CN210443672U - Electrified engineering inlet wire fastener - Google Patents

Abstract

The utility model discloses an electrified engineering inlet wire fastener, including top board, inlet wire frame main part, first powerful viscose agent and the powerful viscose agent of second, the indent has been seted up on the top of inlet wire frame main part, the indent has been seted up to the bottom of top board, the welding of top center department of inlet wire frame main part has the stainless steel double-screw bolt, and threaded connection has hexagon nut on the stainless steel double-screw bolt, the top welding of top board has two slide rails, the slide rail is located the both sides of stainless steel double-screw bolt, and equal sliding connection has the sliding block on the slide rail, the terminal surface is connected with the stopper before the sliding block, and the inboard bolted connection of sliding block has the non-slip raised. The utility model discloses, adjust two sliding blocks and make two non-slip raised sides hug closely the hexagon nut lateral surface, realize spacing fixed to the hexagon nut, avoid the hexagon nut not hard up gyration phenomenon to appear, guarantee the compactness that top board and inlet frame main part are connected, guarantee the tight wire steadiness of clamp.

Description

Electrified engineering inlet wire fastener

Technical Field

The utility model relates to an electric engineering technical field specifically is an electric engineering inlet wire fastener.

Background

The electric engineering and the automation thereof relate to a plurality of fields such as power electronic technology, computer technology, motor and electrical appliance technology, information and network control technology, electromechanical integration technology and the like, are subjects with stronger comprehensiveness, and are mainly characterized by strong and weak current combination, electromechanical combination, software and hardware combination, combination of electrotechnical technology and electronic technology, and combination of elements and systems, so that students can obtain basic skills in the fields of electrotechnical electronics, system control, electric power system automation, electric automation devices, computer application technology and the like. The incoming line clamp is one of common tools in the electrified engineering, and is generally used at the crimping connection positions of conducting wires such as jumper wires, branch wires, lead wires, service wires, house lead wires and the like of overhead high-voltage and low-voltage power line towers. Suitable for the connection of aluminum or copper wire, and suitable for the wire type, wire diameter, compression key, and the number of times of pressing connection.

Traditional inlet wire clamp easily leads to not hard up of nut when using for a long time, has influenced the steadiness of the wire that presss from both sides, and the suitability remains to be strengthened.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electrified engineering inlet wire fastener aims at improving the inlet wire fastener and easily leads to the not hard up of nut when using for a long time, has influenced the steadiness of the tight wire of clamp, and the suitability remains the problem of strengthening.

The utility model discloses a realize like this:

an electrified engineering wire inlet clamp comprises an upper pressing plate, a wire inlet frame main body, a first strong adhesive and a second strong adhesive, wherein the top end of the wire inlet frame main body is provided with a lower pressing groove, two lower pressing grooves are arranged, the bottom end of the upper pressing plate is provided with an upper pressing groove, the two upper pressing grooves correspond to the two lower pressing grooves, a stainless steel stud is welded at the center of the top end of the wire inlet frame main body, one end of the stainless steel stud penetrates through the center of the upper pressure plate, and the stainless steel stud is connected with a hexagon nut in a threaded manner, the top end of the upper pressure plate is welded with two slide rails which are positioned at the two sides of the stainless steel stud, and equal sliding connection has the sliding block on the slide rail, the terminal surface is connected with the stopper before the sliding block, and the inboard bolted connection of sliding block has the non-slip raised, two the hexagonal nut lateral surface is hugged closely to the non-slip raised side.

Furthermore, the inner wall of the upper pressure groove is provided with a first wear-resistant anti-skid rubber pad, and the inner wall of the upper pressure groove is connected with the first wear-resistant anti-skid rubber pad through a first strong adhesive.

Furthermore, an anti-slip washer is sleeved on the stainless steel stud, and the anti-slip washer is arranged on the top end face of the upper pressure plate through the hexagon nut.

Furthermore, the inner wall of the lower pressing groove is provided with a second wear-resistant anti-slip rubber pad, and the inner wall of the lower pressing groove is connected with the second wear-resistant anti-slip rubber pad through a second strong adhesive.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses a lead frame, including inlet wire frame main part, stainless steel double-screw bolt, slide rail, stopper, upper press plate, the top welding of upper press plate has the stainless steel double-screw bolt, and the stainless steel double-screw bolt passes the upper press plate, bolted connection has hexagon nut on the stainless steel double-screw bolt simultaneously, the top welding of upper press plate has two slide rails simultaneously, the slide rail is located the both sides of stainless steel double-screw bolt, and equal sliding connection has the sliding block on the slide rail, and the terminal surface is connected with the stopper before the sliding block, and the inboard bolted connection of sliding block has the non-slip raised, adjust two sliding blocks and make two non-slip raised.

(2) Because go up between indent inner wall and the first wear-resisting anti-skidding rubber pad and link to each other through first powerful adhesive, and link to each other through second powerful adhesive between indent inner wall and the wear-resisting anti-skidding rubber pad of second down, when the top board compressed tightly connecting wire, two wear-resisting anti-skidding rubber pads can avoid causing the pressure loss to the wire, also avoid the phenomenon of skidding to appear in the wire simultaneously.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view of the upper pressure groove and the lower pressure groove of the present invention.

In the figure: 1. an upper pressure plate; 2. pressing the groove upwards; 3. pressing the groove downwards; 4. a wire inlet frame main body; 5. a slide rail; 6. a slider; 7. a limiting block; 8. anti-skid projections; 9. an anti-slip washer; 10. a stainless steel stud; 11. a hexagonal nut; 12. a first high-power adhesive; 13. a first wear-resistant anti-skid rubber pad; 14. a second high-power adhesive; 15. the second wear-resistant anti-skid rubber pad.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are 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. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. 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. 1-2, an electrified engineering wire clamp comprises an upper press plate 1, a wire inlet frame body 4, a first strong adhesive 12 and a second strong adhesive 14, wherein the top end of the wire inlet frame body 4 is provided with two lower press grooves 3, the bottom end of the upper press plate 1 is provided with two upper press grooves 2, the two upper press grooves 2 correspond to the two lower press grooves 3, the center of the top end of the wire inlet frame body 4 is welded with a stainless steel stud 10, one end of the stainless steel stud 10 passes through the center of the upper press plate 1, the stainless steel stud 10 is in threaded connection with a hexagon nut 11, the top end of the upper press plate 1 is welded with two slide rails 5, the slide rails 5 are positioned at the two sides of the stainless steel stud 10, the slide rails 5 are in sliding connection with slide blocks 6, the front end face of the slide block 6 is connected with a stopper 7, and the inner bolt of the slide block 6 is connected with an anti-skid projection 8, two 8 sides of the anti-skidding protrusions are tightly attached to the outer side surface of the hexagonal nut 11, the two sliding blocks 6 are adjusted to enable the two 8 sides of the anti-skidding protrusions to be tightly attached to the outer side surface of the hexagonal nut 11, the hexagonal nut 11 is limited and fixed, the phenomenon that the hexagonal nut 11 is loosened and rotated is avoided, the tightness of connection between the upper pressure plate 1 and the wire inlet frame main body 4 is guaranteed, and the stability of a clamped wire is guaranteed.

Go up the inner wall of indent 2 and be provided with first wear-resisting anti-skidding rubber pad 13, and go up and link to each other through first powerful adhesive 12 between indent 2 inner wall and the first wear-resisting anti-skidding rubber pad 13, because link to each other through first powerful adhesive 12 between last indent 2 inner wall and the first wear-resisting anti-skidding rubber pad 13, can avoid going up indent 2 and cause wearing and tearing to tight wire.

The stainless steel stud 10 is sleeved with the anti-slip washer 9, the hexagonal nut 11 enables the anti-slip washer 9 to be arranged on the top end face of the upper pressing plate 1, and the hexagonal nut 11 enables the anti-slip washer 9 to be arranged on the top end face of the upper pressing plate 1, so that stability of the hexagonal nut 11 is guaranteed, and looseness is not prone to occurring.

The inner wall of the lower pressing groove 3 is provided with a second wear-resistant anti-skid rubber pad 15, the inner wall of the lower pressing groove 3 is connected with the second wear-resistant anti-skid rubber pad 15 through a second strong adhesive 14, the inner wall of the lower pressing groove 3 is connected with the second wear-resistant anti-skid rubber pad 15 through the second strong adhesive 14, and the first wear-resistant anti-skid rubber pad 13 on the inner wall of the upper pressing groove 2 is matched to increase the friction force of the clamped wire.

The working principle is as follows: when the connected wires are positioned in the two lower pressing grooves 3, because the stainless steel stud 10 is welded at the center of the top end of the wire inlet frame main body 4, one end of the stainless steel stud 10 penetrates through the upper pressing plate 1, the hexagon nut 11 is connected to the stainless steel stud 10 in a threaded manner, the hexagon nut 11 is rotated to be tightly attached to the top end of the upper pressing plate 1, so that the upper pressing groove 2 tightly presses the connected wires in the lower pressing grooves 3, the inner wall of the upper pressing groove 2 is connected with the first wear-resistant anti-skidding rubber pad 13 through the first strong adhesive 12, the inner wall of the lower pressing groove 3 is connected with the second wear-resistant anti-skidding rubber pad 15 through the second strong adhesive 14, the two wear-resistant anti-skidding rubber pads can avoid pressure loss to the wires and also avoid the phenomenon of skidding of the wires, the two sliding blocks 6 are adjusted on the two sliding rails 5, so that the side surfaces of the two anti-skidding bulges 8 are, the loosening and rotation phenomena of the hexagon nut 11 are avoided, the tightness of connection of the upper pressing plate 1 and the wire inlet frame main body 4 is guaranteed, the stability of a clamped wire is guaranteed, and the practicability of the wire inlet clamp of the electrified engineering is improved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. The utility model provides an electrified engineering inlet wire fastener, includes top board (1), inlet wire frame main part (4), first powerful adhesive (12) and second powerful adhesive (14), its characterized in that: the top end of the wire inlet frame main body (4) is provided with two lower pressure grooves (3), the bottom end of the upper pressing plate (1) is provided with an upper pressure groove (2), the upper pressure grooves (2) are provided with two, the two upper pressure grooves (2) correspond to the two lower pressure grooves (3), the top center of the wire inlet frame main body (4) is welded with a stainless steel stud (10), one end of the stainless steel stud (10) penetrates through the center of the upper pressing plate (1), the stainless steel stud (10) is in threaded connection with a hexagon nut (11), the top end of the upper pressing plate (1) is welded with two sliding rails (5), the sliding rails (5) are positioned on two sides of the stainless steel stud (10), the sliding rails (5) are both in sliding connection with sliding blocks (6), the front end face of each sliding block (6) is connected with a limiting block (7), and the inner side of each sliding block (6) is in bolted connection with an anti-slip bulge (8), the side surfaces of the two anti-skid protrusions (8) are tightly attached to the outer side surface of the hexagonal nut (11).

2. The electrified engineering wire clamp as claimed in claim 1, wherein the inner wall of the upper pressing groove (2) is provided with a first wear-resistant anti-slip rubber pad (13), and the inner wall of the upper pressing groove (2) is connected with the first wear-resistant anti-slip rubber pad (13) through a first strong adhesive (12).

3. The electrified engineering wire clamp according to claim 1, characterized in that the stainless steel stud (10) is sleeved with an anti-slip washer (9), and the hexagonal nut (11) is used for fixing the anti-slip washer (9) on the top end face of the upper pressure plate (1).

4. The electrified engineering wire clamp as claimed in claim 1, wherein the inner wall of the lower pressing groove (3) is provided with a second wear-resistant anti-slip rubber pad (15), and the inner wall of the lower pressing groove (3) is connected with the second wear-resistant anti-slip rubber pad (15) through a second strong adhesive (14).

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