CN113172421A - Assembly line for intelligent manufacturing of high-precision tire pressure sensor - Google Patents
Assembly line for intelligent manufacturing of high-precision tire pressure sensor Download PDFInfo
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- CN113172421A CN113172421A CN202110536052.0A CN202110536052A CN113172421A CN 113172421 A CN113172421 A CN 113172421A CN 202110536052 A CN202110536052 A CN 202110536052A CN 113172421 A CN113172421 A CN 113172421A
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- 238000004519 manufacturing process Methods 0.000 title claims abstract description 30
- 239000000463 material Substances 0.000 claims abstract description 36
- 238000012545 processing Methods 0.000 claims abstract description 36
- 239000006096 absorbing agent Substances 0.000 claims abstract description 9
- 238000001179 sorption measurement Methods 0.000 claims description 23
- 238000003860 storage Methods 0.000 claims description 17
- 238000012856 packing Methods 0.000 claims description 5
- 230000000149 penetrating effect Effects 0.000 claims description 2
- 238000004806 packaging method and process Methods 0.000 description 9
- 238000010586 diagram Methods 0.000 description 4
- 238000009434 installation Methods 0.000 description 4
- 238000000034 method Methods 0.000 description 4
- 230000005540 biological transmission Effects 0.000 description 2
- 238000001514 detection method Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000002349 favourable effect Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 210000000697 sensory organ Anatomy 0.000 description 1
- 230000008786 sensory perception of smell Effects 0.000 description 1
- 238000005728 strengthening Methods 0.000 description 1
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P21/00—Machines for assembling a multiplicity of different parts to compose units, with or without preceding or subsequent working of such parts, e.g. with programme control
- B23P21/004—Machines for assembling a multiplicity of different parts to compose units, with or without preceding or subsequent working of such parts, e.g. with programme control the units passing two or more work-stations whilst being composed
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Abstract
The invention discloses an assembly line for intelligent manufacturing of a high-precision tire pressure sensor, which comprises a processing table, wherein a connecting frame is placed at the left part of the outer surface of the processing table, a moving device is fixedly connected to the middle part of the lower end of the connecting frame, a second conveying belt is fixedly connected between the upper part of the front frame wall of the connecting frame and the left part of the front end of the processing table, a fixing frame is placed at the right part of the outer surface of the processing table, a material taking device is movably connected to the upper part of the front end of the fixing frame in an inserting manner, absorbers are fixedly connected to the lower ends of the material taking device and the moving device, a sliding groove is formed in the middle part of the upper frame wall of the fixing frame, a material feeding device is fixedly connected to the middle parts of the front frame wall and the rear frame wall of the fixing frame, and a first conveying belt is arranged in the middle part of the upper end of the processing table. The assembly line for the intelligent manufacturing of the high-precision tire pressure sensor is high in assembly speed, improves production efficiency, and is suitable for wide application.
Description
Technical Field
The invention relates to the technical field of sensors, in particular to an assembly line for intelligent manufacturing of a high-precision tire pressure sensor.
Background
The sensor is a detection device, can feel the measured information, and can convert the felt information into an electric signal or other information output in a required form according to a certain rule so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like, and the sensor is characterized by comprising: the system is mainly used for realizing automatic detection and automatic control. The existence and the development of sensor let the object have sense organs such as sense of touch, taste and sense of smell, let the object slowly become alive, and tire pressure sensor also belongs to one kind of sensor, at present tire pressure sensor's the assembling process, all through manual assembly, need input a large amount of cost of labor and production efficiency is low, produces the quality problem easily, so, we provide a high accuracy tire pressure sensor intelligence manufacturing with equipment assembly line.
Disclosure of Invention
The invention mainly aims to provide an assembly line for intelligent manufacturing of a high-precision tire pressure sensor, which can effectively solve the problems in the background technology.
In order to achieve the purpose, the invention adopts the technical scheme that:
an assembly line for intelligent manufacturing of high-precision tire pressure sensors comprises a processing table, wherein a connecting frame is placed at the left part of the outer surface of the processing table, a moving device is fixedly connected to the middle part of the lower end of the connecting frame, a second conveying belt is fixedly connected between the upper part of the front frame wall of the connecting frame and the left part of the front end of the processing table together, a fixed frame is placed at the right part of the outer surface of the processing table, a material taking device is movably inserted into the upper part of the front end of the fixed frame, absorbers are fixedly connected to the lower ends of the material taking device and the moving device, a sliding groove is formed in the middle part of the upper frame wall of the fixed frame, a material feeding device is fixedly connected to the middle part of the front frame wall and the middle part of the rear frame wall of the fixed frame, a first conveying belt is arranged in the middle part of the upper end of the processing table, a plurality of limiting frames are fixedly connected to the middle part of the outer surface of the first conveying belt, and packaging boxes are placed in the limiting frames, the sensor bodies are placed in the packaging boxes, and the lower end of the processing table is fixedly connected with a supporting frame.
As a further improvement of the above scheme, the sensor body comprises a lower shell, a circuit board is placed in the middle of the upper end of the lower shell, and an upper shell is clamped to the upper end of the lower shell.
As a further improvement of the above scheme, the mobile device includes the fixed plate, the rear end lower part fixedly connected with of fixed plate removes the cylinder, the output that removes the cylinder runs through rear end and the fixedly connected with connecting plate of fixed plate, there is the gag lever post in the front end upper portion interlude swing joint of connecting plate, and the front end and the rear end of gag lever post respectively with the preceding frame wall of connecting frame and the front end fixed connection of fixed plate, the first telescopic link of lower extreme middle part fixedly connected with of connecting plate, the right-hand member middle part fixedly connected with trigger block of connecting plate, the right-hand member middle part fixedly connected with inductor of fixed plate, the upper end of fixed plate and the upper ledge wall fixed connection of connecting frame.
As a further improvement of the above scheme, the material taking device includes a driver, an output end of the driver penetrates through a front frame wall of the fixed frame and is fixedly connected with a threaded rod, a movable block is inserted and movably connected in the middle of the outer surface of the threaded rod, a sliding block is fixedly connected in the middle of the upper end of the movable block and is slidably connected with the sliding groove, a second telescopic rod is fixedly connected in the middle of the lower end of the movable block, and the front end and the rear end of the threaded rod are respectively movably connected with the front frame wall and the rear frame wall of the fixed frame through bearings.
As a further improvement of the above scheme, the feeding device includes a supporting plate, the upper end middle part fixedly connected with storage box of the supporting plate, and a plurality of upper housing has been placed in the storage box, the lower extreme middle part fixedly connected with material loading cylinder of the supporting plate, the output of material loading cylinder runs through the lower extreme of supporting plate and the lower tank wall and the fixedly connected with material loading plate of storage box in proper order, the front end and the rear end of supporting plate respectively with the preceding frame wall of fixed frame and the front end fixed connection of support frame.
As a further improvement of the above scheme, the adsorber comprises an adsorption tank, a vacuum pump is fixedly connected to the middle of the rear tank wall of the adsorption tank in an inserting mode, a plurality of suction holes are formed in the lower tank wall of the adsorption tank, a plurality of suction nozzles are fixedly connected to the lower end of the adsorption tank, and the upper end of the adsorption tank is fixedly connected with the lower end of the first telescopic rod.
As a further improvement of the above scheme, the triggering block is located right in front of the sensor, the sensor is electrically connected to the first telescopic rod, and the upper end surface of the connecting plate 47 contacts with the upper frame wall of the connecting frame.
As a further improvement of the above scheme, the plurality of suction nozzles are respectively located under the plurality of corresponding suction holes, and the second conveyor belt is provided with the plurality of circuit boards.
Compared with the prior art, the invention has the following beneficial effects:
1. according to the tire pressure sensor, the moving device and the absorber are arranged, the connecting plate can stably move leftwards under the guiding and limiting of the limiting rod through the extension of the moving cylinder, then the circuit board can be absorbed through the matching of the first telescopic rod and the absorber, and the circuit board can be assembled in the lower shell through the control of the sensor, so that the accurate installation of the circuit board is realized, and the quality of the tire pressure sensor is ensured.
2. According to the invention, by arranging the feeding device, the upper shell can be stored through the storage box, and the upper shell is pushed through the feeding cylinder, so that the stored upper shells can be pushed out one by one, the upper shells can be taken out of the storage box conveniently, the upper shells can be stably fed, the practicability of the device is effectively enhanced, and the device is convenient to use.
3. According to the invention, the material taking device and the absorber drive the threaded rod to rotate forwards and backwards through the driver, so that the moving block drives the absorber to move forwards and backwards together, the absorber can conveniently absorb and mount the upper shell, the automatic assembly of the tire pressure sensor is realized, the production efficiency is greatly improved, and the labor cost is effectively reduced.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced 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 that other drawings can be obtained according to the drawings without creative efforts.
FIG. 1 is a schematic overall structure diagram of an assembly line for intelligent manufacturing of a high-precision tire pressure sensor according to the present invention;
FIG. 2 is a schematic structural diagram of a sensor body of an assembly line for intelligent manufacturing of a high-precision tire pressure sensor according to the present invention;
FIG. 3 is a schematic structural diagram of a mobile device of an assembly line for intelligent manufacturing of a high-precision tire pressure sensor according to the present invention;
FIG. 4 is a schematic structural view of a material taking device of an assembly line for intelligent manufacturing of a high-precision tire pressure sensor according to the present invention;
FIG. 5 is a schematic structural view of a feeding device of an assembly line for intelligent manufacturing of a high-precision tire pressure sensor according to the present invention;
fig. 6 is a schematic structural diagram of an absorber of an assembly line for intelligent manufacturing of a high-precision tire pressure sensor according to the invention.
In the figure: 1. a processing table; 2. a connecting frame; 3. a sensor body; 4. a mobile device; 5. a material taking device; 6. a chute; 7. a feeding device; 8. an adsorber; 9. a first conveyor belt; 10. a support frame; 11. a limiting frame; 12. packaging boxes; 13. a second conveyor belt; 14. a fixing frame; 31. a lower housing; 32. a circuit board; 33. an upper housing; 41. a fixing plate; 42. a moving cylinder; 43. an inductor; 44. a trigger block; 45. a first telescopic rod; 46. a limiting rod; 47. a connecting plate; 51. a driver; 52. a threaded rod; 53. a moving block; 54. a slider; 55. a second telescopic rod; 71. a support plate; 72. a material storage box; 73. a feeding cylinder; 74. feeding plates; 81. an adsorption tank; 82. a vacuum pump; 83. a suction hole; 84. a suction nozzle.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
The technical scheme of the invention is further explained by combining the attached drawings.
Example one
An assembly line for intelligent manufacturing of high-precision tire pressure sensors is disclosed, as shown in figures 1-3 and 6, and comprises a processing table 1, a connecting frame 2 is placed at the left part of the outer surface of the processing table 1, a moving device 4 is fixedly connected at the middle part of the lower end of the connecting frame 2, a second conveyor belt 13 is fixedly connected between the upper part of the front frame wall of the connecting frame 2 and the left part of the front end of the processing table 1, a fixed frame 14 is placed at the right part of the outer surface of the processing table 1, a material taking device 5 is movably connected at the upper part of the front end of the fixed frame 14 in an inserting manner, adsorbers 8 are fixedly connected at the lower ends of the material taking device 5 and the moving device 4, a chute 6 is formed in the middle part of the upper frame wall of the fixed frame 14, a material feeding device 7 is fixedly connected at the middle part of the front frame wall and the middle part of the rear frame wall of the fixed frame, packaging boxes 12 are respectively placed in the limiting frames 11, the sensor bodies 3 are respectively placed in the packaging boxes 12, and the lower end of the processing table 1 is fixedly connected with a supporting frame 10; the sensor body 3 comprises a lower shell 31, a circuit board 32 is placed in the middle of the upper end of the lower shell 31, and an upper shell 33 is clamped at the upper end of the lower shell 31; the moving device 4 comprises a fixed plate 41, a moving cylinder 42 is fixedly connected to the lower portion of the rear end of the fixed plate 41, the output end of the moving cylinder 42 penetrates through the rear end of the fixed plate 41 and is fixedly connected with a connecting plate 47, a limiting rod 46 is movably connected to the upper portion of the front end of the connecting plate 47 in a penetrating manner, the front end and the rear end of the limiting rod 46 are fixedly connected with the front frame wall of the connecting frame 2 and the front end of the fixed plate 41 respectively, a first telescopic rod 45 is fixedly connected to the middle portion of the lower end of the connecting plate 47, a trigger block 44 is fixedly connected to the middle portion of the right end of the connecting plate 47, an inductor 43 is fixedly connected to the middle portion of the right end of the fixed plate 41, and the upper end of the fixed plate 41 is fixedly connected with the upper frame wall of the connecting frame 2; the triggering block 44 is located right in front of the sensor 43, so that the triggering block 44 can trigger the sensor 43 conveniently, the sensor 43 is electrically connected with the first telescopic rod 45, the sensor 43 can control the extension and retraction of the first telescopic rod 45, the accurate installation of the circuit board 32 is ensured, and the upper end surface of the connecting plate 47 is in contact with the upper frame wall of the connecting frame 2; the adsorber 8 comprises an adsorption tank 81, a vacuum pump 82 is fixedly connected to the middle of the rear wall of the adsorption tank 81 in an inserted manner, a plurality of suction holes 83 are formed in the lower wall of the adsorption tank 81, a plurality of suction nozzles 84 are fixedly connected to the lower end of the adsorption tank 81, and the upper end of the adsorption tank 81 is fixedly connected with the lower end of the first telescopic rod 45; the suction nozzles 84 are respectively positioned under the suction holes 83 corresponding to each other, the suction holes 83 are respectively communicated with the suction nozzles 84 corresponding to each other, the suction force of the suction nozzles 84 is enhanced, and the circuit boards 32 are placed on the second conveyor belt 13.
In the specific use process of the embodiment, the moving cylinder 42 extends to push the connecting plate 47, so that the connecting plate 47 stably moves leftwards under the guiding and limiting of the limiting rod 46, and drives the first telescopic rod 45 and the adsorption box 81 to move right above the second conveyor belt 13, then the first telescopic rod 45 drives the adsorption box 81 to move downwards, so that the suction nozzle 84 contacts with the circuit board 32, meanwhile, the vacuum pump 82 works to draw air in the adsorption box 81, the suction nozzle 84 firmly adsorbs the circuit board 32 through the suction hole 83, then the first telescopic rod 45 contracts to drive the circuit board 32 to move upwards, then the moving cylinder 42 contracts to move the circuit board 32 backwards, when the trigger block 44 contacts with the sensor 43, the circuit board 32 moves right below the lower shell 31, at this time, the sensor 43 controls the first telescopic rod 45 to extend, and the circuit board 32 can be accurately installed in the lower shell 31, thereby, accurate installation of the circuit board 32 is realized, and the quality of the tire pressure sensor is ensured.
Example two
On the basis of the first embodiment, as shown in fig. 5, an assembly line for intelligent manufacturing of a high-precision tire pressure sensor comprises a processing table 1, a connecting frame 2 is placed at the left part of the outer surface of the processing table 1, a moving device 4 is fixedly connected to the middle part of the lower end of the connecting frame 2, a second conveyor belt 13 is fixedly connected between the upper part of the front frame wall of the connecting frame 2 and the left part of the front end of the processing table 1, a fixed frame 14 is placed at the right part of the outer surface of the processing table 1, a material taking device 5 is movably connected to the upper part of the front end of the fixed frame 14 in an inserting manner, adsorbers 8 are fixedly connected to the lower ends of the material taking device 5 and the moving device 4, a chute 6 is formed in the middle part of the upper frame wall of the fixed frame 14, a material feeding device 7 is fixedly connected to the middle parts of the front frame wall and the rear frame wall of the fixed frame 14, a first conveyor belt 9 is arranged in the middle part of the upper end of the processing table 1, a plurality of limiting frames 11 are fixedly connected to the middle part of the outer surface of the first conveyor belt 9, packaging boxes 12 are respectively placed in the limiting frames 11, the sensor bodies 3 are respectively placed in the packaging boxes 12, and the lower end of the processing table 1 is fixedly connected with a supporting frame 10; the feeding device 7 comprises a supporting plate 71, a storage box 72 is fixedly connected to the middle of the upper end of the supporting plate 71, a plurality of upper shells 33 are placed in the storage box 72, a feeding cylinder 73 is fixedly connected to the middle of the lower end of the supporting plate 71, an output end of the feeding cylinder 73 sequentially penetrates through the lower end of the supporting plate 71 and the lower box wall of the storage box 72 and is fixedly connected with a feeding plate 74, the outer surface of the feeding plate 74 is in contact with the inner box wall of the storage box 72, the feeding plate 74 is convenient to push the upper shells 33, and the front end and the rear end of the supporting plate 71 are respectively fixedly connected with the front frame wall of the fixed frame 14 and the front end of the support frame 10.
In the concrete use of this embodiment, can store a plurality of upper casings 33 through storage case 72, when needs get material to upper casings 33, flitch 74 rebound in the extension drive of material loading cylinder 73 makes material loading flitch 74 promote upper casings 33, thereby can upwards release upper casings 33 a slice of that stores in storage case 72, be favorable to taking out upper casings 33 from storage case 72, thereby can carry out stable material loading to upper casings 33, the effectual practicality of strengthening the device, convenient to use.
EXAMPLE III
On the basis of the first embodiment, as shown in fig. 4 and 6, an assembly line for intelligent manufacturing of a high-precision tire pressure sensor comprises a processing table 1, a connecting frame 2 is placed at the left part of the outer surface of the processing table 1, a moving device 4 is fixedly connected to the middle part of the lower end of the connecting frame 2, a second conveyor belt 13 is fixedly connected between the upper part of the front frame wall of the connecting frame 2 and the left part of the front end of the processing table 1, a fixed frame 14 is placed at the right part of the outer surface of the processing table 1, a material taking device 5 is movably connected to the upper part of the front end of the fixed frame 14 in an inserting manner, adsorbers 8 are fixedly connected to the lower ends of the material taking device 5 and the moving device 4, a chute 6 is formed in the middle part of the upper frame wall of the fixed frame 14, a material feeding device 7 is fixedly connected to the middle parts of the front frame wall and the rear frame wall of the fixed frame 14, a first conveyor belt 9 is arranged in the middle part of the upper end of the processing table 1, a plurality of limiting frames 11 are fixedly connected to the middle part of the outer surface of the first conveyor belt 9, packaging boxes 12 are respectively placed in the limiting frames 11, the sensor bodies 3 are respectively placed in the packaging boxes 12, and the lower end of the processing table 1 is fixedly connected with a supporting frame 10; the material taking device 5 comprises a driver 51, an output end of the driver 51 penetrates through a front frame wall of the fixed frame 14 and is fixedly connected with a threaded rod 52, a moving block 53 is movably connected in the middle of the outer surface of the threaded rod 52 in an inserting mode, a sliding block 54 is fixedly connected in the middle of the upper end of the moving block 53, the sliding block 54 is in sliding connection with the sliding groove 6 and can limit the moving block 53, the moving block 53 can only move front and back, a second telescopic rod 55 is fixedly connected in the middle of the lower end of the moving block 53, and the front end and the rear end of the threaded rod 52 are respectively movably connected with the front frame wall and the rear frame wall of the fixed frame 14 through bearings.
In the specific use process of the embodiment, the driver 51 drives the threaded rod 52 to rotate, so that the moving block 53 drives the sliding block 54 and the second telescopic rod 55 to move forward together, and then the sliding block 54 slides in the sliding chute 6 to limit, so that the stability of the moving block 53 in the moving process is improved, and simultaneously the adsorption box 81 is also driven to move forward together, when the adsorption box 81 moves to the position right above the upper shell 33 in the feeding device 7 at the front side, then the second telescopic rod 55 drives the adsorption box 81 to move downward, so that the suction nozzle 84 is in contact with the upper shell 33, the vacuum pump 82 works to extract air in the adsorption box 81, the suction nozzle 84 firmly adsorbs the upper shell 33 through the suction hole 83, then the second telescopic rod 55 contracts to drive the upper shell 33 to move upward, at this time, the driver 51 drives the threaded rod 52 to rotate reversely, so that the upper shell 33 can move to the position right above the lower shell 31 with the circuit board 32 installed, the upper shell 33 and the lower shell 31 can be installed by extending the second telescopic rod 55, so that automatic assembly of the tire pressure sensor is achieved, production efficiency is greatly improved, and labor cost is effectively reduced.
In summary of the above embodiments, the present invention conveys the packing box 12 through the first conveyor belt 9, and can limit the packing box 12 through the limiting frame 11, and the limiting frame 11 is made of rubber material, and will not affect the first conveyor belt 9, and the lower casing 31 is placed in the packing box 12, so as to realize the transmission of the first conveyor belt 9 to the lower casing 31, and at the same time, the second conveyor belt 13 conveys the circuit board 32, when the lower casing 31 moves to the right below the connecting frame 2, the circuit board 32 can be placed in the lower casing 31 through the cooperation between the moving device 4 and the adsorber 8, so as to realize the accurate installation of the circuit board 32, and ensure the production quality of the tire pressure sensor, the lower casing 31 with the circuit board 32 installed thereon is transmitted to the right through the first conveyor belt 9, and when it moves to the right below the fixing frame 14, the feeding device 7 pushes the upper casing 33 upwards, can stabilize the material loading to last casing 33, the effectual practicality of having strengthened the device, simultaneously, through the cooperation between extracting device 5 and the adsorber 8, can install down casing 31 with last casing 33 on to realized tire pressure sensor's automatic equipment, great improvement production efficiency, the effectual cost of labor that has reduced, whole tire pressure sensor assembly line equipment is effectual, fast, work efficiency is high.
The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (8)
1. The utility model provides a high accuracy tire pressure sensor intelligence is made with equipment assembly line, includes processing platform (1), its characterized in that: a connecting frame (2) is placed at the left part of the outer surface of the processing table (1), a moving device (4) is fixedly connected to the middle part of the lower end of the connecting frame (2), a second conveying belt (13) is fixedly connected between the upper part of the front frame wall of the connecting frame (2) and the left part of the front end of the processing table (1) together, a fixed frame (14) is placed at the right part of the outer surface of the processing table (1), a material taking device (5) is movably connected to the upper part of the front end of the fixed frame (14) in an inserting manner, absorbers (8) are fixedly connected to the lower ends of the material taking device (5) and the moving device (4), a sliding groove (6) is formed in the middle part of the upper frame wall of the fixed frame (14), a material feeding device (7) is fixedly connected to the middle parts of the front frame wall and the rear frame wall of the fixed frame (14), a first conveying belt (9) is arranged in the middle part of the upper end of the processing table (1), the surface middle part fixedly connected with a plurality of spacing frame (11) of first conveyer belt (9), a plurality of packing carton (12) have all been placed in spacing frame (11), a plurality of sensor body (3) have all been placed in packing carton (12), lower extreme fixedly connected with support frame (10) of processing platform (1).
2. The assembly line for the intelligent manufacturing of the high-precision tire pressure sensor according to claim 1, wherein: the sensor body (3) comprises a lower shell (31), a circuit board (32) is placed in the middle of the upper end of the lower shell (31), and an upper shell (33) is clamped at the upper end of the lower shell (31).
3. The assembly line for the intelligent manufacturing of the high-precision tire pressure sensor according to claim 1, wherein: the movable device (4) comprises a fixed plate (41), the rear end lower part fixedly connected with of fixed plate (41) removes cylinder (42), the output of removing cylinder (42) runs through rear end and fixedly connected with connecting plate (47) of fixed plate (41), the front end upper portion interlude swing joint of connecting plate (47) has gag lever post (46), and the front end and the rear end of gag lever post (46) respectively with the preceding frame wall of connecting frame (2) and the front end fixed connection of fixed plate (41), the first telescopic link of lower extreme middle part fixedly connected with (45) of connecting plate (47), the right-hand member middle part fixedly connected with of connecting plate (47) triggers piece (44), the right-hand member middle part fixedly connected with inductor (43) of fixed plate (41), the upper end of fixed plate (41) and the upper ledge wall fixed connection of connecting frame (2).
4. The assembly line for the intelligent manufacturing of the high-precision tire pressure sensor according to claim 1, wherein: the material taking device (5) comprises a driver (51), the output end of the driver (51) penetrates through the front frame wall of the fixed frame (14) and is fixedly connected with a threaded rod (52), the middle of the outer surface of the threaded rod (52) is movably connected with a moving block (53) in a penetrating mode, the middle of the upper end of the moving block (53) is fixedly connected with a sliding block (54), the sliding block (54) is slidably connected with a sliding groove (6), the middle of the lower end of the moving block (53) is fixedly connected with a second telescopic rod (55), and the front end and the rear end of the threaded rod (52) are respectively and movably connected with the front frame wall and the rear frame wall of the fixed frame (14) through bearings.
5. The assembly line for the intelligent manufacturing of the high-precision tire pressure sensor according to claim 1, wherein: loading attachment (7) are including backup pad (71), upper end middle part fixedly connected with storage case (72) of backup pad (71), and placed a plurality of in storage case (72) and go up casing (33), lower extreme middle part fixedly connected with material loading cylinder (73) of backup pad (71), flitch (74) are gone up to lower case wall and the fixedly connected with of the lower extreme that runs through backup pad (71) and storage case (72) in proper order to the output of material loading cylinder (73), the front end and the rear end of backup pad (71) respectively with the preceding frame wall of fixed frame (14) and the front end fixed connection of support frame (10).
6. The assembly line for the intelligent manufacturing of the high-precision tire pressure sensor according to claim 1, wherein: adsorber (8) including adsorption tank (81), fixedly connected with vacuum pump (82) alternate in the middle part of the back tank wall of adsorption tank (81), it has a plurality of suction hole (83) to open on the lower tank wall of adsorption tank (81), a plurality of suction nozzle (84) of lower extreme fixedly connected with of adsorption tank (81), the upper end of adsorption tank (81) and the lower extreme fixed connection of first telescopic link (45).
7. The assembly line for the intelligent manufacturing of the high-precision tire pressure sensor according to claim 3, wherein: the trigger block (44) is located right ahead of the sensor (43), the sensor (43) is electrically connected with the first telescopic rod (45), and the upper end face of the connecting plate 47 is in contact with the upper frame wall of the connecting frame (2).
8. The assembly line for the intelligent manufacturing of the high-precision tire pressure sensor according to claim 6, wherein: the suction nozzles (84) are respectively positioned under the corresponding suction holes (83), and the second conveyor belt (13) is provided with the circuit boards (32).
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| Application Number | Priority Date | Filing Date | Title |
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| CN202110536052.0A CN113172421A (en) | 2021-05-17 | 2021-05-17 | Assembly line for intelligent manufacturing of high-precision tire pressure sensor |
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| CN202110536052.0A CN113172421A (en) | 2021-05-17 | 2021-05-17 | Assembly line for intelligent manufacturing of high-precision tire pressure sensor |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113859648A (en) * | 2021-10-29 | 2021-12-31 | 长沙环境保护职业技术学院 | Automatic packaging production device based on large-batch high-grade wine gift boxes |
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| CN113859648B (en) * | 2021-10-29 | 2022-12-13 | 长沙环境保护职业技术学院 | Automatic packaging production device based on large-batch high-grade wine gift boxes |
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