CN223567006U - Rotary power cable connection device - Google Patents

Abstract

This utility model relates to the technical field of cable connection devices, and discloses a rotary power cable connection device, including a housing. An L-shaped terminal block is horizontally slidably connected inside the housing. A sliding mechanism for the sliding L-shaped terminal block is provided inside the housing. Two fixed posts are fixedly connected to the top of the L-shaped terminal block, and a second limiting post is rotatably connected between the two fixed posts. A rotating mechanism for rotating the second limiting post is provided inside the housing. A clamping mechanism is provided inside the L-shaped terminal block. A connecting post is rotatably connected to the end of the second limiting post away from the L-shaped terminal block, and a wire is fixedly connected to one end of the connecting post. A protective sleeve is fitted onto the surface of the housing away from the L-shaped terminal block. This utility model, by rotating the connecting sleeve, causes the L-shaped terminal block to slide horizontally due to the two mating blocks, and simultaneously causes the second limiting post to rotate, thereby restricting the cable and causing the clamping blocks to slide, thus making the cable more securely fixed.

Description

Rotary power cable power-receiving device

Technical Field

The utility model relates to the technical field of cable power connection devices, in particular to a rotary power supply cable power connection device.

Background

The main function of the rotary power cable power receiving device is to maintain the electrical connection between the power supply and the rotating part during the rotation of the device, and ensure the continuity of power supply.

However, most of the existing cable connection devices rotate through the screws when in use, so that metal sheets inside the device are in contact with the cables, and the cables can be installed, but the mode is troublesome when in actual use, external tools are also required to be matched for use, the screws are easy to slip after long-time use, the use effect is poor, and meanwhile, the connection to the cables is not stable enough, so that the problems are needed to be solved.

Disclosure of utility model

The utility model aims to solve the defects in the prior art and provides a rotary power supply cable power connection device.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The utility model provides a rotation type power cable power connection device, includes the shell, the inside horizontal sliding connection of shell has L type terminal, the inside sliding mechanism who is provided with slip L type terminal of shell, two fixed column of L type terminal top fixedly connected with, two rotate between the fixed column and be connected with the spacing post of second, the inside slewing mechanism who is equipped with the spacing post of rotation second of shell, the inside fixture that is provided with of L type terminal, L type terminal top one end is provided with the notch groove, L type terminal one end rotation is kept away from to the spacing post of second is connected with the spliced pole, spliced pole one end fixedly connected with wire, L type terminal one end has been cup jointed to the shell surface, rotates the lag through rotating the adapter sleeve, can make L type terminal carry out horizontal slip at the setting of two cooperation pieces, also can make the spacing post of second rotate simultaneously to restrict the cable, also can drive the clamp splice simultaneously and slide, thereby make cable fixation more firm.

Preferably, the sliding mechanism comprises two matching blocks, the two matching blocks are respectively and fixedly connected to two symmetrical sides of the surface of the L-shaped binding post, two connecting grooves are formed in the surface of the shell, the two connecting grooves are all communicated with the inside of the shell, the two matching blocks are respectively and slidably connected to the inside of the two connecting grooves, the two matching blocks are respectively provided with thread grooves, the surface of the shell is provided with two annular grooves, the two annular grooves are respectively formed in two ends of the two connecting grooves, the surface of the shell is sleeved with a connecting sleeve, two ends of the inner wall of the connecting sleeve are fixedly connected with fixing rings, the two fixing rings are respectively sleeved in the two annular grooves, threads are formed in the inner wall of the connecting sleeve, the threads of the inner wall of the connecting sleeve are matched with the threads of the surface of the two matching blocks, so that the L-shaped binding post is limited to horizontally slide, and meanwhile when the connecting sleeve is rotated, the L-shaped binding post can slide in the inside the shell.

Further, the slewing mechanism comprises a first limit post, the inside one end of shell is fixed to first limit post level, second limit post bottom fixedly connected with pivot, two fixed columns are located to pivot both ends cover respectively inside, the limit groove has been seted up in the second limit post surface penetration, the limit groove cover is located first limit post surface for overturn the second limit post in the slip of L type terminal, thereby be convenient for fasten the cable.

Preferably, the fixture comprises clamping blocks, the spout has been seted up to L type terminal top level, the draw-in groove has all been seted up to the equal level in the inside opposite both sides of spout, the inside horizontal sliding connection of spout has the diaphragm, diaphragm top one end fixedly connected with clamping block, the equal fixedly connected with card strip in clamping block surface symmetry both sides, two card strip sliding connection respectively in two draw-in grooves are inside, diaphragm top fixedly connected with rack, the tooth piece has been cup jointed on the pivot surface, tooth piece meshes with the rack mutually for can drive the clamping block and slide when the rotation of second spacing post, thereby can carry out the centre gripping to the cable.

Further, the inside one section department fixedly connected with conducting post that keeps away from L type terminal of shell, the conducting post surface is located to the spliced pole cover, the inside center department horizontal sliding connection of conducting post has the traveller, two stopper of traveller surface cambered surface department fixedly connected with, two stopper all sliding connection is inside the conducting post, the inside spring that is provided with of conducting post, the spring both ends set up respectively in traveller one end and the inside one side of conducting post, traveller one end fixedly connected with contact plate, contact plate sliding connection is inside the shell for connect the wire of spliced pole inside, wire and conducting post contact simultaneously, make the spliced pole rotate when using.

The beneficial effects of the utility model are as follows:

During use, the connecting sleeve is rotated, the L-shaped binding posts horizontally slide through the arrangement of the two matching blocks, and meanwhile, the second limiting posts rotate, so that the cable is limited, and meanwhile, the clamping blocks are driven to slide, so that the cable is fixed more firmly.

Drawings

Fig. 1 is a front view of a rotary power cable connection device according to the present utility model;

Fig. 2 is a cross-sectional view illustrating an internal structure of a rotary power cable connector according to the present utility model;

FIG. 3 is a partial sectional view of a rotary power cable connector according to the present utility model;

Fig. 4 is a schematic diagram of a sliding mechanism of a rotary power cable connector according to the present utility model;

fig. 5 is a schematic diagram of a partial structure of a rotary power cable power connection device according to the present utility model.

In the figure, 1, a shell; 11, connecting grooves, 12, annular grooves, 13, protective sleeves, 14, first limit posts, 2, connecting sleeves, 21, fixing rings, 3, L-shaped binding posts, 31, sliding grooves, 32, matching blocks, 33, fixing posts, 34, clamping grooves, 35, notch grooves, 4, second limit posts, 41, rotating shafts, 42, tooth blocks, 43, limit grooves, 5, connecting posts, 51, wires, 52, conductive posts, 53, sliding posts, 54, limiting blocks, 55, springs, 56, contact plates, 6, clamping blocks, 61, transverse plates, 62, clamping bars, 63 and racks.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-5, the rotary power cable power-on device comprises a housing 1, the inside horizontal sliding connection of housing 1 has L type terminal 3, the inside sliding mechanism who slides L type terminal 3 that is provided with of housing 1, two fixed columns 33 of L type terminal 3 top fixedly connected with, rotate between two fixed columns 33 and be connected with second spacing post 4, the inside rotary mechanism who rotates second spacing post 4 that is equipped with of housing 1, the inside fixture that is provided with of L type terminal 3, L type terminal 3 top one end is provided with lack groove 35, second spacing post 4 is kept away from L type terminal 3 one end and is rotated and be connected with spliced pole 5, spliced pole 5 one end fixedly connected with wire 51, L type terminal 3 one end has been cup jointed on housing 1 surface and has been protected by sleeve 13, through rotating adapter sleeve 2, the setting up at two cooperation pieces 32 can make L type terminal 3 carry out horizontal sliding, also can make second spacing post 4 rotate simultaneously, thereby restrict the cable, also can drive clamp splice 6 and slide simultaneously, thereby make the cable is fixed more firm.

Referring to fig. 2 and 4, in a preferred embodiment, the sliding mechanism includes two matching blocks 32, the two matching blocks 32 are respectively and fixedly connected to two symmetrical sides of the surface of the L-shaped binding post 3, two connecting grooves 11 are formed in the surface of the housing 1, the two connecting grooves 11 are all communicated with the inside of the housing 1, the two matching blocks 32 are respectively and slidingly connected to the inside of the two connecting grooves 11, screw grooves are respectively formed in the surfaces of the two matching blocks 32, two annular grooves 12 are respectively formed in the surfaces of the housing 1, connecting sleeves 2 are sleeved on the surfaces of the housing 1, fixing rings 21 are fixedly connected to two ends of the inner wall of the connecting sleeve 2, the two fixing rings 21 are respectively sleeved in the two annular grooves 12, screw threads are formed in the inner wall of the connecting sleeve 2, and the screw threads on the inner wall of the connecting sleeve 2 are matched with the screw threads on the surfaces of the two matching blocks 32, so as to limit the horizontal sliding of the L-shaped binding post 3, and simultaneously when the connecting sleeve 2 rotates, the L-shaped binding post 3 can slide in the inside the housing 1.

Referring to fig. 2 and 3, in a preferred embodiment, the rotating mechanism includes a first limiting post 14, the first limiting post 14 is horizontally and fixedly connected to one end inside the housing 1, a rotating shaft 41 is fixedly connected to the bottom end of the second limiting post 4, two ends of the rotating shaft 41 are respectively sleeved inside the two fixing posts 33, a limiting groove 43 is formed in the surface of the second limiting post 4 in a penetrating manner, and the limiting groove 43 is sleeved on the surface of the first limiting post 14 and used for overturning the second limiting post 4 while the L-shaped binding post 3 slides, so that the cable is fastened conveniently.

Referring to fig. 1 and 3, in a preferred embodiment, the clamping mechanism includes a clamping block 6, a chute 31 is horizontally provided on the inner surface of the l-shaped binding post 3, clamping grooves 34 are horizontally provided on opposite sides of the chute 31, a transverse plate 61 is horizontally and slidably connected to the chute 31, one end of the top of the transverse plate 61 is fixedly connected with the clamping block 6, two clamping strips 62 are fixedly connected to the symmetrical sides of the surface of the clamping block 6, the two clamping strips 62 are respectively and slidably connected to the inside of the two clamping grooves 34, a rack 63 is fixedly connected to the top of the transverse plate 61, a tooth block 42 is sleeved on the surface of the rotating shaft 41, and the tooth block 42 is meshed with the rack 63 for driving the clamping block 6 to slide when the second limiting post 4 rotates, so that the cable can be clamped.

Referring to fig. 2 and 5, in a preferred embodiment, a conductive post 52 is fixedly connected to a center of one end of the housing 1, far from the L-shaped binding post 3, a connecting post 5 is sleeved on the surface of the conductive post 52, a sliding post 53 is horizontally and slidably connected to the center of the inside of the conductive post 52, two limiting blocks 54 are fixedly connected to an arc surface of the sliding post 53, the two limiting blocks 54 are slidably connected to the inside of the conductive post 52, a spring 55 is arranged in the conductive post 52, two ends of the spring 55 are respectively arranged at one end of the sliding post 53 and one side of the inside of the conductive post 52, one end of the sliding post 53 is fixedly connected with a contact plate 56, the contact plate 56 is slidably connected to the inside of the housing 1 and used for connecting wires 51 in the connecting post 5, and meanwhile the wires 51 are contacted with the conductive post 52, so that the connecting post 5 can rotate in use.

From the above description, it can be seen that the above-mentioned embodiment of the present utility model achieves the following technical effects that, during actual use, by rotating the connecting sleeve 2, the arrangement of the two matching blocks 32 can enable the L-shaped binding post 3 to slide horizontally, and simultaneously enable the second limiting post 4 to rotate, so as to limit the cable, and simultaneously drive the clamping block 6 to slide, so that the cable is fixed more firmly, when in use, the cable to be connected can be placed on the L-shaped binding post 3, and then the connecting sleeve 2 is rotated, under the connection of the two matching blocks 32, the L-shaped binding post 3 can slide towards the inside of the housing 1, and then the second limiting post 4 is turned over, so that the cable is limited to the inside of the L-shaped binding post 3, and simultaneously, the cable surface is pressed, and when the second limiting post 4 rotates, under the matching of 63, the clamping block 6 is driven to slide, so that the clamping block 6 clamps the cable surface to the cable, and then the cable is placed on the L-shaped binding post 3, and then the connecting sleeve 2 is pressed against the cable, and the connecting device is further connected with the cable is pressed to the housing 1, so that the connecting device is pressed, and the connecting device is connected with the cable is further pressed, and the connecting rod is pressed to the cable is pressed, and the connecting rod is connected with the cable is stable, and the connecting rod is pressed.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The utility model provides a rotation type power cable power connection device, includes shell (1), its characterized in that, the inside horizontal sliding connection of shell (1) has L type terminal (3), the inside sliding mechanism who is provided with slip L type terminal (3) of shell (1), two fixed column (33) of L type terminal (3) top fixedly connected with, two rotate between fixed column (33) and be connected with second spacing post (4), the inside rotary mechanism who is equipped with rotation second spacing post (4) of shell (1), L type terminal (3) inside is provided with fixture, L type terminal (3) top one end is provided with lacks groove (35), L type terminal (3) one end rotation is kept away from to second spacing post (4) is connected with spliced pole (5), spliced pole (5) one end fixedly connected with wire (51), L type terminal (3) one end has been kept away from on shell (1) surface and has been cup jointed lag (13).

2. The rotary power cable power-receiving device according to claim 1, wherein the sliding mechanism comprises two matching blocks (32), the two matching blocks (32) are respectively and fixedly connected to two symmetrical sides of the surface of the L-shaped binding post (3), two connecting grooves (11) are formed in the surface of the housing (1), the two connecting grooves (11) are communicated with the inside of the housing (1), the two matching blocks (32) are respectively and slidably connected to the inside of the two connecting grooves (11), and thread grooves are formed in the surfaces of the two matching blocks (32).

3. The rotary power cable power-receiving device according to claim 2, wherein two annular grooves (12) are formed in the surface of the housing (1), the two annular grooves (12) are respectively formed in two ends of the two connecting grooves (11), a connecting sleeve (2) is sleeved on the surface of the housing (1), fixing rings (21) are fixedly connected to two ends of the inner wall of the connecting sleeve (2), the two fixing rings (21) are respectively sleeved inside the two annular grooves (12), threads are formed in the inner wall of the connecting sleeve (2), and the threads of the inner wall of the connecting sleeve (2) are matched with the threads of the surfaces of the two matching blocks (32).

4. The rotary power cable power-on device according to claim 1, wherein the rotating mechanism comprises a first limiting column (14), the first limiting column (14) is horizontally and fixedly connected to one end inside the shell (1), a rotating shaft (41) is fixedly connected to the bottom end of the second limiting column (4), two ends of the rotating shaft (41) are respectively sleeved inside the two fixing columns (33), limiting grooves (43) are formed in the surface of the second limiting column (4) in a penetrating mode, and the limiting grooves (43) are sleeved on the surface of the first limiting column (14).

5. The rotary power cable power-on device according to claim 4, wherein the clamping mechanism comprises clamping blocks (6), sliding grooves (31) are horizontally formed in the inner surface of the L-shaped binding post (3), clamping grooves (34) are horizontally formed in the opposite sides of the inner portion of the sliding grooves (31), transverse plates (61) are horizontally connected in a sliding mode in the inner portion of the sliding grooves (31), clamping blocks (6) are fixedly connected to one end of the top of each transverse plate (61), clamping strips (62) are fixedly connected to two symmetrical sides of the surface of each clamping block (6), two clamping strips (62) are respectively and slidably connected to the inner portions of the two clamping grooves (34), racks (63) are fixedly connected to the top of each transverse plate (61), tooth blocks (42) are sleeved on the surface of each rotating shaft (41), and the tooth blocks (42) are meshed with the racks (63).

6. The rotary power cable power-receiving device according to claim 1, wherein a conductive column (52) is fixedly connected to the inside of the housing (1) far away from the center of one end of the L-shaped binding post (3), the conductive column (52) is sleeved with the connecting column (5), a sliding column (53) is horizontally and slidably connected to the inside center of the conductive column (52), two limiting blocks (54) are fixedly connected to the cambered surface of the sliding column (53), the two limiting blocks (54) are both slidably connected to the inside of the conductive column (52), a spring (55) is arranged inside the conductive column (52), two ends of the spring (55) are respectively arranged on one end of the sliding column (53) and one side inside the conductive column (52), a contact plate (56) is fixedly connected to one end of the sliding column (53), and the contact plate (56) is slidably connected to the inside of the housing (1).