CN114465178A - Novel bridge for laying electromechanical equipment line - Google Patents

Abstract

The invention relates to the technical field of circuit bridges, in particular to a novel bridge for laying electromechanical equipment circuits; the screw rod type vibration isolation device comprises a bottom groove, a plurality of screw rods and two side plates, wherein the screw rods are arranged on the bottom groove and are provided with nuts, the two side plates are respectively provided with a long hole, and the side plates slide on the screw rods through the long holes; the novel bridge frame also comprises a cover, and the cover is connected with two handles through torsion springs; the novel bridge frame also comprises a plurality of pressing plates fixed at the lower end of the cover through springs; a plurality of bottom doors with through holes are rotatably arranged on the bottom groove; the space volume occupied by the novel bridge frame can be reduced.

Description

Novel bridge for laying electromechanical equipment line

Technical Field

The invention relates to the technical field of line bridges, in particular to a novel bridge for laying electromechanical equipment lines.

Background

The bridge frame is divided into structures of a groove type, a tray type, a ladder type, a grid type and the like, and consists of a support, a supporting arm, an installation accessory and the like. The inner bridge frame of the building can be independently erected and also can be laid on various buildings (structures) and pipe gallery supports, the characteristics of simple structure, attractive appearance, flexible configuration, convenient maintenance and the like are reflected, all parts need to be galvanized and are arranged on the outdoor bridge frame outside the building; the existing bridge has the defects that the depth of the existing bridge is fixed and cannot be changed after the existing bridge is manufactured, no matter how many cables are laid in the bridge, the occupied space of the bridge is fixed, corresponding adjustment cannot be performed according to the number of the cables, the occupied space is too much when the cables are laid, the cables are not required to be installed and the number of the bridge is increased, and the existing bridge is extremely inconvenient and inflexible to use.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the novel bridge for laying the electromechanical equipment line, and the space volume occupied by the novel bridge can be reduced.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides a novel crane span structure for electromechanical device circuit is laid, includes the kerve to and set up on the kerve and be furnished with a plurality of lead screws of nut, and two curb plates that all are provided with the slot hole, the curb plate passes through the slot hole and slides on the lead screw.

The novel bridge further comprises a cover, and two handles are connected to the cover through torsion springs.

The novel bridge further comprises a plurality of pressing plates fixed at the lower end of the cover through springs.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a novel bridge frame of the present invention;

FIG. 2 is a schematic view of another aspect of the novel bridge of the present invention;

FIG. 3 is a partial structural view of the novel bridge of the present invention;

FIG. 4 is a partial structural view of the novel bridge of the present invention;

FIG. 5 is a partial structural view of the novel bridge of the present invention;

FIG. 6 is a partial structural view of the novel bridge of the present invention;

FIG. 7 is a partial structural view of the novel bridge of the present invention;

FIG. 8 is a partial structural view of the novel bridge of the present invention;

FIG. 9 is a partial structural view of the novel bridge of the present invention;

fig. 10 is a partial structural schematic diagram of the novel bridge frame of the invention.

Detailed Description

Referring to fig. 1, 5 and 7, one exemplary procedure from which varying the depth of the bridge depending on the amount of cable laid can be derived is as shown:

the depth of the existing bridge frame is fixed and cannot be changed after the existing bridge frame is manufactured, no matter how many cables are laid in the bridge frame, the space occupied by the bridge frame is fixed, the corresponding adjustment cannot be carried out according to the number of the cables, when the number of the cables is small, the occupied space is too much, when the number of the cables is too much, the cables cannot be installed, the number of the bridge frame needs to be increased, and the existing bridge frame is inconvenient and inflexible to use; the novel bridge frame for laying the electromechanical equipment line comprises a bottom groove 09, a plurality of screw rods 11 which are arranged on the bottom groove 09 and are provided with nuts, and two side plates 05 which are provided with long holes 07, wherein the side plates 05 slide on the screw rods 11 through the long holes 07; when using, at first after fixing the cable, lay in the middle of the kerve 09, adjust two curb plates 05 according to the height that the cable was laid afterwards and paste respectively and slide from top to bottom on the outer terminal surface of kerve 09 both sides, thereby make the height of two curb plates 05 can be the same with the height of cable, screw up the nut on the lead screw 11 afterwards, come two curb plates 05 to press from both sides tightly on the outer terminal surface of kerve 09 both sides through the nut, thereby accomplish fixedly, alright reduce the shared space volume of novel crane span structure through this kind of mode, avoid like traditional crane span structure no matter how much of cable all need account for fixed space volume.

Referring to fig. 1 and 4, an exemplary operation for avoiding the cable from shaking or vibrating in the bridge due to external influence is shown as follows:

when the number of cables laid in the bridge is small, a lot of redundant spaces exist in the bridge, and when external vibration or impact is applied to the bridge, the cables are prone to shaking or vibrating in the bridge, and the bridge and the cables are prone to being abraded; the novel bridge frame also comprises a plurality of pressure plates 04 fixed at the lower end of the cover 01 through springs; after laying the cable in the middle of the kerve 09, when covering the lid 01, the cable of laying in the middle of the kerve 09 that lid 01 below is through spring coupling can be even is pushed down from the top to a plurality of clamp plates 04 to tightly press the cable in the bottom of the kerve 09, avoided when external vibrations or striking lead to because of rocking or shake to appear wearing and tearing between cable and the kerve 09 after using on novel crane span structure.

Referring to fig. 1 and 2, one exemplary process that may be obtained to facilitate erecting a bridge is as follows:

when the existing bridge frame is erected, a part for laying cables needs to be erected on a frame fixed in advance, then an operator climbs to a high place and lays a wire coil in the wire coil, and finally the novel bridge frame is erected only by covering a cover, so that the novel bridge frame has multiple processes and large workload, and the novel bridge frame further comprises a cover 01, and the cover 01 is connected with two handles 02 through torsion springs; both sides of the lower end of the cover 01 are provided with a plurality of hook edges 03, and the inner wall of the upper end of the side plate 05 is provided with a plurality of notches 06; according to the drawing, can see, when setting up novel crane span structure, only need lay the cable in the middle of kerve 09, rotate two handles 02 afterwards, mention whole lid 01, make a plurality of edges 03 that collude of lid 01 lower extreme both sides aim at a plurality of openings 06 of curb plate 05 upper end respectively afterwards, and make edges 03 get into opening 06, slide lid 01 along the length direction of curb plate 05 afterwards, make edges 03 take place lateral shifting after getting into from opening 06 and collude curb plate 05, alright continue to mention two handles 02 at last, alright with lifting up whole novel crane span structure and setting up in advance fixed be used for installing novel crane span structure support, need not carry out laying of cable at the eminence, work such as placing of lid, the work load at the eminence has significantly reduced, also provide convenience for operating personnel.

Referring to fig. 1 and 2, one exemplary operation for avoiding the bottom groove 09 from falling off when erecting the bridge is shown:

the side plate 05 is provided with a bulge 20; when colluding limit 03 and getting into opening 06 and colluding curb plate 05, collude the one end of limit 03 and lean on corresponding arch 20, when will novel crane span structure lift up this moment, only need make the direction of kerve 09 along protruding 20's position tilt up, alright in order to make collude limit 03 to push up protruding 20 and lift up curb plate 05 to the realization is avoided colluding limit 03 and is gone up from the curb plate 05 and fall when mentioning novel crane span structure, avoids the kerve 09 to drop, ensures the safety of novel crane span structure and cable.

Referring to fig. 1 and 2, one exemplary operation that may be obtained to facilitate inspection and heat dissipation of the cable is as follows:

a plurality of bottom doors 13 with through holes 19 are arranged on the bottom groove 09 in a rotating manner; in the usual inspection of the cable, an inspector does not need to ascend to open the cover 01 for inspection, and only needs to open the bottom door 13 from the lower part, so that the condition of the cable in the bottom groove 09 can be directly observed from the lower part, and the inspection is convenient;

meanwhile, the air in the bottom groove 09 can be kept to exchange with the outside air through the through hole 19 on the bottom door 13, so that the heat dissipation effect is achieved, and the hidden danger caused by overhigh temperature of the cable is avoided;

meanwhile, when water flood occurs and water enters the bottom groove 09, the water in the bottom groove 09 can flow out through the through holes 19, and potential safety hazards caused by the fact that the water in the bottom groove 09 cannot be discharged to soak the cable are avoided.

Referring to fig. 6, 9 and 10, one exemplary operation that can be achieved to split the cable according to the present disclosure is:

the novel bridge frame further comprises a slide way 14 arranged in the bottom groove 09, two sliding blocks 15 connected through tension springs and sliding in the slide way 14, and two support rods 16 detachably connected to the two sliding blocks 15; after the cables are separated, the stay bars 16 are pulled to enable the stay bars 16 to be far away from the inner wall of the corresponding bottom groove 09, then the tension springs connected with the sliders 15 are stretched, then the cables with the same purpose and type are laid between the stay bars 16 and the inner wall of the bottom groove 09, the stay bars 16 are loosened, the sliders 15 can slide towards the inner wall of the corresponding bottom groove 09 in the slide ways 14 under the action of the tension springs, the cables with the same purpose and type can be clamped on one side of the bottom groove 09 through the stay bars 16, the cables with the same purpose and type can be clamped on the other side of the bottom groove 09 through the other stay bar 16, and the cables with one type can be laid between the two stay bars 16, so that the cables can be separated in the bottom groove 09, and the cables can be conveniently found in the later maintenance process;

meanwhile, the vertical support rod 16 can be supported below the cover 01, so that the damage to the cable caused by the fact that the cover 01 is impacted, and then an edge angle appears or the cover is bent to enter the bottom groove 09 is avoided; and the rotation seat 17 is rotated on the support rod 16, the rotation seat 17 can increase the contact area with the cover 01, and the cover 01 is prevented from being raised upwards due to the fact that the contact area is too small when the support rod 16 supports the cover 01.

Referring to fig. 9 and 10, an exemplary operation process for obtaining the lateral force strength of the enhanced bottom groove 09 is as follows:

the novel bridge frame also comprises a plurality of inclined holes 10 arranged on the bottom groove 09 and an inserting piece 18 arranged on the rotary seat 17; when the fixing device is used, the support rod 16 is detached firstly, then the support rod 16 is obliquely installed on the sliding block 15, the upper end of the support rod 16 is oblique and then is close to the inner wall of one side of the bottom groove 09, then the rotary seat 17 is rotated to enable the rotary seat 17 to be attached to the inner wall of the bottom groove 09, and finally the inserting piece 18 is inserted into the corresponding inclined hole 10 to complete fixing, so that the support rod 16 is obliquely supported on the inner wall of the bottom groove 09, the strength of the lateral surface stress of the bottom groove 09 can be enhanced in this way, and the inward bending or toppling of the lateral wall of the bottom groove 09 after the lateral surface of the bottom groove 09 is stressed is avoided.

Referring to fig. 6 and 7, one exemplary operation that may be obtained to facilitate the extraction of cables from the new tray is shown:

one end of the bottom groove 09 is connected with a sliding plate 12 through a spring and slides; after the cables are laid, the sliding plate 12 can be slid to one side along with the cables to be connected to corresponding equipment, so that the sliding plate 12 is retracted into one end of the bottom groove 09, the cables in the bottom groove 09 can be exposed, and the cables can be led out conveniently.

Claims (10)

1. The utility model provides a novel crane span structure for electromechanical device circuit is laid, includes kerve (09) to and set up on kerve (09) and be furnished with a plurality of lead screws (11) of nut, and two curb plates (05) that all are provided with slot hole (07), curb plate (05) pass through slot hole (07) and slide on lead screw (11).

2. The new bridge for the line laying of electromechanical devices according to claim 1, characterized in that: the novel bridge frame further comprises a cover (01), the cover (01) is connected with two handles (02) through torsion springs, and the cover (01) can cover the two side plates (05).

3. The new bridge for the line laying of electromechanical devices according to claim 2, characterized in that: the novel bridge frame also comprises a plurality of pressing plates (04) fixed at the lower end of the cover (01) through springs.

4. The new bridge for the line laying of electromechanical devices according to claim 3, characterized in that: both sides of the lower end of the cover (01) are provided with a plurality of hook edges (03), and the inner wall of the upper end of the side plate (05) is provided with a plurality of notches (06).

5. The new bridge for the line laying of electromechanical devices according to claim 4, characterized in that: the side plate (05) is provided with a bulge (20).

6. The new bridge for the line laying of electromechanical devices according to any of the claims 5 or 4, characterized in that: the bottom groove (09) is provided with a plurality of bottom doors (13) with through holes (19) in a rotating way.

7. The new bridge for the line laying of electromechanical devices according to claim 6, characterized in that: the novel bridge frame further comprises a slide way (14) arranged in the bottom groove (09), two sliding blocks (15) connected through tension springs and sliding in the slide way (14), and two support rods (16) detachably connected to the two sliding blocks (15).

8. The new bridge for the line laying of electromechanical devices according to claim 7, characterized in that: a rotary seat (17) is rotated on the support rod (16).

9. The new bridge for the line laying of electromechanical devices according to claim 8, characterized in that: the novel bridge frame further comprises a plurality of inclined holes (10) formed in the bottom groove (09) and inserting pieces (18) arranged on the rotary seat (17).

10. The new bridge for the line laying of electromechanical devices according to claim 9, characterized in that: one end of the bottom groove (09) is connected with a sliding plate (12) through a spring and slides.

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