CN211236132U - UNITMA chip test sucking disc - Google Patents

Abstract

The utility model discloses a UNITMA chip test sucker, which belongs to the field of machinery and comprises a transverse plate, wherein a cylinder is embedded and connected on the surface of the transverse plate, a transverse column is fixedly connected on the top of the cylinder, a hydraulic press is detachably connected on the bottom of one end of the transverse column, an electromagnetic sucker is connected in the gap of the bottom of the hydraulic press, a plurality of suckers are fixedly connected on the bottom of the electromagnetic sucker, then a switch can be turned on to switch on the power supply current output end of the electromagnetic sucker when the chip is adsorbed, then the electromagnetic sucker works to effectively adsorb the chip, then the chip can be adsorbed by the sucker fixedly connected on the bottom of the electromagnetic sucker when the electromagnetic adsorption is not needed, namely, the switch can be turned on to switch on the power supply current output end of the hydraulic press when the chip is required to move up and down, then the hydraulic press works, thereby the flexibility for testing the suction cup is higher.

Description

UNITMA chip test sucking disc

Technical Field

The utility model relates to the field of machinary, especially, relate to a UNITMA chip test sucking disc.

Background

The animal's absorptive organ is generally in the shape of a circular disk with a concave center. The sucking disc has the functions of adsorption, food intake, exercise and the like. The sucking discs are respectively arranged around the opening part and the rear end of the front end of the leech. According to the characteristics of animals, a vacuum suction cup, also called a vacuum lifting appliance, is invented, and is one of vacuum equipment actuators. The material of the sucking disc is made of nitrile rubber, and the sucking disc has larger breaking force, so the sucking disc is widely applied to various vacuum sucking equipment and used for clamping machine tool accessories of workpieces by utilizing suction force. The most commonly used suction cups are magnetic suction cups, generally rectangular or disc shaped. It uses magnetic force to suck ferromagnetic work piece tightly, and is used for surface grinder, milling machine and lathe, numerically controlled machine tool, machining center, etc. The suction cups are classified into an electromagnetic suction cup and a permanent magnetic suction cup according to the magnetic force source. Firstly, an electromagnetic chuck: a plurality of groups of coils (figure 1) are arranged in the body, and direct current is introduced to generate a magnetic field to tightly suck the workpiece; and cutting off the power supply, eliminating the magnetic field and loosening the workpiece. A permanent magnetic chuck: permanent magnets (figure 2) which are arranged in order and are separated by non-magnetic conductive materials are arranged in the sucker, when the magnets are aligned with the magnetizers on the faceplate of the sucker, magnetic lines of force form a closed loop through the workpiece to tightly suck the workpiece; when the handle is rotated to make the magnet and the magnetizer staggered, the magnetic force line does not pass through the workpiece any more, and the workpiece can be dismounted.

Patent No. 201820828813.3 discloses a fingerprint chip test sucking disc the utility model relates to a fingerprint chip test sucking disc is through setting up ventilative net in the opening, including body and flexible conducting resin, it has the strip bleeder vent that a plurality of arrays were arranged to open on the conducting resin, and open the body bottom has the vacuum tank, and the below in vacuum tank is equipped with evacuation mechanism, and evacuation mechanism and vacuum tank butt joint, the tank bottom of vacuum tank is opened and is had from the top down to run through the opening of body, have to be covered with open-ended ventilative net in the opening, ventilative net and open-ended lateral wall fixed connection all around, conducting resin cover on ventilative net, because ventilative net's mesh is intensive, always have ventilative mesh can aim at the bleeder vent of conducting resin, and the workman just also need not to pay attention to the alignment problem when changing the conducting resin, so conveniently change.

However, there are some problems in current UNITMA chip test sucking disc use, 1, the flexibility ratio to the test sucking disc is lower on the market at present, then influence its operation, thereby lack the secondary to the chip adsorbs, thereby possibly lead to its accident to drop and lead to the emergence of work accident, 2, lack a brief effectual transport structure to the test sucking disc when working on the market at present, then make its work efficiency reduce, 3, lead to its chip surface to fall into the dust easily when carrying out the sucking disc adsorption to the chip on the market at present, then can lead to its chip to cause damage to a certain extent, thereby protective capability is lower.

SUMMERY OF THE UTILITY MODEL

The utility model provides a UNITMA chip test sucker, which aims to adopt a splicing structure, then a power current output end of a switch-on electromagnetic sucker can be opened when the chip is adsorbed, then the electromagnetic sucker works to effectively adsorb the chip, then the chip can be adsorbed by the sucker fixedly connected with the bottom of the electromagnetic sucker when the electromagnetic adsorption is not needed, thereby the power current output end of a switch-on motor A can be opened when the chip adsorbed by the chip is moved, then the motor A drives a bearing input end connected with the output end of the motor A, then the bearing drives a cylinder connected with the cylinder in an embedded manner to rotate, so that the cylinder drives a transverse column fixedly connected with the top of the cylinder to rotate, then the transverse column drives a hydraulic press detachably connected with the bottom of the hydraulic press to rotate, thereby the hydraulic press drives the electromagnetic sucker with the gap connection at the bottom of the hydraulic press to rotate, electromagnetic chuck drives the absorption valve chip and removes then, need reciprocate the chip promptly, can open the power supply current output end that the switch-on hydraulic press, then the electromagnetic chuck that hydraulic press work drove its bottom gap connection reciprocates to go up higher to the flexibility ratio of test sucking disc, promote its operation then, thereby adsorb to the chip and increased the secondary and adsorb, thereby reduce the emergence that probably leads to its accident to drop then.

The utility model provides a specific technical scheme as follows:

the utility model provides a pair of UNITMA chip test sucking disc includes the diaphragm, the diaphragm surface is inlayed and is connected with the cylinder, the inside bearing that is connected with of inlaying of cylinder, the bearing input is connected with the motor A output, motor A one side can be dismantled and be connected with the down tube, down tube one end fixed connection is in the diaphragm bottom, cylinder top fixedly connected with spreader, spreader one end bottom can be dismantled and be connected with the hydraulic press, hydraulic press bottom clearance is connected with electromagnet, electromagnet bottom fixedly connected with sucking disc and sucking disc are a plurality of.

Optionally, diaphragm one side can be dismantled and be connected with motor B, the motor B output is connected with the wheel hub input, wheel hub surface sliding connection has the belt, belt sliding connection is on the diaphragm surface.

Optionally, diaphragm side surface can be dismantled and be connected with the batter post, the batter post surface has been seted up the hole and the hole is a plurality ofly, batter post one side cooperation is connected with the pipeline, pipeline one side cooperation is connected on the dust catcher surface, the dust catcher can be dismantled and connect at diaphragm bottom surface.

Optionally, a controller is connected to one side of the transverse plate in a clearance manner, the controller is connected with power supply current input ends of the motor A, the motor B, the hydraulic press, the electromagnetic chuck and the dust collector through a power supply current output end, and the power supply current input ends of the controller, the motor A, the motor B, the hydraulic press, the electromagnetic chuck and the dust collector are connected with a power supply current output end through a switch.

The utility model has the advantages as follows:

the utility model provides a UNITMA chip test sucker; 1. the cylinder is connected with the surface of the transverse plate in an embedded manner, the bearing is connected with the inside of the cylinder in an embedded manner, the input end of the bearing is connected with the output end of the motor A, one side of the motor A is detachably connected with an inclined rod, one end of the inclined rod is fixedly connected to the bottom of the transverse plate, the top of the cylinder is fixedly connected with a transverse column, the bottom of one end of the transverse column is detachably connected with a hydraulic press, the bottom of the hydraulic press is connected with electromagnetic chucks in a clearance manner, the bottoms of the electromagnetic chucks are fixedly connected with chucks, and the chucks are multiple, then a switch can be turned on to switch on the power supply current output end of the electromagnetic chucks when the chip is adsorbed, then the electromagnetic chucks work to effectively adsorb the chip, then the chip can be adsorbed by the chucks fixedly connected with the bottoms of the electromagnetic, then motor A drives the bearing input end of being connected rather than the output, then the bearing drives its cylinder of inlaying the connection and rotates, thereby the cylinder drives its top fixed connection's spreader and rotates, then the spreader drives its bottom can dismantle the hydraulic press of connection and rotate, thereby its electromagnet that drives its bottom gap connection of hydraulic press rotates, then electromagnet drives the absorption case piece and removes, when needing to reciprocate the chip promptly, can open the power current output of switch-on hydraulic press, then the electromagnetic chuck that hydraulic press work drove its bottom gap connection reciprocates, thereby go up the flexibility ratio to the test sucking disc higher, then promote its operation, thereby adsorb the secondary to the chip and increased, thereby reduce and probably lead to its accident to drop the emergence that leads to the work accident.

2, can dismantle through diaphragm one side and be connected with motor B, the motor B output is connected with the wheel hub input, wheel hub surface sliding connection has the belt, belt sliding connection is on the diaphragm surface, the power supply current output that can open switch-on motor B when effectively transporting the chip promptly, then motor B drives the wheel hub input of being connected rather than the output and rotates, then wheel hub drives its surface sliding connection's belt and rotates, thereby place the chip at the belt surface and can carry out simple transportation, then increase a brief effectual transportation structure to the test sucking disc when carrying out the work, then make its work efficiency improve.

3. Can dismantle through diaphragm side surface and be connected with the batter post, the batter post surface has been seted up hole and is a plurality of, batter post one side cooperation is connected with the pipeline, the cooperation of pipeline one side is connected on the dust catcher surface, the connection can be dismantled at diaphragm bottom surface to the dust catcher, when needing to carry out the dust absorption to the workstation promptly, can open the switch-on and can dismantle the power supply current output end of connecting the dust catcher in the diaphragm bottom, the dust is absorb through the pipeline that its one side cooperation is connected in dust catcher work, thereby the hole that the batter post of pipeline connection through its one end cooperation was seted up through the batter post surface promptly absorbs the dust fast, thereby be difficult to lead to its chip surface to fall into the dust when carrying out the sucking disc to the chip and adsorb, then can not lead.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic diagram of an overall structure of a uni tma chip test chuck according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a motor a of the uni tma chip test chuck according to the embodiment of the present invention;

FIG. 3 is a schematic view of a vacuum cleaner with a UNITMA chip test suction cup according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a hydraulic circuit structure of a uni tma chip test chuck according to an embodiment of the present invention.

In the figure: 1. a transverse plate; 2. a column; 3. a motor A; 4. a cylinder; 5. a cross post; 6. a hydraulic press; 7. an electromagnetic chuck; 8. a suction cup; 9. a motor B; 10. a hub; 11. a belt; 12. an oblique column; 13. a controller; 14. a diagonal bar; 15. a bearing; 16. a hole; 17. a pipeline; 18. a vacuum cleaner; 19. and (4) switching.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, 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.

A uni tma chip test chuck according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 4.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, the embodiment of the utility model provides a pair of UNITMA chip test sucking disc includes diaphragm 1, diaphragm 1 surface is inlayed and is connected with cylinder 4, cylinder 4 is inside to be inlayed and is connected with bearing 15, the bearing 15 input is connected with motor A3 output, motor A3 one side can be dismantled and be connected with down tube 14, 14 one end fixed connection of down tube is in diaphragm 1 bottom, 4 top fixedly connected with crossbars 5 of cylinder, 5 one end bottoms of crossbars can be dismantled and be connected with hydraulic press 6, 6 bottom gap connection of hydraulic press has electromagnet 7, 7 bottom fixedly connected with sucking discs 8 of electromagnet and sucking disc 8 are a plurality ofly.

Illustratively, then the switch 19 can be opened to switch on the power current output end of the electromagnetic chuck 7 when adsorbing the chip, then the electromagnetic chuck 7 works to effectively adsorb the chip, then the chip can be adsorbed by the chuck 8 fixedly connected with the bottom of the electromagnetic chuck 7 when not needing to adsorb the chip, thereby the switch 19 can be opened to switch on the power current output end of the motor A3 when moving the chip after adsorbing the chip, then the motor A3 drives the input end of the bearing 15 connected with the output end of the motor A, then the bearing 15 drives the cylinder 4 connected with the cylinder to rotate, thereby the cylinder 4 drives the cross post 5 fixedly connected with the top of the cylinder to rotate, then the cross post 5 drives the hydraulic press 6 detachably connected with the bottom of the cylinder to rotate, thereby the hydraulic press 6 drives the electromagnetic chuck 7 connected with the bottom clearance to rotate, then the electromagnetic chuck 7 drives the adsorbing valve chip to move, need reciprocate the chip promptly, can open switch 19 switch-on hydraulic press 6's supply current output end, then hydraulic press 6 work drives its bottom gap connection's electromagnet 7 and reciprocates to it is higher to the flexibility ratio of test sucking disc, promotes its operation then, thereby adsorbs to the chip and has increased the secondary and adsorb, thereby reduces the emergence that probably leads to its accident to drop and lead to the work accident.

Referring to fig. 1, the embodiment of the utility model provides a pair of UNITMA chip test sucking disc diaphragm 1 one side can be dismantled and be connected with motor B9, motor B9 output is connected with wheel hub 10 input, wheel hub 10 sliding surface is connected with belt 11, belt 11 sliding connection is on diaphragm 1 surface.

The example, can open switch 19 switch-on motor B9's supply current output promptly when needing effectively to transport the chip promptly, then motor B9 drives the wheel hub 10 input of being connected rather than the output and rotates, and then wheel hub 10 drives its surperficial sliding connection's belt 11 and rotates to place the chip on belt 11 surface and can carry out simple transportation, increase a brief effectual transport structure to the test sucking disc during operation then, make its work efficiency improve then.

Referring to fig. 3, the embodiment of the utility model provides a pair of UNITMA chip test sucking disc diaphragm 1 a side surface can be dismantled and is connected with batter post 12, the surface of batter post 12 has been seted up hole 16 and is a plurality of, batter post 12 one side cooperation is connected with pipeline 17, pipeline 17 one side cooperation is connected on 18 surfaces of dust catcher, 18 can dismantle the connection at diaphragm 1 bottom surface of dust catcher.

The example, when needing to carry out the dust absorption to the workstation promptly, can open switch 19 switch-on and can dismantle the power supply current output end of connecting the dust catcher 18 in diaphragm bottom, the pipeline 17 that dust catcher 18 work is connected through its one side cooperation absorbs the dust, thereby pipeline 17 absorbs dust 16 through the batter post 12 that its one end cooperation is connected promptly through the hole 16 that the batter post 12 surface was seted up fast, thereby be difficult to lead to its chip surface to fall into the dust when carrying out the sucking disc to the chip and adsorb, then can not lead to its chip to cause the damage to a certain extent, thereby protective capacities improves.

Referring to fig. 1 and 4, the embodiment of the utility model provides a pair of UNITMA chip test sucking disc diaphragm 1 one side gap connection has controller 13, controller 13 is connected with the supply current input of motor A3, motor B9, hydraulic press 6, electromagnetic chuck 7 and dust catcher 18 through the supply current output end, the supply current input of controller 13, motor A3, motor B9, hydraulic press 6, electromagnetic chuck 7 and dust catcher 18 is connected with the supply current output end through switch 19.

The motor A3, the motor B9, the hydraulic press 6, the electromagnetic chuck 7 and the dust collector 18 are controlled precisely through the controller 13, the controllability and the precision of the motor are improved, and then the controller 13, the motor A3, the motor B9, the hydraulic press 6 and the electromagnetic chuck 7 are controlled through the switch 19 in real time and effectively through power supply current, so that the convenience of workers in use is improved.

When in use, a person can accurately control the motor A3, the motor B9, the hydraulic press 6, the electromagnetic chuck 7 and the dust collector 18 through the controller 13, the controllability and the precision of the dust collector are improved, then the controller 13, the motor A3, the motor B9, the hydraulic press 6 and the electromagnetic chuck 7 are effectively controlled by the switch 19 in real time, so that the convenience of the worker in use is improved, the switch 19 can be opened to connect the power supply current output end of the electromagnetic chuck 7 when the chip is adsorbed, then the electromagnetic chuck 7 works to effectively adsorb the chip, the chip can be adsorbed through the chuck 8 fixedly connected with the bottom of the electromagnetic chuck 7 when the chip is not required to be adsorbed, the switch 19 can be opened to connect the power supply current output end of the motor A3 when the adsorbed chip is moved, and then the motor A3 drives the bearing 15 input end connected with the output end of the chip, then the bearing 15 drives the cylinder 4 which is embedded and connected with the bearing to rotate, so that the cylinder 4 drives the cross column 5 fixedly connected with the top of the cylinder to rotate, then the cross column 5 drives the hydraulic press 6 which is detachably connected with the bottom of the cylinder to rotate, so that the hydraulic press 6 drives the electromagnetic chuck 7 which is in clearance connection with the bottom of the hydraulic press to rotate, then the electromagnetic chuck 7 drives the adsorption valve chip to move, namely when the chip needs to move up and down, the switch 19 can be opened to switch on the power supply current output end of the hydraulic press 6, then the hydraulic press 6 works to drive the electromagnetic chuck 7 which is in clearance connection with the bottom of the hydraulic press to move up and down, thereby the flexibility of the test chuck is higher, then the operation of the test chuck is promoted, thereby the secondary adsorption is added to the chip adsorption, then the occurrence of the work accident caused by the accidental falling of the chip is reduced, namely when the chip needs to be effectively transported, then the motor B9 drives the input end of the hub 10 connected with the output end to rotate, then the hub 10 drives the belt 11 with the surface connected in a sliding way to rotate, thereby placing a chip on the surface of the belt 11 for simple transportation, then a simple and effective transportation structure is added when the test sucker works, then the working efficiency is improved, namely when the workbench needs to be cleaned, the switch 19 can be opened to switch on the power current output end of the dust collector 18 detachably connected at the bottom of the transverse plate, the dust collector 18 works to absorb dust through the pipeline 17 with one side thereof connected in a matching way, thereby the pipeline 17 rapidly absorbs the dust 16 through the inclined column 12 with one end connected in a matching way, namely through the hole 16 arranged on the surface of the inclined column 12, thereby the chip surface is not easy to fall into the dust when the chip is adsorbed by the sucker, and then the chip can not be damaged to a certain degree, thereby improving the protection capability and completing the whole operation flow.

In the present example, the devices used are all real and effective queriable devices, and the motor a, the motor B, such as the motor Y2-7124 of sansen, the switch, such as BS230B of royal electric appliance, the dust collector, such as the american vc1707, the hydraulic press, such as the MCY14-1B of blessing, the controller, such as the ZK1 of south major, and the electromagnetic chuck, such as the SMA-23550 of middle center, are not described in detail herein.

It should be noted that the utility model relates to a UNITMA chip test sucker, 1, a transverse plate; 2. a column; 3. a motor A; 4. a cylinder; 5. a cross post; 6. a hydraulic press; 7. an electromagnetic chuck; 8. a suction cup; 9. a motor B; 10. a hub; 11. a belt; 12. an oblique column; 13. a controller; 14. a diagonal bar; 15. a bearing; 16. a hole; 17. a pipeline; 18. a vacuum cleaner; 19. the switches and components are all standard parts or parts known to those skilled in the art, and the structure and principle of the switches and parts are known to those skilled in the art through technical manuals or through routine experiments.

It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (4)

1. The utility model provides a UNITMA chip test sucking disc, includes diaphragm (1), its characterized in that, diaphragm (1) surface mosaic is connected with cylinder (4), cylinder (4) inside mosaic is connected with bearing (15), bearing (15) input is connected with motor A (3) output, motor A (3) one side can be dismantled and is connected with down tube (14), down tube (14) one end fixed connection is in diaphragm (1) bottom, cylinder (4) top fixedly connected with spreader (5), spreader (5) one end bottom can be dismantled and be connected with hydraulic press (6), hydraulic press (6) bottom gap connection has electromagnet (7), electromagnet (7) bottom fixedly connected with sucking disc (8) and sucking disc (8) are a plurality ofly.

2. The UNITMA chip testing suction cup according to claim 1, wherein one side of the horizontal plate (1) is detachably connected with a motor B (9), the output end of the motor B (9) is connected with the input end of a hub (10), the surface of the hub (10) is slidably connected with a belt (11), and the belt (11) is slidably connected with the surface of the horizontal plate (1).

3. The UNITMA chip test suction cup according to claim 1, wherein a plurality of inclined columns (12) are detachably connected to one side surface of the transverse plate (1), holes (16) are formed in the surfaces of the inclined columns (12), a pipe (17) is cooperatively connected to one side of each inclined column (12), one side of each pipe (17) is cooperatively connected to the surface of a dust collector (18), and the dust collector (18) is detachably connected to the bottom surface of the transverse plate (1).

4. The UNITMA chip test suction cup according to claim 3, wherein a controller (13) is connected to one side of the transverse plate (1) in a clearance manner, the controller (13) is connected with power current input ends of the motor A (3), the motor B (9), the hydraulic press (6), the electromagnetic suction cup (7) and the dust collector (18) through power current output ends, and the power current input ends of the controller (13), the motor A (3), the motor B (9), the hydraulic press (6), the electromagnetic suction cup (7) and the dust collector (18) are connected with power current output ends through a switch (19).

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