CN210553078U

CN210553078U - Automatic splicing machine of heat radiation

Info

Publication number: CN210553078U
Application number: CN201920764178.1U
Authority: CN
Inventors: 李福龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-05-24
Filing date: 2019-05-24
Publication date: 2020-05-19
Anticipated expiration: 2029-05-24

Abstract

The utility model discloses an automatic splicing machine of heat radiation, including the frame, install in closing device and conveyer in the frame, closing device include the mount, install in last mould electricity jar of mount upper end, install in last mould of the power end of last mould electricity jar, install in lower mould electricity jar of mount lower extreme and install in the lower mould of lower mould electricity jar, go up the mould with the lower mould sets up in opposite directions, go up the mould and initial station, absorption station and laminating station have been preset to the motion stroke of lower mould, it is provided with first adsorption equipment to go up the mould, the lower mould is provided with second adsorption equipment, and this automatic splicing machine of heat radiation overflows the offset and is little, avoids the deburring process in later stage, and the elapsed time is few.

Description

Automatic splicing machine of heat radiation

Technical Field

The utility model relates to a splicing machine technical field especially relates to an automatic splicing machine of heat radiation.

Background

Most of hollow spheres in the market are manufactured by using an injection molding machine or other machines to mold two hemispheres, adhering the two hemispheres together by using glue to form a hollow sphere, or by hot melting connection, namely, the two hemispheres are respectively abutted against a heating plate, and adhering the two hemispheres after plastic on the contact surface of the hemispheres and the heating plate is melted, but after the adhering mode is adopted for adhesion, glue overflow occurs at the adhering position of the two hemispheres, one part of glue overflows out of the sphere formed by adhering the two hemispheres, the other part of glue overflows into the sphere, the glue overflowing out of the sphere can be removed by the prior art, but trimming operation is carried out on the sphere, the consumed time is longer, the color difference exists between the adhering position after treatment and the two hemispheres forming the sphere, the appearance of a product is influenced, in addition, the glue overflowing into the interior of the sphere cannot be removed by the prior art, if the ball body is transparent, people can directly see the colloid inside the ball body, the visual effect of the product is influenced, and the product is not favorable for sale.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an automatic bonding machine of heat radiation, the excessive glue amount is little, effectively avoid the deburring process in later stage, and the elapsed time is few.

The purpose of the utility model is realized by adopting the following technical scheme:

the utility model provides an automatic splicing machine of heat radiation, includes the frame, install in closing device and conveyer in the frame, closing device includes the mount, install in last mould electric jar on the mount, install in go up the last mould of the power end of mould electric jar, install in the lower mould electric jar of mount lower extreme and install in the lower mould of lower mould electric jar, it is suitable for the drive to go up the mould electric jar go up the mould orientation the mould direction motion down, the lower mould electric jar is suitable for the drive the mould orientation down go up the mould direction motion, the mould and the motion stroke of lower mould preset initial station, adsorb station and laminating station, it is provided with first adsorption equipment to go up the mould, the lower mould is provided with second adsorption equipment, conveyer includes pay-off actuating motor, electrothermal mechanism actuating motor, adsorption of electricity, and the transport unit is including the pay-off actuating motor, the actuating motor of electrothermal mechanism, The automatic feeding device comprises a slide rail, a feeding motion tray arranged at the first end of the slide rail and an electric heating mechanism arranged at the second end of the slide rail, wherein a processing station is arranged on the slide rail and is positioned between an upper mold and a lower mold, a feeding driving motor is suitable for driving the feeding motion tray to move between the first end of the slide rail and the processing station, an electric heating mechanism driving motor is suitable for driving the electric heating mechanism to move between the second end of the slide rail and the processing station, the upper end and the lower end of the feeding motion tray are respectively used for placing an upper workpiece and a lower workpiece,

when the feeding moving tray moves to a processing station, the upper die electric cylinder drives the upper die to move to an adsorption station so that the first adsorption device adsorbs an upper workpiece placed at the upper end of the feeding moving tray, and the lower die electric cylinder drives the lower die to move to an adsorption station so that the second adsorption device adsorbs a lower workpiece placed at the lower end of the feeding moving tray;

when the feeding motion tray moves to the first end of the sliding rail, the upper die electric cylinder drives the upper die to move to an initial station and drives an upper workpiece to move to the initial station, and the lower die electric cylinder drives the lower die to move to the initial station and drives a lower workpiece to move to the initial station;

when the electric heating mechanism moves to a processing station, the upper die electric cylinder drives the upper die to move to an adsorption station and drives an upper workpiece to move to the adsorption station, the lower die electric cylinder drives the lower die to move to the adsorption station and drives a lower workpiece to move to the adsorption station, and the electric heating mechanism generates heat radiation to heat the upper workpiece and the lower workpiece;

when the electric heating mechanism moves to when the slide rail second end, go up the mould electric cylinder drive go up the mould motion to laminating station to work piece motion to laminating station in the drive, lower mould electric cylinder drive the mould motion is to laminating station down, and drives down the work piece motion to laminating station, so that go up the work piece and laminate with lower work piece.

Furthermore, the mold closing device also comprises an upper mold movable plate which is connected with the rack in a sliding manner, and the upper mold movable plate is fixedly connected with the power end of the upper mold electric cylinder.

Furthermore, the mold closing device also comprises a lower mold movable plate which is connected with the rack in a sliding manner, and the lower mold movable plate is fixedly connected with the power end of the lower mold electric cylinder.

Furthermore, the electric heating mechanism comprises an installation platform connected with the sliding rail in a sliding manner, a metal heating sheet arranged on the installation platform, a transformer arranged on the rack and an electric heating wire used for connecting the metal heating sheet with the transformer, and the installation platform is fixedly connected with a power end of a driving motor of the electric heating mechanism.

The first vacuum suction device comprises a first vacuum suction cup installed on the upper mold, the first vacuum suction cup is provided with a first connecting pipe connected with the vacuum pump, and a first vacuum valve is arranged on the first connecting pipe.

Further, the first suction device comprises a second vacuum chuck mounted on the lower mold, the second vacuum chuck is provided with a second connecting pipe connected with the vacuum pump, and a second vacuum valve is arranged on the second connecting pipe.

Furthermore, the upper end and the lower end of the feeding motion tray are provided with third vacuum chucks for adsorbing an upper workpiece and a lower workpiece, the third vacuum chucks are provided with third connecting pipes connected with the vacuum pump, and the first connecting pipes are provided with third vacuum valves.

Further, the device comprises a controller, wherein the controller is electrically connected with the upper die electric cylinder, the lower die electric cylinder, the feeding driving motor, the electric heating mechanism driving motor, the vacuum pump, the first vacuum valve, the second vacuum valve and the third vacuum valve.

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

this application produces the heat radiation through the electric heat mechanism that sets up, heats the face of waiting to bond of going up work piece and lower work piece to the face of waiting to bond of work piece and lower work piece melts, and the indirect face direct contact that waits to bond with last work piece and lower work piece, the face of waiting to bond of effectively avoiding going up work piece and lower work piece melts excessively, and the excessive phenomenon of gluing appears in the face of waiting to bond of going up work piece and lower work piece when leading to bonding, has reduced the processing procedure in later stage simultaneously.

Drawings

Fig. 1 is a schematic structural view of an automatic thermal radiation bonding machine according to the present invention;

fig. 2 is a top view of an automatic thermal radiation bonding machine according to the present invention;

fig. 3 is a state diagram of the thermal radiation automatic bonding machine of the present invention in use.

In the figure: 1. feeding a motion tray; 2. loading a workpiece; 3. an upper die electric cylinder; 4. an upper die movable plate; 5. molding a mold; 6. a lower die electric cylinder; 7. a lower die movable plate; 8. making a lower die; 9. a feed drive motor; 10. the electric heating mechanism drives the motor; 11. an electric heating mechanism; 12. a metal heating sheet; 13. an electric heating wire; 14. a transformer; 15. and a controller.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

An automatic thermal radiation bonding machine as shown in fig. 1-3 comprises a frame, a mold closing device and a transportation device, wherein the mold closing device and the transportation device are arranged on the frame, the mold closing device comprises a fixed frame, an upper mold electric cylinder 3 arranged at the upper end of the fixed frame, an upper mold 5 arranged at the power end of the upper mold electric cylinder 3, a lower mold electric cylinder 6 arranged at the lower end of the fixed frame and a lower mold 8 arranged at the lower mold electric cylinder 6, the upper mold electric cylinder 3 is suitable for driving the upper mold 5 to move towards the lower mold 8, the lower mold electric cylinder 6 is suitable for driving the lower mold 8 to move towards the upper mold 5, the movement strokes of the upper mold 5 and the lower mold 8 are preset with an initial station, an adsorption station and a bonding station, the upper mold 5 is provided with a first adsorption device, the lower mold 8 is provided with a second adsorption device, the transportation device comprises a feeding driving motor 9, an, The automatic feeding device comprises a sliding rail, a feeding motion tray 1 arranged at a first end of the sliding rail and an electric heating mechanism 11 arranged at a second end of the sliding rail, wherein a machining station is arranged on the sliding rail and is positioned between an upper mold 5 and a lower mold 8, a feeding driving motor 9 is suitable for driving the feeding motion tray 1 to move between the first end of the sliding rail and the machining station, an electric heating mechanism driving motor 10 is suitable for driving the electric heating mechanism 11 to move between the second end of the sliding rail and the machining station, and the upper end and the lower end of the feeding motion tray 1 are respectively used for placing an upper workpiece 2 and a lower workpiece; in this application, the initial position of the upper mold 5 and the lower mold 8 is used as an initial station, the position of the upper mold 5 and the lower mold 8 from the slide rail 1 to 5 mm is used as an adsorption station, and the position of the upper mold 5 and the lower mold 8 is used as a bonding station when the upper workpiece 2 and the lower workpiece are bonded.

When the feeding moving tray 1 moves to a processing station, the upper die electric cylinder 3 drives the upper die 5 to move to an adsorption station so that the first adsorption device adsorbs an upper workpiece 2 placed at the upper end of the feeding moving tray 1, and the lower die electric cylinder 6 drives the lower die 8 to move to the adsorption station so that the second adsorption device adsorbs a lower workpiece placed at the lower end of the feeding moving tray 1;

when the feeding moving tray 1 moves to the first end of the sliding rail, the upper die electric cylinder 3 drives the upper die 5 to move to an initial station and drives the upper workpiece 2 to move to the initial station, and the lower die electric cylinder 6 drives the lower die 8 to move to the initial station and drives the lower workpiece to move to the initial station;

when the electric heating mechanism 11 moves to a processing station, the upper mold electric cylinder 3 drives the upper mold 5 to move to an adsorption station and drives the upper workpiece 2 to move to the adsorption station, the lower mold electric cylinder 6 drives the lower mold 8 to move to the adsorption station and drives the lower workpiece to move to the adsorption station, and the electric heating mechanism 11 generates heat radiation to heat the upper workpiece 2 and the lower workpiece; in the process, the upper workpiece 2 and the lower workpiece are not in contact with the electric heating structure, so that excessive melting of the parts to be attached of the upper workpiece 2 and the lower workpiece is avoided. Specifically, the electric heating mechanism 11 comprises an installation platform connected with the slide rail in a sliding way, a metal heating sheet 12 arranged on the installation platform, a transformer 14 arranged on the frame and an electric heating lead 13 used for connecting the metal heating sheet 12 with the transformer 14, the installation platform is fixedly connected with the power end of the electric heating mechanism driving motor 10, the output voltage of the transformer 14 is controlled by the controller 15 to control the heat radiation emitted by the metal heating plate 12, so that when the metal heating plate 12 heats the upper workpiece 2 and the lower workpiece, according to the difference of the materials of the upper workpiece 2 and the lower workpiece, the melting degree and the melting depth of one end (namely the surface to be bonded) of the upper workpiece 2 and one end of the lower workpiece close to the metal heating sheet 12 are adjusted, so as to avoid excessive melting of the surfaces to be bonded of the upper workpiece 2 and the lower workpiece and glue overflow when the surfaces to be bonded of the upper workpiece 2 and the lower workpiece are bonded.

When the electric heating mechanism 11 moves to the second end of the sliding rail, the upper mold electric cylinder 3 drives the upper mold 5 to move to the fitting station and drives the upper workpiece 2 to move to the fitting station, and the lower mold electric cylinder 6 drives the lower mold 8 to move to the fitting station and drives the lower workpiece to move to the fitting station, so that the upper workpiece 2 is fitted with the lower workpiece.

Specifically, the mold closing device further comprises an upper mold movable plate 4 connected with the rack in a sliding mode, the upper mold movable plate 4 is fixedly connected with the power end of the upper mold electric cylinder 3, the mold closing device further comprises a lower mold movable plate 7 connected with the rack in a sliding mode, and the lower mold movable plate 7 is fixedly connected with the power end of the lower mold electric cylinder 6 so as to avoid deviation when the upper mold 5 and the lower mold 8 slide.

Specifically, the automatic splicing machine of heat radiation still includes the vacuum pump, and first vacuum chuck is provided with the first connecting pipe with vacuum pump connection including installing in last mould 5 to first adsorption equipment, is provided with first vacuum valve on the first connecting pipe.

The first suction device comprises a second vacuum sucker installed on the lower mold 8, the second vacuum sucker is provided with a second connecting pipe connected with a vacuum pump, and a second vacuum valve is arranged on the second connecting pipe.

The first vacuum chuck and the second vacuum chuck are used for adsorbing the upper workpiece 2 and the lower workpiece, and the first vacuum valve and the second vacuum valve are used for controlling the starting and the closing of the first vacuum chuck and the second vacuum chuck to be convenient to use.

And the upper end and the lower end of the feeding motion tray 1 are provided with third vacuum chucks for adsorbing the upper workpiece 2 and the lower workpiece, the third vacuum chucks are provided with third connecting pipes connected with a vacuum pump, and the first connecting pipes are provided with third vacuum valves. The third vacuum chuck is used for adsorbing the upper workpiece 2 and the lower workpiece, so that the use is convenient.

Specifically, the vacuum forming device further comprises a controller 15, wherein the controller 15 is electrically connected with the upper die electric cylinder 3, the lower die electric cylinder 6, the feeding driving motor 9, the electric heating mechanism driving motor 10, the transformer 14, the vacuum pump, the first vacuum valve, the second vacuum valve and the third vacuum valve.

During operation, the controller 15 controls the feeding driving motor 9 to convey the feeding moving tray 1 to a processing station, then the upper die electric cylinder 3 is started to enable the upper die 5 to move to an adsorption station, the first adsorption device is started to adsorb an upper workpiece 2 placed at the upper end of the feeding moving tray 1, the lower die electric cylinder 6 is started to enable the lower die 8 to move to the adsorption station while the upper die air cylinder is started, and the second adsorption device is started to adsorb a lower workpiece placed at the lower end of the feeding moving tray 1 to take the upper workpiece 2 and the lower workpiece down from the feeding moving tray 1;

then controlling a feeding driving motor 9 to convey the feeding moving tray 1 to the first end of the sliding rail, controlling an upper electric cylinder 3 to drive an upper mould 5 to move to an initial station so as to drive an upper workpiece 2 to move to the initial station, and synchronously controlling a lower electric cylinder 6 to drive a lower mould 8 to move to the initial station so as to drive a lower workpiece to move to the initial station;

and then controlling an electric heating mechanism driving motor 10 to move an electric heating mechanism 11 to a processing station, controlling an upper electric cylinder 3 to drive an upper mould 5 to move to an adsorption station, driving an upper workpiece 2 to move to the adsorption station, synchronously controlling a lower electric cylinder 6 to drive a lower mould 8 to move to the adsorption station, driving a lower workpiece to move to the adsorption station, starting the electric heating mechanism 11 to generate heat radiation, heating the upper workpiece 2 and the lower workpiece, and melting one ends of the upper workpiece 2 and the lower workpiece close to the electric heating mechanism 11, namely melting the upper workpiece 2 and the lower workpiece.

And then when the electric heating mechanism 11 is controlled to move to the second end of the sliding rail, the upper mold electric cylinder 3 drives the upper mold 5 to move to the laminating station and drives the upper workpiece 2 to move to the laminating station, and the lower mold electric cylinder 6 drives the lower mold 8 to move to the laminating station and drives the lower workpiece to move to the laminating station, so that the upper workpiece 2 is laminated with the lower workpiece.

Specifically, the time for jointing the ground workpiece 2 and the lower workpiece needs to be set according to the materials of the upper workpiece and the lower workpiece, when the jointing surfaces of the upper workpiece and the lower workpiece are melted, timing according to the set material plasticizing time, driving the motor to reset by the electrothermal motion after the timing is reached, namely, the electric heating mechanism 11 stops after moving to the second end of the slide rail, the upper die electric cylinder 3 and the lower die electric cylinder 6 are started simultaneously and stop after moving to the bonding station respectively in the forward direction, at the moment, the bonding surfaces of the upper workpiece 2 and the lower workpiece are tightly pressed together, the controller 15 controls the first vacuum pump to stop working, the cooling time starts to time, and after the timing reaches the preset time, the upper die electric cylinder 3 and the lower die electric cylinder 6 are reversely reset to the starting point at the same time, the resetting is completed, the controller 15 controls the second vacuum pump to stop working, the product is taken out, the automatic process is finished, and the operator waits for pressing the starting switch to enter the automatic cycle again.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims

1. The utility model provides an automatic splicing machine of heat radiation which characterized in that: the mould closing device comprises a frame, a mould closing device and a conveying device, wherein the mould closing device and the conveying device are installed on the frame, the mould closing device comprises a fixing frame, an upper mould electric cylinder installed at the upper end of the fixing frame, an upper mould installed at the power end of the upper mould electric cylinder, a lower mould electric cylinder installed at the lower end of the fixing frame and a lower mould installed at the lower mould electric cylinder, the upper mould electric cylinder is suitable for driving the upper mould to move towards the lower mould, the lower mould electric cylinder is suitable for driving the lower mould to move towards the upper mould, the movement stroke of the upper mould and the lower mould is preset with an initial station, an adsorption station and a laminating station, the upper mould is provided with a first adsorption device, the lower mould is provided with a second adsorption device, and the conveying device comprises a feeding driving motor, an electric heating mechanism driving motor, a sliding rail, The feeding mechanism comprises a feeding motion tray arranged at the first end of the slide rail and an electric heating mechanism arranged at the second end of the slide rail, wherein a processing station is arranged on the slide rail and is positioned between the upper mold and the lower mold, a feeding driving motor is suitable for driving the feeding motion tray to move between the first end of the slide rail and the processing station, an electric heating mechanism driving motor is suitable for driving the electric heating mechanism to move between the second end of the slide rail and the processing station, the upper end and the lower end of the feeding motion tray are respectively used for placing an upper workpiece and a lower workpiece,

2. A thermal radiation automatic bonding machine according to claim 1, characterized in that: the mold closing device further comprises an upper mold movable plate in sliding connection with the rack, and the upper mold movable plate is fixedly connected with the power end of the upper mold electric cylinder.

3. A thermal radiation automatic bonding machine according to claim 1, characterized in that: the mold closing device also comprises a lower mold movable plate which is connected with the rack in a sliding manner, and the lower mold movable plate is fixedly connected with the power end of the lower mold electric cylinder.

4. A thermal radiation automatic bonding machine according to claim 1, characterized in that: the electric heating mechanism comprises a mounting platform, a metal heating sheet, a transformer and an electric heating wire, wherein the mounting platform is connected with the sliding rail in a sliding mode, the metal heating sheet is arranged on the mounting platform, the transformer is arranged on the rack, the electric heating wire is used for connecting the metal heating sheet with the transformer, and the mounting platform is fixedly connected with a power end of a driving motor of the electric heating mechanism.

5. A thermal radiation automatic bonding machine according to claim 1, characterized in that: the vacuum mould further comprises a vacuum pump, the first suction device comprises a first vacuum sucker installed on the upper mould, the first vacuum sucker is provided with a first connecting pipe connected with the vacuum pump, and a first vacuum valve is arranged on the first connecting pipe.

6. A thermal radiation automatic bonding machine according to claim 5, characterized in that: the first suction device comprises a second vacuum sucker installed on the lower mould, the second vacuum sucker is provided with a second connecting pipe connected with the vacuum pump, and a second vacuum valve is arranged on the second connecting pipe.

7. A thermal radiation automatic bonding machine according to claim 6, characterized in that: and the upper end and the lower end of the feeding motion tray are provided with third vacuum chucks for adsorbing an upper workpiece and a lower workpiece, the third vacuum chucks are provided with third connecting pipes connected with the vacuum pump, and the first connecting pipes are provided with third vacuum valves.

8. A thermal radiation automatic bonding machine according to claim 7, characterized in that: the electric heating mechanism is characterized by further comprising a controller, wherein the controller is electrically connected with the upper die electric cylinder, the lower die electric cylinder, the feeding driving motor, the electric heating mechanism driving motor, the vacuum pump, the first vacuum valve, the second vacuum valve and the third vacuum valve.