阅读说明：本技术 一种去除基板玻璃表面静电的装置 (Device for removing static electricity on surface of substrate glass ) 是由 方辉 李晓鹏 韩春 蔡劲松 刘建帮 于 2021-07-21 设计创作，主要内容包括：本发明公开了一种去除基板玻璃表面静电的装置,本发明安装使用时,先将机架安装基座组件通过紧固螺栓和安装凸边板安装固定在不同倾斜位置的机架上,然后调节第一活动衔接球头在底板活动球管内的活动角度和基座活动球管在第二活动衔接球头外的活动角度,通过螺纹拧紧基座顶紧螺杆和底板顶紧螺杆,固定住第二活动衔接球头在基座活动球管内活动的角度和位置及第一活动衔接球头在底板活动球管内活动的角度和位置,通过活动套管在距离调节导向滑杆上的往复滑动和滑套管在U型导向滑杆上的往复滑动,实现距离调节伸缩剪刀臂架的开合交叉动作,通过距离调节伸缩剪刀臂架的开合交叉幅度,来调节除静电离子风棒组件去静电时相对基板玻璃表面的距离。(The invention discloses a device for removing static electricity on the surface of base plate glass, which is mounted and fixed on a frame at different inclined positions through a fastening bolt and a mounting flange plate when in use, then the movable angle of a first movable connecting ball head in a base plate movable ball pipe and the movable angle of the base plate movable ball pipe outside a second movable connecting ball head are adjusted, a base jacking screw rod and a base plate jacking screw rod are screwed through threads, the movable angle and the position of the second movable connecting ball head in the base plate movable ball pipe and the movable angle and the position of the first movable connecting ball head in the base plate movable ball pipe are fixed, the opening and closing cross action of a distance adjusting telescopic scissor arm frame is realized through the reciprocating sliding of a movable sleeve on a distance adjusting guide slide rod and the reciprocating sliding of a sliding sleeve pipe on a U-shaped guide slide rod, the opening and closing cross amplitude of the telescopic scissor arm frame is adjusted through the distance, the distance between the static electricity removing ion wind rod component and the surface of the substrate glass is adjusted when the static electricity is removed.)

1. The utility model provides a get rid of device of base plate glass surface static, includes static ion storm-pin subassembly (1) that destatics, its characterized in that: the top of the static-removing ion wind rod component (1) is rotatably provided with a distance-adjusting telescopic scissor arm support (2), the top of the distance-adjusting telescopic scissor arm support (2) is rotatably provided with a distance-adjusting base component (3), one end of the distance-adjusting base component (3) is elastically propped against a distance-positioning component (4), the top of the distance-adjusting base component (3) is movably provided with a direction-adjusting movable connecting component (5), and the top of the direction-adjusting movable connecting component (5) is movably provided with a rack-mounting base component (6);

the static-removing ion wind rod assembly (1) comprises a static-removing ion wind rod body (101), a U-shaped guide slide rod (102) and a base block (103) are fixedly arranged at two ends of the top of the static-removing ion wind rod body (101) respectively, a slide sleeve (104) is sleeved on the U-shaped guide slide rod (102) in a sliding mode, a first wind rod rotating pin plate (105) is fixedly arranged on the slide sleeve (104), and a first wind rod rotating pin plate (106) is fixedly arranged on the base block (103);

the distance adjusting base component (3) comprises a U-shaped distance adjusting base plate (301), a distance adjusting guide slide bar (302) is fixedly arranged in the U-shaped distance adjusting base plate (301), a fixed sleeve (303) is fixedly arranged at one end of the distance adjusting guide slide bar (302), a movable sleeve (304) is slidably sleeved at the other end of the distance adjusting guide slide bar (302), one ends of the movable sleeve (304) and the fixed sleeve (303) are respectively and fixedly provided with a second tightening ring disc (308) and a first tightening ring disc (307), the bottoms of the movable sleeve (304) and the fixed sleeve (303) are respectively and fixedly provided with a first base rotating pin plate (309) and a second base rotating pin plate (310), one side of the movable sleeve (304) is fixedly provided with a U-shaped limiting top cover (313), and a through sliding hole (312) is formed in the U-shaped limiting top cover (313), a compression jacking spring (311) is sleeved in the middle of the distance adjusting guide sliding rod (302), a guide transverse groove (314) is formed in a rod body of the distance adjusting guide sliding rod (302) close to one end of the movable sleeve (304), a distance positioning rack (315) is fixedly arranged in the guide transverse groove (314), a base movable ball tube (305) is fixedly arranged at the top of the U-shaped distance adjusting base plate (301), and a base jacking screw rod (306) is arranged on the base movable ball tube (305) in a threaded manner;

the distance positioning assembly (4) comprises a distance positioning guide sliding rod (401), a distance positioning toothed plate (402) and a distance positioning limiting ball head (403) are respectively and fixedly arranged at two ends of the distance positioning guide sliding rod (401), and a distance positioning jacking spring (404) is sleeved on the distance positioning guide sliding rod (401);

the orientation adjusting movable connecting component (5) comprises a movable connecting rod (501), and a first movable connecting ball head (502) and a second movable connecting ball head (503) are respectively and fixedly arranged at two ends of the movable connecting rod (501);

the rack-mounted base assembly (6) comprises a mounting base bottom plate (601), three mounting flange plates (602) are fixedly arranged at the edge of the mounting base bottom plate (601), a bottom plate movable ball tube (603) is fixedly arranged on the mounting base bottom plate (601), and a bottom plate jacking screw rod (604) is arranged on the bottom plate movable ball tube (603) in a threaded manner.

2. The apparatus according to claim 1, wherein the electrostatic charge on the glass surface of the substrate is removed by: the second movable connecting ball head (503) moves in the base movable ball tube (305), the base jacking screw rod (306) is screwed down through threads to fix the angle and the position of the second movable connecting ball head (503) moving in the base movable ball tube (305), the first movable connecting ball head (502) moves in the bottom plate movable ball tube (603), and the bottom plate jacking screw rod (604) is screwed down through threads to fix the angle and the position of the first movable connecting ball head (502) moving in the bottom plate movable ball tube (603).

3. The apparatus according to claim 1, wherein the electrostatic charge on the glass surface of the substrate is removed by: two ends of the compression jacking spring (311) respectively abut against the first jacking ring disc (307) and the second jacking ring disc (308), and the movable sleeve (304) slides towards the end of the distance adjusting guide sliding rod (302) through jacking of the compression jacking spring (311).

4. The apparatus according to claim 1, wherein the electrostatic charge on the glass surface of the substrate is removed by: the distance positioning guide sliding rod (401) penetrates through and slides with a U-shaped limiting top cover (313) through a through sliding hole (312), the distance positioning toothed plate (402) is meshed with the distance positioning rack (315), two ends of the distance positioning jacking spring (404) are respectively abutted to the distance positioning toothed plate (402) and the U-shaped limiting top cover (313), and the distance positioning toothed plate (402) and the distance positioning rack (315) are tightly meshed through the jacking of the distance positioning jacking spring (404).

5. The apparatus according to claim 1, wherein the electrostatic charge on the glass surface of the substrate is removed by: the distance adjusting telescopic scissor arm support (2) is installed between the static-removing ion wind rod assembly (1) and the distance adjusting base assembly (3), two ends of the top of the distance adjusting telescopic scissor arm support (2) are rotatably connected with the second base rotating pin plate (310) and the first base rotating pin plate (309), and two ends of the bottom of the distance adjusting telescopic scissor arm support (2) are rotatably connected with the first wind rod rotating pin plate (105) and the first wind rod rotating pin plate (106).

6. The apparatus according to claim 1, wherein the electrostatic charge on the glass surface of the substrate is removed by: the opening and closing cross action of the distance adjusting telescopic scissor arm frame (2) is realized through the reciprocating sliding of the movable sleeve (304) on the distance adjusting guide slide rod (302) and the reciprocating sliding of the sliding sleeve (104) on the U-shaped guide slide rod (102), and the distance relative to the surface of the substrate glass when the static electricity of the static electricity removing ion air bar component (1) is removed is adjusted through the opening and closing cross amplitude of the distance adjusting telescopic scissor arm frame (2).

7. The apparatus according to claim 1, wherein the electrostatic charge on the glass surface of the substrate is removed by: the rack mounting base component (6) is fixedly arranged on racks at different inclined positions through fastening bolts and mounting convex edge plates (602), and the static electricity removing blowing direction on the surface of the substrate glass is adjusted by adjusting the moving angle of the first movable joint ball joint (502) in the bottom plate movable ball pipe (603) and the moving angle of the base movable ball pipe (305) outside the second movable joint ball joint (503) when the static electricity removing air bar component (1) removes the static electricity.

Technical Field

The invention belongs to the technical field of liquid crystal glass substrates, and particularly relates to a device for removing static electricity on the surface of substrate glass.

Background

Along with the high-quality express development of a global display, the quality of substrate glass becomes one of key factors for restricting the quality of the display, in the production of a substrate process, along with the movement of glass, such as carrying, packaging and the like, static electricity is generated in a moving place, static electricity is generated on the surface of the glass, so that dust and dust are adsorbed on the surface of the glass, Particle foreign matters on the surface of the substrate are higher, the surface quality of the glass is directly influenced, after a product is packaged, attractive force is generated between the glass and spacer paper due to the static electricity, in addition, in the production and processing process of a panel factory, electrostatic discharge can damage an electronic internal circuit, defective products are generated, and the production efficiency and the product quality are seriously influenced; therefore, in both the substrate glass production industry and the panel factory assembly industry, the static electricity on the glass surface will affect one of the factors of the quality of the product.

The prior art has the following problems: how to eliminate static electricity is one of important guarantees of product quality in the production and manufacturing process of substrate glass, the prior art removes the static electricity on the surface of the substrate glass through an electrostatic elimination ion air bar, in the actual installation and use process, the static electricity removing ion wind rod needs to be at a proper distance from the surface of the substrate glass to achieve the best wind static electricity removing effect, meanwhile, the existing installation positions are different, some installation positions are opposite, but the positions of some installation racks are inclined or inclined, after the static-removing ion wind rods are installed, the air bar can not be well aligned to the surface of the substrate glass, the static electricity removing effect of static electricity removing and blowing is poor, the use of the direct facing and blowing on a rapid production line can not be effectively met, therefore, the static electricity removing ion wind rod which is convenient for adjusting the use distance and the static electricity removing wind direction and meets various installation positions is lacked, and the static electricity removing operation of the surface static electricity of the substrate glass is not facilitated.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides a device for removing static electricity on the surface of substrate glass, which has the characteristics of conveniently adjusting the using distance, conveniently adjusting the direction of static electricity removing air blowing and meeting various installation positions.

In order to achieve the purpose, the invention provides the following technical scheme: a device for removing static electricity on the surface of substrate glass comprises a static electricity removing ion wind rod assembly, wherein a distance adjusting telescopic scissor arm frame is rotatably arranged at the top of the static electricity removing ion wind rod assembly, a distance adjusting base assembly is rotatably arranged at the top of the distance adjusting telescopic scissor arm frame, a distance positioning assembly is elastically and tightly arranged at one end of the distance adjusting base assembly in a propping manner, a direction adjusting movable connection assembly is movably arranged at the top of the distance adjusting base assembly, and a rack mounting base assembly is movably arranged at the top of the direction adjusting movable connection assembly;

the static-removing ion wind rod assembly comprises a static-removing ion wind rod body, a U-shaped guide slide rod and a base block are fixedly arranged at two ends of the top of the static-removing ion wind rod body respectively, a slide sleeve is slidably sleeved on the U-shaped guide slide rod, a first wind rod rotating pin plate is fixedly arranged on the slide sleeve, and a first wind rod rotating pin plate is fixedly arranged on the base block;

the distance adjusting base component comprises a U-shaped distance adjusting base plate, a distance adjusting guide slide bar is fixedly arranged in the U-shaped distance adjusting base plate, a fixed sleeve is fixedly arranged at one end of the distance adjusting guide slide bar, a movable sleeve is slidably sleeved at the other end of the distance adjusting guide slide bar, one end of the movable sleeve and one end of the fixed sleeve are respectively fixedly provided with a second jacking ring disc and a first jacking ring disc, the bottoms of the movable sleeve and the fixed sleeve are respectively fixedly provided with a first base rotating pin plate and a second base rotating pin plate, one side of the movable sleeve is fixedly provided with a U-shaped limiting top cover, a through slide hole is formed in the U-shaped limiting top cover, a compression jacking spring is sleeved at the middle part of the distance adjusting guide slide bar, and a guide transverse groove is formed in a bar body close to one end of the movable sleeve, a distance positioning rack is fixedly arranged inside the guide transverse groove, a base movable ball tube is fixedly arranged at the top of the U-shaped distance adjusting base plate, and a base jacking screw rod is arranged on the base movable ball tube in a threaded manner;

the distance positioning assembly comprises a distance positioning guide sliding rod, a distance positioning toothed plate and a distance positioning limiting ball head are respectively and fixedly arranged at two ends of the distance positioning guide sliding rod, and a distance positioning jacking spring is sleeved on the distance positioning guide sliding rod;

the orientation adjusting movable connecting component comprises a movable connecting rod, and a first movable connecting ball head and a second movable connecting ball head are fixedly arranged at two ends of the movable connecting rod respectively;

the rack-mounted base assembly comprises a mounting base bottom plate, three mounting flange plates are fixedly arranged at the edge of the mounting base bottom plate, a bottom plate movable ball tube is fixedly arranged on the mounting base bottom plate, and a bottom plate jacking screw rod is arranged on the bottom plate movable ball tube in a threaded mode.

Preferably, the second movable connecting ball head moves in the base movable ball pipe and is screwed down through threads to tightly press the screw rod on the base, so that the angle and the position of the second movable connecting ball head moving in the base movable ball pipe are fixed, the first movable connecting ball head moves in the bottom plate movable ball pipe and is screwed down through threads to tightly press the screw rod on the bottom plate, so that the angle and the position of the first movable connecting ball head moving in the bottom plate movable ball pipe are fixed.

Preferably, the two ends of the compression jacking spring are respectively abutted against the first jacking ring disc and the second jacking ring disc, and the movable sleeve is made to slide towards the end part of the distance adjusting guide sliding rod through jacking of the compression jacking spring.

Preferably, the distance positioning guide slide bar runs through and slides with the U-shaped limiting top cover through a through slide hole, the distance positioning toothed plate is meshed with the distance positioning rack, two ends of the distance positioning jacking spring are respectively abutted on the distance positioning toothed plate and the U-shaped limiting top cover, and the distance positioning jacking spring is tightly pushed to enable the distance positioning toothed plate to be meshed with the distance positioning toothed plate.

Preferably, the distance adjusting telescopic scissor arm support is installed between the static-removing ion wind rod assembly and the distance adjusting base assembly, two ends of the top of the distance adjusting telescopic scissor arm support are rotatably connected with the second base rotating pin plate and the first base rotating pin plate, and two ends of the bottom of the distance adjusting telescopic scissor arm support are rotatably connected with the first wind rod rotating pin plate and the first wind rod rotating pin plate.

Preferably, the opening and closing cross action of the distance adjusting telescopic scissor arm support is realized through the reciprocating sliding of the movable sleeve on the distance adjusting guide slide rod and the reciprocating sliding of the sliding sleeve pipe on the U-shaped guide slide rod, and the distance of the static removing ion air bar component relative to the surface of the substrate glass is adjusted through the opening and closing cross amplitude of the distance adjusting telescopic scissor arm support.

Preferably, the rack mounting base assembly is fixedly mounted on racks at different inclined positions through a fastening bolt and a mounting flange plate, and the static electricity removing blowing direction on the surface of the substrate glass during static electricity removing of the static electricity removing ion air bar assembly is adjusted by adjusting the moving angle of the first movable joint ball pipe in the bottom plate movable ball pipe and the moving angle of the base movable ball pipe outside the second movable joint ball pipe.

Compared with the prior art, the invention has the beneficial effects that: when the invention is used, a distance adjusting telescopic scissor arm support is arranged between the static-removing ion air bar component and the distance adjusting base component, the top of the distance adjusting base component is provided with an orientation adjusting movable connecting component and a rack mounting base component, when the invention is used for racks with different gradients and different positions, the rack mounting base component is firstly mounted and fixed on the racks with different inclined positions through a fastening bolt and a mounting flange plate, then the movable angle of a first movable connecting ball head in a bottom plate movable ball tube and the movable angle of a base movable ball tube outside a second movable connecting ball head are adjusted, a base jacking screw rod is screwed through screw threads, the movable angle and the movable position of the second movable connecting ball head in the base movable ball tube are fixed, the bottom plate jacking screw rod is screwed through screw threads, and the movable angle and the movable position of the first movable connecting ball head in the bottom plate movable ball tube are fixed, the static electricity removing blowing direction on the surface of the substrate glass is adjusted when the static electricity removing ion wind bar component removes the static electricity by the mode, the installation requirements of different inclined or inclined rack positions are met, the opening and closing cross action of the telescopic scissor arm support is adjusted by the reciprocating sliding of the movable sleeve on the distance adjusting guide slide bar and the reciprocating sliding of the sliding sleeve pipe on the U-shaped guide slide bar, the distance between the static electricity removing ion wind bar component and the surface of the substrate glass is adjusted by the opening and closing cross amplitude of the telescopic scissor arm support, the distance between the static electricity removing ion wind bar component and the surface of the substrate glass is adjusted, because the blowing distance when the static electricity removing ion wind bar component is used is limited, in order to obtain better static electricity removing effect, the distance between the static electricity removing ion wind bar component and the surface of the substrate glass is adjusted when the movable sleeve pipe slides on the distance adjusting guide slide bar in a reciprocating manner, the distance adjusting device has the advantages that the distance adjusting device is simple in structure, convenient to use, install and adjust, and can effectively meet the requirements of adjusting the distance between the static removing ion air bar component and the surface of the substrate glass and adjusting the static removing air blowing direction on the surface of the substrate glass.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view from another perspective of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is an exploded view from another perspective of the present invention;

FIG. 5 is a perspective view of the static ion removal air bar assembly of the present invention;

FIG. 6 is a perspective view of a portion of the structure of the present invention;

FIG. 7 is an exploded view of a portion of the structure of the present invention;

FIG. 8 is a perspective view of the distance adjustment base assembly of the present invention;

FIG. 9 is a perspective view of the distance positioning assembly of the present invention;

in the figure: 1. a static-removing ion wind rod component; 101. a static electricity removing ion wind rod body; 102. a U-shaped guide slide bar; 103. a base block; 104. sliding the sleeve; 105. a first air bar rotating pin plate; 106. a first air bar rotating pin plate; 2. the distance adjusting telescopic scissor arm support; 3. a distance adjustment base assembly; 301. a U-shaped distance adjusting base plate; 302. a distance adjusting guide slide bar; 303. fixing the sleeve; 304. an active cannula; 305. a base movable bulb; 306. the base tightly pushes the screw rod; 307. a first tightening ring disc; 308. a second tightening ring disc; 309. a first base rotation pin plate; 310. a second base rotation pin plate; 311. compressing the jacking spring; 312. a through slide hole; 313. a U-shaped limiting top cover; 314. a guide transverse groove; 315. a distance positioning rack; 4. a distance positioning assembly; 401. a distance positioning guide slide bar; 402. a distance positioning toothed plate; 403. a distance positioning and limiting ball head; 404. the distance positioning jacking spring is tightly pressed; 5. an orientation adjustment movable engagement assembly; 501. a movable joint rod; 502. a first movable engagement bulb; 503. a second movable joint ball head; 6. a rack mount base assembly; 601. mounting a base bottom plate; 602. installing a convex edge plate; 603. a movable bulb tube of the bottom plate; 604. the bottom plate tightly pushes the screw rod.

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.

Referring to fig. 1-9, the present invention provides the following technical solutions: a device for removing static electricity on the surface of substrate glass comprises a static electricity removing ion wind rod component 1, wherein a distance adjusting telescopic scissor arm frame 2 is rotatably arranged at the top of the static electricity removing ion wind rod component 1, a distance adjusting base component 3 is rotatably arranged at the top of the distance adjusting telescopic scissor arm frame 2, a distance positioning component 4 is elastically and tightly arranged on one end of the distance adjusting base component 3, a direction adjusting movable connection component 5 is movably arranged at the top of the distance adjusting base component 3, and a rack mounting base component 6 is movably arranged at the top of the direction adjusting movable connection component 5;

the static-removing ion wind rod component 1 comprises a static-removing ion wind rod body 101, a U-shaped guide slide rod 102 and a base block 103 are fixedly arranged at two ends of the top of the static-removing ion wind rod body 101 respectively, a slide sleeve 104 is sleeved on the U-shaped guide slide rod 102 in a sliding mode, a first wind rod rotating pin plate 105 is fixedly arranged on the slide sleeve 104, and a first wind rod rotating pin plate 106 is fixedly arranged on the base block 103;

the distance adjusting base component 3 comprises a U-shaped distance adjusting base plate 301, a distance adjusting guide slide bar 302 is fixedly arranged inside the U-shaped distance adjusting base plate 301, a fixed sleeve 303 is fixedly arranged at one end of the distance adjusting guide slide bar 302, a movable sleeve 304 is slidably sleeved at the other end of the distance adjusting guide slide bar 302, one ends of the movable sleeve 304 and the fixed sleeve 303 are respectively and fixedly provided with a second tightening ring disc 308 and a first tightening ring disc 307, the bottoms of the movable sleeve 304 and the fixed sleeve 303 are respectively and fixedly provided with a first base rotating pin plate 309 and a second base rotating pin plate 310, one side of the movable sleeve 304 is fixedly provided with a U-shaped limiting top cover 313, a through slide hole 312 is arranged on the U-shaped limiting top cover 313, a compression tightening spring 311 is sleeved at the middle part of the distance adjusting guide slide bar 302, and a guide transverse groove 314 is arranged on a bar body close to one end of the movable sleeve 304, a distance positioning rack 315 is fixedly arranged inside the guide transverse groove 314, a base movable ball tube 305 is fixedly arranged at the top of the U-shaped distance adjusting base plate 301, and a base jacking screw 306 is arranged on the base movable ball tube 305 in a threaded manner;

the distance positioning component 4 comprises a distance positioning guide slide bar 401, a distance positioning toothed plate 402 and a distance positioning limiting ball head 403 are respectively and fixedly arranged at two ends of the distance positioning guide slide bar 401, and a distance positioning jacking spring 404 is sleeved on the distance positioning guide slide bar 401;

the orientation adjustment movable connecting component 5 comprises a movable connecting rod 501, and a first movable connecting ball head 502 and a second movable connecting ball head 503 are respectively and fixedly arranged at two ends of the movable connecting rod 501;

the rack-mounted base assembly 6 comprises a mounting base bottom plate 601, three mounting flange plates 602 are fixedly arranged at the edge of the mounting base bottom plate 601, a bottom plate movable ball tube 603 is fixedly arranged on the mounting base bottom plate 601, and a bottom plate jacking screw 604 is arranged on the bottom plate movable ball tube 603 in a threaded manner.

In this embodiment, preferably, the second movable engaging ball 503 moves in the base movable ball tube 305, and the base tightening screw 306 is screwed to fix the angle and position of the second movable engaging ball 503 moving in the base movable ball tube 305, and the first movable engaging ball 502 moves in the bottom plate movable ball tube 603, and the bottom plate tightening screw 604 is screwed to fix the angle and position of the first movable engaging ball 502 moving in the bottom plate movable ball tube 603.

In this embodiment, preferably, two ends of the compression tightening spring 311 abut against the first tightening ring plate 307 and the second tightening ring plate 308, respectively, and the movable sleeve 304 is located at the end of the distance adjustment guide sliding rod 302 in a sliding manner by tightening the compression tightening spring 311.

In this embodiment, preferably, the distance positioning guide sliding rod 401 passes through the through sliding hole 312 and slides through the U-shaped limiting top cover 313, the distance positioning toothed plate 402 is engaged with the distance positioning rack 315, two ends of the distance positioning jacking spring 404 respectively abut against the distance positioning toothed plate 402 and the U-shaped limiting top cover 313, and the distance positioning toothed plate 402 is tightly engaged with the distance positioning rack 315 through jacking of the distance positioning jacking spring 404.

In this embodiment, preferably, the distance-adjusting telescopic scissor arm support 2 is installed between the static-removing ion wind rod assembly 1 and the distance-adjusting base assembly 3, two ends of the top of the distance-adjusting telescopic scissor arm support 2 are rotatably connected with the second base rotating pin plate 310 and the first base rotating pin plate 309, and two ends of the bottom of the distance-adjusting telescopic scissor arm support 2 are rotatably connected with the first wind rod rotating pin plate 105 and the first wind rod rotating pin plate 106.

In this embodiment, preferably, the opening and closing cross action of the distance adjusting telescopic scissor arm support 2 is realized by the reciprocating sliding of the movable sleeve 304 on the distance adjusting guide slide bar 302 and the reciprocating sliding of the sliding sleeve 104 on the U-shaped guide slide bar 102, and the distance from the static electricity removing ion wind rod assembly 1 to the surface of the substrate glass when the static electricity is removed is adjusted by the opening and closing cross amplitude of the distance adjusting telescopic scissor arm support 2.

In this embodiment, preferably, the rack-mounted base assembly 6 is mounted and fixed on the rack at different inclined positions by fastening bolts and the mounting flange 602, and the static-removing blowing direction on the substrate glass surface when the static-removing ion wind bar assembly 1 removes static electricity is adjusted by adjusting the moving angle of the first movable engaging ball 502 in the bottom plate movable ball pipe 603 and the moving angle of the base movable ball pipe 305 outside the second movable engaging ball 503.

The static-removing ion wind rod body 101 is a known technology which is widely applied and used in daily life and is disclosed, and the model number is TR 7051.

The working principle and the using process of the invention are as follows: when the invention is used, the distance adjusting telescopic scissor arm support 2 is arranged between the static-removing ion air-blower component 1 and the distance adjusting base component 3, the top of the distance adjusting base component 3 is provided with the orientation adjusting movable connecting component 5 and the rack mounting base component 6, for racks with different inclinations and different positions, when the invention is used for static-removing mounting, the rack mounting base component 6 is firstly mounted and fixed on the racks with different inclined positions through the fastening bolt and the mounting convex edge plate 602, then the movable angle of the first movable connecting ball head 502 in the bottom plate movable ball tube 603 and the movable angle of the base movable ball tube 305 outside the second movable connecting ball head 503 are adjusted, the base jacking screw 306 is screwed through the screw thread, the movable angle and the movable position of the second movable connecting ball head 503 in the base movable ball tube 305 are fixed, the bottom plate jacking screw rod is screwed through the screw thread, the movable angle and the movable position 604 of the first movable connecting ball head 502 in the bottom plate movable ball tube 603 are fixed, the static electricity removing blowing direction on the surface of the substrate glass when the static electricity removing ion wind bar component 1 removes the static electricity is adjusted through the mode, the installation requirements of different inclined or inclined rack positions are met, the opening and closing cross action of the distance adjusting telescopic scissor arm frame 2 is realized through the reciprocating sliding of the movable sleeve 304 on the distance adjusting guide slide bar 302 and the reciprocating sliding of the sliding sleeve 104 on the U-shaped guide slide bar 102, the distance between the static electricity removing ion wind bar component 1 and the surface of the substrate glass when the static electricity is removed is adjusted through the opening and closing cross amplitude of the distance adjusting telescopic scissor arm frame 2, the blowing distance when the static electricity removing ion wind bar component 1 is used is limited, in order to obtain better static electricity removing effect, the distance between the static electricity removing ion wind bar component 1 and the surface of the substrate glass when the static electricity removing ion wind bar component 1 is installed at different rack positions must be adjusted, when the movable sleeve 304 reciprocates on the distance adjusting guide slide bar 302, the distance positioning toothed plate 402 and the distance positioning rack 315 are tightly meshed through the tight pushing of the distance positioning tight pushing spring 404, and the sliding position of the movable sleeve 304 on the distance adjusting guide sliding rod 302 can be fixed through the meshing mode, so that the distance between the static removing ion air bar component 1 and the surface of the substrate glass can be kept when static electricity is removed.

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