CN210668252U - Light plasma tube press seal system - Google Patents

Abstract

The utility model discloses a light plasma tube press seal system for press seal electrode at glass pipe tip, including glass pipe transport mechanism, electrode rack, press seal device, first clamp is got device and second clamp and is got the device, press seal device includes the rotating turret, a drive mechanism, a workstation and a press seal mechanism that is used for the press seal that is used for fixing a position glass pipe and electrode, the workstation is equipped with at least two, two workstations set up at the interval in the direction of rotation of rotating turret, first clamp is got the device and is included first arm and install the first glass pipe anchor clamps at first arm tip, second clamp is got the device and is included the second arm and install the electrode anchor clamps that are used for pressing from both sides the electrode at second arm tip; this light plasma tube press seal system can realize automatic press seal operation, can guarantee the uniformity of product, simultaneously because the workstation is equipped with two at least, can separate location process and press seal process for press seal mechanism can continuity of operation, has further improved work efficiency.

Description

Light plasma tube press seal system

Technical Field

The utility model relates to a light plasma tube production facility technical field especially relates to light plasma tube press seal system.

Background

The production of the light plasma tube comprises the processes of press sealing, exhaust and the like, the equipment used for realizing the process of press sealing is artificial mechanical production equipment at present, each piece of equipment needs one person to assist production to finish production action, the quality of the product depends on the operation level and mood of the personnel using the equipment, and the following problems are easy to occur: firstly, the consistency of the product cannot be guaranteed; secondly, the daily output of an operator working for 10 years is 600-650; third, the efficiency of the device is low, energy consumption is quite high, and resources are wasted seriously.

Therefore, there is a need to provide a new optical plasma tube sealing system to solve the above problems.

Disclosure of Invention

A first object of the utility model is to provide a light plasma tube press seal system, it aims at solving the technical problem that production efficiency is slow, the uniformity of product is difficult to guarantee.

In order to achieve the above purpose, the utility model provides a scheme is:

a plasma torch press sealing system for press sealing an electrode at an end of a glass tube, the plasma torch press sealing system comprising:

a glass tube conveying mechanism for conveying the glass tube;

the electrode placing frame is used for placing an electrode to be installed and is arranged on one side of the glass tube conveying mechanism;

the press sealing device comprises a rotating frame, a first driving mechanism for driving the rotating frame to rotate, at least two work tables and a press sealing mechanism, wherein the work tables are used for positioning the glass tube and the electrode, and the press sealing mechanism is used for press sealing the positioned glass tube and the positioned electrode into a semi-finished product;

the first clamping device is used for clamping the glass tube on the glass tube conveying mechanism to the workbench for positioning and clamping the semi-finished product to the glass tube conveying mechanism and comprises a first mechanical arm and a first glass tube clamp arranged at the end part of the first mechanical arm;

and the second clamping device comprises a second mechanical arm and an electrode clamp which is arranged at the end part of the second mechanical arm and is used for clamping the electrode placed on the electrode placing frame to the workbench for positioning.

As an improvement mode, the electrode clamp comprises a base which is arranged at the end part of the second mechanical arm in a lifting mode and a clamping electrode assembly which is arranged at one end of the base and used for clamping the electrode, wherein the clamping electrode assembly comprises a clamping electrode structure used for clamping the electrode, a second driving mechanism which is arranged at one end of the base and used for driving the clamping electrode structure to open and close and a detection assembly used for detecting the position of the electrode.

As an improvement, the electrode clamping structure comprises a first clamping jaw and a second clamping jaw which are connected to the second driving mechanism and arranged side by side, the first clamping jaw is provided with a first connecting portion connected to the second driving mechanism and a first grabbing portion connected to the first connecting portion, the second clamping jaw is provided with a second connecting portion connected to the second driving mechanism and a second grabbing portion connected to the second connecting portion, and the first grabbing portion and the second grabbing portion are respectively arranged on one side of the base, which is far away from the first connecting portion and the second connecting portion.

As an improved mode, the detection assembly includes a sensor board connected to the second driving mechanism and a photoelectric element mounted on the sensor board, the photoelectric element is located on one side of the first connecting portion and the second connecting portion close to the base, and a slot is provided between the first connecting portion and the second connecting portion for allowing an optical signal of the photoelectric element to pass through for sensing the electrode.

As an improved mode, the optical plasma tube press sealing system further comprises a semi-finished product placing frame for placing the semi-finished product, the first clamping device is arranged between the glass tube conveying mechanism and the semi-finished product placing frame, the second clamping device further comprises a second glass tube clamp arranged at the other end of the base and used for clamping the semi-finished product on the press sealing device to the semi-finished product placing frame, and the first clamping device clamps the semi-finished product from the semi-finished product placing frame to the glass tube conveying mechanism.

As an improvement, the second glass tube clamp comprises a first tube clamping structure for clamping the glass tube and a third driving mechanism which is arranged at the other end of the base and used for driving the first tube clamping structure to open and close.

As an improvement, the first pipe clamping structure comprises a first pipe clamp and a second pipe clamp which are connected to the third driving mechanism and are arranged side by side, the first pipe clamp is provided with a third connecting portion connected to the third driving mechanism and a third grabbing portion connected to the third connecting portion, the second pipe clamp is provided with a fourth connecting portion connected to the third driving mechanism and a fourth grabbing portion connected to the fourth connecting portion, and a V-shaped groove is formed in the end surface of the third grabbing portion facing the fourth grabbing portion or the end surface of the fourth grabbing portion facing the third grabbing portion.

As an improvement, the two press sealing devices are respectively a first press sealing device and a second press sealing device, and the first press sealing device and the second press sealing device are respectively arranged on two sides of the second clamping device.

Compared with the prior art, the utility model provides a light plasma tube press seal system is at glass pipe transport mechanism, press seal device, first clamp is got the cooperation work of device and second clamp and is realized automatic press seal operation down, can guarantee the uniformity of product, and production efficiency has been improved, simultaneously because the workstation is equipped with two at least, can part location process and press seal process, need not fix a position process and press seal process in the same position, make press seal mechanism can the continuity of operation, work efficiency has further been improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, 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 the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a press sealing system provided in embodiment 1 of the present invention;

fig. 2 is a schematic structural view of an electrode holder provided in embodiment 1 of the present invention;

fig. 3 is an assembly view of a second driving mechanism, a clamp electrode structure and a detection assembly provided in embodiments 1 and 2 of the present invention;

fig. 4 is a schematic structural diagram of the detection assembly provided in embodiments 1 and 2 of the present invention;

fig. 5 is a schematic structural diagram of a press sealing system provided in embodiment 2 of the present invention;

fig. 6 is an assembly view of an electrode holder and a second glass tube holder according to embodiment 2 of the present invention;

fig. 7 is a schematic structural view of a second glass tube clamp provided in embodiment 2 of the present invention.

The reference numbers illustrate:

a tube press seal system 100; a sensor board 101; a photoelectric element 102; a slot 103; a glass tube transfer mechanism 11; a pipe clamping tool 111; a conveyor belt 112; an electrode holding frame 12; a turret 131; a work table 132; a positioning stage 1321; glass tube clamping assembly 1322; a press-sealing mechanism 133; a first press seal 134; a second press seal 135; a first gripping device 14; the first robot arm 141; a first glass tube clamp 142; a second gripping device 15; a second robot arm 151; an electrode holder 152; a base 1521; a second drive mechanism 1522; a detection component 1523; a first jaw 1524; a second jaw 1525; a first connection portion 1526; a first grip portion 1527; a second connection portion 1528; a second grabber 1529; a second glass tube holder 153; a third drive mechanism 1531; a first tube clamp 1532; a second tube clamp 1533; a third connection portion 1534; a third grasping portion 1535; a fourth connecting portion 1536; a fourth grasping portion 1537; an arcuate slot 1538; a flange plate 154; a semi-finished product placing frame 16; a first semi-finished product placing frame 161; a second semi-finished product placing frame 162;

a glass tube 200;

and an electrode 300.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

It will also be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Example 1

As shown in fig. 1 to 4, the plasma tube press sealing system 100 for press sealing an electrode 300 at an end of a glass tube 200 according to an embodiment of the present invention includes a glass tube conveying mechanism 11, an electrode placing frame 12, a press sealing device, a first clamping device 14, and a second clamping device 15, wherein,

the glass tube conveying mechanism 11 is used for conveying a glass tube 200 and comprises a tube clamping tool 111 and a conveying belt 112 used for conveying the tube clamping tool 111, and the glass tube 200 is clamped and fixed on the tube clamping tool 111. The tube clamping tool 111 has a placing position for placing the glass tube 200 and a position for placing the semi-finished product.

The electrode placing frame 12 is provided on one side of the glass tube conveying mechanism 11, and is used for placing the electrodes 300 to be installed, and the electrodes 300 are placed on the electrode placing frame 12 in rows and columns.

The press sealing device is arranged at one side of the glass tube conveying mechanism 11, is at the same side of the electrode placing frame 12, and comprises a rotating frame 131, a first driving mechanism (not shown) for driving the rotating frame 131 to rotate, a workbench 132 for positioning the glass tube 200 and the electrode 300, and a press sealing mechanism 133 for press sealing the positioned glass tube 200 and the positioned electrode 300 into a semi-finished product, wherein at least two of the workbench 132 are arranged, in the embodiment, six workbench 132 are arranged, the six workbench 132 are arranged at intervals in the rotating direction of the rotating frame 131, the six workbench 132 are arranged, the positioning process and the press sealing process can be separated, the positioning process and the press sealing process do not need to be carried out at the same position, so that the press sealing mechanism 133 can continuously work, in the production process, the first clamping device 14 and the second clamping device 15 are used for placing the electrode 300 and the glass tube 200 on the workbench 132 rotated to the feeding position for positioning, the first driving mechanism is used for driving the rotating frame 131 to rotate so as to enable the workbench 132 which positions the electrode 300 and the glass tube 200 to rotate to the next station for subsequent processes, and the press sealing mechanism 133 is used for press sealing the electrode 300 and the glass tube 200 which rotate to the press sealing station.

It is understood that the number of the working tables 132 is appropriately set according to the speed of the whole press sealing system, and may be set to two, three, four, five, six, and so on.

Specifically, the worktable 132 includes a positioning platform 1321 and a glass tube clamping assembly 1322, the positioning platform 1321 is disposed on the rotating frame 131 for positioning the electrode 300, and the glass tube clamping assembly 1322 is disposed on the rotating frame 131 and above the positioning platform 1321 for positioning the glass tube 200. The electrode 300 is vertically placed on the positioning platform 1321, and one end of the glass tube 200 is sleeved on the electrode 300.

Optionally, the first drive mechanism is a motor.

Preferably, the press sealing device further includes a heating mechanism (not shown) for heating and softening the glass tube 200, the heating mechanism is disposed on the press sealing mechanism 133, and the heating mechanism is used to heat and soften the glass tube 200 before the press sealing, so that when the press sealing mechanism 133 performs the press sealing, the operation time can be saved, the work efficiency can be improved, and the press sealing effect can also be improved.

The first gripper 14 is provided between the glass tube conveying mechanism 11 and the second gripper 15 for gripping the glass tube 200 on the glass tube conveying mechanism 11 to the table 132 for positioning and for gripping the semifinished product onto the glass tube conveying mechanism 11, and the first gripper 14 includes a first robot arm 141 and a first glass tube gripper 142 mounted on an end portion of the first robot arm 141.

The second clamping device 15 is disposed beside the press sealing device, and includes a second mechanical arm 151 and an electrode clamp 152 mounted at an end of the second mechanical arm 151 for clamping the electrode 300 on the electrode holder 12 to the worktable 132 for positioning.

Preferably, the electrode clamp 152 includes a base 1521 installed at the end of the second mechanical arm 151 in a lifting manner, and a clamp electrode assembly installed at one end of the base 1521 for clamping the electrode 300, the base 1521 is connected to the second mechanical arm 151 in a lifting manner through a flange 154, and the clamp electrode assembly includes a clamp electrode structure for clamping the electrode 300, a second driving mechanism 1522 installed at one end of the base 1521 for driving the clamp electrode structure to open and close, and a detection assembly 1523 for detecting the electrode position.

Specifically, the clamp electrode structure includes a first clamping jaw 1524 and a second clamping jaw 1525 connected to the second driving mechanism 1522 and disposed side by side, the first clamping jaw 1524 has a first connecting portion 1526 connected to the second driving mechanism 1522 and a first grabbing portion 1527 connected to the first connecting portion 1526, the second clamping jaw 1525 has a second connecting portion 1528 connected to the second driving mechanism 1522 and a second grabbing portion 1529 connected to the second connecting portion 1528, and the first grabbing portion 1527 and the second grabbing portion 1529 are respectively disposed on a side of the first connecting portion 1526 and a side of the second connecting portion 1528 away from the base 1521.

Specifically, the detection assembly 1523 includes a sensor board 101 connected to the second driving mechanism 1522 and a photoelectric element 102 mounted on the sensor board 101, the sensor board 101 is connected to the second driving mechanism 1522 by a screw, the photoelectric element 102 is located on one side of the first connecting portion 1526 and the second connecting portion 1528 close to the base 1521, a slot 103 is provided between the first connecting portion 1526 and the second connecting portion 1528 for allowing an optical signal of the photoelectric element 102 to pass through for sensing the electrode 300, the photoelectric element 102 can be a photoelectric sensor, and the detection assembly 1523 is used for detecting a state of a filament, for example, whether the electrode holder 152 has gripped the electrode 300, and the electrode 300 is located at the position of the electrode holder 12.

Alternatively, the second drive mechanism 1522 is a pneumatic cylinder.

Preferably, the optical plasma tube press sealing system 100 further includes a PLC control system, the glass tube conveying mechanism 11, the press sealing device, the first clamping device 14 and the second clamping device 15 are all connected to the PLC control system through communication, the positioning station, the press sealing station, the position and route of the first clamping device 14, the position and route of the second clamping device 15, the lifting position and route, and the position of the electrode 300 can be preset, and then the PLC control system controls the glass tube conveying mechanism 11, the press sealing device, the first clamping device 14 and the second clamping device 15 to perform corresponding actions according to corresponding states, specifically as follows: when the workbench 132 of the press sealing device rotates to the positioning station, the PLC control system controls the first clamping device 14 to take the semi-finished product of the workbench 132 away; when the worktable 132 is in an empty state, the PLC control system controls the second gripping device 15 to place the electrode 300 on the worktable 132 in the positioning work; when the second gripping device 15 does not grip the electrode 300, the second gripping device 15 moves to a predetermined position under the control of the PLC control system to grip the electrode 300 on the electrode rack 12, and the order of gripping the electrode 300 may be preset from left (the side of the second gripping device 15 close to the press sealing device is set as the left side) to right, and from front (the side of the second gripping device 15 close to the glass tube conveying mechanism 11 is set as the front side) to back; when the tube clamping tool 111 on the glass tube conveying mechanism 11 is conveyed to the predetermined position, the glass tube conveying mechanism 11 stops operating, the first clamping device 14 places the semi-finished product on the glass tube conveying mechanism 11, clamps the glass tube 200 on the glass tube conveying mechanism 11, and clamps the glass tube 200 on the workbench 132 on which the electrode 300 is placed.

The optical plasma tube press sealing system 100 of the embodiment realizes automatic press sealing operation through the cooperation of the glass tube conveying mechanism 11, the press sealing device, the first clamping device 14 and the second clamping device 15, can ensure the consistency of products, and improves the production efficiency, and meanwhile, because the six work tables 132 are arranged, the positioning process and the press sealing process can be separated, the positioning process and the press sealing process do not need to be carried out at the same position, so that the press sealing mechanism 133 can continuously operate.

The press-sealing process of the optical plasma tube press-sealing system 100 of the present embodiment is as follows:

A. the second clamping device 15 clamps the electrode 300 from the electrode placing frame 12 to the positioning platform 1321 for positioning;

B. the first clamping device 14 clamps the glass tube 200 from the tube clamping tool 111 of the glass tube conveying mechanism 11 to the positioning platform 1321 on which the electrode 300 is placed, and the glass tube clamping assembly 1322 clamps the glass tube 200;

C. the first driving mechanism drives the rotating frame 131 to rotate so as to rotate the worktable on which the electrode 300 and the glass tube 200 are positioned to the next station;

D. the press-sealing mechanism 133 press-seals the electrode 300 and the glass tube 200 to obtain a semi-finished product;

E. the first gripper 14 grips the semi-finished product from the table 132 to the glass tube conveying mechanism 11.

EXAMPLE 2

As shown in fig. 3-7, the optical plasma tube press sealing system 100 provided by the embodiment of the present invention is used for press sealing an electrode 300 at an end of a glass tube 200, and comprises a glass tube conveying mechanism 11, an electrode placing frame 12, a press sealing device, a first clamping device 14 and a second clamping device 15, wherein,

the glass tube conveying mechanism 11 is used for conveying a glass tube 200 and comprises a tube clamping tool 111 and a conveying belt 112 used for conveying the tube clamping tool 111, and the glass tube 200 is clamped and fixed on the tube clamping tool 111. The tube clamping tool 111 has a placing position for placing the glass tube 200 and a position for placing the semi-finished product.

The electrode placing frame 12 is provided on one side of the glass tube conveying mechanism 11, and is used for placing the electrodes 300 to be installed, and the electrodes 300 are placed on the electrode placing frame 12 in rows and columns.

The press sealing device is arranged at one side of the glass tube conveying mechanism 11, is at the same side of the electrode placing frame 12, and comprises a rotating frame 131, a first driving mechanism (not shown) for driving the rotating frame 131 to rotate, a workbench 132 for positioning the glass tube 200 and the electrode 300, and a press sealing mechanism 133 for press sealing the positioned glass tube 200 and the positioned electrode 300 into a semi-finished product, wherein at least two of the workbench 132 are arranged, in the embodiment, six workbench 132 are arranged, the six workbench 132 are arranged at intervals in the rotating direction of the rotating frame 131, the six workbench 132 are arranged, the positioning process and the press sealing process can be separated, the positioning process and the press sealing process do not need to be carried out at the same position, so that the press sealing mechanism 133 can continuously work, in the production process, the first clamping device 14 and the second clamping device 15 are used for placing the electrode 300 and the glass tube 200 on the workbench 132 rotated to the feeding position for positioning, the first driving mechanism is used for driving the rotating frame 131 to rotate so as to enable the workbench 132 which positions the electrode 300 and the glass tube 200 to rotate to the next station for subsequent processes, and the press sealing mechanism 133 is used for press sealing the electrode 300 and the glass tube 200 which rotate to the press sealing station.

It is understood that the number of the working tables 132 is appropriately set according to the speed of the whole press sealing system, and may be set to two, three, four, five, six, and so on.

Specifically, the worktable 132 includes a positioning platform 1321 and a glass tube clamping assembly 1322, the positioning platform 1321 is disposed on the rotating frame 131 for positioning the electrode 300, and the glass tube clamping assembly 1322 is disposed on the rotating frame 131 and above the positioning platform 1321 for positioning the glass tube 200. The electrode 300 is vertically placed on the positioning platform 1321, and one end of the glass tube 200 is sleeved on the electrode 300.

Optionally, the first drive mechanism is a motor.

Preferably, the press sealing device further includes a heating mechanism (not shown) for heating and softening the glass tube 200, the heating mechanism is disposed on the press sealing mechanism 133, and the heating mechanism is used to heat and soften the glass tube 200 before the press sealing, so that when the press sealing mechanism 133 performs the press sealing, the operation time can be saved, the work efficiency can be improved, and the press sealing effect can also be improved.

The first gripper 14 is provided between the glass tube conveying mechanism 11 and the second gripper 15 for gripping the glass tube 200 on the glass tube conveying mechanism 11 to the table 132 for positioning and for gripping the semifinished product onto the glass tube conveying mechanism 11, and the first gripper 14 includes a first robot arm 141 and a first glass tube gripper 142 mounted on an end portion of the first robot arm 141.

And a semi-finished product placing frame 16 for placing the semi-finished product, wherein the semi-finished product placing frame 16 is arranged between the first clamping device 14 and the second clamping device 15.

The second clamping device 15 comprises a second mechanical arm 151, an electrode clamp 152 and a second glass tube clamp 153, wherein the electrode clamp 152 and the second glass tube clamp 153 are mounted at the end of the second mechanical arm 151, the electrode clamp 152 is used for clamping the electrode 300 on the electrode placing frame 12 to the electrode clamp 152 of the workbench 132 for positioning, and the second glass tube clamp 153 is used for clamping the semi-finished product on the press sealing device to the semi-finished product placing frame 16.

Preferably, the electrode clamp 152 includes a base 1521 installed at the end of the second mechanical arm 151 in a lifting manner, and a clamp electrode assembly installed at one end of the base 1521 for clamping the electrode 300, the base 1521 is connected to the second mechanical arm 151 in a lifting manner through a flange 154, and the clamp electrode assembly includes a clamp electrode structure for clamping the electrode 300, a second driving mechanism 1522 installed at one end of the base 1521 for driving the clamp electrode structure to open and close, and a detection assembly 1523 for detecting the electrode position.

Specifically, the clamp electrode structure includes a first clamping jaw 1524 and a second clamping jaw 1525 connected to the second driving mechanism 1522 and disposed side by side, the first clamping jaw 1524 has a first connecting portion 1526 connected to the second driving mechanism 1522 and a first grabbing portion 1527 connected to the first connecting portion 1526, the second clamping jaw 1525 has a second connecting portion 1528 connected to the second driving mechanism 1522 and a second grabbing portion 1529 connected to the second connecting portion 1528, and the first grabbing portion 1527 and the second grabbing portion 1529 are respectively disposed on a side of the first connecting portion 1526 and a side of the second connecting portion 1528 away from the base 1521.

Specifically, the detection assembly 1523 includes a sensor board 101 connected to the second driving mechanism 1522 and a photoelectric element 102 mounted on the sensor board 101, the sensor board 101 is connected to the second driving mechanism 1522 by screws, the photoelectric element 102 is located on one side of the first connecting portion 1526 and the second connecting portion 1528 close to the base 1521, a slot 103 is provided between the first connecting portion 1526 and the second connecting portion 1528 for allowing an optical signal of the photoelectric element 102 to pass through for the sensing electrode 300, and the photoelectric element 102 can be a photoelectric sensor.

Alternatively, the second drive mechanism 1522 is a pneumatic cylinder.

Preferably, the second glass tube clamp 153 comprises a first tube clamping structure for clamping the glass tube 200 and a third driving mechanism 1531 installed at the other end of the base 1521 for driving the first tube clamping structure to open and close. The second glass tube clamp 153 and the electrode clamp 152 are respectively arranged at two ends of the base 1521 and are respectively arranged at two sides of the base 1521, the electrode clamp 152 and the second glass tube clamp 153 are integrally designed, the occupied space of the second clamping device 15 can be reduced, the structure of the second clamping device 15 is more compact, the electrode clamp 152 and the second glass tube clamp 153 can be driven to move and lift in the horizontal direction by controlling the movement of the second mechanical arm 151 in the horizontal direction and controlling the lifting of the base 1521, and other structures do not need to be additionally arranged to control the movement and lifting of the second glass tube clamp 153 in the horizontal direction.

Specifically, the first tube clamping structure includes a first tube clamp 1532 and a second tube clamp 1533 connected to the third driving mechanism 1531 and arranged side by side, the first tube clamp 1532 has a third connecting portion 1534 connected to the third driving mechanism 1531 and a third grasping portion 1535 connected to the third connecting portion 1534, the second tube clamp 1533 has a fourth connecting portion 1536 connected to the third driving mechanism 1531 and a fourth grasping portion 1537 connected to the fourth connecting portion 1536, and an arc-shaped groove 1538 matched with the glass tube 200 is formed on an end surface of the third grasping portion 1535 facing the fourth grasping portion 1537 or an end surface of the fourth grasping portion 1537 facing the third grasping portion 1535.

The arc-shaped groove 1538 may be V-shaped or arc-shaped, preferably V-shaped, and thus is designed to hold the semi-finished product more effectively.

Optionally, the third drive mechanism 1531 is an air cylinder.

Preferably, two press sealing devices are provided, namely a first press sealing device 134 and a second press sealing device 135, and the first press sealing device 134 and the second press sealing device 135 are respectively provided at two sides of the second clamping device 15, so that the press sealing process is completed by configuring the two press sealing devices, the production efficiency can be further improved, and the utilization rate of the first clamping device 14 and the second clamping device 15 is improved.

Further, the two semi-finished product placing racks 16 are respectively a first semi-finished product placing rack 161 and a second semi-finished product placing rack 162, and the first semi-finished product placing rack 161 and the second semi-finished product placing rack 162 are respectively arranged at two sides of the second clamping device 15, so that the first clamping device 14 can clamp the semi-finished products conveniently.

Preferably, the optical plasma tube press sealing system 100 further includes a PLC control system, the glass tube conveying mechanism 11, the first press sealing device 134, the second press sealing device 135, the first clamping device 14 and the second clamping device 15 are all connected to the PLC control system through communication, the positioning station, the press sealing station, the rotating position and path of the first clamping device 14, the rotating position and path of the second clamping device 15, the lifting position and path, and the position of the electrode 300 can be preset, and the PLC control system controls the glass tube conveying mechanism 11, the first press sealing device 134, the second press sealing device 135, the first clamping device 14 and the second clamping device 15 to perform corresponding actions according to corresponding states, specifically as follows: when the workbench 132 of the first press sealing device 134 rotates to the positioning station, the PLC control system controls the second gripping device 15 to take the semi-finished product of the workbench 132 away and place the semi-finished product on the first semi-finished product placing frame 161; when the workbench 132 of the first press sealing device 134 is in an empty state, the PLC control system controls the second gripping device 15 to place the electrode 300 on the workbench 132 in the positioning work; when the workbench 132 of the second press sealing device 135 rotates to the positioning station, the PLC control system controls the second gripping device 15 to take the semi-finished product of the workbench 132 away and place the semi-finished product on the second semi-finished product placing rack 162; when the table 132 of the second press-sealing device 135 is in an empty state, the PLC control system controls the second gripping device 15 to place the electrode 300 on the table 132 in the positioning work; when the second gripping device 15 does not grip the electrode 300, the second gripping device 15 moves to a predetermined position under the control of the PLC control system to grip the electrode 300 on the electrode rack 12, and the order of gripping the electrode 300 may be preset from left (the side of the second gripping device 15 close to the first press sealing device 134 is set as the left side) to right, and from front (the side of the second gripping device 15 close to the glass tube conveying mechanism 11 is set as the front side) to back; when the tube clamping tool 111 on the glass tube conveying mechanism 11 is conveyed to the preset position, the glass tube conveying mechanism 11 stops running, the first clamping device 14 places the semi-finished product on the glass tube conveying mechanism 11, clamps the glass tube 200 on the workbench 132 on which the electrode 300 is placed, and then clamps the semi-finished product on the first semi-finished product placing frame 161 or the second semi-finished product placing frame 162.

The optical plasma tube press sealing system 100 of the embodiment realizes automatic press sealing operation through the cooperation of the glass tube conveying mechanism 11, the press sealing device, the first clamping device 14 and the second clamping device 15, can ensure the consistency of products, and improves the production efficiency, and meanwhile, because the six work tables 132 are arranged, the positioning process and the press sealing process can be separated, the positioning process and the press sealing process do not need to be carried out at the same position, so that the press sealing mechanism 133 can continuously operate.

The press-sealing process of the optical plasma tube press-sealing system 100 of the present embodiment is as follows:

A. the second clamping device 15 clamps the electrode 300 from the electrode placing frame 12 to the positioning platform 1321 for positioning;

B. the first clamping device 14 clamps the glass tube 200 from the tube clamping tool 111 of the glass tube conveying mechanism 11 to the positioning platform 1321 on which the electrode 300 is placed, and the glass tube clamping assembly 1322 clamps the glass tube 200;

C. the first driving mechanism drives the rotating frame 131 to rotate so as to rotate the worktable on which the electrode 300 and the glass tube 200 are positioned to the next station;

D. the press-sealing mechanism 133 press-seals the electrode 300 and the glass tube 200 to obtain a semi-finished product;

E. the second mechanical arm 151 drives the second glass tube clamp 153 to clamp the semi-finished product from the workbench 132 to the semi-finished product placing rack 16;

F. the first gripper 14 grips the semi-finished product from the semi-finished product rack 16 to the glass tube transfer mechanism 11.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (8)

1. A plasma torch press sealing system for press sealing an electrode at an end of a glass tube, the plasma torch press sealing system comprising:

a glass tube conveying mechanism for conveying the glass tube;

the electrode placing frame is used for placing an electrode to be installed and is arranged on one side of the glass tube conveying mechanism;

the press sealing device comprises a rotating frame, a first driving mechanism for driving the rotating frame to rotate, at least two work tables and a press sealing mechanism, wherein the work tables are used for positioning the glass tube and the electrode, and the press sealing mechanism is used for press sealing the positioned glass tube and the positioned electrode into a semi-finished product;

the first clamping device is used for clamping the glass tube on the glass tube conveying mechanism to the workbench for positioning and clamping the semi-finished product to the glass tube conveying mechanism and comprises a first mechanical arm and a first glass tube clamp arranged at the end part of the first mechanical arm;

and the second clamping device comprises a second mechanical arm and an electrode clamp which is arranged at the end part of the second mechanical arm and is used for clamping the electrode placed on the electrode placing frame to the workbench for positioning.

2. The optical plasma tube press sealing system as claimed in claim 1, wherein the electrode clamp comprises a base which is installed at the end of the second mechanical arm in a lifting way, and a clamp electrode assembly which is installed at one end of the base and used for clamping the electrode, the clamp electrode assembly comprises a clamp electrode structure used for clamping the electrode, a second driving mechanism which is installed at one end of the base and used for driving the clamp electrode structure to open and close, and a detection assembly used for detecting the position of the electrode.

3. The optical plasma tube press sealing system as claimed in claim 2, wherein the clamp electrode structure includes a first clamping jaw and a second clamping jaw connected to the second driving mechanism and arranged side by side, the first clamping jaw has a first connecting portion connected to the second driving mechanism and a first grasping portion connected to the first connecting portion, the second clamping jaw has a second connecting portion connected to the second driving mechanism and a second grasping portion connected to the second connecting portion, and the first grasping portion and the second grasping portion are respectively arranged at a side of the first connecting portion and a side of the second connecting portion away from the base.

4. The optical plasma tube press sealing system as claimed in claim 3, wherein the detecting assembly includes a sensor board connected to the second driving mechanism and a photoelectric element mounted on the sensor board, the photoelectric element is located at a side of the first connecting portion and the second connecting portion close to the base, and a slot is provided between the first connecting portion and the second connecting portion for an optical signal of the photoelectric element to pass through for sensing the electrode.

5. The optical plasma tube press sealing system according to claim 2, wherein the optical plasma tube press sealing system further comprises a semi-finished product placing rack for placing the semi-finished product, the first clamping device is arranged between the glass tube conveying mechanism and the semi-finished product placing rack, the second clamping device further comprises a second glass tube clamp arranged at the other end of the base for clamping the semi-finished product on the press sealing device to the semi-finished product placing rack, and the first clamping device clamps the semi-finished product from the semi-finished product placing rack to the glass tube conveying mechanism.

6. The plasma tube press sealing system of claim 5, wherein the second glass tube clamp includes a first tube clamping structure for clamping the glass tube and a third driving mechanism mounted at the other end of the base for driving the first tube clamping structure to open and close.

7. The optical plasma tube press-sealing system as claimed in claim 6, wherein the first tube clamp structure comprises a first tube clamp and a second tube clamp connected to the third driving mechanism and arranged side by side, the first tube clamp has a third connecting portion connected to the third driving mechanism and a third grabbing portion connected to the third connecting portion, the second tube clamp has a fourth connecting portion connected to the third driving mechanism and a fourth grabbing portion connected to the fourth connecting portion, and the end surface of the third grabbing portion facing the fourth grabbing portion or the end surface of the fourth grabbing portion facing the third grabbing portion is provided with a V-shaped groove.

8. The plasma tube press sealing system of claim 1, wherein the press sealing device is provided with two, a first press sealing device and a second press sealing device, and the first press sealing device and the second press sealing device are respectively arranged at two sides of the second clamping device.

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