CN112763415A - Device for detecting bonding strength of silica gel LOGO foot pad and using method - Google Patents

Abstract

The invention discloses a silica gel LOGO foot pad bonding strength detection device, which comprises a detection device main body, a product placing table, a LOGO face silica gel bonding strength detection mechanism and a foot pad face silica gel bonding strength detection mechanism, wherein the product placing table is positioned at the upper end of the detection device main body and comprises a first guide rail, a supporting plate, a first positioning die and a second positioning die, the first guide rail is transversely arranged at the upper end of the detection device main body, the supporting plate is arranged at the upper end of the first guide rail, the first positioning die is positioned at the upper end of the supporting plate and used for placing and positioning a detected LOGO face silica gel, and the second positioning die is positioned on the supporting plate at the front end of the first positioning die and used for placing and positioning a detected; LOGO face silica gel adhesion strength detection mechanism and callus on the sole face silica gel adhesion strength detection mechanism are located the product respectively and place the detection device main part of bench end and front end, detect the adhesion strength of LOGO face silica gel and foot pad face silica gel respectively. The use method of the invention can ensure the product quality, reduce the labor intensity and improve the production efficiency.

Description

Device for detecting bonding strength of silica gel LOGO foot pad and using method

Technical Field

The invention relates to the technical field of bonding strength detection, in particular to a device for detecting the bonding strength of a silica gel LOGO foot pad and a using method thereof.

Background

Receive the effect of modern science and technology's progress and brand influence power, the LOGO is generally all makeed on the product of manufacture by the manufacturer, and more products also adopt the mode that sets up anti-skidding callus on the sole to improve the stability that the product was placed. The adhesive strength of the silica gel on the LOGO surface and the silica gel on the foot pad surface is an increasingly considering problem, and more merchants adopt the characteristic of improving the silica gel adhesive glue or change the hot pressing characteristic of the silica gel to improve the adhesive strength of the silica gel on the LOGO surface and the silica gel on the foot pad surface and the mesh cloth.

Even though the bonding strength of the silica gel on the LOGO surface and the silica gel on the foot pad surface and the mesh cloth is improved by the method, when the bonding strength of the silica gel LOGO foot pad is detected currently, an operator presses and pushes away the silica gel on the foot pad surface with fingers forcefully, and then presses and pushes away the silica gel on the LOGO surface forcefully, so that the silica gel foot pad or the silica gel LOGO can fall off and crack, and the silica gel foot pad or the silica gel LOGO is a defective product. The existing detection method has the following defects: a. the pressing and pushing force is difficult to control by an operator; b. the pushing and pressing forces of different operators are inconsistent, so that the detection effects are inconsistent, and the product quality is difficult to ensure; c. the fingers of the operator are easy to abrade, and the fatigue strength is high; d. the production efficiency is low.

Therefore, an urgent need exists for a device for detecting the bonding strength of a silica gel LOGO foot pad, which can ensure the product quality, reduce the labor intensity and improve the production efficiency.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides the device for detecting the bonding strength of the silica gel LOGO foot pad, which has a simple structure, can ensure the product quality, reduce the labor intensity, improve the production efficiency and have a wide application range, and the use method thereof.

In order to achieve the above object, the present invention provides the following technical solutions: a silica gel LOGO foot pad bonding strength detection device comprises a detection device main body, a product placing table, a LOGO face silica gel bonding strength detection mechanism and a foot pad face silica gel bonding strength detection mechanism, wherein the product placing table is located at the upper end of the detection device main body and used for placing detected LOGO face silica gel and foot pad face silica gel; the LOGO surface silica gel bonding strength detection mechanism is positioned on a detection device main body at the upper end of the product placing table and comprises a first detection scraping head and a second guide rail, the second guide rail is vertically arranged at the rear end of the middle part of the detection device main body, and the first detection scraping head is positioned at the upper end of the first positioning die, is connected with the second guide rail and can move up and down relative to the second guide rail; the foot pad surface silica gel bonding strength detection mechanism is located on a detection device main body at the front end of a product placing table and comprises a second detection scraping head and a third guide rail, the third guide rail is arranged on the detection device main body in a front-back mode, the second detection scraping head is installed on the third guide rail and can move back and forth relative to the third guide rail so as to adjust the pressing thrust on the foot pad surface silica gel.

As further elaboration of the technical scheme:

preferably, the upper end of the middle part of the supporting plate is provided with a positioning seat, and the first positioning die and the second positioning die are installed on the positioning seat.

Preferably, the first positioning die and the second positioning die are of an integral structure.

Preferably, the product placing table is further provided with an operation pushing handle, and the operation pushing handle is installed at the right end of the supporting plate and used for controlling the product placing table to move left and right relative to the detection device body.

Preferably, the first detection scraping head is connected with the second guide rail through a first sliding seat and a first supporting seat, the first supporting seat is arranged in the front and at the back, the first detection scraping head is installed at the front end of the first supporting seat, the rear end of the first supporting seat is fixedly connected with the first sliding seat, the first sliding seat is installed on the second guide rail and can move up and down relative to the second guide rail, and the first detection scraping head is driven to move up and down relative to the first positioning die.

Preferably, LOGO face silica gel adhesion strength detection mechanism still includes gag lever post and balancing weight, the gag lever post is located the detection device main part of first sliding seat lower extreme for carry on spacingly to first sliding seat, prevent that first sliding seat from moving excessively for the second guide rail downstream, thereby scrape the head and cause the damage to first detection, the balancing weight is installed in the upper end of scraping the head in first detection, is used for adjusting to LOGO face silica gel pressure thrust size, ensures to push away the action of gravity when examining on LOGO face silica gel pressing.

Preferably, callus on the sole face silica gel adhesion strength detection mechanism still includes second sliding seat, second supporting seat, spring and detection dynamics adjust knob, the second sliding seat is installed on the third guide rail to can be for the third guide rail back-and-forth movement, the vertical installation of second supporting seat lower extreme is on the second sliding seat, and the second detects the head of scraping and installs in the upper end rear side of second supporting seat, the spring transversely sets up, and the rear end of spring is connected with the second supporting seat, and the front end of spring is connected with detection dynamics adjust knob, it installs in the detection device main part to detect dynamics adjust knob and detect the position of adjustable second sliding seat on the third guide rail through the wrench movement to adjust the size of the effort that acts on the callus on the sole face silica gel when pushing away the detection.

Preferably, the lower extreme all around of detection device main part is equipped with anti-skidding supporting seat, both ends all are equipped with the handrail about the detection device main part.

In order to achieve the above object, the present invention provides a technical solution of the second aspect: a method for detecting the adhesive strength of silica gel on a LOGO surface and the adhesive strength of silica gel on a foot pad surface by using the device for detecting the adhesive strength of the silica gel LOGO foot pad comprises the following steps:

s1, select suitable balancing weight to install in the first upper end of scraping the head that detects, adjust the position of first sliding seat on first guide rail, confirm that first detection is scraped the head and is pressed the thrust size to LOGO face silica gel, twist simultaneously and detect the position of dynamics adjust knob regulation second sliding seat on the third guide rail, confirm that the second detects the size of scraping the effort of head effect on foot pad face silica gel.

S2, placing the detected LOGO face silica gel on a first positioning die, and placing the detected foot pad face silica gel on a second positioning die;

s3, grasping the operation push handle by hand, pushing to the left side, enabling the detected LOGO face silica gel to contact with the first detection scraping head, enabling the detected foot pad face silica gel to contact with the second detection scraping head, continuously pushing the operation push handle to the left side, scraping fixed scraping pressure to the right end from the left ends of the LOGO face silica gel and the foot pad face silica gel by the first detection scraping head and the second detection scraping head, and pressing and scraping the LOGO face silica gel and the foot pad face silica gel;

s4, after the push handle is operated to be pushed to the leftmost side, the push handle is operated to the right side, the first detection scraping head and the second detection scraping head scrape fixed scraping pressure from the right end to the left end of the LOGO face silica gel and the foot pad face silica gel, the LOGO face silica gel and the foot pad face silica gel are pressed and scraped, if the adhesive force does not meet the requirement, silica gel skins on the LOGO face silica gel and the foot pad face silica gel can be tilted, or fall off from a mesh, and therefore the detection effect of the LOGO face silica gel and the foot pad face silica gel from the right end to the left end is achieved;

s5, taking down the LOGO face silica gel after detection from the first positioning die, taking down the foot pad face silica gel after detection from the second positioning die, placing the LOGO face silica gel to be newly detected into the first positioning die, placing the foot pad face silica gel to be newly detected into the second positioning die, and repeating the steps.

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

the device comprises a detection device main body, a product placing table, a LOGO face silica gel bonding strength detection mechanism and a foot pad face silica gel bonding strength detection mechanism, wherein the product placing table is positioned at the upper end of the detection device main body and is used for placing the detected LOGO face silica gel and foot pad face silica gel, the LOGO face silica gel bonding strength detection mechanism is positioned on the detection device main body at the upper end of the product placing table and comprises a first detection scraping head and a second guide rail, the second guide rail is vertically arranged at the rear end of the middle part of the detection device main body, the first detection scraping head is positioned at the upper end of a first positioning die and is connected with the second guide rail and can move up and down relative to the second guide rail, the foot pad face silica gel bonding strength detection mechanism is positioned on the detection device main body at the front end of the product placing table and comprises a second detection scraping head and a third guide rail, the third guide rail is arranged on the detection device main, the second detection scraping head is arranged on the third guide rail and can move back and forth relative to the third guide rail to adjust the pressure thrust on the silica gel on the foot pad surface.

Secondly, the product placing table is also provided with an operation push handle, the operation push handle is arranged at the right end of the supporting plate and used for controlling the product placing table to move left and right relative to the detection device main body, the operation is simple, and the production efficiency is improved.

Thirdly, the balancing weight is arranged at the upper end of the first detection scraping head and used for adjusting the magnitude of the pressing and pushing force on the LOGO surface silica gel, so that the gravity acting on the LOGO surface silica gel during pressing and pushing detection is ensured, the detection force adjusting knob is arranged on the detection device main body, and the position of the second sliding seat on the third guide rail can be adjusted by twisting the detection force adjusting knob, so that the magnitude of the acting force acting on the foot pad surface silica gel during pressing and pushing detection is adjusted, the pressing and pushing force is stable, the product quality can be ensured, the labor intensity is reduced, and the defects of the existing detection method are overcome.

The device and the method for detecting the bonding strength of the silica gel LOGO foot pad are suitable for detecting the bonding strength of silica gel on the LOGO surface and silica gel on the foot pad surface, have simple integral structure, can ensure the product quality, reduce the labor intensity, improve the production efficiency and have wide application range.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of a first angle overall structure of the present invention;

FIG. 2 is a schematic view of a second angle overall structure of the present invention;

FIG. 3 is a schematic view of a first angle explosion configuration of the present invention;

fig. 4 is a schematic diagram of a second angle explosion configuration according to the present invention.

In the figure: 1. silica gel on the foot pad surface; 2. LOGO face silica gel; 3. a detection device main body; 4. a first guide rail; 5. a support plate; 6. a first positioning die; 7. a second positioning die; 8. a first detection scraping head; 9. a second guide rail; 10. a second detection scraping head; 11. a third guide rail; 12. positioning seats; 13. operating the push handle; 14. a first sliding seat; 15. a first support base; 16. a limiting rod; 17. a balancing weight; 18. a second sliding seat; 19. a second support seat; 20. a spring; 21. detecting a force adjusting knob; 22. an anti-skid supporting seat; 23. a handrail.

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.

As shown in fig. 1 to 4, a first aspect of the present invention is a device for detecting bonding strength of a silica gel LOGO and a silica gel bonding strength of a LOGO on a surface of a bluetooth sound box mesh, which includes a detection device main body 3, a product placement table, a LOGO 2 bonding strength detection mechanism and a silica gel 1 bonding strength detection mechanism, wherein the product placement table is located at an upper end of the detection device main body 3, and is used for placing a detected LOGO 2 and a detected LOGO 1, and includes a first guide rail 4, a support plate 5, a first positioning mold 6 and a second positioning mold 7, the first guide rail 4 is transversely installed at an upper end of the detection device main body 3, the support plate 5 is installed at an upper end of the first guide rail 4, and can move left and right relative to the first guide rail 4, the first positioning mold 6 is located at an upper end of the support plate 5, and is used for placing and positioning the detected LOGO 2, the second positioning die 7 is positioned on the supporting plate 5 at the front end of the first positioning die 6 and is used for placing and positioning the silica gel 1 on the detected foot pad surface, in the embodiment, the first positioning die 6 and the second positioning die 7 are of an integrated structure; the LOGO surface silica gel 2 bonding strength detection mechanism is positioned on the detection device main body 3 at the upper end of the product placing table and comprises a first detection scraping head 8 and a second guide rail 9, the second guide rail 9 is vertically arranged at the rear end of the middle part of the detection device main body 3, and the first detection scraping head 8 is positioned at the upper end of the first positioning die 6, is connected with the second guide rail 9 and can move up and down relative to the second guide rail 9; the detection mechanism for the bonding strength of the silica gel 1 on the foot pad surface is positioned on a detection device main body 3 at the front end of a product placing table, and comprises a second detection scraping head 10 and a third guide rail 11, the third guide rail 11 is arranged on the detection device main body 3 in the front-back direction, the second detection scraping head 10 is installed on the third guide rail 11 and can move back and forth relative to the third guide rail 11 to adjust the pressure thrust on the silica gel 1 on the foot pad surface.

As shown in fig. 1 to 4, a positioning seat 12 is disposed at an upper end of a middle portion of the supporting plate 5, and the first positioning mold 6 and the second positioning mold 7 are mounted on the positioning seat 12. Further, the first positioning die 6 and the second positioning die 7 are of an integral structure.

As shown in fig. 1 to 4, the product placement table is further provided with an operation push handle 13, and the operation push handle 13 is attached to the right end of the pallet 5 and used for controlling the product placement table to move left and right relative to the detection device main body 3.

As shown in fig. 1 to 4, the first detection scraping head 8 is connected to the second guide rail 9 through a first sliding seat 14 and a first supporting seat 15, the first supporting seat 15 is arranged in front and at the back, the first detection scraping head 8 is installed at the front end of the first supporting seat 15, the back end of the first supporting seat 15 is fixedly connected to the first sliding seat 14, and the first sliding seat 14 is installed on the second guide rail 9 and can move up and down relative to the second guide rail 9 to drive the first detection scraping head 8 to move up and down relative to the first positioning mold 6. Further, 2 bonding strength detection mechanism of LOGO face silica gel still includes gag lever post 16 and balancing weight 17, gag lever post 16 is located the detection device main part 3 of first sliding seat 14 lower extreme for it is spacing to carry on first sliding seat 14, prevent that first sliding seat 14 from moving down excessively for second guide rail 9, thereby scrape head 8 to first detection and cause the damage, as shown in FIG. 3, gag lever post 16 can carry out altitude mixture control for detection device main part 3, balancing weight 17 is installed in the first upper end of scraping head 8 that detects, is used for adjusting to the LOGO face silica gel 2 pressure thrust size, guarantees to push away the action of gravity that detects time measuring on LOGO face silica gel 2.

As shown in fig. 1 to 4, the mechanism for detecting the bonding strength of the silica gel 1 on the surface of the foot pad further comprises a second sliding seat 18, a second supporting seat 19, a spring 20 and a detection force adjusting knob 21, wherein the second sliding seat 18 is installed on the third guide rail 11, and can move back and forth relative to the third guide rail 11, the lower end of the second supporting seat 19 is vertically arranged on the second sliding seat 18, the second detecting scraper 10 is arranged at the rear side of the upper end of the second supporting seat 19, the spring 20 is transversely arranged, the rear end of the spring 20 is connected with the second supporting seat 19, the front end of the spring 20 is connected with the detection force adjusting knob 21, the detection force adjusting knob 21 is arranged on the detection device main body 3, the position of the second sliding seat 18 on the third guide rail 11 can be adjusted by twisting the detection force adjusting knob 21, so that the acting force acting on the silica gel 1 on the foot pad surface during pressing and pushing detection can be adjusted.

As shown in fig. 1 to 4, the lower end of the periphery of the detection device main body 3 is provided with an anti-skid support seat 22, handrails 23 are respectively arranged at the left end and the right end of the detection device main body 3, the anti-skid support seat 22 improves the stability of the present invention, and the arrangement of the handrails 23 facilitates the movement of the detection device main body 3.

The second aspect of the invention is a method for detecting the bonding strength of silica gel 2 on the LOGO surface of a Bluetooth sound box and the bonding strength of silica gel 1 on the foot pad surface by using the device for detecting the bonding strength of the silica gel LOGO foot pad, which comprises the following steps:

s1, select suitable balancing weight 17 to install in the first upper end that scrapes head 8 that detects, adjust the position of first sliding seat 14 on first guide rail 4, confirm that first detection scrapes head 8 and presses the thrust size to LOGO face silica gel 2, twist simultaneously and detect the position of dynamics adjust knob 21 regulation second sliding seat 18 on third guide rail 11, confirm that the second detects the size of the effort of scraping head 10 and being used in the sole face silica gel 1.

S2, placing the detected LOGO face silica gel 2 on a first positioning die 6, and placing the detected foot pad face silica gel 1 on a second positioning die 7;

s3, the push handle 13 is held by hand and pushed to the left, the detected LOGO face silica gel 2 contacts the first detection scraping head 8, the detected foot pad face silica gel 1 contacts the second detection scraping head 10, the push handle 13 is continuously pushed to the left, the first detection scraping head 8 and the second detection scraping head 10 scrape fixed scraping pressure from the left end to the right end of the LOGO face silica gel 2 and the foot pad face silica gel 1 and press and scrape the LOGO face silica gel 2 and the foot pad face silica gel 1, if the adhesive force does not meet the requirement, the silica gel skin on the LOGO face silica gel 2 and the foot pad face silica gel 1 can be tilted or fall off from the mesh cloth, and therefore the detection effect on the left end to the right end of the LOGO face silica gel 2 and the foot pad face silica gel 1 is achieved;

s4, after the operation push handle 13 is pushed to the leftmost side, the operation push handle 13 is pushed to the right side, the first detection scraping head 8 and the second detection scraping head 10 scrape fixed scraping pressure from the right end to the left end of the LOGO face silica gel 2 and the foot pad face silica gel 1, the LOGO face silica gel 2 and the foot pad face silica gel 1 are pressed and scraped, if the adhesive force does not meet the requirement, silica gel skins on the LOGO face silica gel 2 and the foot pad face silica gel 1 can be tilted, or fall off from the mesh cloth, and therefore the detection effect of the LOGO face silica gel 2 and the foot pad face silica gel 1 from the right end to the left end is achieved;

s5, taking down the LOGO face silica gel 2 after detection from the first positioning die 6, taking down the foot pad face silica gel 1 after detection from the second positioning die 7, placing the LOGO face silica gel 2 to be newly detected into the first positioning die 6, placing the foot pad face silica gel 1 to be newly detected into the second positioning die 7, and repeating the steps.

In the description of the present application, it is to be understood that the terms "front", "rear", "left", "right", "upper", "lower", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present application. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a silica gel LOGO callus on sole bonding strength detection device which characterized in that: the product placing table is located at the upper end of the detection device body and used for placing the detected LOGO face silica gel and the foot pad face silica gel, the product placing table comprises a first guide rail, a supporting plate, a first positioning die and a second positioning die, the first guide rail is transversely installed at the upper end of the detection device body, the supporting plate is installed at the upper end of the first guide rail and can move left and right relative to the first guide rail, the first positioning die is located at the upper end of the supporting plate and used for placing and positioning the detected LOGO face silica gel, and the second positioning die is located on the supporting plate at the front end of the first positioning die and used for placing and positioning the detected foot pad face silica gel; the LOGO surface silica gel bonding strength detection mechanism is positioned on a detection device main body at the upper end of the product placing table and comprises a first detection scraping head and a second guide rail, the second guide rail is vertically arranged at the rear end of the middle part of the detection device main body, and the first detection scraping head is positioned at the upper end of the first positioning die, is connected with the second guide rail and can move up and down relative to the second guide rail; the foot pad surface silica gel bonding strength detection mechanism is located on a detection device main body at the front end of a product placing table and comprises a second detection scraping head and a third guide rail, the third guide rail is arranged on the detection device main body in a front-back mode, the second detection scraping head is installed on the third guide rail and can move back and forth relative to the third guide rail so as to adjust the pressing thrust on the foot pad surface silica gel.

2. The silica gel LOGO callus on the sole bonding strength detection device of claim 1, characterized in that: the upper end of the middle part of the supporting plate is provided with a positioning seat, and the first positioning die and the second positioning die are arranged on the positioning seat.

3. The silica gel LOGO callus on the sole bonding strength detection device of claim 2, characterized in that: the first positioning die and the second positioning die are of an integrated structure.

4. The silica gel LOGO callus on the sole bonding strength detection device of claim 1, characterized in that: the product placing table is further provided with an operation pushing handle, the operation pushing handle is installed at the right end of the supporting plate and used for controlling the product placing table to move left and right relative to the detection device main body.

5. The silica gel LOGO callus on the sole bonding strength detection device of claim 1, characterized in that: first detection is scraped the head and is connected with the second guide rail through first sliding seat and first supporting seat, set up around the first supporting seat, first detection is scraped the head and is installed in the front end of first supporting seat, the rear end and the first sliding seat fixed connection of first supporting seat, first sliding seat is installed on the second guide rail to can reciprocate for the second guide rail, drive first detection and scrape the head and reciprocate for first positioning die.

6. The silica gel LOGO callus on the sole bonding strength detection device of claim 5, characterized in that: LOGO face silica gel adhesion strength detection mechanism still includes gag lever post and balancing weight, the gag lever post is located the detection device main part of first sliding seat lower extreme for it is spacing to carry on first sliding seat, prevents that first sliding seat from excessively for second guide rail downstream, thereby scrapes the head to first detection and causes the damage, the balancing weight is installed in the upper end of first detection head of scraping for adjust and push away the power size to LOGO face silica gel pressure, ensure to push away the action of gravity when examining time measuring on LOGO face silica gel.

7. The silica gel LOGO callus on the sole bonding strength detection device of claim 1, characterized in that: callus on the sole face silica gel bonding strength detection mechanism still includes second sliding seat, second supporting seat, spring and detection dynamics adjust knob, the second sliding seat is installed on the third guide rail to can be for the third guide rail back-and-forth movement, the vertical installation of second supporting seat lower extreme is on the second sliding seat, and the second detects and scrapes the head and install in the upper end rear side of second supporting seat, the spring transversely sets up, and the rear end of spring is connected with the second supporting seat, and the front end of spring is connected with detection dynamics adjust knob, detect dynamics adjust knob and install in the detection device main part, detect the position of the adjustable second sliding seat of dynamics adjust knob on the third guide rail through twisting to the size of the effort of regulation effect that acts on the silica gel of foot pad face when pushing away the detection.

8. The device of any one of claims 1-7 for detecting the bonding strength of a silica gel LOGO foot pad, characterized in that: the lower extreme all around of detection device main part is equipped with anti-skidding supporting seat, both ends all are equipped with the handrail about the detection device main part.

9. A method for detecting the bonding strength of silica gel on a LOGO surface and the bonding strength of silica gel on a foot pad surface by using the device for detecting the bonding strength of silica gel LOGO foot pad of claim 8, comprising the steps of:

s1, select suitable balancing weight to install in the first upper end of scraping the head that detects, adjust the position of first sliding seat on first guide rail, confirm that first detection is scraped the head and is pressed the thrust size to LOGO face silica gel, twist simultaneously and detect the position of dynamics adjust knob regulation second sliding seat on the third guide rail, confirm that the second detects the size of scraping the effort of head effect on foot pad face silica gel.

S2, placing the detected LOGO face silica gel on a first positioning die, and placing the detected foot pad face silica gel on a second positioning die;

s3, grasping the operation push handle by hand, pushing to the left side, enabling the detected LOGO face silica gel to contact with the first detection scraping head, enabling the detected foot pad face silica gel to contact with the second detection scraping head, continuously pushing the operation push handle to the left side, scraping fixed scraping pressure to the right end from the left ends of the LOGO face silica gel and the foot pad face silica gel by the first detection scraping head and the second detection scraping head, and pressing and scraping the LOGO face silica gel and the foot pad face silica gel;

s4, after the push handle is operated to be pushed to the leftmost side, the push handle is operated to the right side, the first detection scraping head and the second detection scraping head scrape fixed scraping pressure from the right end to the left end of the LOGO face silica gel and the foot pad face silica gel, the LOGO face silica gel and the foot pad face silica gel are pressed and scraped, if the adhesive force does not meet the requirement, silica gel skins on the LOGO face silica gel and the foot pad face silica gel can be tilted, or fall off from a mesh, and therefore the detection effect of the LOGO face silica gel and the foot pad face silica gel from the right end to the left end is achieved;

s5, taking down the LOGO face silica gel after detection from the first positioning die, taking down the foot pad face silica gel after detection from the second positioning die, placing the LOGO face silica gel to be newly detected into the first positioning die, placing the foot pad face silica gel to be newly detected into the second positioning die, and repeating the steps.

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