CN213770493U - Vacuum adsorption type conveying production line - Google Patents
Vacuum adsorption type conveying production line Download PDFInfo
- Publication number
- CN213770493U CN213770493U CN202022675308.XU CN202022675308U CN213770493U CN 213770493 U CN213770493 U CN 213770493U CN 202022675308 U CN202022675308 U CN 202022675308U CN 213770493 U CN213770493 U CN 213770493U
- Authority
- CN
- China
- Prior art keywords
- vacuum adsorption
- air
- air inlet
- vacuum
- track
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Images
Landscapes
- Manipulator (AREA)
Abstract
The utility model relates to a carry production line technical field, specifically be a vacuum adsorption formula transport production line, aim at solving the technical problem that current vacuum adsorption formula transfer chain cost is high, conveying pressure is big, efficient. The following technical scheme is adopted: including track and slidable mounting in the vacuum adsorption tool on the track, establish the vacuum cavity in the vacuum adsorption tool, its characterized in that: the vacuum adsorption jig is characterized by further comprising an air exhaust mechanism positioned beside the track, wherein the air exhaust mechanism comprises a fixed seat, a slide rail perpendicular to the arrangement direction of the track is arranged on the fixed seat, a slide block is arranged on the slide rail in a sliding mode, the slide block is connected with a linear driving pair for driving the slide block to move along the slide rail, and an air exhaust nozzle is arranged on the side end face, close to the vacuum adsorption jig, of the slide block; the side end face of the vacuum adsorption jig is provided with an air valve communicated with the vacuum cavity, the air valve is arranged corresponding to the air suction nozzle, and the air valve and the air suction nozzle can be in butt joint communication through the movement of the sliding block.
Description
Technical Field
The utility model relates to a carry production line technical field, specifically be a vacuum adsorption formula transport production line.
Background
In the production line of sheet products such as liquid crystal display panels, the products are fixed and then conveyed to a designated station in a vacuum adsorption mode. The existing vacuum adsorption type conveying production line mainly has two structures: one is to build a conveying line through a plurality of linear modules, and the structure can cause a mechanical design mechanism to be large and bulky, the manufacturing cost is high and the efficiency is difficult to improve on an automatic line body with a complicated process and a plurality of stations; the other type is a conveying line which is formed by matching a slide block track with driving mechanisms such as a synchronous belt, each vacuum adsorption jig of the structure is required to be provided with a vacuum source and a vacuum electromagnetic valve, the structure cost is high, the vacuum source is required to move synchronously along with the vacuum adsorption jigs, the conveying pressure is high, and the conveying line is not suitable for conveying more vacuum adsorption jigs.
SUMMERY OF THE UTILITY MODEL
The utility model discloses aim at solving current vacuum adsorption formula transfer chain cost height, delivery pressure big, the technical problem of inefficiency.
The utility model provides a technical scheme that its technical problem adopted is:
the vacuum adsorption type conveying production line comprises a track and a vacuum adsorption jig which is slidably installed on the track, wherein a vacuum cavity is formed in the vacuum adsorption jig; the vacuum adsorption jig is characterized by further comprising an air exhaust mechanism positioned beside the track, wherein the air exhaust mechanism comprises a fixed seat, a slide rail perpendicular to the arrangement direction of the track is arranged on the fixed seat, a slide block is arranged on the slide rail in a sliding mode, the slide block is connected with a linear driving pair for driving the slide block to move along the slide rail, and an air exhaust nozzle is arranged on the side end face, close to the vacuum adsorption jig, of the slide block; the side end face of the vacuum adsorption jig is provided with an air valve communicated with the vacuum cavity, the air valve is arranged corresponding to the air suction nozzle, and the air valve and the air suction nozzle can be in butt joint communication through the movement of the sliding block.
During operation, the vacuum adsorption tool slides to the air exhaust mechanism position, and the slider is close to the vacuum adsorption tool under the vice effect of linear drive, and until inflating valve and the butt joint intercommunication of inflating valve, then air exhaust mechanism takes the air in the vacuum adsorption tool out through air exhaust valve, inflating valve to form the vacuum cavity, accomplish the absorption to the product. When the vacuum degree of the vacuum cavity in the vacuum adsorption jig meets the requirement, the linear driving pair reversely acts to drive the sliding block to be away from the vacuum adsorption jig, and the valve inside of the inflating valve is reset to timely seal the vacuum cavity. Then, as long as the product does not depart from the vacuum adsorption jig, the vacuum cavity in the vacuum adsorption jig cannot be damaged, and the product can be maintained to be firmly adsorbed.
The utility model has the advantages that:
the utility model provides a production line is carried to vacuum adsorption formula is equipped with air exhaust mechanism at orbital side, installs the vacuum adsorption tool motion on the track and carries out the evacuation to air exhaust mechanism position department, can keep the vacuum under the effect of inflating valve after finishing, maintains the absorption to the product. One or more air exhaust mechanisms are arranged on one production line according to actual needs, and the number of the air exhaust mechanisms and the number of the vacuum adsorption jigs do not need to be arranged correspondingly, so that the use number of the air exhaust mechanisms and the vacuum electromagnetic valves is greatly reduced, the structure is simpler, and the equipment cost is reduced; the air exhaust mechanism does not need to move along with the vacuum adsorption jig along with the track, so that the conveying pressure is reduced, and the conveying efficiency is improved; after the vacuum forms the adsorption product, the vacuum of the jig can keep the jig product adsorbed under the conditions of power failure, gas failure and vacuum source failure, and the service performance is more reliable.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings 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 application, and other drawings can be obtained by those skilled in the art without creative efforts.
FIG. 1 is a front view of the matching structure of the air pumping mechanism and the vacuum adsorption jig of the present invention;
FIG. 2 is a top view of the vacuum suction jig and the air pumping mechanism of the present invention;
FIG. 3 is a schematic view of the structure of the air extracting nozzle and the inflating valve;
FIG. 4 is a schematic view of the fitting structure of the positioning pin and the positioning groove of the present invention;
fig. 5 is a top view of the ring line of the present invention.
In the figure:
1 ┄ orbit; 2 ┄ vacuum adsorption jig; 3 ┄ fixed seat; 4 ┄ slide rails; 5 ┄ sliders; 6 ┄ air valve; 7 ┄ locating pins; 8 ┄ positioning grooves; 9 ┄ air intake seal; 10 ┄ sealing the outer piece; 11 ┄ compression spring; 12 ┄ a retainer ring; 13 ┄ static seal ring; 14 ┄ dynamic seal ring; 15 ┄ valve cores; 16 ┄ casing.
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.
Referring to fig. 1 to 5, the vacuum adsorption type conveying production line of the present invention includes a track 1 and a vacuum adsorption jig 2 slidably mounted on the track 1, the vacuum adsorption jig 2 belongs to a structure known in the art, a vacuum chamber is arranged in the vacuum adsorption jig 2, the vacuum adsorption jig 2 is provided with an adsorption surface for adsorbing a product, the adsorption surface is provided with a plurality of adsorption holes, the adsorption holes are communicated with the vacuum chamber, the product is placed on the adsorption surface and completely covers and seals the adsorption holes, and the product is firmly adsorbed on the adsorption surface under the action of the vacuum chamber; the vacuum adsorption jig further comprises an air exhaust mechanism located beside the track 1, the air exhaust mechanism comprises a fixed seat 3, the fixed seat 3 is fixedly arranged and preferably fixed on the side wall of the track 1, a sliding rail 4 which is perpendicular to the arrangement direction of the track 1 is arranged on the fixed seat 3, a sliding block 5 is slidably mounted on the sliding rail 4, the sliding block 5 is connected with a linear driving pair for driving the sliding block to move along the sliding rail 4, the linear driving pair can be a cylinder, a screw rod and the like, an air exhaust nozzle is arranged on the side end face, adjacent to the vacuum adsorption jig 2, of the sliding block 5, the air exhaust nozzle has an air exhaust function as the name suggests, and a vacuum source needs to be communicated when the vacuum adsorption jig is used specifically; the side end face of the vacuum adsorption jig 2 is provided with an air valve 6 communicated with a vacuum cavity of the vacuum adsorption jig, the air valve 6 is of a structure known in the field and mainly comprises an air valve core 15 and a shell 16, when the air valve core 15 is pressed, air is supplied, and when the air valve core 15 is not stressed, the air valve core 15 is reset to realize sealing; the valve mouth 6 is arranged corresponding to the air suction mouth and the sliding block 5 can be in butt joint communication, the specific structure of the butt joint communication is easy to design for a person in the field, for example, the air suction mouth can be set as a cylindrical shell, a cylinder body used for abutting against the valve core 15 is fixed in the cylindrical shell, the cylindrical shell is sealed and connected outside a shell 16 of the valve mouth 6 in a sealing mode during work, and then the cylinder body abuts against and presses the valve core 15; or the air exhaust nozzle is set to be a barrel-shaped shell, the bottom of the barrel-shaped shell is hollowed out, a sealing ring is fixedly sleeved on the outer wall of the barrel-shaped shell, the outer diameter of the barrel-shaped shell is matched with the inner diameter of the shell 16 of the inflating valve 6, the hollowed end face drives the air valve core 15 to be pressed when the air exhaust nozzle works, and the barrel-shaped shell is hermetically sleeved in the shell 16 of the inflating valve 6. Specific, all be equipped with the positioning mechanism of control vacuum adsorption tool 2 running position on the current vacuum adsorption formula conveying production line for the location when control vacuum adsorption tool 2 moves to each station generally is sensor cooperation controller, belongs to the design commonly used by the personnel in the field, the utility model discloses at the during operation, usable this positioning mechanism realizes the location of vacuum adsorption tool 2, guarantees that it can stop just in the mechanism position department of bleeding.
In order to ensure the positioning precision of the vacuum adsorption jig 2, a positioning pin 7 is further arranged on the side end face of the slide block 5 adjacent to the vacuum adsorption jig 2, the positioning pin 7 is arranged along the direction of the slide rail 4, the end part adjacent to the vacuum adsorption jig 2 is in a circular truncated cone shape, and a circular truncated cone-shaped positioning groove 8 matched with the circular truncated cone-shaped end part of the positioning pin 7 is arranged on the side end face of the vacuum adsorption jig 2. After the positioning is realized by utilizing the self-contained positioning mechanism of the conveying production line, the positioning pin 7 is driven to be inserted into the positioning groove 8 through sliding action, even if the deviation of small error exists, the end part of the circular table of the positioning pin 7 can be gradually adjusted to be coaxial with the positioning groove 8 by utilizing the guiding action of the side surface of the circular table, so that the positioning precision of the vacuum adsorption jig 2 is greatly improved, and the air suction nozzle is further ensured to be smoothly butted with the inflating valve 6.
A preferable structure of the air valve 6 and the air suction nozzle is provided, a first-stage stepped hole is formed in a sliding block 5 along the direction of a sliding rail 4, a large-diameter hole is adjacent to a vacuum adsorption jig 2, the air suction nozzle comprises an air inlet sealing piece 9, a sealing outer piece 10 and a compression spring 11, the air inlet sealing piece 9 is of a tubular structure, a first end portion is fixedly inserted into a small-diameter hole of the first-stage stepped hole, the insertion can be realized by adopting common modes such as interference fit or threaded screwing fit, an axial middle section and a second end portion of the air inlet sealing piece 9 are both arranged in the large-diameter hole of the first-stage stepped hole, the diameter of the second end portion is larger than that of the axial middle section to form a shaft shoulder, the sealing outer piece 10 is of a tubular structure, a retainer ring 12 is formed by radially inwards protruding in the inner wall of the first end portion, a gap of the retainer ring 12 of the sealing outer piece 10 is sleeved outside the axial middle section of the air inlet sealing piece 9, and two ends of the compression spring 11 are respectively abutted against a stepped surface of the first-stage stepped hole and an end surface of the first end portion of the sealing outer piece 10, the compression spring 11 enables the retainer ring 12 of the sealing outer piece 10 to abut against a shaft shoulder formed at the second end of the air inlet sealing piece 9 in a natural state, the second end of the sealing outer piece 10 extends out of the air inlet sealing piece 9 in a natural state and is provided with a static sealing ring 13 at the end face, a dynamic sealing ring 14 is arranged between the second end of the air inlet sealing piece 9 and the sealing outer piece 10, an air inlet channel is arranged on the pipe wall of the air inlet sealing piece 9 between the dynamic sealing ring 14 and the end face of the second end, the main function of the air inlet channel is to prevent the pipe cavity of the air inlet sealing piece 9 from being sealed and incapable of exhausting when the valve core 15 abuts against the air inlet sealing piece 9, the valve nozzle 6 comprises a valve core 15 and a shell 16, the valve core 15 extends out of the shell 16 in a natural state, and the second end of the sealing piece 9 abuts against the valve core 15 when the sliding block 5 slides, the second end of the seal outer 10 abuts the housing 16 via the static seal ring 13. When the air suction device works, the sliding block 5 is close to the vacuum adsorption jig 2 under the action of the linear driving pair, the second end of the sealing outer piece 10 is firstly in sealing and abutting connection with the end face of the shell 16 of the inflating valve 6 through the static sealing ring 13, then the sliding block 5 is continuously close to the vacuum adsorption jig 2, the second end of the air inlet sealing piece 9 is abutted with the valve core 15 and pressed to enable the vacuum cavity of the vacuum adsorption jig 2 to be communicated with the tube cavity of the air inlet sealing piece 9 through the air inlet channel, and then air in the vacuum adsorption jig 2 is pumped away under the action of a vacuum source; when the vacuum degree in the vacuum adsorption jig 2 meets the requirement, the sliding block 5 moves reversely, the valve core 15 resets, and in the resetting process, the sealing outer part 10 is always attached to the end face of the shell 16 of the valve nozzle 6 under the action of the compression spring 11, so that a sealing environment is created, and air leakage is prevented; after the valve core 15 is reset, a vacuum cavity is formed in the vacuum adsorption jig 2, and as long as the product does not depart from the vacuum adsorption jig 2, the vacuum cavity in the vacuum adsorption jig 2 cannot be damaged, so that the product can be firmly adsorbed.
Preferably, the second end of the seal outer 10 extends beyond the inlet seal 9 and the valve core 15 extends beyond the housing 16. in particular, the valve 6 extending from the valve core 15 may be an inflatable axial nozzle. This configuration requires less length for the inlet seal 9 and results in lower equipment costs. In other embodiments, it is also possible to design the second end portion of the intake seal 9 protruding from the seal outer 10, the valve core 15 being located in the housing 16. In any case, it is sufficient to ensure that the outer seal 10 contacts the housing 16 of the valve mouth 6 first and the inlet seal 9 contacts the valve core 15 of the valve mouth 6 again during the sliding movement.
Preferably, the air inlet channel is a through groove opened on the end surface of the second end portion of the air inlet sealing member 9, and the through groove is communicated with the hollow pipe cavity of the air inlet sealing member 9. In other embodiments, the air inlet channel may also be a through hole opened in the pipe wall of the air inlet sealing member 9 between the dynamic sealing ring 14 and the second end face.
In order to take down the product conveniently, a vacuum breaking valve is arranged on the vacuum adsorption jig 2 and is communicated with the vacuum cavity. The vacuum breaking valve adopts a common valve structure, namely the vacuum is broken when the vacuum breaking valve is opened, and the vacuum is maintained when the vacuum breaking valve is closed. The utility model discloses an in the device, the accessible is pressed the 15 gassing of valve inside and is realized destroying the vacuum, so add and establish this broken vacuum valve and just make the operation more convenient.
The air exhaust mechanism is provided with two air exhaust mechanisms which are symmetrically distributed relative to the track 1, and air valves 6 are arranged on two side end faces of the vacuum adsorption jig 2. Because air exhaust mechanism can have the effect of certain lateral force to vacuum adsorption tool 2, so air exhaust mechanism can make vacuum adsorption tool 2 atress even to symmetric distribution, has improved the structural stability of whole device.
Further, track 1 is annular track 1, and vacuum adsorption tool 2 corresponds the station and is equipped with a plurality ofly, and air exhaust mechanism is equipped with at least one. The setting of circular orbit 1, but vacuum adsorption tool 2 cyclic utilization has improved machining efficiency. The vacuum adsorption jigs 2 can be arranged corresponding to the number of the stations, if 3 stations exist, 4 vacuum adsorption jigs 2 can be arranged, and the redundant one is used for turnover; if all processes do not need to take down the products, the whole annular production line only needs to be provided with one air exhaust mechanism, if the products need to be taken down in some processes, the air exhaust mechanism is additionally arranged as required, and if full automation is to be realized, a vacuum breaking mechanism can be additionally arranged before the corresponding processes.
The same or similar reference numerals in the drawings of the embodiments correspond to the same or similar components; in the description of the present application, it is to be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and specific meanings of the above terms may be understood by those skilled in the art according to specific situations.
The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.
Claims (9)
1. Production line is carried to vacuum adsorption formula, including track (1) and vacuum adsorption tool (2) of slidable mounting on track (1), establish vacuum cavity, its characterized in that in vacuum adsorption tool (2): the vacuum adsorption jig is characterized by further comprising an air exhaust mechanism located beside the track (1), the air exhaust mechanism comprises a fixed seat (3), a sliding rail (4) perpendicular to the arrangement direction of the track (1) is arranged on the fixed seat (3), a sliding block (5) is slidably mounted on the sliding rail (4), the sliding block (5) is connected with a linear driving pair for driving the sliding block to move along the sliding rail (4), and an air exhaust nozzle is arranged on the side end face, adjacent to the vacuum adsorption jig (2), of the sliding block (5); the side end face of the vacuum adsorption jig (2) is provided with an air valve (6) communicated with the vacuum cavity, the air valve (6) is arranged corresponding to the air suction nozzle, and the air valve and the air suction nozzle can be in butt joint communication through the movement of the sliding block (5).
2. The vacuum adsorption type conveying production line according to claim 1, characterized in that: the side end face of the sliding block (5) adjacent to the vacuum adsorption jig (2) is further provided with a positioning pin (7), the positioning pin (7) is arranged along the direction of the sliding rail (4), the end portion adjacent to the vacuum adsorption jig (2) is in a circular truncated cone shape, and the side end face of the vacuum adsorption jig (2) is provided with a circular truncated cone-shaped positioning groove (8) matched with the circular truncated cone-shaped end portion of the positioning pin (7).
3. The vacuum adsorption type conveying production line according to claim 1 or 2, characterized in that: the slide block (5) is provided with a first-stage stepped hole and a large-diameter hole adjacent to the vacuum adsorption jig (2) along the direction of the slide rail (4), the air suction nozzle comprises an air inlet sealing piece (9), a sealing outer piece (10) and a compression spring (11), the air inlet sealing piece (9) is of a tubular structure, the first end part of the air inlet sealing piece is inserted and fixed in the small-diameter hole of the first-stage stepped hole, the axial middle section and the second end part of the air inlet sealing piece (9) are both arranged in the large-diameter hole of the first-stage stepped hole, the diameter of the second end part of the air inlet sealing piece is larger than that of the axial middle section, the sealing outer piece (10) is of a tubular structure, the inner wall of the first end part of the sealing outer piece is radially inwards protruded to form a retainer ring (12), the gap of the retainer ring (12) of the sealing outer piece (10) is sleeved on the axial middle section of the air inlet sealing piece (9), and the compression spring (11) is sleeved on the axial middle section of the air inlet sealing piece (9) and two ends of the retainer ring and the step surface of the first end part of the first-stage stepped hole and the sealing outer piece (10) are respectively abutted against the two ends of the air inlet sealing outer, the end face of the second end part of the sealing outer part (10) is provided with a static sealing ring (13), a movable sealing ring (14) is arranged between the second end part of the air inlet sealing part (9) and the sealing outer part (10), an air inlet channel is formed in the pipe wall of the air inlet sealing part (9) between the movable sealing ring (14) and the end face of the second end part, the valve nozzle (6) comprises a valve core (15) and a shell (16), the second end part of the air inlet sealing part (9) is abutted to the valve core (15) through sliding of the sliding block (5), and the second end part of the sealing outer part (10) is abutted to the shell (16) through the static sealing ring (13).
4. The vacuum adsorption type conveying production line according to claim 3, characterized in that: the second end of the sealing outer piece (10) extends out of the air inlet sealing piece (9), and the valve core (15) extends out of the shell (16).
5. The vacuum adsorption type conveying production line according to claim 3, characterized in that: the air inlet channel is a through groove formed in the end face of the second end portion of the air inlet sealing piece (9), and the through groove is communicated with the hollow pipe cavity of the air inlet sealing piece (9).
6. The vacuum adsorption type conveying production line according to claim 3, characterized in that: the vacuum adsorption jig (2) is provided with a vacuum breaking valve which is communicated with the vacuum cavity.
7. The vacuum adsorption type conveying production line according to claim 3, characterized in that: the air exhaust mechanism is provided with two air exhaust mechanisms which are symmetrically distributed relative to the track (1), and the air valves (6) are arranged on the two side end surfaces of the vacuum adsorption jig (2).
8. The vacuum adsorption type conveying production line according to claim 1 or 2, characterized in that: track (1) is annular track (1), and vacuum adsorption tool (2) correspond the station and are equipped with a plurality ofly, and air exhaust mechanism is equipped with at least one.
9. The vacuum adsorption type conveying production line according to claim 3, characterized in that: track (1) is annular track (1), and vacuum adsorption tool (2) correspond the station and are equipped with a plurality ofly, and air exhaust mechanism is equipped with at least one.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022675308.XU CN213770493U (en) | 2020-11-18 | 2020-11-18 | Vacuum adsorption type conveying production line |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022675308.XU CN213770493U (en) | 2020-11-18 | 2020-11-18 | Vacuum adsorption type conveying production line |
Publications (1)
Publication Number | Publication Date |
---|---|
CN213770493U true CN213770493U (en) | 2021-07-23 |
Family
ID=76917509
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202022675308.XU Active CN213770493U (en) | 2020-11-18 | 2020-11-18 | Vacuum adsorption type conveying production line |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN213770493U (en) |
-
2020
- 2020-11-18 CN CN202022675308.XU patent/CN213770493U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US9404589B2 (en) | Non-sliding gate valve | |
CN205703403U (en) | Pneumatic self-locking clip clamper | |
KR101751209B1 (en) | Aparatus for automatically replacing gripper | |
CN103341861A (en) | Multi-station silica gel air bag clamping device for clamping ultrathin wall deep cylinder part | |
CN109533957B (en) | Battery positive and negative pole piece transfer mechanism | |
CN201786811U (en) | Cylinder with self-locking structure | |
CN112249708A (en) | Vacuum adsorption type conveying production line | |
CN213770493U (en) | Vacuum adsorption type conveying production line | |
CN114412752B (en) | Segmented vacuum working apparatus and method of using the same | |
WO2018072145A1 (en) | Absorption apparatus | |
CN115415772B (en) | Manipulator device for mounting air compressor rotor | |
CN204512485U (en) | Pneumatic vacuum push-pull valve | |
CN104712781A (en) | Pneumatic vacuum gate valve | |
CN216478938U (en) | Flat push valve of air-tight sealing type organic waste gas oxidation treatment equipment | |
CN219617057U (en) | Switching piece positioner and welding system | |
CN215287051U (en) | High temperature resistant vacuum glass frame transmission positioner | |
CN215172250U (en) | Air valve assembly, airflow driving assembly and conveying system | |
CN110142628B (en) | Bridge gas circuit modular vacuum clamp | |
CN115425336B (en) | Battery core packaging jig and battery core production line | |
CN216430578U (en) | Valve core structure | |
CN114964642A (en) | Detection device and helium detection method for workpiece | |
CN220462762U (en) | Frame body seal welding positioning device for power distribution box production | |
CN220474680U (en) | Centrifugal two-seal machine convenient for discharging waste liquid | |
CN221089059U (en) | Workpiece taking and placing device for tail end of robot | |
CN218503956U (en) | Vacuum adsorption device for large-area thin product |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |