CN112456146A - Vacuum pressure sensor equipment mechanism - Google Patents

Abstract

The invention discloses a vacuum pressure sensor assembling mechanism which comprises a bottom plate, a motor and a transmission belt, wherein a supporting frame is fixedly arranged at the top of the bottom plate, four vertical columns are fixedly arranged at the top of the supporting frame, a sliding frame is fixedly arranged on the outer sides of the vertical columns, a rotating rod is fixedly arranged in a third sliding block, a sleeve is fixedly arranged at the top of a magnetic block, a gear is fixedly arranged on the outer side of the rotating rod, a rack is meshed at the bottom of the gear, a device frame is movably arranged at the top of the bottom plate, and a damping net is fixedly arranged in the transmission belt. Through the fixed bed that sets up, sleeve and magnetic path, can directly fix the transportation with the bottom ware pole of sensor, directly transport cap case department with the ware pole, with the equipment of ware pole and cap case intercombination, switch on the magnetic path for the magnetic path has sufficient magnetism, through magnetic attraction, directly inhale into telescopic inside with the ware pole of ware pole incasement portion through the ware pole groove and fix, thereby make things convenient for more and assemble improvement work efficiency in vacuum pressure sensor.

Description

Vacuum pressure sensor equipment mechanism

Technical Field

The invention belongs to the technical field of vacuum pressure sensors, and particularly relates to an assembling mechanism of a vacuum pressure sensor.

Background

The vacuum pressure sensor is a pressure sensor commonly used in industrial practice, is widely applied to various industrial automatic control environments, relates to petroleum pipelines, water conservancy and hydropower, railway traffic, intelligent buildings, production automatic control, aerospace, war industry, petrifaction, oil wells, electric power, ships, machine tools, pipeline air supply, vacuum equipment and other industries, has the working principle that the pressure of a medium directly acts on a diaphragm of the sensor to enable the diaphragm to generate micro displacement in direct proportion to the pressure of the medium, so that the resistance of the sensor is changed, the change is detected by an electronic circuit and is converted to output a standard signal corresponding to the pressure, along with the high-speed development of the automobile industry, the requirement of automobile users on the safety performance of automobiles is higher and higher, and a vacuum power assisting device on the automobiles becomes an indispensable part on the automobiles, the reasonability of the design of the component directly influences the safety and the reliability of the automobile during braking. In the traditional technology, the automobile assists a brake component to brake by means of vacuum generated by an engine, and the higher the vacuum degree is, the better the brake performance is. However, with the development of automobile technology, it is important whether the vacuum degree in the booster meets the requirement of vacuum boosting of the automobile, so that the pressure detection of vacuum in the vacuum booster of the automobile is introduced, and the function of a check valve is required to be provided in consideration of safety in the past.

Vacuum pressure sensor equipment as disclosed in chinese patent CN207423428U, it utilizes the translation pedestal that sets up to combine the lift pedestal, it can realize the removal of level and vertical direction, namely, can get the apron and release the apron through the ring shape vacuum chuck, artificial operation mode that replaces through the mechanical mode, in order to reach and improve the packaging efficiency, and also reduced manufacturing cost, in addition, holistic structure is simpler, the effect of manufacturing cost has been reduced in the intangible, nevertheless still has following problem when it uses:

1. because the structure of base is too complicated, lead to the staff and produced very big inconvenience when operating the kludge, influenced the process of work.

2. The assembly is structurally complicated, which results in an effect on the efficiency of the true pressure sensor during assembly.

3. Because the equipment of assembling does not consider after assembling, lead to needing staff still need the manpower again to collect after assembling to a large amount of manpowers have been wasted.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a vacuum pressure sensor assembling mechanism, which solves the problem that the structure of a base is too complex, so that great inconvenience is caused when workers operate the assembling machine, and the working process is influenced.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a vacuum pressure sensor assembles mechanism, includes bottom plate, motor and transmission band, the top fixed mounting of bottom plate has the carriage, the top fixed mounting of carriage has four upstands, the outside fixed mounting of upstand slides the frame, the equal movable mounting in both sides of sliding the frame has the third slider, the inside fixed mounting of third slider has the bull stick, the outside fixed mounting of bull stick has the fixed bed, the outside fixed mounting of fixed bed has the magnetic path, the top fixed mounting of magnetic path has the sleeve, the outside fixed mounting of bull stick has the gear, the bottom meshing of gear has the rack, the drive end fixed mounting of motor has the reducing gear box, the top movable mounting of bottom plate has the ware frame, the inside fixed mounting of transmission band has the shock attenuation net, the equal fixed mounting in both sides of transmission band has rubber baffle.

Preferably, the bottom of the bottom plate is fixedly provided with four bearing rods, and one end, far away from the bottom plate, of each bearing rod is fixedly provided with a stress plate.

Preferably, the top of the sliding frame is fixedly provided with a cap box, a cap groove is formed in the cap box, the top of the sliding frame is fixedly provided with a supporting block, the opposite side of the supporting block is fixedly provided with a device rod box, the device rod box is internally provided with a device rod groove, and two rubber fixing frames are movably arranged in the device rod box.

Preferably, a supporting plate is fixedly mounted on the outer side of the supporting frame, a first sliding block is movably mounted inside the supporting plate, two supporting rods are fixedly mounted at the top of the first sliding block, a transverse plate is fixedly mounted at one end, far away from the first sliding block, of each supporting rod, a motor is fixedly mounted at the top of the transverse plate, and a reduction gearbox is fixedly mounted at the top of the transverse plate.

Preferably, the driving end of the reduction gearbox is fixedly provided with a rotating rod.

Preferably, the bottom of the frame is fixedly provided with a second sliding block, the bottom plate is internally provided with a sliding groove, and the sliding groove is movably provided with the second sliding block.

Preferably, a pull ring is fixedly mounted on the front surface of the frame.

Preferably, both sides of the transmission band are fixedly provided with supporting legs.

Preferably, the supporting plate is internally provided with a sliding groove, and the sliding groove is movably provided with a first sliding block.

Compared with the prior art, the invention has the beneficial effects that:

1. the bottom device rod of the sensor can be directly fixed and transported through the arranged fixing layer, the sleeve and the magnetic block, the device rod can be directly transported to the cap box, the device rod can be directly and simply fixed through the sleeve, then the magnetism of the magnetic block is enhanced by electrifying the magnetic block, the attraction of the magnetic block to the device rod is increased, the device rod can be more stably ensured when rotating, thereby the device rod and the cap box can not fall off under the drive of the rotating rod, and then the device rod and the cap box are combined and assembled mutually, the magnetic block is electrified, so that the magnetic block has enough magnetism, the magnetic block is attracted, the device rod in the device rod box is directly attracted into the sleeve through the device rod groove to be fixed, the magnetic block and the sleeve are fixed by the aid of the fixing layer, the rotating rod can be stabilized when rotating, and accordingly the vacuum pressure sensor is more convenient to assemble, and the working efficiency is improved.

2. The assembled falling vacuum sensor can be intensively transmitted through the arranged transmission belt, the damping net and the rubber baffle plate, the sensor is directly transmitted into the device frame at the bottom, the installed vacuum pressure sensor can directly fall off by utilizing the rotation of the transmission belt, the installed device rod is ensured to directly fall off on the net surface of the damping net installed inside the transmission belt for transmission, the damping net is convenient for receiving the falling vacuum pressure sensor, the damage caused by the overlarge force generated by the falling of the vacuum sensor can be effectively reduced by means of the damping net, then, the rotating rod is driven by the motor to return to the starting point, the device rod is circularly added into the sleeve, the installation of the device rod is circularly carried out, the non-stop transmission belt can receive the falling vacuum pressure sensor without stopping, and the condition that a worker spends time again for collection is avoided, the rubber baffle of transmission band both sides installation can prevent that vacuum pressure sensor from dropping to be convenient for carry the sensor, reduce the staff and collect once more.

3. The vacuum sensors falling from the transmission belt can be concentrated in the device frame again through the device frame and the sliding block, the worker can directly store the vacuum sensors in the puller frame, when the transmission belt drives the vacuum pressure sensors to fall into the device frame, the worker can utilize the pull ring to pull the device frame and transmit and drive the mounted vacuum pressure sensors to move and directly fall into the device frame, the sufficient vacuum pressure sensors are arranged in the device frame, the worker can directly pull out the puller frame through the pull ring, friction between the device frame and the bottom plate can be reduced under the action of the sliding block, so that the service time of the device frame is prolonged, the worker can rapidly collect and store the vacuum pressure sensors, the condition that the collection of the mounted vacuum pressure sensors is delayed due to the emergency of the working time is avoided, and the management of the assembled vacuum pressure sensors can be facilitated on one hand, and on the other hand, the complexity of work can be reduced.

Drawings

FIG. 1 is a schematic perspective view of an assembly mechanism according to the present invention;

FIG. 2 is a schematic side perspective view of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic top view of the present invention;

FIG. 5 is an enlarged schematic view of the structure at A of the present invention;

fig. 6 is a schematic view of the structure of the rotating rod of the present invention.

In the figure: 1. a base plate; 2. a first slider; 3. a support plate; 4. a rack; 5. a cap case; 6. a rod box; 7. a rubber fixing frame; 8. a third slider; 9. a sliding frame; 10. a vertical post; 11. a rubber baffle; 12. a shock absorbing net; 13. a conveyor belt; 14. supporting legs; 15. a support block; 16. a frame; 17. a stress plate; 18. a load-bearing bar; 19. a pull ring; 20. a gear; 21. a rotating rod; 22. a magnetic block; 23. a reduction gearbox; 24. a transverse plate; 25. a support bar; 26. a motor; 27. a support frame; 28. a fixed layer; 29. a sleeve; 30. and a second slider.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a vacuum pressure sensor assembles mechanism, comprising a base plate 1, motor 26 and transmission band 13, the top fixed mounting of bottom plate 1 has carriage 27, the top fixed mounting of carriage 27 has four upstands 10, the outside fixed mounting of upstand 10 slides frame 9, the equal movable mounting in both sides of sliding frame 9 has third slider 8, the inside fixed mounting of third slider 8 has bull stick 21, the outside fixed mounting of bull stick 21 has fixed layer 28, the outside fixed mounting of fixed layer 28 has magnetic path 22, the top fixed mounting of magnetic path 22 has sleeve 29, the outside fixed mounting of bull stick 21 has gear 20, gear 20's bottom meshing has rack 4, motor 26's drive end fixed mounting has reducing gear box 23, the top movable mounting of bottom plate 1 has ware frame 16, the inside fixed mounting of transmission band 13 has shock-absorbing screen 12, the equal fixed mounting in both sides of transmission band 13 has rubber baffle 11.

In this embodiment, when the pressure sensor assembly structure is required, firstly, a cap groove formed in the cap box 5 is required to be filled with a rod cap at the top of a plurality of vacuum pressure devices, a device rod groove formed in the device rod box 6 and having a bottom is required to be filled with a plurality of device rods, the device rods are subjected to anti-slip treatment by using the rubber fixing frame 7, are prevented from sliding downwards, then the magnetic blocks 22 are electrified, so that the magnetic blocks 22 have sufficient magnetism, the device rods in the device rod box 6 are directly sucked into the sleeve 29 through the device rod groove to be fixed through magnetic attraction, the motor 26 is started, the driving end of the motor 26 is connected with the reduction gearbox 23 to reduce the rotating speed, then the reduction gearbox 23 drives the rotating rod 21 to rotate, the rotating rod 21 drives the gear 20 to rotate, the gear 20 moves on the rack 4 meshed on the outer side, then drives the rotating rod 21 to move, the rotating rod 21 drives the device rods in the sleeve 29 to move, when the gear 20 rotates on the rack 4, the first sliding block 2, the supporting rod 25 and the transverse plate 24 are indirectly driven to move together, when the actuator rod of the rotating rod 21 reaches the rod cap inside the rod cap box 5, then the rod cap inside the sleeve 29 can be directly sleeved on the actuator rod, then the motor 26 is used for reversing to take out the mounted actuator rod, then the magnetic block 22 is weakened to reduce the electric power so that the magnetic force of the magnetic block 22 is reduced, the mounted actuator rod directly falls on the net surface of the shock absorption net 12 mounted inside the transmission belt 13 for transmission, then the motor 26 drives the rotating rod 21 to return to the starting point, the actuator rod is circulated to the inside of the sleeve 29 again, the rubber baffles 11 mounted at the two sides of the transmission belt 13 can prevent the vacuum pressure sensor from falling off, then the transmission belt 13 drives the mounted vacuum pressure sensor to move and directly fall inside the actuator frame 16, and when the vacuum pressure sensor is inside the actuator frame 16, the worker can pull out the frame 16 directly by pulling the pull ring 19 and then store the mounted vacuum pressure sensor.

Example two:

as shown in fig. 1 to 6, on the basis of the first embodiment, the present invention provides a technical solution: four bearing rods 18 are fixedly mounted at the bottom of the bottom plate 1, one end, far away from the bottom plate 1, of each bearing rod 18 is fixedly mounted with a stress plate 17, a second sliding block 30 is fixedly mounted at the bottom of the device frame 16, a sliding groove is formed in the bottom plate 1, and the second sliding block 30 is movably mounted in the sliding groove.

In this embodiment, transmission band 13 drives the vacuum pressure sensor who installs and removes, directly drop the inside of frame 16, it has sufficient vacuum pressure sensor to wait for the inside of frame 16, the staff can directly pull out through 19 pulling rings pulling frame 16, deposit the vacuum pressure sensor who installs well afterwards, bearing bar 18 can bear the pressure that the device produced, then assemble the steady stand of mechanism, second slider 30's effect is convenient for pull out frame 16, thereby the staff of being convenient for improves work efficiency.

Example three:

as shown in fig. 1 to 6, on the basis of the first embodiment and the second embodiment, the present invention provides a technical solution: the top fixed mounting of smooth frame 9 has cap case 5, and the inside of cap case 5 has seted up the cap groove, and the top fixed mounting of smooth frame 9 has supporting shoe 15, and the opposite side fixed mounting of supporting shoe 15 has ware pole case 6, and the inside of ware pole case 6 has seted up the ware pole groove, and the inside movable mounting of ware pole case 6 has two fixed frames 7 of rubber.

In this embodiment, the rod cap at the top of a plurality of vacuum pressure gauge is put into to the cap groove that the inside of cap case 5 was seted up, has the bottom to put into a plurality of ware poles in the ware rod groove that the inside of past ware rod case 6 was seted up, utilizes the fixed frame 7 of rubber to carry out anti-skidding processing to the ware pole, prevents that the ware pole from gliding, and the effect of the fixed frame 7 of rubber is convenient for increase and the frictional force between the ware pole for the ware pole can not fall down when the starting point is got back to at sleeve 29.

Example four:

as shown in fig. 1 to 6, on the basis of the first embodiment, the second embodiment and the third embodiment, the present invention provides a technical solution: the outside fixed mounting of carriage 27 has backup pad 3, the inside movable mounting of backup pad 3 has first slider 2, two spinal branch vaulting poles 25 of top fixed mounting of first slider 2, the one end fixed mounting that first slider 2 was kept away from to bracing piece 25 has diaphragm 24, the top fixed mounting of diaphragm 24 has motor 26, the top fixed mounting of diaphragm 24 has reducing gear box 23, the drive end fixed mounting of reducing gear box 23 has bull stick 21, the spout has been seted up to the inside of backup pad 3, and the inside movable mounting of spout has first slider 2.

In this embodiment, the drive end of motor 26 is connected reducing gear box 23 and is fallen pivoted speed, then reducing gear box 23 drives bull stick 21 and rotates, bull stick 21 drives gear 20 and rotates, gear 20 moves on rack 4 of outside meshing, then drive bull stick 21 and move, bull stick 21 drives the inside ware pole of sleeve 29 and moves, along with gear 20 rotates on rack 4, still can indirectly drive first slider 2, bracing piece 25 and diaphragm 24 move together, reducing gear box 23 decelerates the back with motor 26's rotational speed, drive bull stick 21, can prevent that the rotational speed of bull stick 21 from leading to loop bar offset at the excessive speed.

Example five:

as shown in fig. 1 to 6, on the basis of the first embodiment, the second embodiment, the third embodiment and the fourth embodiment, the present invention provides a technical solution: the bottom of the frame 16 is fixedly provided with a second sliding block 30, the inside of the bottom plate 1 is provided with a sliding groove, the inside of the sliding groove is movably provided with the second sliding block 30, and the front of the frame 16 is fixedly provided with a pull ring 19.

In this embodiment, transmission band 13 drives the vacuum pressure sensor who installs and removes, and direct drop is to the inside of ware frame 16, and the inside of treating ware frame 16 has sufficient vacuum pressure sensor, and the staff can directly pull out through 19 pulling ware frames 16 of pull ring, deposits the vacuum pressure sensor who installs afterwards, and 19 effects of pull ring are that the staff of being convenient for pulls out ware frame 16 to improve work efficiency.

Example six:

as shown in fig. 1 to 6, on the basis of the first embodiment, the second embodiment, the third embodiment, the fourth embodiment and the fifth embodiment, the present invention provides a technical solution: both sides of transmission band 13 all fixedly mounted have the supporting leg 14.

In this embodiment, the supporting legs 14 are used to support the conveying belt 13, so as to ensure the normal operation of the conveying belt 13.

The working principle and the using process of the invention are as follows: when a pressure sensor assembly structure is needed, firstly, a rod cap at the top of a plurality of vacuum pressure devices is placed into a cap groove arranged in a cap box 5, a plurality of device rods are placed into a device rod groove arranged in a device rod box 6 and provided with a bottom, the device rods are subjected to anti-skidding treatment by using a rubber fixing frame 7, the device rods are prevented from sliding downwards, then a magnetic block 22 is electrified, the magnetic block 22 has enough magnetism, the device rods in the device rod box 6 are directly sucked into a sleeve 29 through the device rod groove to be fixed through magnetic attraction, a motor 26 is started, the driving end of the motor 26 is connected with a reduction box 23 to reduce the rotating speed, then the reduction box 23 drives a rotating rod 21 to rotate, the rotating rod 21 drives a gear 20 to rotate, the gear 20 moves on a rack 4 meshed with the outer side and then drives the rotating rod 21 to move, the rotating rod 21 drives the device rods in the sleeve 29 to move, when the gear 20 rotates on the rack 4, the first sliding block 2, the supporting rod 25 and the transverse plate 24 are indirectly driven to move together, when the actuator rod of the rotating rod 21 reaches the rod cap inside the rod cap box 5, then the rod cap inside the sleeve 29 can be directly sleeved on the actuator rod, then the motor 26 is used for reversing to take out the mounted actuator rod, then the magnetic block 22 is weakened to reduce the electric power so that the magnetic force of the magnetic block 22 is reduced, the mounted actuator rod directly falls on the net surface of the shock absorption net 12 mounted inside the transmission belt 13 for transmission, then the motor 26 drives the rotating rod 21 to return to the starting point, the actuator rod is circulated to the inside of the sleeve 29 again, the rubber baffles 11 mounted at the two sides of the transmission belt 13 can prevent the vacuum pressure sensor from falling off, then the transmission belt 13 drives the mounted vacuum pressure sensor to move and directly fall inside the actuator frame 16, and when the vacuum pressure sensor is inside the actuator frame 16, the worker can pull out the frame 16 directly by pulling the pull ring 19 and then store the mounted vacuum pressure sensor.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a vacuum pressure sensor assembles mechanism, includes bottom plate (1), motor (26) and transmission band (13), its characterized in that: the top of the bottom plate (1) is fixedly provided with a supporting frame (27), the top of the supporting frame (27) is fixedly provided with four vertical posts (10), the outer side of each vertical post (10) is fixedly provided with a sliding frame (9), the two sides of each sliding frame (9) are movably provided with a third sliding block (8), the inner part of each third sliding block (8) is fixedly provided with a rotating rod (21), the outer side of each rotating rod (21) is fixedly provided with a fixed layer (28), the outer side of each fixed layer (28) is fixedly provided with a magnetic block (22), the top of each magnetic block (22) is fixedly provided with a sleeve (29), the outer side of each rotating rod (21) is fixedly provided with a gear (20), the bottom of each gear (20) is meshed with a rack (4), the driving end of a motor (26) is fixedly provided with a reduction gearbox (23), and the top of the bottom plate (1) is movably provided, the inside fixed mounting of transmission band (13) has shock attenuation net (12), the equal fixed mounting in both sides of transmission band (13) has rubber baffle (11).

2. The vacuum pressure sensor assembling mechanism according to claim 1, wherein: the bottom fixed mounting of bottom plate (1) has four bearing bars (18), four the one end fixed mounting that bottom plate (1) was kept away from in bearing bar (18) has atress board (17).

3. The vacuum pressure sensor assembling mechanism according to claim 1, wherein: the top fixed mounting of smooth frame (9) has cap case (5), and the inside of cap case (5) has seted up the cap groove, the top fixed mounting of smooth frame (9) has supporting shoe (15), the opposite side fixed mounting of supporting shoe (15) has ware pole case (6), and the inside of ware pole case (6) has seted up the ware pole groove, the inside movable mounting of ware pole case (6) has two fixed frames of rubber (7).

4. The vacuum pressure sensor assembling mechanism according to claim 1, wherein: the supporting frame is characterized in that a supporting plate (3) is fixedly mounted on the outer side of the supporting frame (27), a first sliding block (2) is movably mounted inside the supporting plate (3), two supporting rods (25) are fixedly mounted at the top of the first sliding block (2), a transverse plate (24) is fixedly mounted at one end, far away from the first sliding block (2), of each supporting rod (25), a motor (26) is fixedly mounted at the top of the transverse plate (24), and a reduction gearbox (23) is fixedly mounted at the top of the transverse plate (24).

5. The vacuum pressure sensor assembling mechanism according to claim 1, wherein: and a rotating rod (21) is fixedly arranged at the driving end of the reduction gearbox (23).

6. The vacuum pressure sensor assembling mechanism according to claim 1, wherein: the bottom of the device frame (16) is fixedly provided with a second sliding block (30), the bottom plate (1) is internally provided with a sliding groove, and the sliding groove is movably provided with the second sliding block (30).

7. The vacuum pressure sensor assembling mechanism according to claim 1, wherein: a pull ring (19) is fixedly arranged on the front surface of the frame (16).

8. The vacuum pressure sensor assembling mechanism according to claim 1, wherein: and supporting legs (14) are fixedly mounted on two sides of the conveying belt (13).

9. The vacuum pressure sensor assembling mechanism according to claim 4, wherein: the inside of backup pad (3) has seted up the spout, and the inside movable mounting of spout has first slider (2).

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