CN223258821U - Automatic press bar detection mechanism - Google Patents

Abstract

The utility model relates to the field of automation, in particular to an automatic pressing strip detection mechanism which comprises a conveying module, a transmission module, a pressing module and a detection module, wherein the conveying module is used for conveying and positioning a test product, the pressing module and the detection module carry out multi-direction lifting transmission and linear transmission through the transmission module, and the detection module is arranged on the pressing module and detects through a testing device. The device comprises a jig assembly, a transmission module, a pressing module, a detection module, a sensing assembly, a distance measuring assembly, a sensing element, a distance measuring assembly, a pressing module, a control module and an automatic program.

Description

Automatic press bar detection mechanism

Technical Field

The utility model relates to the field of automation, in particular to an automatic press bar detection mechanism.

Background

Automation (Automation) refers to a process in which machine equipment, systems or processes (production and management processes) are directly participated by no or fewer people, and according to the requirements of the people, the expected targets are realized through automatic detection, information processing, analysis, judgment and manipulation control.

At present, the automatic equipment detects whether the sizes of the pressing strips are qualified or not after the pressing strips are produced, and the pressing strips cannot be synchronously carried out, and the process is complex, a large amount of manual assistance is needed, so that the problem of low production benefit is caused.

Disclosure of utility model

In order to solve the problems, the utility model provides an automatic press bar detection mechanism, which solves the problems that the prior automatic equipment can detect whether the size of the press bar is qualified or not after the press bar is produced, the press bar cannot be synchronously carried out, the process is complex, a large amount of manual assistance is needed, and the production benefit is low.

The technical scheme includes that the automatic clamping device comprises a conveying module, a transmission module, a compression module and a detection module, wherein the conveying module comprises a conveying assembly, a jig assembly and a jacking assembly, the jig assembly is slidably arranged on the conveying assembly, the jacking assembly is supported on the jig assembly, the jig assembly is used for placing products, the transmission module faces the conveying module, the transmission module comprises a Y-axis transmission assembly, an X-axis transmission assembly and a Z-axis transmission assembly, the Y-axis transmission assembly is provided with two groups, two ends of the X-axis transmission assembly are arranged on the two groups of Y-axis transmission assemblies, the Z-axis transmission assembly is arranged on the X-axis transmission assembly and conducts bidirectional transmission through the Y-axis transmission assembly and the X-axis transmission assembly, the compression module is arranged on the Z-axis transmission assembly, the compression module comprises a compression seat and a compression driving assembly arranged on the compression seat, the two groups of compression driving assemblies are symmetrically arranged on the compression seat, the detection module is arranged on the compression seat, and the detection module comprises a detection frame, a sliding table and a rotary device which is arranged on the detection frame and the detection assembly and is connected with the detection assembly.

The conveying assembly comprises two groups of symmetrically arranged conveying frames, sensing elements and positioning elements, wherein the sensing elements and the positioning elements are respectively arranged on the conveying frames, and a conveying motor is arranged at one end of each conveying frame.

The jig assembly comprises a jig panel, a plurality of groups of jig grooves symmetrically arranged on the jig panel, limiting rods are arranged on the jig grooves, the limiting rods limit products in the jig grooves, and the sensing elements are used for sensing whether the products are placed in the jig grooves or not.

The lifting assembly comprises a lifting fixing plate, a lifting guide rod movably arranged on the lifting fixing plate, a lifting driving plate connected to the top end of the lifting guide rod, and a lifting driving piece connected to the lifting driving plate, wherein one end of the lifting driving piece is driven to move along the lifting guide rod towards the jig assembly.

The technical scheme is further improved, the Y-axis transmission assembly comprises a Y-axis transmission frame, a Y-axis guide rail arranged on the Y-axis transmission frame, a Y-axis transmission seat movably arranged on the Y-axis guide rail, and a Y-axis driving machine arranged on the Y-axis transmission frame and connected with the Y-axis guide rail, a Y-axis support frame is arranged at the bottom of the Y-axis transmission frame, one end of the Y-axis support frame faces to the conveying assembly and is connected with the conveying frame, one end of the X-axis transmission assembly is arranged on the Y-axis transmission seat and is provided with an X-axis transmission frame, an X-axis transmission guide rail arranged on the X-axis transmission frame and an X-axis transmission seat movably arranged on the X-axis transmission guide rail, one side of the X-axis transmission guide rail is provided with a plurality of X-axis sensing pieces, each X-axis sensing piece is provided with a sensing groove, each Z-axis transmission assembly comprises a Z-axis transmission seat, a Z-axis guide rod movably arranged on the Z-axis transmission seat and a Z-axis driving piece arranged on the Z-axis transmission seat, and one end of each Z-axis driving piece is connected with the compaction seat to drive the lifting transmission module.

The technical scheme is further improved that the compression driving assembly comprises a compression fixing frame, a compression driving cylinder arranged on the compression fixing frame, a connecting guide rod arranged on the compression fixing frame, a buffer element sleeved on the connecting guide rod, a compression movable frame connected to the bottom of the connecting guide rod and a pressing block arranged on the compression movable frame, wherein a coupler is arranged between the compression driving cylinder and the compression fixing frame, and the compression driving cylinder can drive the pressing block to lift and move and rotate through the coupler.

The sliding table assembly comprises a sliding table cylinder, a sliding table guide rail arranged on the sliding table cylinder, and a sliding table transmission seat arranged on the sliding table guide rail, wherein the rotating assembly is arranged on the sliding transmission seat and carries out lifting and rotating transmission through the sliding assembly.

The detection device comprises an induction component and a distance measuring component, wherein the induction component comprises an induction support, an induction sliding rail arranged on the induction support, an induction seat arranged on the induction sliding rail, an inductor arranged on the induction seat, an induction rod connected to the inductor and an induction end arranged on the induction rod.

The distance measuring assembly comprises a distance measuring frame, a distance measuring table arranged on the distance measuring frame and a distance measuring rod connected to the distance measuring table, wherein one end of the distance measuring rod is sleeved with a positioning ring, and one end of the distance measuring rod is connected to the positioning ring and is provided with a reset element.

A further improvement of the above solution is that the length of the ranging rod corresponds to the ranging range.

The beneficial effects of the utility model are as follows:

Compared with the existing testing mechanism, the lifting and positioning device is convenient for conveying, lifting and positioning the jig assembly through the conveying module and the lifting module, is convenient for the operation of the pressing module and the detection module, is convenient for driving the pressing module and the detection module to carry out multidirectional transmission through the transmission module, can carry out lifting and rotation transmission on the pressing module and the detection module, is convenient for pressing and detecting products at different angles, is provided with the sensing module and the ranging module, is convenient for the pressing module to detect pressing depth when the pressing module presses the products, can touch the sensing element when the depth is abnormal, enables the pressing module to adjust the pressing depth, ensures the pressing precision of the products, and has high automation program and strong practicability, and has a certain application prospect.

Drawings

FIG. 1 is a perspective view of an automatic press bar detection mechanism of the present utility model;

FIG. 2 is a schematic diagram of a conveying module according to the present utility model;

FIG. 3 is a schematic diagram of a fixture assembly according to the present utility model;

FIG. 4 is a schematic view of a jacking assembly according to the present utility model;

FIG. 5 is a schematic diagram of a transmission module according to the present utility model;

FIG. 6 is a schematic diagram of a compression module according to the present utility model;

FIG. 7 is a schematic diagram of a detection module according to the present utility model;

fig. 8 is an enlarged view at a in fig. 7.

The reference numerals illustrate that the conveying module 10, the conveying assembly 11, the conveying frame 110, the sensing element 111, the positioning element 112, the jig assembly 12, the jig panel 121, the jig groove 122, the limiting rod 123, the jacking assembly 13, the jacking fixing plate 131, the jacking guide rod 132, the jacking driving plate 133 and the jacking driving piece 134;

The transmission module 20, the Y-axis transmission assembly 21, the X-axis transmission assembly 22 and the Z-axis transmission assembly 23;

The compression module 30, the compression seat 31, the compression driving assembly 32, the compression fixing frame 321, the compression driving cylinder 322, the connecting guide rod 323, the buffer element 324, the compression movable frame 325, the pressing block 326 and the coupling 327;

The detection module 40, the detection frame 41, the sliding table assembly 42, the sliding table cylinder 421, the sliding table guide rail 422, the sliding table transmission seat 423, the rotating assembly 43, the testing device 44, the sensing assembly 45, the sensing bracket 451, the sensing seat 452, the sensor 453, the sensing rod 454, the sensing end 455, the sensing slide rail 456, the ranging assembly 46, the ranging frame 461, the ranging table 462, the ranging rod 463, the positioning ring 464, and the reset element 465.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. Preferred embodiments of the present utility model are shown in the drawings. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

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

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Referring to fig. 1-8, in an embodiment of the utility model, an automatic pressing strip detection mechanism comprises a conveying module 10, a transmission module 20, a pressing module 30 and a detection module 40, wherein the conveying module 10 comprises a conveying module 11, a jig assembly 12 slidably arranged on the conveying module 11 and a jacking assembly 13 supported on the jig assembly 12, the jig assembly 12 is used for placing products, the transmission module 20 faces the conveying module 10, the transmission module 20 comprises a Y-axis transmission assembly 21, an X-axis transmission assembly 22 and a Z-axis transmission assembly 23, the Y-axis transmission assembly 21 is provided with two groups, two ends of the X-axis transmission assembly 22 are arranged on the two groups of Y-axis transmission assemblies 21, the Z-axis transmission assembly 23 is arranged on the X-axis transmission assembly 22 and carries out bidirectional transmission through the Y-axis transmission assembly 21 and the X-axis transmission assembly 22, the pressing module 30 is arranged on the Z-axis transmission assembly 23, the pressing module 30 comprises a pressing seat 31 and a pressing driving assembly 32 arranged on the pressing seat 31, the two groups of driving assemblies are arranged on the two groups of driving sliding table assemblies 43 and the two detection modules 40 are arranged on the two groups of the two detection modules 42 and the two detection modules 42 are connected with the two detection modules 43 and the two detection modules are arranged on the two detection modules 41 and the detection modules 42.

As shown in fig. 2, the conveying assembly 11 includes two groups of symmetrically arranged conveying frames 110, sensing elements 111 and positioning elements 112 respectively arranged on the conveying frames 110, and a conveying motor 113 is arranged at one end of the conveying frames 110. In the embodiment, the conveying assembly 11 is convenient for conveying the jig assembly 12 arranged on the conveying assembly 11, the positioning element 112 and the sensing element 111 are arranged on the conveying assembly 11 and can respectively perform positioning sensing on the jig assembly 12 arranged on the conveying assembly 11 and or independently perform positioning and or sensing on a product on the jig assembly 12, the practicability is high, the conveying precision of the conveying assembly 11 is convenient to improve, and the pressing module 30 is convenient for pressing and ranging on the product on the jig assembly 12.

As shown in fig. 3, the jig assembly 12 includes a jig panel 121, a plurality of groups of jig grooves 122 symmetrically disposed on the jig panel 121, a plurality of groups of jig grooves 122 are respectively provided with a limiting rod 123, the limiting rods 123 limit the products in the jig grooves 122, and the sensing element 111 is used for sensing whether the products are placed in the jig grooves 122. In the embodiment, the jig assembly 12 is convenient for placing products, the jig groove 122 is arranged on the jig assembly 12 to be convenient for placing and distinguishing different products, the pressing assembly is beneficial to pressing the products, the detection assembly is convenient for detecting the products, and the device is compact in structure and high in practicability. And the sensing element 111 on the conveying assembly 11 is convenient for sensing whether the product exists in the jig groove 122, so that the practicability of the mechanism can be improved.

As shown in fig. 4, the jacking assembly 13 includes a jacking fixed plate 131, a jacking guide rod 132 movably disposed on the jacking fixed plate 131, a jacking driving plate 133 connected to the top end of the jacking guide rod 132, and a jacking driving piece 134 connected to the jacking driving plate 133, where one end of the jacking driving piece 134 is driven by the jacking driving plate 133 to move along the jacking guide rod 132 toward the jig assembly 12. In this embodiment, the lifting assembly 13 is convenient for enhancing the bearing performance of the conveying assembly 11 and the jig assembly 12, and improving the convenience, the lifting assembly 13 is provided with a lifting fixing plate 131 and a lifting driving plate 133, the lifting stability is convenient for lifting through the lifting fixing plate 131, the jig assembly 12 is convenient for driving to further lift through the lifting driving plate 133, and the practicability and flexibility of the jig assembly 12 are improved.

As shown in FIG. 5, the Y-axis transmission assembly 21 comprises a Y-axis transmission frame, a Y-axis guide rail arranged on the Y-axis transmission frame, a Y-axis transmission seat movably arranged on the Y-axis guide rail, and a Y-axis driving machine arranged on the Y-axis transmission frame and connected with the Y-axis guide rail, wherein a Y-axis support frame is arranged at the bottom of the Y-axis transmission frame, one end of the Y-axis support frame faces towards the conveying assembly 11 and is connected with the conveying frame 110, one end of the X-axis transmission assembly 22 is erected on the Y-axis transmission seat and is provided with an X-axis transmission frame, an X-axis transmission guide rail arranged on the X-axis transmission frame and an X-axis transmission seat movably arranged on the X-axis transmission guide rail, one side of the X-axis transmission guide rail is provided with a plurality of X-axis sensing pieces, the X-axis sensing piece is provided with a sensing groove, the Z-axis transmission assembly 23 comprises a Z-axis transmission seat, a Z-axis guide rod movably arranged on the Z-axis transmission seat and a Z-axis driving piece arranged on the Z-axis transmission seat, and one end of the Z-axis driving piece is connected with the pressing seat 31 to drive the pressing module 30 to lift. In this embodiment, the Y-axis transmission assembly 21, the X-axis transmission assembly 22 and the Y-axis transmission assembly 21 are convenient for driving the compressing module 30 and the detecting module 40 to perform transverse transmission, linear transmission and lifting transmission, so that the transmission practicability between the compressing module 30 and the detecting module 40 is greatly improved, the application range between the compressing module 30 and the detecting module 40 is convenient to expand, and the practicability is strong.

As shown in fig. 6, the compression driving assembly 32 includes a compression fixing frame 321, a compression driving cylinder 322 mounted on the compression fixing frame 321, a connection guide rod 323 arranged on the compression fixing frame 321, a buffer element 324 sleeved on the connection guide rod 323, a compression movable frame 325 connected to the bottom of the connection guide rod 323, and a pressing block 326 arranged on the compression movable frame 325, wherein a coupling 327 is arranged between the compression driving cylinder 322 and the compression fixing frame 321, and the compression driving cylinder 322 can drive the pressing block 326 to lift and rotate through the coupling 327. In the embodiment, a telescopic element is arranged between the compression fixing frame 321 and the compression moving part, tension is conveniently provided for the compression block 326 through the telescopic element, the pressure of the compression block 326 can be further enhanced, abrasion caused by friction force in the operation process to the compression module 30 can be further reduced, the compression module 30 is arranged on the X-axis transmission module 20 and the Z-axis transmission module 20 to facilitate transmission in different directions, the operation range of the compression module 30 is enlarged, the compression efficiency is improved, the compression driving part is further arranged on the compression module 30 to facilitate transmission for the compression of products by driving the compression block 326 on the compression module 30 to face the products on the jig assembly 12, and the coupling 327 is further arranged on the compression driving assembly 32 to facilitate driving the compression block 326 to rotate, so that the compression driving assembly 32 can drive the compression block 326 to face the products in different directions.

As shown in fig. 7 to 8, the sliding table assembly 42 includes a sliding table cylinder 421, a sliding table guide rail 422 disposed on the sliding table cylinder 421, and a sliding table transmission seat 423 disposed on the sliding table guide rail 422, and the rotating assembly 43 is disposed on the sliding transmission seat and performs lifting and rotating transmission through the sliding assembly. In this embodiment, the slip table subassembly 42 and rotating assembly 43 are convenient for drive detection module 40 and carry out linear drive and rotation detection, promote detection module 40's detection practicality, are convenient for drive sensing assembly 45 and range finding subassembly 46 and detect at the ascending test product of different directions, and the practicality is strong.

The testing device 44 comprises an induction assembly 45 and a distance measuring assembly 46, wherein the induction assembly 45 comprises an induction bracket 451, an induction sliding rail 456 arranged on the induction bracket 451, an induction seat 452 arranged on the induction sliding rail 456, an inductor 453 arranged on the induction seat 452, an induction rod 454 connected to the inductor 453 and an induction end 455 arranged on the induction rod 454. In this embodiment, the sensing component 45 is convenient to sense the ranging content on the ranging component 46, the ranging component 46 is arranged on the sensing component 45, and the sensing component 45 is provided with the transmission sensing seat 452 so as to drive the ranging component 46 to transmit again, thereby improving the accuracy of the ranging component 46 in detecting the test product.

The ranging assembly 46 comprises a ranging frame 461, a ranging table 462 arranged on the ranging frame 461, and a ranging rod 463 connected with the ranging table 462, wherein a positioning ring 464 is sleeved at one end of the ranging rod 463, and a reset element 465 is arranged at one end of the positioning ring 464. In this embodiment, the ranging component 46 faces the jig component 12 to facilitate the detection of the test product in the jig component 12, the ranging component 46 is used to range the test product in the jig component 12, when the ranging distances are inconsistent, the sensing ends 455 on the sensing component 45 are abutted with each other by the ranging table 462 on the ranging component 46, so that the pressing module 30 presses the product again to facilitate the ranging component 46 to measure the pressing depth of the product until the ranging accuracy is accurate, and the structure is buckled with each other, so that the practicability is strong.

The length of the distance measuring pole 463 corresponds to the distance measuring range. In this embodiment, the distance measurement assembly 46 is convenient for measure the distance of the product on the pressing module 30 through the consistency of the length of the distance measurement rod 463 and the distance measurement range, and the distance measurement precision is improved.

In this embodiment, the automatic pressing strip detection mechanism comprises a conveying module 10, a transmission module 20, a pressing module 30 and a detection module 40, wherein the conveying module 10 comprises a conveying module 11, a jig assembly 12 slidably arranged on the conveying module 11 and a jacking assembly 13 supported on the jig assembly 12, the jig assembly 12 is used for placing products, the transmission module 20 faces the conveying module 10, the transmission module 20 comprises a Y-axis transmission assembly 21, an X-axis transmission assembly 22 and a Z-axis transmission assembly 23, the Y-axis transmission assembly 21 is provided with two groups, two ends of the X-axis transmission assembly 22 are arranged on the two groups of Y-axis transmission assemblies 21, the Z-axis transmission assembly 23 is arranged on the X-axis transmission assembly 22 and carries out bidirectional transmission through the Y-axis transmission assembly 21 and the X-axis transmission assembly 22, the pressing module 30 is arranged on the Z-axis transmission assembly 23, the pressing module 30 comprises a pressing seat 31 and a pressing driving assembly 32 arranged on the pressing seat 31, the pressing driving assembly 32 is provided with two groups, the two groups of pressing driving assemblies are symmetrically arranged on the two groups of sliding table seats 31 and the detection modules 40 and the detection modules 42 are arranged on the sliding table seat 41 and the detection module 40, and the detection module 40 is connected with the detection module 43. The conveying module 10 and the jacking assembly 13 are convenient for conveying, jacking and positioning the jig assembly 12, the pressing module 30 and the detecting module 40 are convenient to operate, the transmission module 20 is convenient for driving the pressing module 30 and the detecting module 40 to carry out multidirectional transmission, lifting and rotating transmission can be carried out on the pressing module 30 and the detecting module 40, products at different angles are convenient to press and detect, the detecting module 40 is provided with the sensing assembly 45 and the ranging assembly 46, the pressing depth can be detected through the ranging assembly 46 when the pressing module 30 presses the products, the sensing element 111 can be touched when the depth is abnormal, the pressing module 30 can be adjusted to press the depth, the product pressing precision is guaranteed, the automatic procedure is high, the practicability is strong, and the automatic pressing device has a certain application prospect.

The foregoing examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. An automatic press bar detection mechanism is characterized by comprising

The conveying module comprises a conveying assembly, a jig assembly slidably arranged on the conveying assembly and a jacking assembly supported on the jig assembly, wherein the jig assembly is used for placing products;

The device comprises a conveying module, a transmission module, a first transmission module, a second transmission module and a third transmission module, wherein the transmission module faces the conveying module and comprises a Y-axis transmission assembly, an X-axis transmission assembly and a Z-axis transmission assembly;

The compression module is arranged on the Z-axis transmission assembly and comprises a compression seat and compression driving assemblies arranged on the compression seat, wherein the compression driving assemblies are provided with two groups, the two groups of compression driving assemblies are symmetrically arranged and arranged on the compression seat, and the compression driving assemblies are arranged on the compression seat

The detection module is arranged on the compression seat and comprises a detection frame, a sliding table assembly arranged on the detection frame, a rotating assembly connected with the sliding table assembly and a detection device connected with the rotating assembly.

2. The automatic press bar detection mechanism of claim 1, wherein the conveying assembly comprises two groups of symmetrically arranged conveying frames, sensing elements and positioning elements, wherein the sensing elements and the positioning elements are respectively arranged on the conveying frames, and a conveying motor is arranged at one end of each conveying frame.

3. The automatic press bar detection mechanism of claim 2, wherein the jig assembly comprises a jig panel and a plurality of groups of jig grooves symmetrically arranged on the jig panel, wherein the jig grooves are provided with limiting rods, the limiting rods limit products in the jig grooves, and the sensing element is used for sensing whether the products are placed in the jig grooves.

4. The automatic press strip detection mechanism of claim 3, wherein the jacking assembly comprises a jacking fixed plate, a jacking guide rod movably arranged on the jacking fixed plate, a jacking driving plate connected to the top end of the jacking guide rod, and a jacking driving piece connected to the jacking driving plate, and one end of the jacking driving piece is driven to move along the jacking guide rod towards the jig assembly.

5. The automatic press bar detection mechanism of claim 1, wherein the Y-axis transmission assembly comprises a Y-axis transmission frame, a Y-axis guide rail arranged on the Y-axis transmission frame, a Y-axis transmission seat movably arranged on the Y-axis guide rail, and a Y-axis driving machine arranged on the Y-axis transmission frame and connected with the Y-axis guide rail, wherein a Y-axis support frame is arranged at the bottom of the Y-axis transmission frame, and one end of the Y-axis support frame faces the conveying assembly and is connected with the conveying frame;

One end of the X-axis transmission assembly is erected on the Y-axis transmission seat and is provided with an X-axis transmission frame, an X-axis transmission guide rail arranged on the X-axis transmission frame and an X-axis transmission seat movably arranged on the X-axis transmission guide rail;

The Z-axis transmission assembly comprises a Z-axis transmission seat, a Z-axis guide rod movably arranged on the Z-axis transmission seat and a Z-axis driving piece arranged on the Z-axis transmission seat, wherein one end of the Z-axis driving piece is connected with the compression seat to drive the compression module to lift and drive.

6. The automatic press bar detection mechanism of claim 1, wherein the press driving assembly comprises a press fixing frame, a press driving cylinder arranged on the press fixing frame, a connecting guide rod arranged on the press fixing frame, a buffer element sleeved on the connecting guide rod, a press movable frame connected to the bottom of the connecting guide rod, and a press block arranged on the press movable frame, a coupling is arranged between the press driving cylinder and the press fixing frame, and the press driving cylinder can drive the press block to move up and down and rotate through the coupling.

7. The automatic press bar detection mechanism of claim 6, wherein the sliding table assembly comprises a sliding table cylinder, a sliding table guide rail arranged on the sliding table cylinder, and a sliding table transmission seat arranged on the sliding table guide rail, and the rotating assembly is arranged on the sliding transmission seat and performs lifting and rotating transmission through the sliding assembly.

8. The automatic press bar detection mechanism of claim 1, wherein the detection device comprises an induction component and a distance measuring component, and the induction component comprises an induction bracket, an induction sliding rail arranged on the induction bracket, an induction seat arranged on the induction sliding rail, an inductor arranged on the induction seat, an induction rod connected to the inductor and an induction end arranged on the induction rod.

9. The automatic press strip detection mechanism of claim 8, wherein the ranging assembly comprises a ranging frame, a ranging table arranged on the ranging frame, and a ranging rod connected with the ranging table, wherein one end of the ranging rod is sleeved with a positioning ring, and one end of the ranging rod connected with the positioning ring is provided with a reset element.

10. The automatic pressure strip detecting mechanism as claimed in claim 9, wherein the length of the distance measuring rod is consistent with the distance measuring range.