CN117175471B - Embedded cable suspension hanger - Google Patents

Abstract

The invention provides an embedded cable hanging hanger, which relates to the field of cable hanging and comprises a hanger component, wherein the hanger component of a rectangular plate-shaped structure is embedded into the front end of a main body of a fixed structure for use, a stress plate capable of freely moving up and down is arranged above the fixed component, two sides of the stress plate of the T-shaped structure are arc-shaped structures, the stress plate is in sliding connection with a fixed head through a supporting rod, and an inner groove which is vertically arranged is arranged in the fixed head of the wedge-shaped structure. The cable is placed in atress board top, and with the help of gravity control atress board and bracing piece displacement together, the bracing piece passes through the fixed head lateral shifting of inside groove control, after the fixed head lateral shifting, pushes down the centre gripping fixed cable, improves cable fixation effect, avoids the cable to run into not hard up taking off after the wind blows, solves common embedded cable and hangs the gallows and run out when the cable runs into wind blows and other external factors, breaks away from the support inside easily, needs hard operation fixed, influences assembly efficiency's problem.

Description

Embedded cable suspension hanger

Technical Field

The invention relates to the technical field of cable suspension, in particular to an embedded cable suspension hanger.

Background

The cable is the transmission device who is used for electric energy or signal, usually by several or several groups of wires are constituteed, the cable need use the cable to hang the gallows and vertically arrange the erectting with the cable in mill or special scene, conveniently with the cable neatly arrange fixed use, avoid the circuit messy, and the common embedded cable hangs the gallows on the market after the cable hangs, if the cable runs into when blowing and other external factors, break away from the support inside easily, need hard operation fixed, influence assembly efficiency, and the cable is rocked the back and will rock the strength and transmit fixed knot and construct, lead to fixed knot construct and fixing bolt to become flexible easily, and the cable hangs usually in the eminence, need the workman to ascend a height when dismantling or maintaining the cable, it is comparatively laborious, and ascend a height and have the potential safety hazard.

Disclosure of Invention

In view of this, the present invention provides an embedded cable hanging rack to solve the problem that after the cable is hung, if the cable encounters wind and other external factors, the cable is easily separated from the rack, and the cable hanging rack needs to be fixed by laborious operation, which affects the assembly efficiency.

The invention provides an embedded cable hanging hanger, which particularly comprises a fixed structure main body; the side of the fixed structure main body is fixedly connected with the mounting position through a connector and a bolt, a pressing component capable of freely moving up and down is mounted at the top end of the fixed structure main body, two sides of the bottom of the pressing component of the T-shaped structure are respectively fixed with four transmission components, the bottom of each transmission component is fixed with a baffle of a U-shaped structure through a transverse plate, and the baffle covers the outside of the bolt and is attached to the bolt; the lifting frame component is embedded into the front end of the fixed structure main body, a limiting groove for the insertion of the pressing component is formed in the top end of the lifting frame component, the fixed component is embedded and fixed in the lifting frame component through the embedding groove, a stress plate capable of freely moving up and down is arranged above the fixed component, the two sides of the stress plate of the T-shaped structure are arc-shaped structures, an arc-shaped rubber rod for cushioning is arranged at the bottom of the stress plate, a sliding square rod is arranged at the bottom end of the stress plate and penetrates through the inside of the fixed component to be freely pulled, the stress plate is in sliding connection with the fixed head through a supporting rod, an inner groove which is vertically arranged is formed in the inside of the fixed head of the wedge-shaped structure, and two sides of the inner groove are of an inclined structure; the support structure, H shape structure the support structure is in the front end bottom of fixed structure main part and gallows part and uses, and the inside of support structure has inserted rectangular structure's sliding structure to free sliding displacement in the inside of support structure, sliding structure's top is fixed with the gangbar, and drives the gangbar and displace together, and sliding structure's bottom mounting has the top that the atress displaces to move the structure, and the top moves the structure and drives sliding structure and displace together.

Optionally, a trigger slot for guiding is arranged at the rear end of the fixed structure main body, and two sides of the front end of the fixed structure main body of the rectangular frame structure are respectively provided with a guide slot with an arc-shaped inner end; the transmission assembly drives the pressing assembly to move together and displace, two transmission assemblies on each side are fixedly connected through a connecting assembly, and the inside of the connecting assembly is of an L-shaped structure; the trigger assembly of rectangular structure is installed to the inside bottom of coupling assembling and the inside embedding of trigger groove, after the gallows part embedding, extrudees the trigger assembly displacement, and the front end bottom of every coupling assembling is fixed with a movable rod, and the bottom is wedge structure's movable rod and is the slope setting.

Optionally, two sides of the hanger component are respectively fixed with a stress component for stress displacement, the stress component of the T-shaped shaft structure is embedded in the guide groove and is in sliding contact with the side edge of the bottom of the movable rod, and two sides of the inside of the four embedded grooves are respectively provided with an L-shaped groove for limiting the fixed component; two sides of the fixing part of the L-shaped structure are respectively provided with a rectangular head, the rectangular heads are embedded into the L-shaped grooves to be fixed, the outer ends of the fixing parts are provided with two long grooves for the displacement of the fixing heads, two sides of the bottom of the stress plate are respectively fixed with a limiting part made of flexible rubber, and the inner sides of the bottom ends of the limiting parts are contacted with the fixing parts and fixedly support the stress plate; two support rods are fixed on the outer portion of each stress plate and driven to displace together, the support rods with the outer ends of cylindrical structures are inserted into the inner grooves to slide freely, a guide rod is fixed on the bottom of each fixing head, the two guide rods are connected through a square rod, and the guide rods are inserted into the fixing parts to be pulled freely.

Optionally, the outer end of the supporting structure is provided with an outer groove with an arc-shaped structure, four linkage rods are arranged in total, and the linkage rods are arranged above the guide rods; the outer part of the supporting structure is sleeved with a sliding block, the sliding block is arranged outside the supporting structure and used in a free sliding way, the outer end of the sliding block is fixedly connected with a control rod, and the control rod is embedded into the outer groove; the two sides of the sliding block are respectively fixed with a contact head with the top end made of flexible rubber material, the top end of the contact head is fixed with the bottom of the fixed structure main body in a contact manner, the sliding block is fixed with the plug board in an inserting manner, and the plug board is fixed at the bottom of the fixed structure main body.

The embedded cable hanging hanger provided by the invention has the following beneficial effects:

1. when hanging the cable, the cable is placed in atress board top, and with the help of the displacement together of gravity control atress board and bracing piece, the bracing piece passes through the fixed head lateral shifting of inside groove control, after the fixed head lateral displacement, pushes down the centre gripping fixed cable, improves cable fixation effect, avoids the cable to run into not hard up break away from after the windage.

2. After the fixed structure main part is fixed, the control hanging frame part is embedded into the inside of the fixed structure main part, the control triggering assembly is displaced, the hanging frame part is limited by the pressing assembly, the baffle is driven to move together, the baffle is in contact with the outside of the bolt, when the bolt is blocked and fixed, the bolt is enabled to have no loose space, and after the cable is prevented from transmitting shaking force to the fixed structure main part, the fixed structure main part and the bolt are prevented from loosening.

3. When the detachable cable needs to be taken down, the long rod is directly used for controlling the jacking structure to ascend, the sliding structure drives the linkage rod to move together, the linkage rod is in sliding contact with the bottom of the fixed head, the fixed head is pushed to move outwards, the cable is conveniently and conveniently fixed, the cable is conveniently pulled to be detached, the maintenance convenience is improved, and the worker does not need to ascend and detach.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic perspective view of a cable suspension hanger according to an embodiment of the present invention;

FIG. 2 is a schematic bottom view of a cable hanger in accordance with an embodiment of the present invention;

fig. 3 is an exploded perspective view of a cable hanger according to an embodiment of the present invention;

FIG. 4 is an exploded bottom view schematic of a cable hanger of an embodiment of the present invention;

fig. 5 is a perspective view showing a fixed state of a cable suspension hanger according to an embodiment of the present invention;

fig. 6 is an exploded perspective view of a fixing structure body of a cable suspension hanger of the embodiment of the present invention;

fig. 7 is an exploded perspective view of a hanger part of a cable hanger according to an embodiment of the present invention;

fig. 8 is an exploded perspective view of a support structure of a cable suspension hanger of an embodiment of the present invention;

fig. 9 is a partially enlarged schematic illustration of the portion a of the cable hanging bracket of the embodiment of the present invention from fig. 7.

List of reference numerals

1. A fixed structure main body; 101. a trigger slot; 102. a guide groove; 103. pressing down the assembly; 104. a transmission assembly; 105. a baffle; 106. a connection assembly; 107. a trigger assembly; 108. a moving rod;

2. a hanger member; 201. a force receiving member; 202. an embedding groove; 203. a fixing member; 204. a force-bearing plate; 205. a limiting member; 206. a support rod; 207. a fixed head; 208. a guide rod;

3. a support structure; 301. an outer groove; 302. a sliding structure; 303. a linkage rod; 304. a top-moving structure; 305. a slide block; 306. a control lever; 307. a contact; 308. a plug board.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Embodiment one: please refer to fig. 1 to 9:

the invention provides an embedded cable hanging bracket, which comprises a fixed structure main body 1; the side of the fixed structure main body 1 is fixedly connected with the installation position through connectors and bolts to drive the hanger part 2 to be installed and used, a pressing component 103 capable of freely displacing up and down is installed at the top end of the fixed structure main body 1, two sides of the bottom of the pressing component 103 of the T-shaped structure are respectively fixed with a transmission component 104 to drive the baffles 105 to displace together, four transmission components 104 are arranged in total, the bottom of each transmission component 104 is fixed with a baffle 105 of a U-shaped structure through a transverse plate, the baffle 105 covers the outside of the bolts and is attached to the bolts to block the bolts, so that the loosening displacement of the bolts is avoided, and the fixing strength and the fixing effect are improved; the hanging bracket component 2 is embedded into the front end of the fixed structure main body 1, a limiting groove for inserting the pressing component 103 is formed in the top end of the hanging bracket component 2, the pressing component 103 is controlled to be inserted, the top end of the hanging bracket component 2 is limited, the fixed component 203 is embedded and fixed in the hanging bracket component 2 through the embedding groove 202, the stress plate 204 capable of freely moving up and down is arranged above the fixed component 203, a cable is directly placed above the stress plate 204 to be hung and used, the two sides of the stress plate 204 in a T-shaped structure are arc-shaped structures, abrasion to the cable is avoided, an arc-shaped rubber rod for cushioning vibration is arranged at the bottom of the stress plate 204, after the stress plate 204 falls down, a sliding square rod is arranged at the bottom end of the stress plate 204 and penetrates through the inside of the fixed component 203, the stress plate 204 is controlled to conduct guiding displacement, inclination is avoided, the stress plate 204 is connected with the fixed head 207 in a sliding mode, the inside of the fixed head 207 in a vertical arrangement is provided with the inside, the two sides of the inside groove are of the inclined structure, the supporting rod 206 is controlled to conduct displacement in the inside, the cable is controlled to conduct the cable, and the cable is easily separated from the cable is easily clamped and blown and is prevented from being blown and separated from the cable; the supporting structure 3, the supporting structure 3 of H shape structure is in the front end bottom use of fixed structure main part 1 and gallows part 2, the inside of supporting structure 3 has inserted the sliding structure 302 of rectangle structure, and free sliding displacement in the inside of supporting structure 3, the top of sliding structure 302 is fixed with the gangbar 303, and drive the gangbar 303 and displace together, after the displacement, with the bottom sliding contact of fixed head 207, the horizontal displacement of convenient control fixed head 207, the quick release is fixed to the cable, the bottom of sliding structure 302 is fixed with the top of atress displacement and moves structure 304, top moves structure 304 and drives sliding structure 302 and displace together, the square board uses the stock to promote top and moves structure 304, sliding structure 302 and gangbar 303 to rise in the below.

Referring to fig. 6, a trigger slot 101 for guiding is provided at the rear end of the fixed structure main body 1, the trigger assembly 107 is controlled to guide displacement, two sides of the front end of the fixed structure main body 1 with a rectangular frame structure are respectively provided with a guide slot 102 with an arc-shaped inner end, and the stress part 201 is controlled to guide displacement; the transmission components 104 drive the pressing components 103 to move together for displacement, two transmission components 104 on each side are fixedly connected through a connecting component 106, the inside of the connecting component 106 is of an L-shaped structure, and the triggering component 107 is conveniently guided for displacement in the inside of the connecting component; the trigger assembly 107 of rectangular structure is installed to the inside bottom of coupling assembling 106 and trigger slot 101's inside embedding, after the embedding of gallows part 2, extrusion trigger assembly 107 displacement, control trigger assembly 107 removes the displacement together, the front end bottom of every coupling assembling 106 is fixed with a movable rod 108, the movable rod 108 of bottom for wedge structure is the slope setting, coupling assembling 106 drives movable rod 108 and moves downwards together, movable rod 108 bottom and atress part 201 sliding contact after the removal, it is fixed to continue to promote the bottom of atress part 201 and gallows part 2, improve fixed effect.

Referring to fig. 7, two sides of the hanger part 2 are respectively fixed with a force-receiving part 201 for force-receiving displacement, the force-receiving part 201 of a t-shaped shaft structure is embedded in the guide groove 102 and is in sliding contact with the bottom side of the moving rod 108, the force-receiving displacement drives the hanger part 2 to be stably installed, and two sides of the inside of the four embedded grooves 202 are respectively provided with an L-shaped groove for limiting the fixing part 203; two sides of the fixing part 203 with an L-shaped structure are respectively provided with a rectangular head, the rectangular heads are embedded into the L-shaped grooves to be fixed, the fixing part 203 is driven to be firmly installed and used, two long grooves for the fixing head 207 to displace are formed in the outer end of the fixing part 203, two limiting parts 205 made of flexible rubber materials are respectively fixed on two sides of the bottom of the stress plate 204, the inner sides of the bottom ends of the limiting parts 205 are contacted with the fixing part 203, the stress plate 204 is fixedly supported, and the stress plate 204 is used for auxiliary limiting; two support rods 206 are fixed on the outer portion of each stress plate 204 and drive the support rods 206 to displace together, the support rods 206 with the outer ends of cylindrical structures are inserted into the inner grooves to slide freely, the fixing heads 207 are controlled to displace in a moving mode, a guide rod 208 is fixed at the bottom of each fixing head 207, the two guide rods 208 are connected through a square rod, the guide rods 208 are inserted into the fixing parts 203 to be pulled freely, and the fixing heads 207 are supported to displace in a guiding mode.

Referring to fig. 8, the outer end of the supporting structure 3 is provided with an outer groove 301 with an arc structure for positioning connection with a control rod 306, four linkage rods 303 are provided, and the linkage rods 303 are installed above the guide rods 208; the outer part of the supporting structure 3 is sleeved with a sliding block 305, and the sliding block is arranged outside the supporting structure 3 to slide freely, and can be fixedly inserted with a plugboard 308 after sliding, the outer end of the sliding block 305 is fixedly connected with a control rod 306, and the control rod 306 is embedded into the outer groove 301; two sides of the sliding block 305 are respectively fixed with a contact 307 with the top end made of flexible rubber, the top end of the contact 307 is in contact fixation with the bottom of the fixed structure main body 1, the sliding block 305 is limited and fixed, the sliding block 305 is spliced and fixed with a plug board 308, the plug board 308 is fixed at the bottom of the fixed structure main body 1, and the sliding block 305 is limited and fixed.

Embodiment two: if the supporting structure 3 is not needed, the sliding block 305 can be pulled to displace by the control rod 306 to be separated from the plugging connection with the plug board 308, the control sliding structure 302 drives the linkage rod 303 to incline, and the linkage rod 303 is controlled to slide downwards from the inside of the fixing head 207 and the guide rod 208.

Specific use and action of the embodiment: in the invention, the fixed structure main body 1 is controlled to be fixed at a position required to be used through a bolt, then the fixed part 203 is controlled to be in limit plug connection with the embedded groove 202 through the rectangular head to drive the fixed head 207 to be installed together for use, then the hanger part 2 is controlled to be embedded and installed in the front end of the fixed structure main body 1, then the hanger part 2 is pressed, the hanger part 2 extrudes the trigger component 107, meanwhile, the stress part 201 is embedded into the guide groove 102, after the trigger component 107 is stressed, the backward displacement is released, the top-drive fixed connection component 106 is released, the connection component 106 drives the transmission component 104, the pressing component 103, the baffle 105 and the movable rod 108 to displace downwards together, the baffle 105 covers the outside of the bolt to block the bolt, the bolt is prevented from having a loose space, the fixing effect on the fixed structure main body 1 and the bolt is improved, and after the movable rod 108 moves downwards, the device is in sliding contact with the side edge of the stress part 201 to push the bottom end of the hanger part 2 to be fixed in a limiting way, meanwhile, the pressing component 103 is inserted into the limiting groove to firmly fix the top end of the hanger part 2, then the control support structure 3, the sliding structure 302 and the linkage rod 303 are installed together, the linkage rod 303 is installed above the guide rod 208 to be used, then the control rod 306 and the sliding block 305 are pushed to displace, the sliding block 305 is fixedly inserted with the inserting plate 308, meanwhile, the top end of the contact 307 is fixedly contacted with the bottom of the fixed structure main body 1, when a cable is suspended, the control cable is placed above the stress plate 204, the cable presses the stress plate 204 to displace downwards by means of gravity, the stress plate 204 drives the support rod 206 to displace together, the support rod 206 displaces in the inner groove in a sliding way, the fixing head 207 is controlled to move inwards to clamp and press the fixed cable, and the fixing effect on the cable is improved, avoid the cable to shake the back and break away from, the cable hangs for a long time, when need dismantle or the maintenance, use stock control top to move the structure 304 and rise, control sliding structure 302 rise in supporting structure 3's inside, drive the bottom sliding displacement of gangbar 303 and stationary head 207, control stationary head 207 outwards displacement, move the cable through atress board 204 top and rise, convenient dismantlement is to the fixed of cable.

Claims (10)

1. An embedded cable hanging bracket is characterized by comprising a fixed structure main body (1); the side of the fixed structure main body (1) is fixedly connected with the mounting position through a connector and a bolt, a pressing component (103) capable of freely moving up and down is arranged at the top end of the fixed structure main body (1), two transmission components (104) are respectively fixed at two sides of the bottom of the pressing component (103) of the T-shaped structure, four transmission components (104) are arranged in total, a baffle (105) of a U-shaped structure is fixed at the bottom of each transmission component (104) through a transverse plate, and the baffle (105) covers the outside of the bolt and is attached to the bolt; the lifting frame component (2) is embedded into the front end of the fixed structure main body (1) for use, a limiting groove into which the pressing component (103) can be inserted is formed in the top end of the lifting frame component (2), the fixed component (203) is embedded and fixed in the lifting frame component (2) through the embedded groove (202), the stress plate (204) capable of freely moving up and down is arranged above the fixed component (203), the two sides of the stress plate (204) of the T-shaped structure are of arc structures, the bottom of the stress plate (204) is provided with an arc rubber rod for buffering, the bottom end of the stress plate (204) is provided with a sliding square rod and freely stretches through the inside of the fixed component (203), the stress plate (204) is in sliding connection with the fixed head (207) through a supporting rod (206), an inner groove which is vertically arranged is formed in the fixed head (207) of the wedge structure, and the two sides of the inner groove are of the inclined structure; the support structure (3), H shape structure support structure (3) are in front end bottom use of fixed structure main part (1) and gallows part (2), and sliding structure (302) of rectangle structure has been inserted to the inside of support structure (3) freely slides the displacement to in the inside of support structure (3), and the top of sliding structure (302) is fixed with gangbar (303), and drives gangbar (303) and displace together, and the bottom mounting of sliding structure (302) has the top that atress displaces to move structure (304), and top moves structure (304) and drives sliding structure (302) and displace together.

2. An embedded cable suspension hanger as claimed in claim 1 wherein: the rear end of the fixed structure main body (1) is provided with a trigger groove (101) for guiding, and two sides of the front end of the fixed structure main body (1) with a rectangular frame structure are respectively provided with a guide groove (102) with an arc-shaped inner end.

3. An embedded cable suspension hanger as claimed in claim 2 wherein: the transmission assembly (104) drives the pressing assembly (103) to move and displace together, two transmission assemblies (104) on each side are fixedly connected through a connecting assembly (106), and the inside of the connecting assembly (106) is of an L-shaped structure.

4. An embedded cable suspension hanger as claimed in claim 3 wherein: the trigger assembly (107) with the rectangular structure is embedded and installed in the inner bottom end of the connecting assembly (106) and the trigger groove (101), after the hanger component (2) is embedded, the trigger assembly (107) is extruded to displace, a movable rod (108) is fixed at the bottom of the front end of each connecting assembly (106), and the movable rod (108) with the wedge-shaped structure at the bottom end is obliquely arranged.

5. An embedded cable suspension hanger as claimed in claim 4 wherein: the two sides of the hanger component (2) are respectively fixed with a force-bearing component (201) for bearing displacement, the force-bearing component (201) of the T-shaped shaft structure is embedded in the guide groove (102) and is in sliding contact with the side edge of the bottom of the movable rod (108), and two sides of the inner part of the four embedded grooves (202) are respectively provided with an L-shaped groove for limiting the fixing component (203).

6. An embedded cable suspension hanger as claimed in claim 5 wherein: the fixing device is characterized in that two sides of the fixing part (203) of the L-shaped structure are respectively provided with a rectangular head, the rectangular heads are embedded into the L-shaped grooves and are fixed, two long grooves for the fixing heads (207) to move are formed in the outer ends of the fixing part (203), two limiting parts (205) made of flexible rubber materials are respectively fixed on two sides of the bottom of the stress plate (204), and the inner sides of the bottom ends of the limiting parts (205) are in contact with the fixing part (203) and fixedly support the stress plate (204).

7. An embedded cable suspension hanger as claimed in claim 6 wherein: two support rods (206) are fixed on the outer portion of each stress plate (204), the support rods (206) are driven to displace together, the support rods (206) with the outer ends of cylindrical structures are inserted into the inner grooves to slide freely, a guide rod (208) is fixed at the bottom of each fixing head (207), the two guide rods (208) are connected through a square rod, and the guide rods (208) are inserted into the fixing parts (203) to be drawn freely.

8. An embedded cable suspension hanger as claimed in claim 7 wherein: the outer end of the supporting structure (3) is provided with an outer groove (301) with an arc-shaped structure, four linkage rods (303) are arranged in total, and the linkage rods (303) are arranged above the guide rods (208).

9. An embedded cable suspension hanger as claimed in claim 8 wherein: the outside of bearing structure (3) is overlapped and is equipped with slider (305) to be in the outside free slip use of bearing structure (3), the outer end and the control rod (306) fixed connection of slider (305), control rod (306) imbeds in the inside of external groove (301).

10. An embedded cable suspension hanger as claimed in claim 9 wherein: the two sides of the sliding block (305) are respectively fixed with a contact head (307) with the top end made of flexible rubber, the top end of the contact head (307) is fixed with the bottom of the fixed structure main body (1) in a contact way, the sliding block (305) is fixedly spliced with the plug board (308), and the plug board (308) is fixed at the bottom of the fixed structure main body (1) for use.