CN216945701U - New energy cable winding device for photovoltaic equipment - Google Patents

Abstract

The utility model relates to the technical field of new energy cable winding, in particular to a new energy cable winding device for photovoltaic equipment, which comprises a fixing component, a winding component and a clamping component, wherein the winding component is fixed above the fixing component, the clamping component is positioned inside the winding component, power is provided by a motor III, a rotating shaft is driven by the clamping component to drive a screw rod II to rotate, the rotating screw rod II is in threaded fit with a screw hole II, and then a connecting block II is driven to lift, so that the clamping block II is driven to lift, the distance between a clamping block I and the clamping block II is changed, a cable head can be clamped between the clamping block I and the clamping block II, when the cable is wound, one end of the cable is kept fixed, the situation that the cable moves back and forth is avoided, the cable winding difficulty is reduced, the cable winding speed is increased, and the winding efficiency of the device is improved.

Description

New energy cable winding device for photovoltaic equipment

Technical Field

The utility model relates to the technical field of new energy cable winding, in particular to a new energy cable winding device for photovoltaic equipment.

Background

Due to global and domestic carbon neutralization targets, domestic electric energy is gradually converted from coal energy to new photovoltaic and wind energy, the photovoltaic is used as one of important new energy, when the system is put into use, photovoltaic equipment and new energy cables are used as the basis of matched electrical equipment, the using amount of the new energy cables exceeds that of a common power generation system, meanwhile, the new energy cables are also one of important factors influencing the efficiency of the whole system, more new energy cables are generally needed, the new energy cables are directly stacked and are easy to tangle, and therefore a winding device is needed to wind the new energy cables for convenient use.

However, the existing new energy cable winding device for the photovoltaic equipment has a great defect, and when the existing winding device works, one end of a cable needs to be manually fixed for winding, so that the winding work difficulty is great; when the current winding device works, the winding position cannot be moved, so that the winding position is uncontrollable, and cables are easy to tangle or be clamped.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model provides a new energy cable winding device for photovoltaic equipment.

The technical scheme adopted by the utility model for solving the technical problem is as follows: the utility model relates to a new energy cable winding device for photovoltaic equipment, which comprises a fixing component, a winding component and a clamping component, wherein the winding component is fixed above the fixing component, the clamping component is positioned in the winding component, the fixing component comprises a base, a base station and two slide rails, the two slide rails are respectively fixed on the upper end surface of the base, the base station is in sliding fit above the base, the clamping component comprises a fixing block, a first clamping plate and a second clamping plate, the first clamping plate is arranged at the bottom of the fixing block, the second clamping plate is positioned above the first clamping plate, a groove is formed in one side of the fixing block, which is close to the second clamping plate, a second connecting block is fixed on one side of the second clamping plate, which is close to the groove, a third motor is arranged at the top of the fixing block, a second screw rod is connected to one end of the third motor through a rotating shaft, a second screw hole is arranged in the middle of the second connecting block, the second screw rod is in threaded fit with the second screw hole, and power is provided by the third motor, make its drive pivot drive lead screw two and rotate, pivoted lead screw two is through with two screw thread fit of screw, and then drives connecting block two and go up and down to make it drive splint two and go up and down, change the distance between splint one and the splint two, make and to be able to centre gripping cable end between splint one and the splint two, when carrying out the cable rolling, make the one end of cable conductor keep fixed, avoid the condition of cable conductor round trip movement to take place.

Preferably, a first screw rod is arranged between the two sliding rails, bearing seats are arranged at two ends of the first screw rod, bearings are arranged in the middle of the bearing seats, two ends of the first screw rod are respectively in running fit with the middle of the bearing seats, a first connecting block is arranged in the middle of the bottom of the base station, a first screw hole is arranged in the middle of the first connecting block, the first screw hole is in threaded fit with the first screw rod, a first motor is arranged on one side, away from the first screw rod, of one of the bearing seats, the first motor is connected with the first screw rod through a rotating shaft, the first motor drives the rotating shaft, the first screw rod drives the first screw rod to rotate, the first screw rod is in threaded fit with the first screw hole, the first connecting block is driven to move left and right, and the base station is driven to move left and right.

Preferably, the slider is all installed at the middle part of base station bottom both sides, slider and slide rail adaptation, and the slider slides on the slide rail, and when the base station moved about, the slider slided on the slide rail, can provide the support for the both sides of base station, makes the base station can not rock when sliding, and stability improves greatly, very big reduction the probability that the during operation broke down.

Preferably, the wire winding subassembly includes two support frames, two coils and two retaining rings, two coils are located the inside of two retaining rings respectively, two retaining rings all are located between two support frames, all fix the up end at the base station at two support frames, radian such as between two coils is provided with a plurality of wire winding pole, radian such as between retaining ring and coil is fixed with a plurality of connecting rod, wind the outside at a plurality of wire winding pole with the cable, can strut the cable at the wire winding in-process, a cooperation motor drive lead screw makes base station round trip movement, can control in the wire winding pole between two coils of wire-wound in-process drive and remove, thereby can be at the in-process of rolling, with the cable conductor winding on the position that the wire winding pole is different.

Preferably, a second motor is installed on the upper portion, away from one side of the wire coil, of one of the support frames, the second motor is connected with one of the wire coils through a rotating shaft, the other wire coil rotates on one side of the other support frame through the rotating shaft, and the second motor drives the rotating shaft to drive the wire coil to rotate, so that the winding rod rotates, and the winding rod can perform cable winding work.

Preferably, decide one side that the piece was kept away from splint two and fix one side that one of them drum is close to the wire wrapping rod, all install a plurality of sand grip at the top of splint one and the bottom of splint two, the sand grip is the rubber material, when splint one and splint two centre gripping cables, the both sides of sand grip parcel cable, play buffering antiskid effect, and then can effectually avoid splint one and splint two when the centre gripping cable, it does not have the buffering between the two and the cable to take place the centre gripping tension damage cable, the centre gripping is crossed the pine frictional force undersize between the three, the condition that leads to the cable to drop takes place.

The utility model has the beneficial effects that:

(1) according to the cable winding device, power is provided through the motor III, the rotating shaft is driven to drive the screw rod II to rotate, the rotating screw rod II is in threaded fit with the screw hole II, and then the connecting block II is driven to ascend and descend, so that the connecting block II is driven to ascend and descend, the distance between the clamping plate I and the clamping plate II is changed, when a cable is wound, the distance between the clamping plate I and the clamping plate II is changed, the cable head can be clamped by the clamping plate II and the clamping plate II, one end of a cable line is fixed, the situation that the cable moves back and forth during winding can be effectively avoided, the cable winding difficulty is reduced, the cable winding speed is increased, and the winding efficiency of the cable winding device is improved.

(2) According to the winding device, the cable is wound outside the winding rods, the cable can be spread in the winding process, the base station can move back and forth by matching with the motor I to drive the screw rod I to drive the winding rods between the two wire coils to move left and right in the winding process, so that the cable can be wound on different positions of the winding rods in the winding process by matching with the retaining rings and the connecting rods fixed at equal radians, the cable is prevented from slipping off the winding device, the structural design is reasonable, the winding position of the cable on the winding rods is controllable, the cable can be effectively prevented from being tangled or clamped, the cable is ensured not to fall off the winding device, and the winding device can well protect the cable to prolong the service life of the cable.

(3) According to the cable clamping device, the plurality of convex strips are arranged at the top of the first clamping plate and the bottom of the second clamping plate, the convex strips are made of rubber materials, when the first clamping plate and the second clamping plate clamp a cable, the convex strips can wrap the two sides of the cable to play a role in buffering and skid resistance, and therefore the situation that the cable is damaged due to the fact that the cable is not buffered and clamped between the first clamping plate and the cable and the second clamping plate are too loose and friction force is too small when the cable is clamped can be effectively avoided, the cable is clamped tightly and effectively, and meanwhile firmness in cable clamping is greatly improved.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is an enlarged view of the area A in FIG. 1 according to the present invention.

FIG. 3 is a schematic view of a fixing assembly according to the present invention.

Fig. 4 is a front view of the abutment of the present invention.

Fig. 5 is a schematic structural diagram of the winding assembly of the present invention.

FIG. 6 is a schematic view of a clamping assembly according to the present invention.

Fig. 7 is a schematic structural diagram of a connecting block II of the utility model.

In the figure: 1. a fixing assembly; 101. a base; 102. a base station; 103. a slide rail; 104. a bearing seat; 105. a first screw rod; 106. a slider; 107. a first connecting block; 108. a first screw hole; 109. a first motor; 2. a winding assembly; 201. a support frame; 202. wire coils; 203. a wire winding rod; 204. a retainer ring; 205. a connecting rod; 206. a second motor; 3. a clamping assembly; 301. a fixed block; 302. a groove; 303. a second screw rod; 304. a first clamping plate; 305. a second clamping plate; 306. a second connecting block; 307. a screw hole II; 308. a convex strip; 309. and a third motor.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1-7, a new energy cable winding device for photovoltaic equipment comprises a fixing component 1, a winding component 2 and a clamping component 3, wherein the winding component 2 is fixed above the fixing component 1, the clamping component 3 is located inside the winding component 2, the fixing component 1 comprises a base 101, a base 102 and two sliding rails 103, the two sliding rails 103 are respectively fixed on the upper end surface of the base 101, the base 102 is in sliding fit above the base 101, the clamping component 3 comprises a fixing block 301, a first clamping plate 304 and a second clamping plate 305, the first clamping plate 304 is installed at the bottom of the fixing block 301, the second clamping plate 305 is located above the first clamping plate 304, a groove 302 is formed in one side of the fixing block 301 close to the second clamping plate 305, a second connecting block 306 is fixed on one side of the second clamping plate 305 close to the groove 302, a third motor 309 is installed at the top of the fixing block 301, one end of the third motor 309 is connected with a second screw 303 through a rotating shaft, the middle part of the second connecting block 306 is provided with a second screw hole 307, the second screw rod 303 is in threaded fit with the second screw hole 307, power is provided through the third motor 309, the driving rotating shaft of the second motor drives the second screw rod 303 to rotate, the second rotating screw rod 303 is in threaded fit with the second screw hole 307, and then the second connecting block 306 is driven to lift, so that the second clamping plate 305 is driven to lift, the distance between the first clamping plate 304 and the second clamping plate 305 is changed, the cable head can be clamped between the first clamping plate 304 and the second clamping plate 305, when cable rolling is carried out, one end of a cable is kept fixed, the situation that the cable moves back and forth is avoided, the difficulty of cable rolling is reduced, the speed of cable rolling is accelerated, and the rolling efficiency of the device is improved.

The first screw rod 105 is arranged between the two sliding rails 103, the bearing seats 104 are arranged at two ends of the first screw rod 105, a bearing is arranged in the middle of each bearing seat 104, two ends of the first screw rod 105 are respectively matched with the middle of the bearing seat 104 in a rotating mode, the first connecting block 107 is arranged in the middle of the bottom of the base station 102, the first screw hole 108 is arranged in the middle of the first connecting block 107, the first screw hole 108 is in threaded fit with the first screw rod 105, the first motor 109 is arranged on one side, far away from the first screw rod 105, of one of the bearing seats 104, the first motor 109 is connected with the first screw rod 105 through a rotating shaft, the first motor 109 drives the rotating shaft to drive the first screw rod 105 to rotate, the first rotating screw rod 105 is in threaded fit with the first screw hole 108, the first connecting block 107 is driven to move left and right, the base station 102 is driven to move left and right, and flexibility of the base station 102 is guaranteed.

The middle parts of two sides of the bottom of the base station 102 are respectively provided with the sliding block 106, the sliding blocks 106 are matched with the sliding rails 103, the sliding blocks 106 slide on the sliding rails 103, when the base station 102 moves left and right, the sliding blocks 106 slide on the sliding rails 103, support can be provided for two sides of the base station 102, the base station 102 cannot shake when sliding, the stability is greatly improved, the probability of failure during working is greatly reduced, and the device has the advantages of being stable in moving, convenient to use and the like.

The winding assembly 2 comprises two support frames 201, two wire coils 202 and two retaining rings 204, the two wire coils 202 are respectively positioned inside the two retaining rings 204, the two retaining rings 204 are respectively positioned between the two support frames 201, the two support frames 201 are both fixed on the upper end surface of the base station 102, a plurality of winding rods 203 are arranged between the two wire coils 202 in an equal radian manner, a plurality of connecting rods 205 are fixed between the retaining rings 204 and the wire coils 202 in an equal radian manner, a cable is wound outside the plurality of winding rods 203 and can be unfolded in the winding process, the base station 102 is driven to move back and forth by matching with a first motor 109 to drive a first lead screw 105, the winding rods 203 between the two wire coils 202 can be driven to move left and right in the winding process, so that the cable can be wound on different positions of the winding rods 203 in the winding process, the structural design is reasonable, and the winding position of the cable on the winding rods 203 can be controlled, can effectively prevent the cable from tangling or being clamped and prolong the service life of the cable.

The second motor 206 is installed on the upper portion of one side, far away from the wire coil 202, of one of the support frames 201, the second motor 206 is connected with one of the wire coils 202 through a rotating shaft, the second motor 206 is rotated on one side, far away from the wire coil 202, of the other support frame 201 through the rotating shaft, the rotating shaft is driven to drive the wire coil 202 to rotate, and then the wire winding rod 203 is rotated, so that cable winding work can be conducted, and power support is provided for the cable winding work.

One side that two 305 of splint were kept away from to fixed block 301 is fixed in one of them drum 202 one side near wire winding pole 203, a plurality of sand grip 308 is all installed to the top at splint one 304 and the bottom of splint two 305, sand grip 308 is the rubber material, when splint one 304 and two 305 centre gripping cables of splint, the both sides of sand grip 308 parcel cable, play buffering antiskid, and then can effectually avoid splint one 304 and splint two 305 when the centre gripping cable, it does not have the buffering between the tight two of centre gripping and the cable and damages the cable to take place, the centre gripping is crossed the pine frictional force undersize between the three, the condition that leads to the cable to drop takes place, the effectual tightness of guaranteeing the centre gripping cable is simultaneously, fastness when improving the centre gripping cable.

When the device is used, firstly, one end of a cable is placed on the first clamping plate 304, the rotating shaft is driven to rotate through the third motor 309, the second screw rod 303 is driven to rotate, the second screw rod 303 which rotates is in threaded fit with the second screw hole 307, and then the second connecting block 306 is driven to ascend and descend, so that the second clamping plate 305 is driven to descend, the distance between the first clamping plate 304 and the second clamping plate 305 is changed, one end of the cable is clamped by the first clamping plate 304 and the second clamping plate 305 to be kept fixed, when the cable is wound, one end of the cable is kept fixed, the situation that the cable moves back and forth is avoided, the difficulty in winding the cable is reduced, the speed of winding the cable is increased, and the winding efficiency of the device is improved;

then, the second motor 206 drives the rotating shaft to drive the wire coils 202 to rotate, so that the wire winding rods 203 rotate, the cables are wound outside the plurality of wire winding rods 203, the first motor 109 drives the rotating shaft to drive the first screw rod 105 to rotate, the first rotating screw rod 105 is in threaded fit with the first screw hole 108, so that the first connecting block 107 is driven to move left and right, the sliding block 106 is matched to slide on the sliding rail 103, so that the base 102 moves left and right, the wire winding component 2 is driven to move left and right, the cables can be wound by the plurality of wire winding rods 203 in the winding process, the first motor 109 drives the first screw rod 105 to move the base 102 back and forth, the wire winding rods 203 between the two wire coils 202 can be driven to move left and right in the winding process, so that the cables can be wound on different positions of the wire winding rods 203 in the winding process, the structural design is reasonable, the positions of the cables wound on the wire winding rods 203 can be controlled, can effectively prevent the cable from tangling or being clamped and prolong the service life of the cable.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a new forms of energy cable coiling mechanism for photovoltaic equipment, includes fixed subassembly (1), wire winding subassembly (2) and centre gripping subassembly (3), its characterized in that: the winding assembly (2) is fixed above the fixing assembly (1), the clamping assembly (3) is located inside the winding assembly (2), the fixing assembly (1) comprises a base (101), a base platform (102) and two sliding rails (103), the two sliding rails (103) are fixed on the upper end face of the base (101) respectively, the base platform (102) is in sliding fit above the base (101), the clamping assembly (3) comprises a fixing block (301), a first clamping plate (304) and a second clamping plate (305), the first clamping plate (304) is installed at the bottom of the fixing block (301), the second clamping plate (305) is located above the first clamping plate (304), a groove (302) is formed in one side, close to the second clamping plate (305), of the second clamping plate (305), a second connecting block (306) is fixed on one side, close to the groove (302), and a third motor (309) is installed at the top of the fixing block (301), one end of the motor III (309) is connected with a screw rod II (303) through a rotating shaft, the middle part of the connecting block II (306) is provided with a screw hole II (307), and the screw rod II (303) is in threaded fit with the screw hole II (307).

2. The new energy cable winding device for the photovoltaic equipment as claimed in claim 1, wherein: be equipped with lead screw (105) between two slide rails (103), the both ends of lead screw (105) all are equipped with bearing frame (104), the mid-mounting bearing of bearing frame (104), the both ends of lead screw (105) are normal running fit respectively at the middle part of bearing frame (104) bearing, the mid-mounting of base station (102) bottom has connecting block (107), the mid-mounting of connecting block (107) has screw (108), screw (108) and lead screw (105) screw-thread fit, one side that lead screw (105) were kept away from in one of them bearing frame (104) is installed motor (109), motor (109) are connected with lead screw (105) through the pivot.

3. The new energy cable winding device for the photovoltaic equipment as claimed in claim 1, wherein: the middle parts of two sides of the bottom of the base platform (102) are respectively provided with a sliding block (106), the sliding blocks (106) are matched with the sliding rails (103), and the sliding blocks (106) slide on the sliding rails (103).

4. The new energy cable winding device for the photovoltaic equipment as claimed in claim 1, wherein: wire winding subassembly (2) include two support frames (201), two coils (202) and two retaining rings (204), two coils (202) are located the inside of two retaining rings (204) respectively, two retaining rings (204) all are located between two support frames (201), two support frames (201) are all fixed in the up end of base station (102), radian such as between two coils (202) is provided with a plurality of wire winding pole (203), radian such as between retaining ring (204) and coil (202) is fixed with a plurality of connecting rod (205).

5. The new energy cable winding device for the photovoltaic equipment as claimed in claim 4, wherein: a second motor (206) is installed on the upper portion of one side, away from the wire coil (202), of one support frame (201), the second motor (206) is connected with one wire coil (202) through a rotating shaft, and the other wire coil (202) rotates on one side of the other support frame (201) through the rotating shaft.

6. The new energy cable winding device for the photovoltaic equipment as claimed in claim 4, wherein: one side of the fixing block (301), which is far away from the second clamping plate (305), is fixed on one side, which is close to the winding rod (203), of one wire coil (202), and a plurality of convex strips (308) are mounted at the top of the first clamping plate (304) and the bottom of the second clamping plate (305).

Images