CN216866949U - Vacuum cup vacuumizing equipment - Google Patents

Abstract

The utility model discloses vacuum pumping equipment for a vacuum cup. The vacuum cup comprises a vacuum container, wherein a supporting unit for supporting a plurality of cup bodies, an optical glass unit arranged above the cup bodies and a laser welder unit positioned above the optical glass unit and used for welding the cup bodies are arranged in the vacuum container; the laser welding machine unit comprises a laser welding head and a driving unit for controlling the laser welding head to move; the vacuum container is connected with a vacuum pump and/or a molecular pump for vacuumizing the interior of the vacuum container. The welding points can be automatically identified, the sealing is welded through the laser welding machine, heating is not needed or only needs to be carried out at a lower temperature, and the energy consumption can be greatly reduced; the vacuum pump and the molecular pump are matched for vacuum pumping, so that the higher vacuum degree of the vacuum container is realized.

Description

Vacuum cup vacuumizing equipment

Technical Field

The utility model relates to the technical field of vacuum cup production equipment, in particular to vacuum cup vacuumizing equipment.

Background

The existing vacuum cup welding mode generally needs to heat a vacuum container to at least 500 ℃ to melt sealing materials so as to seal a seal, the mode has high energy consumption, and the mode needs to be improved under the large environment that energy conservation and environmental protection are strongly promoted.

SUMMERY OF THE UTILITY MODEL

The utility model provides vacuum cup vacuumizing equipment aiming at the defects in the prior art.

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

a vacuum cup vacuumizing device comprises a vacuum container, wherein a supporting unit for supporting a plurality of cup bodies, an optical glass unit arranged above the cup bodies and a laser welding machine unit which is positioned above the optical glass unit and used for welding the cup bodies are arranged in the vacuum container;

the laser welding machine unit comprises a laser welding head and a driving unit for controlling the laser welding head to move;

the vacuum container is connected with a vacuum pump and/or a molecular pump for vacuumizing the interior of the vacuum container.

In the above technical solution, preferably, a positioning block unit and a driving member are relatively fixed in the vacuum container, the supporting unit is slidably connected to the positioning block unit and can control the sliding motion of the positioning block unit through the driving member, and the driving member is a cylinder or a motor.

In the above technical scheme, preferably, a frame body is arranged in the vacuum container, and the support unit, the optical glass unit and the laser welder unit are all arranged on the frame body.

In the above technical scheme, preferably, a support plate is relatively fixed on the frame body, and the positioning block unit is fixed on the support plate.

In the above technical solution, preferably, the driving member and the positioning block unit are respectively fixed to the frame body.

In the above technical scheme, preferably, still be provided with the camera unit that is used for shooing the cup welding point on the support body, camera unit and the control unit electric connection, the control unit with laser welding machine unit electric connection for control laser welding head corresponds the position welding at the cup.

In the above technical scheme, preferably, a connecting plate is relatively fixed on the frame body, and the camera unit is arranged on the connecting plate.

In the above technical solution, preferably, the upper surface of the supporting unit includes a plurality of fitting positions for placing the cup body.

In the above technical solution, preferably, the support unit has a connecting member extending downward, and the output shaft of the driving member is connected to the connecting member.

In the above technical solution, preferably, the driving unit includes a first driving portion for controlling the laser welding head to move in the front-rear direction and a second driving portion for controlling the laser welding head to move in the left-right direction.

The utility model has the beneficial effects that:

the welding point can be automatically identified, and the sealing is welded by the laser welding machine, so that heating is not needed or only needs to be carried out at a lower temperature, and the energy consumption can be greatly reduced;

the vacuum pump and the molecular pump are matched for vacuum pumping, so that the higher vacuum degree of the vacuum container is realized.

Drawings

FIG. 1 is a schematic view of the present invention.

FIG. 2 is a schematic view of the internal structure of the vacuum vessel according to the present invention.

FIG. 3 is a schematic view of a supporting unit according to the present invention.

FIG. 4 is a schematic view of a positioning block unit according to the present invention.

Detailed Description

The utility model is described in further detail below with reference to specific embodiments and the attached drawing figures:

referring to fig. 1-4, a vacuum cup vacuum pumping device comprises a vacuum container 1, wherein the vacuum container 1 comprises a closing door 11 which can be opened and closed, and an observation window can be arranged on the vacuum container 1 and/or the closing door 11 for observing the internal condition in a working state.

The vacuum container 1 is connected with a vacuum pump 2 and/or a molecular pump 3, in the embodiment, the vacuum container 1 is respectively connected with the vacuum pump 2 and the molecular pump 3, and the vacuum container 1 is vacuumized through the vacuum pump 2 and the molecular pump 3 and comprises a cup body arranged inside.

In order to facilitate the installation of the internal structure of the vacuum container 1, a frame body 4 is arranged in the vacuum container 1, and the frame body 4 can be fixedly installed relative to the vacuum container 1.

In this embodiment, the support plate 5 is relatively and fixedly mounted on the frame body 4, the positioning block unit 6 is relatively and fixedly mounted on the support plate 5, the positioning block unit 6 may be two strip-shaped components symmetrically disposed on the support plate, or may be in other forms, the positioning block unit 6 is slidably provided with the support unit 7, for example, the positioning block unit 6 may have a sliding slot, the support unit 7 is slidably disposed at the sliding slot, and the support unit 7 may also be a plate-shaped member.

The supporting unit 7 is controlled by a driving part 71 arranged on the frame body 1 or on the bottom surface of the supporting plate 5 to move transversely, the driving part 71 can be an air cylinder or a motor, the supporting unit 7 can also move transversely by manual control, so that the cup body can be conveniently placed and taken, in the embodiment, a connecting part 72 extends downwards from the supporting unit 7, an output shaft of the driving part 71 is connected with the connecting part 72, a positioning part 51 can be additionally arranged on the supporting plate 5 for improving the driving stability of the driving part 71, and a hole for the output shaft of the driving part 71 to pass through is formed in the positioning part 51, so that the output shaft of the driving part 71 can be stably supported.

In order to facilitate the placement of the cup body, a plurality of fitting positions 73 may be provided on the supporting unit 7, and the cup bodies are placed on the fitting positions 73 in a one-to-one correspondence, so as to prevent the cup body from moving laterally when a vacuum is drawn.

In this embodiment, an optical glass unit 8 is further disposed on the frame body 1, the optical glass unit 8 is located above the cup body, and the optical glass unit 8 at least includes optical glass.

In this embodiment, a laser welding unit is further disposed on the frame body 1, the laser welding unit is located above the optical glass unit 8, the laser welding unit includes a laser welding head 91 and a driving unit for controlling the movement of the laser welding head 91, and the driving unit may be a driving structure commonly found in the prior art, for example, the driving unit includes a first driving portion 92 for controlling the movement of the laser welding head 91 in the front-back direction and a second driving portion 93 for controlling the movement of the laser welding head 91 in the left-right direction, and further, a third driving portion for controlling the up-down movement of the laser welding head 91 may also be disposed, and the control may be achieved by a motor, an air cylinder, or other forms.

Still including the camera unit 13 that is used for shooing the cup welding point, camera unit 13 can set up on laser welding head or can set up on the support body:

when camera unit 13 sets up on the laser welding head, the removal through the laser welding head drives camera unit 13 and shoots the cup welding point, shoots the welding mode and can have the multiple, if clap one and weld one, can promote welded accuracy.

When camera unit 13 sets up on support body 1, can be provided with relatively fixed connecting plate 12 on support body 1, camera unit 13 is fixed in on connecting plate 12, and under this kind of mode, camera unit 13's the position of setting can be located laser welder unit top, and further can set up in optical glass unit 8 relative central point to overall shooting arrives optical glass unit below whole cups.

The camera unit 13 is arranged to aim at the difference of the welding points of different cups, and the camera unit is needed to accurately know the welding points of different cups.

The camera unit 13 is electrically connected with the control unit, and the control unit is electrically connected with the laser welder unit and used for controlling the laser welding head 91 to weld at the corresponding part of the cup body.

After the cup bodies are completely placed and moved into the vacuum container 1, the first step of vacuumizing is performed, the step can be performed through the vacuum pump 2, then the positions of welding points of the cup bodies are shot through the camera unit 13, after the information of the welding points is fed back to the control unit, the laser welding machine unit is started, the sealing of the cup bodies is welded through the optical glass unit 8, then the second step of vacuumizing is performed, the step can be performed through the molecular pump 3, and the cup bodies are taken out after the step is completed.

In the above steps, the vacuum container 1 can be heated in the corresponding steps according to actual needs, the heating temperature can be set to be 60-80 ℃, and the heating component can be any component capable of heating the interior of the vacuum container, such as a heating wire.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a thermos cup evacuation equipment, includes vacuum vessel, its characterized in that: a supporting unit for supporting a plurality of cup bodies, an optical glass unit arranged above the cup bodies and a laser welding machine unit which is positioned above the optical glass unit and used for welding the cup bodies are arranged in the vacuum container;

the laser welding machine unit comprises a laser welding head and a driving unit for controlling the laser welding head to move;

the vacuum container is connected with a vacuum pump and/or a molecular pump for vacuumizing the interior of the vacuum container.

2. A vacuum cup evacuation apparatus as claimed in claim 1, wherein: the vacuum container is internally and relatively fixed with a positioning block unit and a driving piece, the supporting unit is connected to the positioning block unit in a sliding mode and can control sliding motion of the positioning block unit through the driving piece, and the driving piece is an air cylinder or a motor.

3. A vacuum cup pumping device according to claim 2, characterized in that: a frame body is arranged in the vacuum container, and the supporting unit, the optical glass unit and the laser welder unit are all arranged on the frame body.

4. A vacuum cup evacuation apparatus as claimed in claim 3, wherein: the support body is relatively fixed with a support plate, and the positioning block unit is fixed on the support plate.

5. A vacuum cup pumping device according to claim 3, characterized in that: the driving piece and the positioning block unit are respectively fixed on the frame body.

6. A vacuum cup evacuation apparatus as claimed in claim 3, wherein: still be provided with the unit of making a video recording that is used for shooing the cup welding point on the support body, the unit of making a video recording and control unit electric connection, the control unit with laser welder unit electric connection for control laser welder head corresponds the position welding at the cup.

7. A vacuum cup pumping device according to claim 6, characterized in that: the frame body is relatively fixed with a connecting plate, and the camera shooting unit is arranged on the connecting plate.

8. A vacuum cup evacuation apparatus as claimed in claim 1, wherein: the upper surface of the supporting unit comprises a plurality of assembling positions for placing the cup body.

9. A vacuum cup evacuation apparatus as claimed in claim 2, wherein: the supporting unit is provided with a connecting piece in a downward extending mode, and an output shaft of the driving piece is connected with the connecting piece.

10. A vacuum cup evacuation apparatus as claimed in claim 1, wherein: the driving unit comprises a first driving part for controlling the laser welding head to move in the front-back direction and a second driving part for controlling the laser welding head to move in the left-right direction.

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