CN218803386U - Cold-hot conversion device for laminating machine die - Google Patents

Abstract

The utility model discloses a cold and hot conversion equipment of laminator mould, include: a base; the base is provided with a first transfer platform, a second transfer platform, a third transfer platform, a first heating device, a second heating device, a first pulling device, a second pulling device, a cooling device, a first push rod device, a second push rod device and a third push rod device; to sum up, the utility model discloses to female course of working of arranging, provide a cold and hot conversion equipment of laminator mould, can transfer the mould of treating the heating automatically and treat refrigerated mould according to predetermined order, the translation rate is fast, and is efficient, does not need artifical the intervention, has also avoided the problem that people were scalded easily when contacting the mould under the high temperature state.

Description

Cold and hot conversion equipment of laminator mould

Technical Field

The utility model relates to a female production facility technical field that arranges, concretely relates to cold and hot conversion equipment of laminator mould.

Background

In the prior art, in an electric cabinet with a large current, a busbar is generally used as a connecting tool between a main switch and switches in each shunt, the busbar is generally composed of copper bars or aluminum bars, and an insulating layer is arranged on the surface of the busbar. The existing busbar is formed by cutting and bending a copper plate into corresponding parts, putting the parts into a die, correspondingly putting pet single-sided adhesive or pet double-sided adhesive, heating the die, and bonding the parts after the pet single-sided adhesive or pet double-sided adhesive inside the die is heated and melted to form the busbar. And then transferring the high-temperature die to a cooling device for cooling, so that the pet double-sided adhesive tape in a molten state can be rapidly fixed, and a busbar is formed.

The existing busbar processing device is a split type processing device generally, namely, after the heating device completes heating, people are required to manually transfer a die to a cooling device, after the cooling device completes cooling, people are required to perform blanking operation and feeding operation, then the die after part replacement is transferred to the heating device again for heating, a large amount of manpower and low efficiency are required to be consumed in the process, and workers are easily scalded in the process of transferring a high-temperature die.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to disclose a cold and hot conversion equipment of laminator mould, solved the transfer process inefficiency that current female processing production process exists, and scald operation workman's problem easily.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a laminator die heat and cold conversion device, comprising: a base; the base is provided with a first transfer platform and a second transfer platform for placing a mold to be heated, a third transfer platform for replacing the mold, a first heating device and a second heating device for heating the mold, a first pulling device for pulling the mold on the first transfer platform into the first heating device, a second pulling device for pulling the mold on the second transfer platform into the second heating device, a cooling device for cooling the heated mold, a first push rod device for pushing the mold in the first heating device into the cooling device, a second push rod device for pushing the mold in the second heating device into the cooling device and a third push rod device for pushing the mold in the cooling device onto the third transfer platform; the first push rod device is connected with one side of the first heating device; the other side of the first heating device is connected with one side of the cooling device; the other side of the cooling device is connected with one side of a second heating device, and the other side of the second heating device is connected with a second push rod device; the first transfer platform is arranged at one end of the first heating device, and the first pulling device is arranged at the other end of the first heating device; the second transfer table is arranged at one end of the second heating device, and the second pulling device is arranged at the other end of the second heating device; the third transfer platform is arranged at one end of the cooling device, and the third push rod device is arranged at the other end of the cooling device.

Optionally, the first transfer platform includes a first table top, and the first table top is fixedly disposed on the base; the second transfer platform comprises a second table top which is fixedly arranged on the base; the third transfer platform comprises a third table top which is fixedly arranged on the base; and a plurality of balls are arranged on the first table top, the second table top and the third table top.

Optionally, the first heating device includes: the first hydraulic component, the first upper heating template and the first lower heating template; the first hydraulic assembly is fixedly arranged on the base, the first upper heating template is fixedly arranged on the driving end of the first hydraulic assembly, and the first lower heating template is fixedly arranged on the base.

Optionally, the second heating device comprises: the second hydraulic component, the second upper heating template and the second lower heating template; the second hydraulic component is fixedly arranged on the base, the second upper heating template is fixedly arranged on a driving end of the second hydraulic component, and the second lower heating template is fixedly arranged on the base.

Optionally, the heating device further comprises a plurality of first limiting columns and a plurality of second limiting columns, wherein the bottom ends of the plurality of first limiting columns and the bottom ends of the plurality of second limiting columns are fixedly arranged on the base, and the first upper heating template is respectively connected with the plurality of first limiting columns in a sliding manner; the second upper heating template is respectively connected with the second limiting columns in a sliding mode.

Optionally, the cooling device includes: a third hydraulic assembly, an upper cooling die plate and a lower cooling die plate; the third hydraulic assembly is fixedly arranged on the base, the upper cooling template is fixedly arranged at the driving end of the third hydraulic assembly, and the lower cooling template is fixedly arranged on the base.

Optionally, still include a plurality of third spacing posts, it is a plurality of the bottom of the spacing post of third all is fixed to be set up on the base, go up the cooling template respectively with a plurality of third spacing post sliding connection.

Optionally, the base is further provided with a plurality of conveying roller sets.

Optionally, the system further comprises a control device; the control device is rotationally arranged on the base; the first heating device, the second heating device, the cooling device, the first pulling device, the second pulling device, the first push rod device, the second push rod device and the third push rod device are all electrically connected with the control device.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a cold and hot conversion equipment of laminator mould, include: a base; the base is provided with a first transfer platform and a second transfer platform for placing a mold to be heated, a third transfer platform for replacing the mold, a first heating device and a second heating device for heating the mold, a first pulling device for pulling the mold on the first transfer platform into the first heating device, a second pulling device for pulling the mold on the second transfer platform into the second heating device, a cooling device for cooling the heated mold, a first push rod device for pushing the mold in the first heating device into the cooling device, a second push rod device for pushing the mold in the second heating device into the cooling device and a third push rod device for pushing the mold in the cooling device onto the third transfer platform; to sum up, the utility model discloses to female process of arranging, provide a cold and hot conversion equipment of laminator mould, can transfer the mould of waiting to heat and wait the refrigerated mould automatically according to predetermined order, the translation rate is fast, and is efficient, does not need artifical the intervention, has also avoided the problem that people were scalded easily when contacting the mould under the high temperature state.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive effort.

Fig. 1 is a front view of the cold-heat conversion device of the laminating machine mold of the present invention;

fig. 2 is a top view of the laminating machine mold cold-heat conversion device of the present invention;

fig. 3 is a side view of the cold-heat conversion device of the laminator of the present invention;

in the figure, 1, a base; 11. a first pulling device; 12. a second pulling device; 13. a first pusher device; 14. a second pusher device; 15. a third pusher device; 16. a control device; 2. a first transfer table; 3. a second transfer station; 4. a third transfer station; 5. a first heating device; 51. a first hydraulic assembly; 52. a first upper heating template; 53. a first limit post; 6. a second heating device; 61. a second hydraulic assembly; 62. a second upper heating template; 63. a second limit post; 7. a cooling device; 71. a third hydraulic assembly; 72. an upper cooling template; 73. a third limit column; 8. a ball bearing; 9. and a conveying roller group.

Detailed Description

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; 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. The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

In the present application, unless expressly stated or limited otherwise, the recitation of a first feature "on" or "under" a second feature may include the recitation of the first and second features being in direct contact, and may also include the recitation of the first and second features not being in direct contact, but being in contact with another feature between them. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. "beneath," "under" and "beneath" a first feature includes the first feature being directly beneath and obliquely beneath the second feature, or simply indicating that the first feature is at a lesser elevation than the second feature. The terms "vertical," "horizontal," "left," "right," "up," "down," and the like are used for descriptive purposes only and are not intended to indicate or imply that the referenced device or element must be in a particular orientation, constructed and operated, and therefore should not be construed as limiting the present invention.

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.

Example one

A laminator mold cold heat transfer device as shown in fig. 1-3, comprising: a base 1; the base 1 is provided with a first transfer platform 2 and a second transfer platform 3 for placing a mold to be heated, a third transfer platform 4 for replacing the mold, a first heating device 5 and a second heating device 6 for heating the mold, a first pulling device 11 for pulling the mold on the first transfer platform 2 into the first heating device 5, a second pulling device 12 for pulling the mold on the second transfer platform 3 into the second heating device 6, a cooling device 7 for cooling the heated mold, a first push rod device 13 for pushing the mold in the first heating device 5 into the cooling device 7, a second push rod device 14 for pushing the mold in the second heating device 6 into the cooling device 7 and a third push rod device 15 for pushing the mold in the cooling device 7 onto the third transfer platform 4; the first push rod device 13 is connected with one side of the first heating device 5; the other side of the first heating device 5 is connected with one side of a cooling device 7; the other side of the cooling device 7 is connected with one side of a second heating device 6, and the other side of the second heating device 6 is connected with a second push rod device 14; the first transfer platform 2 is arranged at one end of the first heating device 5, and the first pulling device 11 is arranged at the other end of the first heating device 5; the second transfer platform 3 is arranged at one end of the second heating device 6, and the second pulling device 12 is arranged at the other end of the second heating device 6; the third transfer platform 4 is arranged at one end of the cooling device 7, and the third push rod device 15 is arranged at the other end of the cooling device 7.

Particularly, in the actual work production process, female arranging need at first cut into the profile that needs with copper tablet panel, then the punching press becomes the shape that needs, puts into the mould according to the shape that needs with the part that the punching press finishes and pet fixed glue at last and stereotypes, and the process of stereotyping mainly includes: and heating the die to melt the glue in the die, and then connecting a plurality of parts in the die into an integral bus bar. In actual design in-process, need people to load and accomplish the mould and place in heating device, heat the mould, the back is accomplished in the heating, still needs people to shift the mould to cooling device 7, and it is fixed to cool off the fixed glue of PET with the state of melting in the mould, at the transfer process, high temperature mould causes the scald to operating personnel easily, consequently to this kind of problem, the utility model provides an integrated female lamination equipment that arranges sets up first heating device 5 and second heating device 6 and cooling device 7 on base 1, at the in-service use in-process, the time of heating needs an hour usually, and the refrigerated time needs thirty minutes usually, consequently can use two heating device and a cooling device 7 to mutually support to make heating and refrigerated process can recycle, continuous work. In the equipment of this application, third transfer platform 4 is located the centre of first transfer platform 2 and second transfer platform 3, third transfer platform 4 is used for supplying people to go up the unloading, people at first will be equipped with the mould of treating that the part was processed and put on third transfer platform 4, then transversely push to first transfer platform 2 on, first draw device 11 can be with being located the mould on first transfer platform 2 pulling backward to first heating device 5 in, first heating device 5 just can heat the mould, simultaneously, after half an hour, can put another mould on third transfer platform 4, and push the mould from third transfer platform 4 to second transfer platform 3, make the mould draw by second draw device 12 and heat in second heating device 6. After another half hour, the mold in the first heating device 5 is heated, the first pushing rod device 13 pushes the mold in the first heating device 5 to the cooling device 7 to cool the mold, and at the same time, people need to put the next mold on the third transfer table 4 and push the next mold to the first transfer table 2 to heat the first heating device 5, and after the cooling in the cooling device 7 is completed, the third pushing rod device 15 pushes the cooled mold to the third transfer table 4 to perform blanking, and the second pushing rod device 14 pushes the mold in the second heating device 6 to the cooling device 7 to perform cooling. With this formation work cycle, adopt this kind of heating methods, operative employee only need will treat the mould of processing and put on third transfer platform 4, then take off the mould after will cooling from third transfer platform 4, do not need the high temperature mould after the direct contact heating, can avoid the workman of operation direct and the mould contact of high temperature and have the risk of scald.

Further, the first transfer platform 2 comprises a first table top, and the first table top is fixedly arranged on the base 1; the second transfer platform 3 comprises a second table top which is fixedly arranged on the base 1; the third transfer platform 4 comprises a third table top which is fixedly arranged on the base 1; and a plurality of balls 8 are arranged on the first table top, the second table top and the third table top.

Specifically, the first transfer table 2, the second transfer table 3 and the third transfer table 4 are all provided with balls 8 for reducing the moving friction force of the mold, and the balls 8 can change direction and roll according to the requirement, for example, when the mold on the third transfer table 4 needs to be moved onto the first transfer table 2, the mold can move transversely on the balls 8, and when the first drawing device 11 needs to draw the mold into the first heating device 5, the mold can also move longitudinally on the balls 8. The balls 8 on the second transfer table 3 also have the same function and are not described in detail in this application.

Further, the first heating device 5 includes: a first hydraulic assembly 51, a first upper heat-generating die plate 52 and a first lower heat-generating die plate (not shown in the figures); the first hydraulic assembly 51 is fixedly arranged on the base 1, the first upper heating template 52 is fixedly arranged on the driving end of the first hydraulic assembly 51, and the first lower heating template is fixedly arranged on the base 1.

Further, the second heating device 6 includes: a second hydraulic assembly 61, a second upper heating platen 62 and a second lower heating platen (not shown in the figures); the second hydraulic component 61 is fixedly arranged on the base 1, the second upper heating template 62 is fixedly arranged on the driving end of the second hydraulic component 61, and the second lower heating template is fixedly arranged on the base 1.

Particularly, the mould mainly includes mould and bed die, go up the mutual lock of bed die after, in heating and cooling process, need heat the bed die simultaneously about, consequently the utility model discloses a first heating device 5 and second heating device 6 all use the hydraulic press to control, the template that generates heat is used for extrudeing each other with the mould, the inside of the template that generates heat still is equipped with hot oil pipe or electrothermal tube, there is mobile hot oil inside hot oil pipe, after the heating of outside heating device, make the heating platen temperature rise, and then make the temperature rise of heating template and lower heating platen, thereby make the mould temperature between the bed die rise, inside pet fixed glue melts. Those skilled in the art can know that the electrothermal tube inside the heating template only needs to be electrified, so that the temperature of the heating template is increased, and the heating template is not described in detail in the application.

Further, the heating device further comprises a plurality of first limiting posts 53 and a plurality of second limiting posts 63, the bottom ends of the plurality of first limiting posts 53 and the bottom ends of the plurality of second limiting posts 63 are fixedly arranged on the base 1, and the first upper heating template 52 is respectively connected with the plurality of first limiting posts 53 in a sliding manner; the second upper heating template 62 is slidably connected to a plurality of second limiting posts 63, respectively.

Particularly, because the required pressure of mould is great, at the extrusion in-process, if the mould does not put levelly and smoothly, will lead to the great board atress that generates heat of area inhomogeneous and the emergence slope, damage hydraulic means, consequently set up spacing post on base 1, at the board in-process that generates heat of last, it is spacing to last board that generates heat, can avoid effectively that the board that generates heat takes place the problem of slope.

Further, the cooling device 7 includes: a third hydraulic assembly 71, an upper cooling platen 72 and a lower cooling platen (not shown in the figures); the third hydraulic assembly 71 is fixedly arranged on the base 1, the upper cooling template 72 is fixedly arranged on the driving end of the third hydraulic assembly 71, and the lower cooling template is fixedly arranged on the base 1.

Further, still include a plurality of third spacing posts 73, a plurality of the bottom of third spacing post 73 all is fixed to be set up on base 1, go up cooling template 72 and a plurality of third spacing posts 73 sliding connection respectively.

Particularly, the cooling device 7 is similar to the heating device in principle, the heat of the mold is transferred to the cooling template of the cooling device 7 in a heat transfer mode, a water pipe or a coolant conveying pipe is arranged inside the cooling template, the water pipe directly utilizes water flow to take away the heat on the cooling template, the coolant needs to be matched with an external compressor, the coolant in a compression state is conveyed into the conveying pipe inside the cooling template, the heat is taken away through phase change of the coolant, and the purpose of reducing the temperature of the mold is achieved. The specific structures of the external compressor and the like are not described in detail in the present application.

Further, a plurality of conveying roller sets 9 are further arranged on the base 1.

Specifically, the molds are usually located on the bottom heating mold plate or cooling mold plate in the heating device or the cooling device 7, in order to avoid energy dissipation, the mold plate and the mold plate need to be isolated from each other, so that a gap exists between the mold plate and the mold plate, when the mold is pushed by the push rod device to move transversely, the mold can be clamped in the gap, and therefore, the conveying roller group 9 is arranged between the mold plate and the mold plate, so that the mold can interact with the conveying roller group 9 to prevent clamping when moving transversely. Similarly, the moulds moving transversely between the transfer tables are also at risk of being clamped, so that the conveying roller sets 9 are correspondingly arranged between the transfer tables; similarly, a conveying roller group 9 for avoiding the mold from being clamped is correspondingly arranged between the transfer table and the heating device or between the transfer table and the cooling device 7.

Further, a control device 16 is also included; the control device 16 is rotatably arranged on the base 1; the first heating device 5, the second heating device 6, the cooling device 7, the first pulling device 11, the second pulling device 12, the first pushing rod device 13, the second pushing rod device 14 and the third pushing rod device 15 are all electrically connected with the control device 16.

The control device 16 mainly includes: the control computer comprises a calculation unit and a storage unit, a preset program is stored in the storage unit, and the calculation unit can correspondingly control the heating device, the cooling device 7 pulling device or the pushing device to move in a matching mode according to the preset program so as to achieve an automatic working process.

Other structures of the first embodiment are shown in the prior art.

Example two

As a further improvement of the present invention, in the second embodiment, in the cold and hot conversion device for the mold of the laminating machine, the pushing device and the pulling device are further limited, in this embodiment, a plurality of molds are placed in the tray, the pushing device uses the cylinder as the pushing device, and the pulling device also uses the cylinder as the driving device; the driving end of the pulling device is also provided with a first hook-shaped component, the edge of the corresponding die tray is provided with a second hook-shaped component matched with the hook-shaped component, when the pulling device extends outwards, the first hook-shaped component and the second hook-shaped component are mutually buckled, and when the pulling device retracts inwards, the die tray can be driven to move into the heating device. The placing positions of the dies can be kept consistent by using the die tray, and the phenomenon that the mutual positions of the dies are changed to influence the hydraulic effect of the heating device is avoided.

The other structure in the second embodiment is described with reference to the first embodiment.

To sum up, the utility model discloses to female course of working of arranging, provide a cold and hot conversion equipment of laminator mould, can transfer the mould of treating the heating automatically and treat refrigerated mould according to predetermined order, the translation rate is fast, and is efficient, does not need artifical the intervention, has also avoided the problem that people were scalded easily when contacting the mould under the high temperature state.

The present invention is not limited to the above embodiment, and various modifications and variations of the present invention are also intended to be included within the scope of the claims and the equivalent technical scope of the present invention if they do not depart from the spirit and scope of the present invention.

Claims (9)

1. The utility model provides a laminator mould cold and hot conversion equipment which characterized in that includes: a base; the base is provided with a first transfer platform and a second transfer platform for placing a mold to be heated, a third transfer platform for replacing the mold, a first heating device and a second heating device for heating the mold, a first pulling device for pulling the mold on the first transfer platform into the first heating device, a second pulling device for pulling the mold on the second transfer platform into the second heating device, a cooling device for cooling the heated mold, a first push rod device for pushing the mold in the first heating device into the cooling device, a second push rod device for pushing the mold in the second heating device into the cooling device and a third push rod device for pushing the mold in the cooling device onto the third transfer platform;

the first push rod device is connected with one side of the first heating device; the other side of the first heating device is connected with one side of the cooling device; the other side of the cooling device is connected with one side of a second heating device, and the other side of the second heating device is connected with a second push rod device;

the first transfer platform is arranged at one end of the first heating device, and the first pulling device is arranged at the other end of the first heating device; the second transfer platform is arranged at one end of a second heating device, and the second pulling device is arranged at the other end of the second heating device; the third transfer platform is arranged at one end of the cooling device, and the third push rod device is arranged at the other end of the cooling device.

2. The laminator die heat and cold conversion device of claim 1, wherein the first transfer station includes a first table, the first table being fixedly disposed on the base; the second transfer platform comprises a second table top which is fixedly arranged on the base; the third transfer platform comprises a third table top which is fixedly arranged on the base; and a plurality of balls are arranged on the first table top, the second table top and the third table top.

3. The laminator mold heat and cold conversion device of claim 2, wherein the first heating device comprises: the first hydraulic component, the first upper heating template and the first lower heating template; the first hydraulic assembly is fixedly arranged on the base, the first upper heating template is fixedly arranged on the driving end of the first hydraulic assembly, and the first lower heating template is fixedly arranged on the base.

4. The laminating machine mold heat and cold converting apparatus according to claim 3, wherein the second heating apparatus includes: the second hydraulic component, the second upper heating template and the second lower heating template; the second hydraulic component is fixedly arranged on the base, the second upper heating template is fixedly arranged on a driving end of the second hydraulic component, and the second lower heating template is fixedly arranged on the base.

5. The cold-heat conversion device for the laminating machine mold as claimed in claim 4, further comprising a plurality of first limiting posts and a plurality of second limiting posts, wherein the bottom ends of the plurality of first limiting posts and the bottom ends of the plurality of second limiting posts are both fixedly arranged on the base, and the first upper heating template is respectively connected with the plurality of first limiting posts in a sliding manner; the second upper heating template is respectively connected with the second limiting columns in a sliding mode.

6. The laminator die heat and cold conversion device of claim 1, wherein the cooling device comprises: a third hydraulic assembly, an upper cooling die plate and a lower cooling die plate; the third hydraulic assembly is fixedly arranged on the base, the upper cooling template is fixedly arranged on the driving end of the third hydraulic assembly, and the lower cooling template is fixedly arranged on the base.

7. The cold-heat conversion device for the laminating machine mold as claimed in claim 6, further comprising a plurality of third limiting posts, wherein the bottom ends of the plurality of third limiting posts are all fixedly arranged on the base, and the upper cooling template is slidably connected with the plurality of third limiting posts respectively.

8. The laminator die heat and cold conversion device of claim 1, wherein a plurality of sets of conveyor rollers are further disposed on the base.

9. The laminating machine mold heat and cold conversion device of claim 1, further comprising a control device; the control device is rotatably arranged on the base; the first heating device, the second heating device, the cooling device, the first pulling device, the second pulling device, the first push rod device, the second push rod device and the third push rod device are all electrically connected with the control device.

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