CN219702464U - Solar graphite coating device - Google Patents

Abstract

The utility model discloses a solar graphite coating device, which relates to the technical field of coating equipment and comprises a substrate; an applicator assembly attached to the substrate; the base is connected to the bottom of the base body, and an inner groove is arranged in the base; a plurality of fixing studs in threaded connection with the base; the solar panel is connected with the storage battery assembly, and the storage battery assembly is connected with the coating assembly; the positioning mechanism comprises a clamping block and a reset spring, one end of the reset spring is connected with the base, the other end of the reset spring is connected with the clamping block, and the clamping block and the reset spring are movably positioned in the inner groove. The utility model has the technical effects of good positioning performance and good energy conservation.

Description

Solar graphite coating device

Technical Field

The utility model relates to the technical field of coating equipment, in particular to a solar graphite coating device.

Background

The high-voltage cable is used for transmitting power cables between 1kv and 1000kv, has the advantage of good transmission performance, and is widely used in the field of cable transmission.

The outer sheath is an important component part of the high-voltage cable, plays a role in protection and electric safety, and in order to conveniently detect the electric safety performance of the outer sheath, a graphite layer needs to be coated on the surface of the outer sheath, the related graphite layer is coated manually, coating efficiency is easy to be low, the related graphite coating device can enable the coating efficiency to be high, but the related graphite coating device is moved and positioned through a universal wheel with a brake structure, the positioning performance is easy to be poor, the movement is caused in the coating process, the coating effect is poor, and meanwhile, the power consumption of the related graphite coating device is high, and the energy conservation is easy to be poor.

Disclosure of Invention

The utility model provides a solar graphite coating device which has good positioning performance and energy conservation.

In order to solve the problems, the technical scheme provided by the utility model is as follows:

a solar-powered graphite applicator comprising:

a base;

an applicator assembly attached to the substrate;

the base is connected to the bottom of the base body, and an inner groove is arranged in the base;

a plurality of fixing studs in threaded connection with the base;

a solar panel and a battery assembly both connected to the base, the solar panel and the battery assembly being connected, the battery assembly and the applicator assembly being connected;

the positioning mechanism comprises a clamping block and a reset spring, one end of the reset spring is connected with the base, the other end of the reset spring is connected with the clamping block, and the clamping block and the reset spring are movably positioned in the inner groove.

Optionally, the base is further provided with a limiting sliding rail communicated with the inner groove, the positioning mechanism further comprises a limiting sliding block connected to the clamping block, and the limiting sliding block is movably located in the limiting sliding rail.

Optionally, the joint piece includes integrated into one piece connected block one and block two, spacing slider connect in on the block one, block one with reset spring's the other end is connected, block one activity is located in the inside groove.

Optionally, the first block and the second block are perpendicular to each other.

Optionally, a push-pull mechanism is also included that is coupled to the base.

Optionally, the push-pull mechanism includes:

a connection block connected to the base;

the pull rod is rotationally connected with the connecting block;

and the through groove is arranged on the pull rod.

Optionally, the push-pull mechanism further includes:

one end of the inclined rod is rotationally connected with the base body, and the other end of the inclined rod penetrates through the through groove and is in contact with the base body;

the clamping spring, the one end of clamping spring with the base member is connected, the other end of clamping spring with the dead lever is connected.

Optionally, the push-pull mechanism further comprises a push rod connected to the inclined rod.

Optionally, the application assembly comprises:

a rotating electrical machine connected to the base;

an applicator roll one and an applicator roll two, both rotatably connected to the substrate;

wherein the driving shaft of the rotating motor is connected with the first application roller and the second application roller.

Optionally, the application assembly further comprises:

a pulley I connected to a drive shaft of the rotary motor, the pulley I being connected to the applicator roll I;

a second belt wheel connected with the second coating roller;

a belt connected to both the pulley one and the pulley two;

the first storage box is communicated with the first coating roller, and the second storage box is communicated with the second coating roller.

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial effects:

1) When the positioning is needed, firstly, the clamping block is moved to a direction close to the substrate, the reset spring is compressed, the limit sliding block slides along the limit sliding rail, the moving stability of the clamping block can be ensured, after a certain distance is moved, the clamping block is released, the reset spring is reset, the clamping block is clamped with a preset groove on a fixed platform such as the ground, a table top and the like, the preliminary positioning is finished, a plurality of fixing studs are rotated, the fixing studs are contacted and locked with the fixed platform, the final positioning is finished, and a double positioning structure is adopted, so that the positioning performance of the coating device is good, the movement of the coating device in the coating process is prevented, and the coating effect is good;

2) In order to increase the energy saving of the coating device, a solar panel and a battery assembly can be provided which are connected to each other, wherein the battery assembly is connected to the coating assembly for supplying electrical energy to the coating assembly, the battery assembly is mounted on a base body, and the solar panel is connected to the base body via a side plate.

Drawings

Fig. 1 is a schematic structural view of a solar graphite coating device according to an embodiment of the present utility model;

FIG. 2 is a schematic view showing a partial structure of a solar-type graphite coating apparatus according to an embodiment of the present utility model;

FIG. 3 is a partial view of FIG. 1A;

FIG. 4 is a schematic diagram of a part of a push-pull mechanism according to an embodiment of the present utility model;

in the figure: 1. a base; 2. a base; 3. fixing a stud; 4. a positioning mechanism; 401. a clamping block; 402. a limit sliding rail; 403. an inner tank; 404. a limit sliding block; 405. a return spring; 406. a first block; 407. a second block; 5. a push-pull mechanism; 501. a pull rod; 502. a diagonal rod; 503. a clamping spring; 504. a connecting block; 506. a push rod; 507. a through groove; 6. an application assembly; 61. an application roller I; 62. an application roller II; 63. a rotating electric machine; 64. a belt wheel I; 65. a belt wheel II; 66. a belt; 7. a first storage box; 8. a solar panel; 9. a battery assembly; 10. a side plate; 11. and a storage box II.

Detailed Description

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings and examples.

The utility model is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting of the utility model. It should be noted that, for convenience of description, only the portions related to the utility model are shown in the drawings. The first, second, etc. words are provided for convenience in describing the technical scheme of the present utility model, and have no specific limitation, and are all generic terms, and do not constitute limitation to the technical scheme of the present utility model. It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Unless specifically stated or limited otherwise, the terms "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art. The technical schemes in the same embodiment and the technical schemes in different embodiments can be arranged and combined to form a new technical scheme without contradiction or conflict, which is within the scope of the utility model.

Example 1

With reference to fig. 1-4, this embodiment provides a solar-type graphite coating apparatus comprising:

a base body 2;

an applicator assembly 6 attached to the substrate 2;

the base 1 is connected to the bottom of the base 2, and an inner groove 403 and a limit sliding rail 402 which are mutually communicated are arranged in the base 1;

a plurality of fixing studs 3 in threaded connection with the base 1;

the positioning mechanism 4, the positioning mechanism 4 includes joint piece 401, reset spring 405 and connect the spacing slider 404 on joint piece 401, and reset spring 405's one end is connected with base 1, and reset spring 405's the other end is connected with joint piece 401, and joint piece 401 and reset spring 405 all activity are arranged in inside groove 403, and spacing slider 404 activity is arranged in spacing slide rail 402.

Specifically, when positioning is required, firstly, the clamping block 401 is moved towards the direction close to the substrate 2, the reset spring 405 is compressed, the limit sliding block 404 slides along the limit sliding rail 402, the moving stability of the clamping block 401 can be ensured, after a certain distance of movement, the clamping block 401 is released, the reset spring 405 resets, the clamping block 401 is clamped with preset grooves on fixed platforms such as the ground and the tabletop, the preliminary positioning is completed, a plurality of fixed studs 3 are rotated, the fixed studs 3 are contacted and locked with the fixed platforms, the final positioning is completed, and a double positioning structure is adopted, so that the positioning performance of the coating device is good, the movement of the coating device in the coating process is prevented, and the coating effect is good;

wherein the base body 2 is used for carrying an application assembly 6 or the like; the coating assembly 6 is used for coating a graphite layer on the outer sheath of the high-voltage cable; the base 1 is used for bearing the base body 2 and the inner groove 403 and the limit sliding rail 402; the fixing studs 3 are used for connecting the base 1 to a fixing platform, and the number of the fixing studs 3 is not limited; in order to increase the energy saving of the application device, it is also possible to provide an interconnected solar panel 8 and battery module 9, wherein the battery module 9 is connected to the application module 6 for supplying electrical energy to the application module 6, the battery module 9 is mounted on the base body 2, and the solar panel 8 is connected to the base body 2 via a side plate 10.

Further, the clamping block 401 comprises a first block 406 and a second block 407 which are integrally connected, the limit slider 404 is connected to the first block 406, the first block 406 is connected to the other end of the return spring 405, and the first block 406 is movably located in the inner groove 403.

Specifically, the first block 406 is conveniently and movably matched with the base 1, and the second block 407 is clamped with a preset groove on the fixed platform.

Further, block one 406 and block two 407 are perpendicular to each other.

Specifically, the shape of the click block 401 is facilitated to be L-shaped.

Further, a push-pull mechanism 5 is also included that is connected to the base 2.

In particular, the push-pull mechanism 5 is used to move the application device, and the specific number of push-pull mechanisms 5 is not limited, and is preferably two, and is provided on both sides of the base 2, respectively.

Further, the push-pull mechanism 5 includes:

a connection block 504 connected to the base 2;

a pull rod 501 rotatably connected with the connection block 504;

a through groove 507 provided on the tie rod 501.

Specifically, when the applicator is to be moved, the operator's hand engages the through groove 507 and lifts the pull rod 501 upward, and then moves, and after the movement is completed, the operator releases the pull rod 501, and the pull rod 501 is reset under the action of its own weight.

Further, the push-pull mechanism 5 further includes:

the inclined rod 502, one end of the inclined rod 502 is rotationally connected with the base body 2, and the other end of the inclined rod 502 passes through the through groove 507 and is contacted with the base body 2;

the clamping spring 503, one end of the clamping spring 503 is connected with the base body 2, and the other end of the clamping spring 503 is connected with the inclined rod 502.

Specifically, the diagonal rod 502, the clamping spring 503 and the like are used for locking the pull rod 501, preventing the pull rod 501 from shaking at will when not in use, when the pull rod 501 is needed to be used, the diagonal rod 502 is pulled in a direction away from the base body 2, the other end of the diagonal rod 502 is separated from the base body 2 and separated from the through groove 507, meanwhile the clamping spring 503 stretches, then the pull rod 501 is lifted upwards, the coating device is moved, after the movement is completed, the pull rod 501 is released, the pull rod 501 is reset under the action of gravity, then the diagonal rod 502 is released, and under the action of the clamping spring 503, the diagonal rod 502 is clamped and locked.

Further, the push-pull mechanism 5 further includes a push rod 506 connected to the diagonal rod 502.

In particular, the push rod 506 facilitates pulling the diagonal rod 502.

Further, the application assembly 6 includes:

a rotating electric machine 63 connected to the base 2;

the first applicator roller 61 and the second applicator roller 62, both rotatably connected to the base body 2;

wherein the drive shaft of the rotary motor 63 is connected to the first application roller 61 and the second application roller 62.

Specifically, the rotating motor 63 is used to drive the first application roller 61 and the second application roller 62 to rotate; the first applicator roll 61 and the second applicator roll 62 are used to apply a graphite layer to the outer jacket of the high voltage cable located therebetween.

Further, the application assembly 6 further comprises:

a pulley one 64 connected to a drive shaft of the rotary motor 63, the pulley one 64 being connected to the applicator roller one 61;

a second pulley 65 connected to the second applicator roll 62;

and a belt 66 connected to both the pulley one 64 and the pulley two 65.

Specifically, the first pulley 64, the second pulley 65, and the belt 66 facilitate the rotation of the first and second application rollers 61 and 62 by the rotary motor 63 in synchronization.

Further, the applicator assembly 6 further includes a first reservoir 7 and a second reservoir 11, both connected within the base 2, the first reservoir 7 being in communication with the first applicator roll 61 and the second reservoir 11 being in communication with the second applicator roll 62.

Specifically, the first storage tank 7 is used for providing graphite raw materials for the first coating roller 61; the second reservoir 11 is used to provide graphite stock to the applicator roll two 62.

The utility model and its embodiments have been described above by way of illustration and not limitation, and the utility model is illustrated in the accompanying drawings and described in the drawings in which the actual structure is not limited thereto. Therefore, if one of ordinary skill in the art is informed by this disclosure, the structural mode and the embodiments similar to the technical scheme are not creatively designed without departing from the gist of the present utility model.

Claims (10)

1. A solar-powered graphite applicator, comprising:

a base;

an applicator assembly attached to the substrate;

the base is connected to the bottom of the base body, and an inner groove is arranged in the base;

a plurality of fixing studs in threaded connection with the base;

a solar panel and a battery assembly both connected to the base, the solar panel and the battery assembly being connected, the battery assembly and the applicator assembly being connected;

the positioning mechanism comprises a clamping block and a reset spring, one end of the reset spring is connected with the base, the other end of the reset spring is connected with the clamping block, and the clamping block and the reset spring are movably positioned in the inner groove.

2. The solar graphite coating device according to claim 1, wherein a limiting slide rail communicated with the inner groove is further arranged in the base, the positioning mechanism further comprises a limiting slide block connected to the clamping block, and the limiting slide block is movably arranged in the limiting slide rail.

3. A solar-type graphite coating apparatus according to claim 2, wherein the clamping block comprises a first block body and a second block body which are integrally connected, the limiting slide block is connected to the first block body, the first block body is connected with the other end of the return spring, and the first block body is movably arranged in the inner groove.

4. A solar-type graphite coating apparatus as recited in claim 3 wherein said first block and said second block are perpendicular to each other.

5. The solar-powered graphite applicator of any one of claims 1 to 4 further comprising a push-pull mechanism attached to the base.

6. The solar-powered graphite applicator of claim 5, wherein the push-pull mechanism comprises:

a connection block connected to the base;

the pull rod is rotationally connected with the connecting block;

and the through groove is arranged on the pull rod.

7. The solar-powered graphite applicator of claim 6, wherein the push-pull mechanism further comprises:

one end of the inclined rod is rotationally connected with the base body, and the other end of the inclined rod penetrates through the through groove and is in contact with the base body;

the clamping spring, the one end of clamping spring with the base member is connected, the other end of clamping spring with the dead lever is connected.

8. The solar-powered graphite applicator of claim 7 wherein the push-pull mechanism further comprises a push rod coupled to the diagonal rod.

9. A solar-type graphite applicator apparatus as claimed in any one of claims 1 to 4, wherein said applicator assembly comprises:

a rotating electrical machine connected to the base;

an applicator roll one and an applicator roll two, both rotatably connected to the substrate;

wherein the driving shaft of the rotating motor is connected with the first application roller and the second application roller.

10. The solar-powered graphite applicator of claim 9, wherein the applicator assembly further comprises:

a pulley I connected to a drive shaft of the rotary motor, the pulley I being connected to the applicator roll I;

a second belt wheel connected with the second coating roller;

a belt connected to both the pulley one and the pulley two;

the first storage box is communicated with the first coating roller, and the second storage box is communicated with the second coating roller.