CN218216412U - Production of glass substrate is with no cellular type cable support hook structure - Google Patents

Abstract

The utility model discloses a glass substrate production is with no cellular type cable bearing hook structure, when needs increase or change the cable of position to the later stage when fixed, cable bearing hook subassembly passes through the bearing hook arm lock subassembly centre gripping and fixes the plane body at existing equipment, cylinder and semicircle body are structural, carry out the bearing hook of cable through the bearing hook board, when cable bearing hook subassembly and bearing hook arm lock subassembly cooperation use, the rotation spout has been seted up on the back end bench, the rotation axostylus axostyle runs through on back end bench through rotating the spout, the rotation axostylus axostyle rotates and slides from top to bottom on back end bench, simultaneously, the both ends that push away the spring are contradicted respectively on top groove platform and back groove bench, top through the top that pushes away the spring, bottom surface ring gear on the top groove bench meshes with the top surface ring gear on the back end bench, realize that the rotation of cable bearing hook subassembly is adjusted and the location after adjusting is fixed, through this kind of mode, when conveniently actually using, the angle adjustment of cable bearing hook subassembly.

Description

Production of glass substrate is with no cellular type cable support hook structure

Technical Field

The utility model belongs to the technical field of base plate glass processing, concretely relates to glass substrate production is with no cellular type cable support hook structure.

Background

The substrate glass production process must involve high temperature environment and various heaters, and various cables need a bracket to be fixed.

The prior art has the following problems: and the furnace bodies such as muffle furnace forming furnace for glass forming are not suitable for welding and punching, and the cable fixing frame used at present can only be fixed by a rope laying iron wire and the like when the position is not suitable or needs to be changed, so that the cable fixing effect is poor.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a glass substrate production is with no cellular type cable support hook structure has the characteristics of facilitate the use and adjust.

In order to achieve the above object, the utility model provides a following technical scheme: a hole-free cable supporting hook structure for glass substrate production comprises a cable supporting hook assembly, wherein the cable supporting hook assembly is arranged on a supporting hook clamping arm assembly in a meshing rotation mode, and a pushing spring is arranged between the cable supporting hook assembly and the supporting hook clamping arm assembly;

the cable support hook assembly comprises a support hook chassis, a front end arc plate and a rotating shaft rod are arranged on the support hook chassis, the support hook plate is fixedly arranged on the front end arc plate, a top groove table is fixedly arranged at the top of the rotating shaft rod, and a bottom surface gear ring is arranged on the bottom surface of the top groove table;

the lifting hook arm lock subassembly includes the arm lock pylon, the fixed end platform that is provided with in arm lock pylon back, the fixed back end platform and the back groove platform that is provided with in end platform back, the fixed top surface ring gear that is provided with in back end platform top, the cover is equipped with the top and pushes away to draw in circle platform and the tight spring in top on the arm lock pylon, the top pushes away to draw in and has seted up two oblique type spouts on the circle platform, two direction vertical grooves have been seted up on the arm lock pylon, the direction is erected inslot portion and is slided from top to bottom and is provided with top inclined plane arm platform, top inclined plane arm platform tip is fixed and is provided with the centre gripping arm board.

Preferably, the top inclined plane arm platform slides up and down in a guide vertical groove on the clamping arm column platform, and a return spring is arranged in a bottom groove body of the guide vertical groove.

Preferably, the pushing and gathering loop table slides back and forth on the clamping arm column table in a reciprocating manner, and the inclination of the top inclined plane arm table is matched with the inclination of the groove body of the inclined sliding groove.

Preferably, two ends of the jacking spring respectively abut against the end platform and the pushing and gathering loop platform.

Preferably, a rotating chute is formed in the back end table, and the rotating shaft rod penetrates through the rotating chute on the back end table.

Preferably, two ends of the pushing spring respectively abut against the top groove table and the back groove table.

Compared with the prior art, the beneficial effects of the utility model are that: when the cable with increased or changed position at later stage is required to be fixed, the cable supporting hook component is clamped and fixed on the plane body, the cylinder body and the semi-circular body structure of the existing equipment through the supporting hook clamping arm component, at the moment, the top inclined plane arm platform slides up and down in the guide vertical groove on the clamping arm column platform, a reset spring is arranged in the groove body at the bottom of the guide vertical groove, two clamping arm plates are arranged on the clamping arm column platform, meanwhile, a pushing and gathering type ring platform and a jacking spring are sleeved on the clamping arm column platform, the pushing and gathering type ring platform slides back and forth on the clamping arm column platform, the top inclination of the top inclined plane arm platform is matched with the groove body inclination of the inclined sliding groove, two ends of the jacking spring respectively abut against the end platform and the pushing and gathering type ring platform, at the moment, through the pushing of the jacking spring and the matching of the structures, the two clamping arm plates are in a firm clamping structure, and at the moment, through the structure, realize that cable bearing hook subassembly passes through the centre gripping of bearing hook arm lock subassembly on current equipment fixed, during the in-service use, carry out the bearing hook of cable through the bearing hook board, when cable bearing hook subassembly and bearing hook arm lock subassembly cooperation are used, the rotation spout has been seted up on the back end platform, the rotation axostylus axostyle runs through on the back end platform through rotating the spout, the rotation axostylus axostyle rotates and slides from top to bottom on the back end platform, the both ends that push away the spring simultaneously contradict respectively on top slot platform and back slot platform, through the top that pushes away the spring, bottom surface ring gear on the top slot platform and the top surface ring gear meshing on the back end platform, cooperation through above-mentioned structure, realize that the rotation regulation of relative bearing hook arm lock subassembly of cable bearing hook subassembly is fixed with the location after adjusting, through this kind of mode, when convenient in-service use, the angle adjustment of cable bearing hook subassembly.

Drawings

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

FIG. 2 is an exploded view of the present invention;

fig. 3 is a perspective view of the cable hook assembly of the present invention;

FIG. 4 is a perspective view of the hook and clamp arm assembly of the present invention;

in the figure: 100. a cable tray assembly; 101. a hook supporting chassis; 102. a front end arc plate; 103. a hook supporting plate; 104. rotating the shaft lever; 105. a top slot table; 106. a bottom face gear ring; 200. a hook and arm assembly; 201. a clamp arm column base; 202. an end table; 203. a back slot table; 204. a back end station; 205. a top face gear ring; 206. a pushing and collecting loop table; 207. the spring is tightly propped; 208. an inclined chute; 209. a guide vertical slot; 210. clamping the arm plate; 211. a top bevel arm table; 300. pushing the spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides the following technical solutions: a hole-free cable hook supporting structure for glass substrate production comprises a cable hook supporting component 100, wherein the cable hook supporting component 100 is arranged on a hook supporting clamping arm component 200 in a meshing and rotating mode, and a pushing spring 300 is arranged between the cable hook supporting component 100 and the hook supporting clamping arm component 200;

the cable hook supporting assembly 100 comprises a hook supporting chassis 101, wherein a front end arc plate 102 and a rotating shaft lever 104 are arranged on the hook supporting chassis 101, the hook supporting plate 103 is fixedly arranged on the front end arc plate 102, a top groove table 105 is fixedly arranged at the top of the rotating shaft lever 104, and a bottom surface gear ring 106 is arranged at the bottom surface of the top groove table 105;

the hook-supporting clamping arm assembly 200 comprises a clamping arm column base 201, an end table 202 is fixedly arranged at the back of the clamping arm column base 201, a back end table 204 and a back groove table 203 are fixedly arranged at the back of the end table 202, a top surface gear ring 205 is fixedly arranged at the top of the back end table 204, a top pushing and gathering ring table 206 and a top tightening spring 207 are sleeved on the clamping arm column base 201, two inclined sliding grooves 208 are formed in the ring table 206 in a pushing and gathering mode, two guiding vertical grooves 209 are formed in the clamping arm column base 201, a top inclined surface arm table 211 is arranged in the guiding vertical grooves 209 in a sliding mode up and down, and a clamping arm plate 210 is fixedly arranged at the end of the top inclined surface arm table 211.

In this embodiment, preferably, the top inclined plane arm table 211 slides up and down in the vertical guide slot 209 on the arm clamping column table 201, and a return spring is disposed in the bottom slot of the vertical guide slot 209.

In this embodiment, the pushing-gathering loop-retracting table 206 slides back and forth on the clamping arm column table 201, and the top inclination of the top inclined-plane arm table 211 matches with the groove body inclination of the inclined chute 208.

In this embodiment, preferably, two ends of the top-tightening spring 207 respectively abut against the end table 202 and the pushing-gathering loop table 206.

In this embodiment, preferably, the back end table 204 is provided with a rotation sliding slot, and the rotation shaft 104 penetrates through the back end table 204 through the rotation sliding slot.

In this embodiment, preferably, two ends of the pushing spring 300 respectively abut against the top slot ledge 105 and the back slot ledge 203.

The utility model discloses a theory of operation and use flow: when a cable at a later position is required to be fixed, the cable hook supporting assembly 100 is clamped and fixed on a plane body, a cylinder body and a semi-circular body structure of the existing equipment through the hook supporting clamping arm assembly 200, at the moment, the top inclined plane arm platform 211 slides up and down in the guide vertical groove 209 on the clamping arm column platform 201, a return spring is arranged in the groove body at the bottom of the guide vertical groove 209, two clamping arm plates 210 are arranged on the clamping arm column platform 201, meanwhile, a pushing and gathering ring platform 206 and a jacking spring 207 are sleeved on the clamping arm column platform 201, the pushing and gathering ring platform 206 slides back and forth on the clamping arm column platform 201, the top inclination of the top inclined plane arm platform 211 is matched with the groove body inclination of the inclined sliding groove 208, two ends of the jacking spring 207 respectively abut against the end platform 202 and the pushing and gathering ring platform 206, at the moment, the two clamping arm plates 210 are in a firm clamping structure through the pushing of the jacking spring 207 and the matching of the structures, at this moment, through the structure, the cable hook supporting component 100 is clamped and fixed on the existing equipment through the hook supporting clamping arm component 200, during actual use, the cable is hooked through the hook supporting plate 103, when the cable hook supporting component 100 and the hook supporting clamping arm component 200 are matched for use, the back end platform 204 is provided with a rotating chute, the rotating shaft rod 104 penetrates through the back end platform 204 through the rotating chute, the rotating shaft rod 104 rotates on the back end platform 204 and slides up and down on the back end platform 204, meanwhile, two ends of the pushing spring 300 respectively abut against the top groove platform 105 and the back groove platform 203, through the pushing of the pushing spring 300, the bottom surface gear ring 106 on the top groove platform 105 is meshed with the top surface gear ring 205 on the back end platform 204, through the matching of the structure, the rotation adjustment and the positioning fixation of the cable hook supporting component 100 relative to the hook supporting clamping arm component 200 are realized, through the mode, the angle adjustment of the cable tray assembly 100 is convenient in actual use.

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

Claims (6)

1. The utility model provides a glass substrate production is with no cellular type cable support hook structure, includes cable support hook subassembly (100), its characterized in that: the cable hook supporting component (100) is arranged on the hook supporting clamping arm component (200) in a meshing and rotating mode, and a pushing spring (300) is arranged between the cable hook supporting component (100) and the hook supporting clamping arm component (200);

the cable hook supporting assembly (100) comprises a hook supporting chassis (101), a front end arc plate (102) and a rotating shaft lever (104) are arranged on the hook supporting chassis (101), a hook supporting plate (103) is fixedly arranged on the front end arc plate (102), a top groove table (105) is fixedly arranged at the top of the rotating shaft lever (104), and a bottom surface gear ring (106) is arranged on the bottom surface of the top groove table (105);

support hook arm lock subassembly (200) is including arm lock pylon (201), fixed end platform (202) that is provided with in arm lock pylon (201) back, fixed back end platform (204) and back groove platform (203) of being provided with in end platform (202) back, fixed top surface ring gear (205) of being provided with in back end platform (204) top, the cover is equipped with on arm lock pylon (201) and pushes away to draw in circle platform (206) and top tight spring (207), push away to draw in and seted up two oblique type spouts (208) on circle platform (206), two guides have been seted up on arm lock pylon (201) and have been erected groove (209), the guide is erected inside and is slided from top to bottom in groove (209) and is provided with top inclined plane arm platform (211), top inclined plane arm platform (211) end fixing is provided with centre gripping arm board (210).

2. The holeless cable hook structure for glass substrate production as claimed in claim 1, wherein: the top inclined plane arm platform (211) slides up and down in a guide vertical groove (209) on the clamping arm column platform (201), and a return spring is arranged in a bottom groove body of the guide vertical groove (209).

3. The holeless cable tray structure for glass substrate production according to claim 1, wherein: the pushing and gathering loop table (206) slides back and forth on the clamping arm column table (201), and the top inclination of the top inclined plane arm table (211) is matched with the groove body inclination of the inclined sliding groove (208).

4. The holeless cable hook structure for glass substrate production as claimed in claim 1, wherein: two ends of the tightening spring (207) are respectively propped against the end platform (202) and the pushing and gathering loop platform (206).

5. The holeless cable tray structure for glass substrate production according to claim 1, wherein: the back end table (204) is provided with a rotating chute, and the rotating shaft rod (104) penetrates through the back end table (204) through the rotating chute.

6. The holeless cable tray structure for glass substrate production according to claim 1, wherein: two ends of the pushing spring (300) respectively abut against the top groove platform (105) and the back groove platform (203).

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