pipeline according to an embodiment of the invention.

List of reference numerals:

1-a material transfer device; 2-a wire body; 11-a base; 12-a fixed seat; 13-a cover plate; 14-belt line; 15-a lifting cylinder; 16-a guide sleeve; 17-a guide post; 18-a motor; 19-a drive shaft; 20-a sprocket; 21-a chain; 22-a driving wheel; 23-a driven wheel; 24-a bearing; 25-tensioner.

In the drawings, like parts are provided with like reference numerals. The drawings are not to scale.

Detailed Description

The invention will be further explained with reference to the drawings.

As shown in fig. 1, the present embodiment provides a material transfer apparatus 1, and the material transfer apparatus 1 includes: a base 11 capable of accommodating the holder 12; the lifting system is connected between the base 11 and the fixed seat 12 and can drive the fixed seat 12 to ascend and descend; and the translation system comprises a translation assembly, the translation assembly is fixed on the fixed base 12, the translation assembly comprises a belt line 14, the belt line 14 is fixed on the outer sides of two oppositely-arranged side walls of the fixed base 12, the fixed base 12 rises to drive the belt line 14 to rise so that the belt line 14 protrudes out of the base 11, and therefore the belt line 14 can drive materials to translate along the conveying direction of the belt line 14.

The lifting system can drive the fixing base 12 to extend out of the base 11 or descend into the base 11. The lifting system is connected between the base 11 and the fixed base 12. The bottom surface of the extended fixing seat 12 is flush with the top surface of the base 11. The base 11 is rectangular, and the middle part is a containing cavity of the fixing base 12. The short side of the base 11 is an opening for providing a containing space for the belt line 14 on the fixed seat 12.

The fixed seat 12 is provided with a translation system. The translation system comprises a translation assembly, the translation assembly is fixed on the fixing seat 12 and comprises a belt line 14, and the belt line 14 is fixed on the outer sides of two oppositely arranged side walls of the fixing seat 12. The belt line 14 corresponds to a short side of the base 11. A cover plate 13 is provided on the holder 12 for partially closing the translation system.

The fixed seat 12 can drive the belt line 14 to ascend so that the belt line 14 protrudes out of the base 11, and therefore the belt line 14 can drive materials to move horizontally along the conveying direction of the belt line 14. The conveying direction of the belt line 14 is parallel to the short side of the base 11. The fixed seat 12 descends, and the belt line 14 on the fixed seat 12 is positioned at the opening of the short side of the base 11.

The material in this embodiment may be an air conditioner evaporator tooling plate.

The lifting system and the translation system in the embodiment can meet the requirement of stability, the lifting system can drive the translation system to stably ascend and descend, and the ascending translation system can drive materials to stably move.

By utilizing the material transfer device 1, the lifting system and the translation system can meet the requirement of stability, thereby being beneficial to solving the technical problem of transferring the tooling plate of the air conditioner evaporator between the line bodies 2 and then being beneficial to realizing the automatic operation of transferring the materials between the adjacent line bodies 2.

In one embodiment, as shown in fig. 1, 2 and 4, the lifting system includes a lifting cylinder 15, and the lifting cylinder 15 is connected between the base 11 and the fixing base 12 for driving the fixing base 12 to ascend and descend.

Optionally, the main body of the lifting cylinder 15 is fixed on the base 11, one end of the piston rod is located in the main body of the lifting cylinder 15, and the other end of the piston rod is connected with the fixing seat 12, so as to drive the fixing seat 12 to stably ascend and descend.

Optionally, the main body of the lifting cylinder 15 is fixed on the fixing base 12, one end of the piston rod is located in the main body of the lifting cylinder 15, and the other end of the piston rod is connected with the lower base, so as to drive the fixing base 12 to stably ascend and descend.

This embodiment facilitates a stable raising and lowering of the mounting 12.

In one embodiment, as shown in fig. 1, 2 and 4, the lift system further includes a guide sleeve 16 and a guide post 17; the guide sleeve 16 is fixed on the base 11, the top end of the guide column 17 is fixed on the fixed seat 12, and the bottom end of the guide column 17 extends into the guide sleeve 16, or the guide sleeve 16 is fixed on the fixed seat 12, the top end of the guide column 17 extends into the guide sleeve 16, and the bottom end of the guide column 17 is fixed on the base 11.

Through this embodiment, guide post 17 and uide bushing 16 can prevent that fixing base 12 from ascending or the vertical direction of in-process skew that descends, are favorable to promoting the stability that fixing base 12 rises and descends, avoid appearing rocking by a wide margin because of the vertical direction of skew.

In one embodiment, as shown in fig. 1-3, the translation assembly includes: a motor 18 for powering the operation of the belt line 14; the driving shaft 19 is used for driving the belt line 14 to rotate, so that the belt line 14 is driven to run; a sprocket 20 fixed to the driving shaft 19; and a chain 21 connecting an output end of the motor 18 and the sprocket 20, so that the motor 18 rotates the sprocket 20 to rotate the driving shaft 19.

The output end of the motor 18 continuously rotates to drive the chain 21 to rotate, thereby driving the chain wheel 20 fixed on the driving shaft 19 to rotate, and driving the driving shaft 19 to rotate. The rotating driving shaft 19 can drive the belt line 14 connected with the driving shaft to rotate, so that the belt line 14 is driven to rotate.

The direction of extension of the chain 21 and belt line 14 is perpendicular to the direction of extension of the drive shaft 19.

The material is stably moved and carried by the aid of the moving system, the structure of the moving system is simple, and production cost is reduced.

In one embodiment, as shown in fig. 1 to 3, the pulley of the belt line 14 includes a driving pulley 22 and a driven pulley 23, and the driving pulley 22 is connected to both ends of the driving shaft 19.

By this embodiment, it is beneficial for the driving shaft 19 to drive the driving wheel 22 to rotate, thereby driving the belt line 14 to rotate.

In one embodiment, the drive pulley 22 and the drive shaft 19 are keyed to each other by a key slot, the drive pulley 22 having a key slot and the drive shaft 19 having a corresponding key, such that the drive shaft 19 and the drive pulley 22 rotate in unison.

By this embodiment it is advantageously avoided that slipping occurs between the driving wheel 22 and the driving shaft 19.

In one embodiment, as shown in fig. 1, a fixing rod is connected to the outside of the side wall of the fixing base 12, the driven wheel 23 is connected to the fixing rod through a bearing 24, the bearing 24 is a double-row deep groove ball bearing 24, and the bearing 24 is provided with a cover.

With this embodiment, the double row deep groove ball bearing 24 is advantageous for increasing the load capacity of the belt line 14, and the bearing 24 is equipped with a cover for dust protection.

In one embodiment, the belt line 14 is a V-shaped tape and the pulley of the belt line 14 is a V-pulley.

By this embodiment it is advantageous to avoid slipping of the belt line 14, thereby increasing the load capacity of the belt line 14.

The embodiment also provides an assembly line, which comprises the material transferring device 1.

By utilizing the assembly line, the lifting system and the translation system of the material transfer device 1 can meet the requirement of stability, thereby being beneficial to solving the technical problem of transferring the tooling plate of the air conditioner evaporator between the line bodies 2 and realizing the automatic operation of transferring the materials between the adjacent line bodies 2.

In one embodiment, as shown in fig. 5, the production line comprises two line bodies 2 arranged parallel and adjacent to each other, two material transfer devices 1 are respectively arranged at one end of the two line bodies 2, and the belt lines 14 of the two material transfer devices 1 are arranged opposite to each other; the fixed seat 12 can receive the materials transmitted by the wire body 2 after descending; the fixed seat 12 can be lifted to drive the belt line 14 to rise so that the belt line 14 protrudes out of the base 11, so that the belt line 14 can drive the material to be horizontally moved to another material transfer device 1 on another line body 2 along the conveying direction of the belt line 14, and therefore transfer of the material between the line bodies 2 is completed.

The fixed seat 12 can receive the material conveyed by the wire body 2 from which the fixed seat is located after descending. After receiving the material, the fixing base 12 of the material transferring device 1 ascends, and the fixing base 12 ascends to drive the belt line 14 to ascend so that the belt line 14 protrudes out of the base 11, so that the belt line 14 can drive the material to be transferred to another material transferring device 1 on another line body 2 along the conveying direction of the belt line 14, and transferring of the material between the line bodies 2 is completed. At this time, the fixed base 12 of the other material transfer device 1 is also in the raised state. When another material transfer device 1 receives the material, the fixing seat 12 descends, so that the material descends to the line body 2 where the material is located, and then the line body 2 conveys the material to the other end.

Through this embodiment, solved the technical problem that air conditioner evaporimeter frock board moved between line body 2, realized the automation mechanized operation that the material moved between adjacent line body 2.

Example one

As shown in fig. 1, the present embodiment provides a material transfer apparatus 1, where the material transfer apparatus 1 includes: a base 11 capable of accommodating the holder 12; the lifting system is connected between the base 11 and the fixed seat 12 and can drive the fixed seat 12 to ascend and descend; and the translation system comprises a translation assembly, the translation assembly is fixed on the fixed base 12, the translation assembly comprises a belt line 14, the belt line 14 is fixed on the outer sides of two oppositely-arranged side walls of the fixed base 12, the fixed base 12 rises to drive the belt line 14 to rise so that the belt line 14 protrudes out of the base 11, and therefore the belt line 14 can drive materials to translate along the conveying direction of the belt line 14.

The lifting system can drive the fixing base 12 to extend out of the base 11 or descend into the base 11. The lifting system is connected between the base 11 and the fixed base 12. The bottom surface of the extended fixing seat 12 is flush with the top surface of the base 11. The base 11 is rectangular, and the middle part is a containing cavity of the fixing base 12. The short side of the base 11 is an opening for providing a containing space for the belt line 14 on the fixed seat 12.

The fixed seat 12 is provided with a translation system. The translation system comprises a translation assembly, the translation assembly is fixed on the fixing seat 12 and comprises a belt line 14, and the belt line 14 is fixed on the outer sides of two oppositely arranged side walls of the fixing seat 12. The belt line 14 corresponds to a short side of the base 11.

The fixed seat 12 can drive the belt line 14 to ascend so that the belt line 14 protrudes out of the base 11, and therefore the belt line 14 can drive materials to move horizontally along the conveying direction of the belt line 14. The conveying direction of the belt line 14 is parallel to the short side of the base 11. The fixed seat 12 descends, and the belt line 14 on the fixed seat 12 is positioned at the opening of the short side of the base 11.

The material in this embodiment can be air conditioner evaporator tooling plate.

The lifting system and the translation system in the embodiment can meet the requirement of stability, the lifting system can drive the translation system to stably ascend and descend, and the ascending translation system can drive materials to stably move.

By utilizing the material transfer device 1, the lifting system and the translation system can meet the requirement of stability, thereby being beneficial to solving the technical problem of transferring the tooling plate of the air conditioner evaporator between the line bodies 2 and then being beneficial to realizing the automatic operation of transferring the materials between the adjacent line bodies 2.

Example two

The lifting system comprises a lifting cylinder 15, and the lifting cylinder 15 is connected between the base 11 and the fixing seat 12 and used for driving the fixing seat 12 to ascend and descend.

Alternatively, as shown in fig. 1, fig. 2 and fig. 4, the main body of the lifting cylinder 15 is fixed on the base 11, one end of the piston rod is located in the main body of the lifting cylinder 15, and the other end of the piston rod is connected with the fixing base 12, so as to drive the fixing base 12 to stably rise and fall.

Optionally, the main body of the lifting cylinder 15 is fixed on the fixing base 12, one end of the piston rod is located in the main body of the lifting cylinder 15, and the other end of the piston rod is connected with the lower base, so as to drive the fixing base 12 to stably ascend and descend.

As shown in fig. 1, 2 and 4, the lifting system further comprises a guide sleeve 16 and a guide post 17; the guide sleeve 16 is fixed on the base 11, the top end of the guide column 17 is fixed on the fixed seat 12, and the bottom end of the guide column 17 extends into the guide sleeve 16, or the guide sleeve 16 is fixed on the fixed seat 12, the top end of the guide column 17 extends into the guide sleeve 16, and the bottom end of the guide column 17 is fixed on the base 11.

The guide post 17 and the guide sleeve 16 can prevent the fixing base 12 from deviating from the vertical direction in the ascending or descending process, so that the ascending and descending stability of the fixing base 12 can be improved, and the phenomenon that the fixing base is greatly shaken in the deviating vertical direction is avoided.

The lifting system of this embodiment is favorable to the material to go up and down steadily, and lifting system simple structure is favorable to reduction in production cost and maintenance cost.

EXAMPLE III

As shown in fig. 1 to 3, the translation assembly includes: a motor 18 for powering the operation of the belt line 14; the driving shaft 19 is used for driving the belt line 14 to rotate, so that the belt line 14 is driven to run; a sprocket 20 fixed to the driving shaft 19; and a chain 21 connecting an output end of the motor 18 and the sprocket 20, so that the motor 18 rotates the sprocket 20 to rotate the driving shaft 19.

The output end of the motor 18 continuously rotates to drive the chain 21 to rotate, thereby driving the chain wheel 20 fixed on the driving shaft 19 to rotate, and driving the driving shaft 19 to rotate. The rotating driving shaft 19 can drive the belt line 14 connected with the driving shaft to rotate, so that the belt line 14 is driven to rotate.

The direction of extension of the chain 21 and belt line 14 is perpendicular to the direction of extension of the drive shaft 19.

The pulley of the belt line 14 includes a driving pulley 22 and a driven pulley 23, and the driving pulley 22 is connected to both ends of the driving shaft 19. The driving wheel 22 and the driving shaft 19 are connected with each other through key grooves, the key grooves are formed in the driving wheel 22, and the corresponding keys are arranged on the driving shaft 19, so that the driving shaft 19 and the driving wheel 22 rotate synchronously, and slipping between the driving wheel 22 and the driving shaft 19 is avoided.

The outside of the side wall of the fixed seat 12 is connected with a fixed rod, the driven wheel 23 is connected with the fixed rod through a bearing 24, the bearing 24 is a double-row deep groove ball bearing 24, and the bearing 24 is provided with a cover body. The double-row deep groove ball bearing 24 is beneficial to improving the loading capacity of the belt line 14, and the bearing 24 is provided with a cover body to be beneficial to dust prevention.

The belt line 14 is V-arrangement sticky tape, and 14 rounds of belt line are V band pulleys, are favorable to avoiding belt line 14 to skid to promote belt line 14's load-carrying capacity.

The belt line 14 is also equipped with a tensioner 25 for keeping the belt line 14 with a proper tension during the transmission, thereby avoiding the belt line 14 from slipping.

The translation system of this embodiment is favorable to the material to go up and down steadily, and translation system simple structure is favorable to reduction in production cost and maintenance cost.

Example four

An assembly line comprises the material transfer device 1.

As shown in fig. 5, the assembly line comprises two line bodies 2 which are parallel to each other and are adjacently arranged, two material transferring devices 1 are respectively arranged at one end of the two line bodies 2, and belt lines 14 of the two material transferring devices 1 are oppositely arranged; the fixed seat 12 can receive the materials transmitted by the wire body 2 after descending; the fixed seat 12 can be lifted to drive the belt line 14 to rise so that the belt line 14 protrudes out of the base 11, so that the belt line 14 can drive the material to be horizontally moved to another material transfer device 1 on another line body 2 along the conveying direction of the belt line 14, and therefore transfer of the material between the line bodies 2 is completed.

The fixed seat 12 can receive the material conveyed by the wire body 2 from which the fixed seat is located after descending. After receiving the material, the fixing base 12 of the material transferring device 1 ascends, and the fixing base 12 ascends to drive the belt line 14 to ascend so that the belt line 14 protrudes out of the base 11, so that the belt line 14 can drive the material to be transferred to another material transferring device 1 on another line body 2 along the conveying direction of the belt line 14, and transferring of the material between the line bodies 2 is completed. At this time, the fixed base 12 of the other material transfer device 1 is also in the raised state. When another material transfer device 1 receives the material, the fixing seat 12 descends, so that the material descends to the line body 2 where the material is located, and then the line body 2 conveys the material to the other end.

By utilizing the assembly line, the lifting system and the translation system of the material transfer device 1 can meet the requirement of stability, thereby solving the technical problem of transferring the tooling plate of the air conditioner evaporator between the line bodies 2 and being beneficial to realizing the automatic operation of transferring the materials between the adjacent line bodies 2.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "bottom", "top", "front", "rear", "inner", "outer", "left", "right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention.

Although the invention herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims. It should be understood that features described in different dependent claims and herein may be combined in ways different from those described in the original claims. It is also to be understood that features described in connection with individual embodiments may be used in other described embodiments.