CN216885256U - Vacuum welding device of vacuum cup - Google Patents

Abstract

The utility model discloses a vacuum welding device of a vacuum cup, which comprises an underframe base assembly, a bottom shell mold assembly, a top mold, a guide assembly, a vacuumizing device, a lower vacuum shell assembly, an upper vacuum shell assembly and a cylinder assembly, wherein the vacuumizing device is communicated with the lower vacuum shell assembly, and the lower vacuum shell assembly is connected to the underframe base assembly; the guide assembly comprises a top plate, a guide piece and a guide plate; the top die is connected to the upper vacuum shell, and the upper vacuum shell and the lower vacuum shell form a vacuum cup accommodating cavity together when being connected; the air cylinder assembly is respectively connected with the top plate and the guide plate and drives the guide plate to slide up and down along the guide piece; the lower vacuum shell is provided with a welding interface. Under the matching action of the vacuum pumping device, the lower vacuum shell, the upper vacuum shell, the welding interface and other parts, the cup body welding device has a simple structure and is simple to operate, the welding operation on the cup body can be completed without depending on the operating skills of operators, and the effects of high efficiency and high yield are achieved.

Description

Vacuum welding device of vacuum cup

Technical Field

The utility model relates to a welding device, in particular to a vacuum welding device of a vacuum cup.

Background

The vacuum cup has the heat preservation performance, so the vacuum cup is more and more popular with the users. The cup in the thermos cup has a great influence on the heat preservation effect, so the cup has high requirements on the processing environment, particularly the welding process, the existing cup welding device has great dependence on the operating skill of an operator due to overlarge equipment, and the cup has more defective products due to unstable work of the welding device in the welding process, so the production efficiency is reduced, and the cost is increased. Therefore, there is a need for improvements or optimizations to existing welding devices.

Disclosure of Invention

The utility model provides a vacuum welding device for a vacuum cup, aiming at the defects that in the prior art, due to the fact that a cup body welding device is too large in equipment and has great dependence on operating skills of operators, in the welding process, the number of defective products of a cup body is large due to unstable work of the welding device, the production efficiency is reduced, the cost is increased, and the like.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

a vacuum welding device of a vacuum cup comprises an underframe base assembly, a bottom shell mold assembly, a top mold and a guide assembly, wherein the top mold is positioned above the bottom shell mold assembly, the vacuum welding device further comprises a vacuumizing device, a lower vacuum shell assembly, an upper vacuum shell assembly and a cylinder assembly, the vacuumizing device is communicated with the lower vacuum shell assembly, the bottom shell mold assembly is connected with the lower vacuum shell assembly and positioned in the lower vacuum shell assembly, and the lower vacuum shell assembly is connected to the underframe base assembly; the guide assembly comprises a top plate, a guide piece and a guide plate, the guide piece is respectively connected with the top plate and the bottom frame seat assembly, and the guide plate is positioned between the top plate and the bottom frame seat assembly and is in sliding connection with the guide piece; the top die is connected to the upper vacuum shell and positioned in the upper vacuum shell, the upper vacuum shell is connected with the guide plate, and the upper vacuum shell and the lower vacuum shell form a vacuum cup accommodating cavity together when being connected; the cylinder assembly is respectively connected with the top plate and the guide plate and drives the guide plate to slide up and down along the guide piece; and the lower vacuum shell is provided with a welding interface.

The underframe base assembly provides a bearing platform for parts such as the lower vacuum shell assembly, the vacuumizing device, the guide piece and the like. The top plate provides an installation platform for the air cylinder assembly, and the air cylinder assembly provides a driving force for the guide plate to slide up and down along the guide piece, so that the upper vacuum shell piece installed on the guide plate moves downwards and can be connected with the lower vacuum shell piece to form a vacuum cup accommodating cavity state, namely a welding state; the upper vacuum shell moves upwards to be separated from the lower vacuum shell to form a cup taking and placing state. The bottom shell module is used for placing a lower bottom shell piece of the cup body. In a welding state, the shell body of the cup body is in contact with the lower bottom shell piece of the cup body, and the top die provides pressing maintaining force for the shell body of the cup body and the lower bottom shell piece of the cup body, so that the shell body of the cup body and the lower bottom shell piece of the cup body are prevented from moving in a welding process, and the dependence on the operation skill of an operator is reduced; the vacuumizing device vacuumizes the vacuum cup accommodating cavity and enables the vacuum cup accommodating cavity to be in a vacuum state; the welding interface part is used for welding the shell body of the cup body and the lower bottom shell part of the cup body; the cup body is welded in a vacuum state, so that the efficiency is high, the qualification rate is high, and the cost is reduced. Under the matching action of the vacuum pumping device, the lower vacuum shell, the upper vacuum shell, the welding interface and other parts, the cup body welding device has a simple structure and is simple to operate, the welding operation on the cup body can be completed without depending on the operating skills of operators, and the effects of high efficiency and high yield are achieved.

Preferably, the vacuum welding device for the vacuum cup comprises a bottom die motor, a bottom die base and a bottom die, wherein the bottom die motor is connected to the bottom die base, the bottom die base is connected to the lower vacuum shell, the bottom die is connected to the bottom die base and located in the lower vacuum shell, and the bottom die motor is connected to and drives the bottom die to rotate.

The bottom die assembly adopts a structure that the bottom die motor, the bottom die base and the bottom die are matched, so that the maintenance or replacement of subsequent related parts is facilitated, the processing is facilitated, and the structure of the utility model is more compact. The bottom die base provides an installation platform for the bottom die motor and the bottom shell die. The bottom die motor provides a driving force for the bottom die to slide up and down along the bottom die base, so that the bottom die piece of the cup body can be better connected with the shell body of the cup body, a better limiting effect is provided for the bottom die piece of the cup body and the shell body of the cup body, and the finished product rate of the utility model is further improved.

Preferably, in the vacuum welding device for the vacuum cup, the lower vacuum shell is further provided with a guide die, and the guide die is located above the bottom shell die.

The direction mould can provide direction limiting displacement for the shell body of cup, and the operating personnel of being convenient for places the shell body of cup on the lower bottom shell spare of cup, further reduces the dependence to operating personnel skill.

Preferably, the vacuum welding device for the vacuum cup further comprises a top die driving member, the top die comprises a top die member and a top die base, the top die base is connected to the upper vacuum shell member, the top die driving member is connected to the top die base, the top die member is connected to the top die base through the top die driving member, and the top die member is located in the upper vacuum shell member.

The top die adopts a structure that the top die part and the top die base are matched, so that the processing is convenient, and the subsequent replacement or maintenance of related parts is convenient. The top die driving piece provides downward driving force for the top die piece, so that the relative position between the shell body of the cup body and the lower bottom shell piece of the cup body is better maintained, and the top die driving piece and the lower bottom shell piece are prevented from moving in the welding process.

Preferably, the vacuum welding device for the vacuum cup comprises an upper vacuum shell, a lower vacuum shell and a heating element, wherein the heating element is arranged on the upper vacuum shell, and the heating element is positioned in the accommodating cavity of the vacuum cup.

When the heat preservation cup holds the chamber state, the heating of first heating member can be fallen with remaining moisture evaporation on the shell body of cup, further improves vacuum.

Preferably, in the vacuum welding device for a vacuum cup, the inner wall of the lower vacuum casing is provided with the second heating element.

When the heat preservation cup holds the chamber state, the heating of second heating member can be with the evaporation of remaining moisture on the lower bottom shell spare of cup, further improves the vacuum.

Preferably, in the vacuum welding apparatus for a vacuum cup, the lower vacuum casing is provided with a cooling liquid accommodating cavity, and the cooling liquid accommodating cavity is provided with cooling liquid.

The cooling liquid in the cooling liquid containing cavity can timely dissipate the overhigh heat generated in the welding process through heat transfer, so that the temperature in the vacuum cup containing cavity can be controlled at a normal temperature state, and the overhigh temperature is prevented.

Preferably, in the vacuum welding apparatus for a vacuum cup, the lower vacuum casing is provided with a coolant connection pipe, and the coolant connection pipe is in through connection with the coolant accommodating cavity.

The cooling liquid connecting pipe can timely and circularly replace the cooling liquid, so that the cooling effect of the cooling liquid is better, and meanwhile, the cooling device can continuously work and can still maintain a good cooling effect.

Preferably, in the vacuum welding device for a vacuum cup, the lower vacuum casing is provided with a temperature sensor, and the temperature sensor detects the temperature of the accommodating cavity of the vacuum cup at any time.

The temperature sensor can detect and feed back the temperature that the thermos cup held the chamber often for the operator in time knows the temperature that the thermos cup held the chamber.

Preferably, in the vacuum welding apparatus for a vacuum cup, the upper vacuum casing is provided with an upper observation window, and the lower vacuum casing is provided with a lower observation window.

An operator can learn the welding progress of the cup body by observing the upper observation window and the lower observation window, thereby facilitating subsequent related operations of the utility model.

Drawings

FIG. 1 is a perspective cross-sectional view of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a perspective view of the upper viewing window orientation of the present invention;

FIG. 4 is a perspective view of the coolant connection tube orientation of the present invention;

fig. 5 is a reference diagram of the cup taking and placing state of the present invention.

Detailed Description

The utility model will be described in further detail below with reference to the accompanying figures 1-5 and the detailed description, but they are not intended to limit the utility model:

example 1

A vacuum welding device for a vacuum cup comprises an underframe base assembly 1, a bottom shell mold assembly 3, a top mold 6 and a guide assembly 9, wherein the top mold 6 is positioned above the bottom shell mold assembly 3, the vacuum welding device further comprises a vacuumizing device 2, a lower vacuum shell assembly 4, an upper vacuum shell assembly 5 and an air cylinder assembly 8, the vacuumizing device 2 is communicated with the lower vacuum shell assembly 4, the bottom shell mold assembly 3 is connected with the lower vacuum shell assembly 4 and positioned in the lower vacuum shell assembly 4, and the lower vacuum shell assembly 4 is connected to the underframe base assembly 1; the guide assembly 9 comprises a top plate 91, a guide 92 and a guide plate 93, wherein the guide 92 is respectively connected with the top plate 91 and the underframe base assembly 1, and the guide plate 93 is positioned between the top plate 91 and the underframe base assembly 1 and is slidably connected with the guide 92; the top die 6 is connected to the upper vacuum casing 5 and located in the upper vacuum casing 5, the upper vacuum casing 5 is connected with the guide plate 93, and the upper vacuum casing 5 and the lower vacuum casing 4 form a vacuum cup accommodating cavity 51 when connected together; the cylinder assembly 8 is respectively connected with the top plate 91 and the guide plate 93 and drives the guide plate 93 to slide up and down along the guide piece 92; the lower vacuum casing 4 is provided with a welding interface 41.

When the cup body welding device is used, when the cup body welding device is needed to be used for welding the cup body, the air cylinder assembly 8 is started to move upwards firstly, so that the guide plate 93 is driven to move upwards along the guide piece 92, and the upper vacuum shell piece 5 is separated from the lower vacuum shell piece 4 to achieve the cup body taking and placing state; then, the lower bottom shell piece of the cup body is placed on the bottom shell module component 3, and the shell body of the cup body is placed on the lower bottom shell piece of the cup body; starting the cylinder assembly 8 to move downwards, so as to drive the guide plate 93 to move downwards along the guide piece 92 until the upper vacuum shell 5 is connected with the lower vacuum shell 4 to form the vacuum cup accommodating cavity 51; starting the vacuumizing device 2 to work, vacuumizing the vacuum cup accommodating cavity 51 and forming a vacuum state; then the top die 6 is started to work and downward pressing force is applied to the shell body of the cup body; the welding interface member 41 is controlled to work under the vacuum state, so that the shell body of the cup body and the lower bottom shell member of the cup body are welded to form the cup body. After the welding is finished, the welding interface 41 and the vacuum extractor 2 are controlled to stop working, and then the air cylinder assembly 8 is controlled to move so as to drive the guide plate 93 to move upwards along the guide piece 92 to form a cup taking and placing state, so that the use of the utility model is finished.

As preferred, bottom die assembly 3 include bottom die motor 31, bottom die base 32 and bottom shell mould 33, bottom die motor 31 connect in bottom die base 32 on, bottom die base 32 with lower vacuum shell 4 connect, bottom shell mould 33 with bottom die base 32 connect and be located lower vacuum shell 4 in, just bottom die motor 31 with bottom shell mould 33 connect and drive bottom shell mould 33 rotary motion.

Preferably, the lower vacuum casing 4 is further provided with a guide die 42, and the guide die 42 is located above the bottom shell mold 33.

Preferably, the vacuum forming device further comprises a top die driving member 7, the top die 6 comprises a top die member 61 and a top die base 62, the top die base 62 is connected to the upper vacuum casing member 5, the top die driving member 7 is connected to the top die base 62, the top die member 61 is connected with the top die base 62 through the top die driving member 7, and the top die member 61 is located in the upper vacuum casing member 5.

Preferably, the upper vacuum casing 5 is provided with a first heating member 52, and the first heating member 52 is located in the thermos cup accommodating cavity 51.

Preferably, the inner wall of the lower vacuum casing member 4 is provided with a second heating member 44.

Preferably, the lower vacuum casing 4 is provided with a cooling liquid accommodating cavity 43, and the cooling liquid accommodating cavity 43 is provided with cooling liquid.

Preferably, the lower vacuum casing 4 is provided with a coolant connection pipe 46, and the coolant connection pipe 46 is connected to the coolant accommodating chamber 43 in a penetrating manner.

Preferably, the lower vacuum casing 4 is provided with a temperature sensor 47, and the temperature sensor 47 detects the temperature of the thermos cup accommodating cavity 51 at any time.

Preferably, the upper vacuum casing 5 is provided with an upper observation window 53, and the lower vacuum casing 4 is provided with a lower observation window 45.

More specifically, when the cup body needs to be welded by using the cup body welding machine, the air cylinder assembly 8 is started to move upwards, so that the guide plate 93 is driven to move upwards along the guide piece 92, the upper vacuum shell piece 5 is separated from the lower vacuum shell piece 4, and the cup body taking and placing state is achieved; then the lower bottom shell member of the cup body is placed on the bottom shell mold 33, and the shell body of the cup body is placed on the lower bottom shell member of the cup body through the guide mold 42; the cylinder assembly 8 is actuated to move downward, thereby bringing the guide plate 93 down along the guide member 92 until the upper vacuum casing member 5 is coupled with the lower vacuum casing member 4 to form the cup accommodating chamber 51. Starting the vacuumizing device 2 to work, vacuumizing the vacuum cup accommodating cavity 51 and forming a vacuum state; starting the top die driving part 7 to move downwards, so as to drive the top die part 61 to slide downwards along the top die seat 62, and further apply pressing force to the shell body of the cup body; preferably, further activation of the bottom mold motor 31 operates to move the bottom mold 33 upward, thereby causing the bottom mold 33 to exert a jacking force on the lower bottom shell member of the cup. The coolant connection pipe 46 is started to operate, and the coolant is supplied into the coolant accommodating chamber 43. Preferably, the first heating member 52 and the second heating member 44 are activated to evaporate water remaining on the body of the cup and the lower base member of the cup. The welding interface member 41 is controlled to work under the vacuum state, so that the shell body of the cup body and the lower bottom shell member of the cup body are welded to form the cup body, and an operator can observe the welding progress of the cup body through the lower observation window 45 and the upper observation window 53. After the welding is finished, controlling the welding interface piece 41 and the vacuumizing device 2 to stop working; starting the bottom die motor 31 to work to drive the bottom shell die 33 to move downwards, so that the bottom shell die 33 releases the jacking force on the lower bottom shell member of the cup body; starting the top die driving part 7 to move upwards, so as to drive the top die part 61 to slide upwards along the top die seat 62, and further release the pressing force on the shell body of the cup body; and then controlling the cylinder assembly 8 to move so as to drive the guide plate 93 to move upwards along the guide part 92 to form a cup taking and placing state, thereby completing the use of the utility model.

In summary, the above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the present invention.

Claims (10)

1. The utility model provides a vacuum welding device of thermos cup, includes chassis base subassembly (1), drain pan module subassembly (3), top mould (6) and direction subassembly (9), top mould (6) be located drain pan module subassembly (3) top, its characterized in that: the vacuum pump is characterized by further comprising a vacuumizing device (2), a lower vacuum shell component (4), an upper vacuum shell component (5) and a cylinder component (8), wherein the vacuumizing device (2) is communicated with the lower vacuum shell component (4), the bottom shell module (3) is connected with the lower vacuum shell component (4) and is positioned in the lower vacuum shell component (4), and the lower vacuum shell component (4) is connected to the bottom frame seat component (1); the guide assembly (9) comprises a top plate (91), a guide piece (92) and a guide plate (93), the guide piece (92) is respectively connected with the top plate (91) and the chassis seat assembly (1), and the guide plate (93) is positioned between the top plate (91) and the chassis seat assembly (1) and is in sliding connection with the guide piece (92); the top die (6) is connected to the upper vacuum shell (5) and is positioned in the upper vacuum shell (5), the upper vacuum shell (5) is connected with the guide plate (93), and the upper vacuum shell (5) and the lower vacuum shell (4) form a vacuum cup accommodating cavity (51) when connected together; the cylinder assembly (8) is respectively connected with the top plate (91) and the guide plate (93) and drives the guide plate (93) to slide up and down along the guide piece (92); and a welding interface piece (41) is arranged on the lower vacuum shell piece (4).

2. A vacuum welding apparatus for a vacuum cup according to claim 1, wherein: bottom shell mould subassembly (3) include die block motor (31), die block seat (32) and bottom shell mould (33), die block motor (31) connect in die block seat (32) on, die block seat (32) with lower vacuum shell spare (4) connect, bottom shell mould (33) with die block seat (32) connect and be located lower vacuum shell spare (4) in, just die block motor (31) with bottom shell mould (33) connect and drive bottom shell mould (33) rotary motion.

3. A vacuum welding apparatus for a vacuum cup according to claim 2, wherein: the lower vacuum shell (4) is also provided with a guide die (42), and the guide die (42) is positioned above the bottom shell die (33).

4. A vacuum welding apparatus for a vacuum cup according to claim 1, wherein: still include top mould driving piece (7), top mould (6) including top mould piece (61), top die base (62) connect in last vacuum shell spare (5) on, top mould driving piece (7) connect in top die base (62) on, top mould piece (61) pass through top mould driving piece (7) with top die base (62) connect, just top mould piece (61) be located last vacuum shell spare (5) in.

5. A vacuum welding apparatus for a vacuum cup according to claim 1, wherein: the vacuum cup is characterized in that a first heating element (52) is arranged on the upper vacuum shell element (5), and the first heating element (52) is positioned in the vacuum cup accommodating cavity (51).

6. A vacuum welding apparatus for a vacuum cup, as claimed in claim 1, wherein: and a second heating element (44) is arranged on the inner wall of the lower vacuum shell element (4).

7. A vacuum welding apparatus for a vacuum cup according to claim 1, wherein: the lower vacuum shell piece (4) is provided with a cooling liquid accommodating cavity (43), and cooling liquid is arranged in the cooling liquid accommodating cavity (43).

8. A vacuum welding apparatus for a vacuum cup according to claim 7, wherein: and a cooling liquid connecting pipe (46) is arranged on the lower vacuum shell (4), and the cooling liquid connecting pipe (46) is communicated with the cooling liquid accommodating cavity (43).

9. The vacuum welding apparatus for a vacuum cup according to claim 8, wherein: the vacuum cup is characterized in that a temperature sensor (47) is arranged on the lower vacuum shell (4), and the temperature sensor (47) detects the temperature of the vacuum cup accommodating cavity (51) at any time.

10. A vacuum welding apparatus for a vacuum cup according to claim 1, wherein: an upper observation window (53) is arranged on the upper vacuum casing (5), and a lower observation window (45) is arranged on the lower vacuum casing (4).

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