CN220673695U - Photovoltaic device and pipe strap machine - Google Patents

Abstract

The utility model relates to the technical field of pipe belt machines, and discloses a photovoltaic device and a pipe belt machine, wherein the photovoltaic device comprises: the utility model relates to a mounting rack, which comprises a bearing part and an adjusting part, wherein the bearing part is connected with a rack body of a pipe belt machine through the adjusting part, the bearing part is provided with a mounting position, the adjusting part is provided with an adjusting state for adjusting the angle of the bearing part and a fixing state for fixing the angle of the bearing part, a plurality of photovoltaic panels are arranged in the mounting position along the extending direction of the pipe belt machine.

Description

Photovoltaic device and pipe strap machine

Technical Field

The utility model relates to the technical field of pipe belt machines, in particular to a photovoltaic device and a pipe belt machine.

Background

The pipe belt machine (tubular belt conveyor) is widely applied to the long-distance transportation industry because of the characteristics of being capable of conveying materials in a closed manner, avoiding scattering and leakage, and the like, and the conveying length of the pipe belt machine can reach tens of kilometers when the conveying length is longer, and can reach one kilometer when the conveying length is shorter.

At present, the existing pipe strap machine is generally installed on the ground through a long-distance truss, the upper space of the truss is flat and convenient to use, but other devices are not arranged above the truss of the existing pipe strap machine, and therefore the problem that the upper space of the truss of the existing pipe strap machine is not fully utilized exists.

Disclosure of Invention

In view of the above, the utility model provides a photovoltaic device and a pipe belt machine, which are used for solving the problem that the upper space of a truss of the existing pipe belt machine is not fully utilized.

In a first aspect, the present utility model provides a photovoltaic device comprising: the mounting bracket is suitable for being installed in the top of the support body of pipe strap machine along the extending direction of pipe strap machine, and the mounting bracket includes carrier part and adjustment portion, and carrier part passes through the carrier part and is connected with the support body of pipe strap machine, and carrier part has the installation position, and adjustment portion has the regulation state of adjusting carrier part angle and the fixed state of fixed carrier part angle, and a plurality of photovoltaic boards set up in the installation position along the extending direction of pipe strap machine, and wherein, adjustment portion is suitable for according to the angle of illumination angle correspondence regulation photovoltaic board.

The beneficial effects are that: the photovoltaic panel can be installed in the bearing part along the extending direction of the pipe belt machine on the frame body, and because the position of the pipe belt machine is usually relatively wide, the photovoltaic panel can not only generate electricity through illumination, but also shield wind and rain for the pipe belt machine below, and meanwhile, the bearing part angle can be adjusted by the adjusting part according to illumination angle change, so that the generating efficiency of the photovoltaic panel is ensured, and the problem that the space on the upper part of a truss of the existing pipe belt machine is not fully utilized is effectively solved.

In an alternative embodiment, the adjusting part comprises a plurality of adjusting components, and the plurality of adjusting components are arranged on the frame body at intervals along the extending direction of the frame body.

The beneficial effects are that: because the bearing part is arranged along the pipe belt machine, a plurality of adjusting assemblies are arranged to ensure that each section of the bearing part can effectively and reliably carry out angle adjustment.

In an alternative embodiment, each adjustment assembly comprises two telescopic structures arranged at intervals in the lateral direction, one end of each telescopic structure being hinged to the bearing portion and the other end being hinged to the frame body.

The beneficial effects are that: the angle of the bearing part is changed through the cooperation of the two telescopic structures, and the structure is simple and reliable.

In an alternative embodiment, the bearing part comprises two longitudinal beams and a plurality of transverse beams, the extending direction of the longitudinal beams is consistent with that of the pipe belt machine, the plurality of transverse beams are arranged between the two longitudinal beams at intervals, the two longitudinal beams and the plurality of transverse beams surround to form a mounting position, and each adjusting component is connected with the corresponding transverse beam, or each adjusting component is connected with the corresponding longitudinal beam.

The beneficial effects are that: the photovoltaic panel can be borne and fixed through the installation position formed by matching the longitudinal beam and the cross beam, and the whole structure is simple and reliable.

In an alternative embodiment, the photovoltaic device further comprises a sweeping structure which is arranged on the carrier part in a movable manner along the extension direction of the mounting frame.

The beneficial effects are that: the cleaning structure can move and clean the plate surface of the photovoltaic plate, so that the cleaning of the plate surface is ensured, and excessive dust and shielding objects on the photovoltaic plate are prevented from affecting the power generation efficiency.

In an alternative embodiment, the cleaning structure comprises a drive part and a cleaning part, the cleaning part being arranged in the transverse direction, both ends of the cleaning part being moved along the longitudinal beam by the drive part.

The beneficial effects are that: the cleaning structure is directly matched with the longitudinal beam without arranging a rail independently, so that the number of parts is effectively reduced.

In an alternative embodiment, the longitudinal beam comprises a transverse section and a vertical section, the driving part comprises a first driving wheel and a second driving wheel, the first driving wheel is in rolling fit with the upper end face of the transverse section, and the second driving wheel is in rolling fit with the side wall of the vertical section.

The beneficial effects are that: the drive parts on two sides simultaneously clamp the longitudinal beam through the first drive wheel and the second drive wheel, the first drive wheel can provide enough drive force, and the second drive wheel can prevent that the cleaning structure is wholly along transversely deviating from the longitudinal beam, guarantees the removal track.

In an alternative embodiment, the photovoltaic device further comprises a patrol structure fixedly arranged on the sweeping structure, the patrol structure being adapted to move with the sweeping structure for inspecting the pipe-and-belt machine.

The beneficial effects are that: because the setting distance of pipe belt machine is longer, set up on cleaning the structure and can follow the structure of patrolling and examining that cleans the structure and remove together, just can be to the whole continuous inspection of pipe belt machine, need not to set up drive and moving structure alone.

In an alternative embodiment, the inspection structure includes detection devices disposed on both sides of the cleaning structure.

The beneficial effects are that: automatic detection is achieved through a simple structure.

In a second aspect, the present utility model also provides a tube banding machine comprising: the frame body, the conveyer belt sets up in the frame body, foretell photovoltaic device, and photovoltaic device sets up in the top of frame body.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a front view of a photovoltaic device according to an embodiment of the present utility model;

FIG. 2 is a front view of the carrier portion of the photovoltaic device shown in FIG. 1;

FIG. 3 is a front view of the photovoltaic device shown in FIG. 1 assembled to a tube mill;

FIG. 4 is a front view of the photovoltaic device of FIG. 1 with a cleaning structure mounted to the stringers;

FIG. 5 is a front view of the photovoltaic device of FIG. 1 assembled with a cleaning structure;

FIG. 6 is a front view of the photovoltaic device of FIG. 5 mated to a tube mill;

fig. 7 is a three-dimensional schematic view of the photovoltaic device shown in fig. 5 without the photovoltaic panel mounted.

Reference numerals illustrate:

1. a carrying part; 101. a longitudinal beam; 102. a cross beam; 103. a fixing plate; 104. a connecting piece; 2. an adjusting section; 201. a telescopic structure; 202. an upper connecting plate; 203. a lower connecting plate; 204. a fixing plate; 3. a photovoltaic panel; 4. a driving section; 401. a driving motor; 402. a first drive wheel; 403. a second drive wheel; 5. a cleaning part; 501. a cleaning brush; 502. a cleaning frame; 6. a detection device; 601. an adjusting rod; 602. a camera; 7. a pipe belt machine; 701. a frame body.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the related art, the pipe-strap machine 7 is widely applied to coal transportation, the conveying distance of the pipe-strap machine 7 is generally longer, the installation environment is generally worse, and when the pipe-strap machine 7 with long distance is built, in order to ensure that the pipe-strap machine 7 can be durable, the structural strength of the frame body 701 of the pipe-strap machine 7 is generally higher, and the bearing capacity is stronger, so when the pipe-strap machine 7 is built, the frame body 701 can be used as a flat installation platform, but other devices are not generally arranged above the existing frame body 701, and the frame body cannot be effectively utilized.

Embodiments of the present utility model are described below with reference to fig. 1 to 7.

According to an embodiment of the present utility model, in one aspect, there is provided a photovoltaic device including: the installation frame is suitable for being installed in the top of the support body 701 of pipe strap machine 7 along the extending direction of pipe strap machine 7, and the installation frame includes carrier part 1 and adjustment part 2, and carrier part 1 is connected with the support body 701 of pipe strap machine 7 through adjustment part 2, and carrier part 1 has the installation site, and adjustment part 2 has the adjustment state of adjusting carrier part 1 angle and the fixed state of fixed carrier part 1 angle, and a plurality of photovoltaic boards 3 set up in the installation site along the extending direction of pipe strap machine 7, and wherein, adjustment part 2 is suitable for according to the angle of illumination angle correspondence adjustment photovoltaic board 3.

By applying the photovoltaic device of the embodiment, the adjusting part 2 and the bearing part 1 are respectively installed on the frame 701, the photovoltaic panel 3 can be installed in the bearing part 1 along the extending direction of the pipe belt machine 7, and the photovoltaic panel 3 can generate electricity through illumination and can also shield the lower pipe belt machine 7 from wind and rain because the position of the pipe belt machine 7 is usually wide, meanwhile, the adjusting part 2 can adjust the angle of the bearing part 1 according to the change of the illumination angle so as to ensure the generating efficiency of the photovoltaic panel 3, and the problem that the space on the upper part of a truss of the existing pipe belt machine is not fully utilized is effectively solved.

In this embodiment, the adjusting part 2 includes a plurality of adjusting components, and the plurality of adjusting components are disposed on the frame 701 along the extending direction of the frame 701 at intervals, and since the carrying part 1 is disposed along the pipe belt machine 7, the setting of the plurality of adjusting components can ensure that each section of the carrying part 1 can effectively and reliably perform angle adjustment.

In this embodiment, each adjusting component includes two telescopic structures 201, two telescopic structures 201 are arranged along the transverse interval, one end of each telescopic structure 201 is hinged with the bearing part 1, the other end of each telescopic structure is hinged with the frame 701, and the two telescopic structures 201 are matched to change the angle of the bearing part 1, so that the structure is simple and reliable.

It will be appreciated that, as an alternative embodiment, the adjusting component may be a swing structure capable of adjusting its swing angle, and a swing structure is fixedly disposed in a transverse direction, where one end of the swing structure is hinged to the frame 701, and the other end of the swing structure is fixedly connected to the bearing portion 1, so that the angle of the bearing portion 1 can be changed.

Wherein transverse refers to the "transverse" direction indicated by the arrow in fig. 7.

Specifically, the telescopic structure 201 is a telescopic rod, the telescopic rod comprises a fixed rod and a telescopic rod, the telescopic rod is movably arranged on the fixed rod, the structure for driving the telescopic rod to move is not limited, and the telescopic rod can be a hydraulic telescopic rod or an electric telescopic rod and can be selected according to actual requirements.

Further, as shown in fig. 1 and 3, one end of the telescopic rod near the bearing part 1 is hinged with the bearing part 1 through an upper connecting plate 202, one end of the fixed rod near the frame 701 is provided with a lower connecting plate 203 and a fixed plate 204, the fixed plate 204 extends along the extending direction of the frame 701, the lower connecting plates 203 are arranged on the fixed plates 204 at intervals, the fixed rod is hinged on the corresponding lower connecting plates 203, and the connecting structure is simple and convenient to manufacture and install.

Preferably, the fixed rod piece is internally provided with a telescopic groove, the telescopic rod piece is inserted into the telescopic groove, and meanwhile, an electro-hydraulic device is arranged between the telescopic rod piece and the bottom of the telescopic groove so as to drive the telescopic rod piece to stretch; the telescopic rod is connected with the upper connecting plate 202 through connecting pieces such as bolts and nuts, and the fixed rod is connected with the lower connecting plate 203 through connecting pieces such as bolts and nuts; the fixing plates 204 are L-shaped angle steels and are respectively fixed at the corners of the two sides of the top of the frame 701.

In this embodiment, the bearing part 1 includes two longitudinal beams 101 and a plurality of cross beams 102, the extending direction of the longitudinal beams 101 is consistent with the extending direction of the pipe belt machine 7, the plurality of cross beams 102 are arranged between the two longitudinal beams 101 at intervals, the two longitudinal beams 101 and the plurality of cross beams 102 are surrounded to form a mounting position, each adjusting component is connected with the corresponding cross beam 102, or each adjusting component is connected with the corresponding longitudinal beam 101, and the photovoltaic panel 3 can be borne and fixed through the mounting position formed by matching the longitudinal beam 101 and the cross beam 102.

Wherein, the transverse direction refers to the direction of the arrow in fig. 7, and the longitudinal direction refers to the direction of the arrow in fig. 7.

Specifically, as shown in fig. 2, the longitudinal beam 101 and the cross beam 102 are connected through a fixing plate 103, the fixing plate 103 is an L-shaped connecting plate, the fixing plate 103 is arranged at a corner between the longitudinal beam 101 and the cross beam 102, one plate surface of the fixing plate 103 is fixedly connected with the longitudinal beam 101 through a plurality of connecting pieces 104, and the other plate surface of the fixing plate 103 is fixedly connected with the cross beam 102 through the connecting pieces 104, so that the connection mode is simple and reliable.

Preferably, each adjusting component is connected with the corresponding beam 102, the beam 102 is i-steel, the bearing capacity of the beam is stronger, the longitudinal beam 101 is angle steel, when the beam 102 is connected with the frame 701 through the adjusting component, the photovoltaic panel 3 can be placed at the moment, and then the longitudinal beam 101 is fixed at two ends of the beam 102 and the photovoltaic panel 3 is fixed, so that the installation process is convenient and rapid.

In this embodiment, photovoltaic device still includes cleans the structure, cleans the structure along the mobilizable setting of extending direction of mounting bracket on carrier part 1, cleans the structure and can remove and clean the face of photovoltaic board 3, guarantees the cleanness of face, prevents to have too much dust and shelter from the thing influence generating efficiency on the photovoltaic board 3.

Specifically, the specific form of the cleaning structure is not limited, and the cleaning structure can be a continuously rotating brush body or a fixed brush body and can be selected according to requirements.

In this embodiment, the cleaning structure includes drive portion 4 and cleaning portion 5, and cleaning portion 5 is along horizontal setting, and the both ends of cleaning portion 5 are passed through drive portion 4 and are removed along longeron 101, need not to set up the track alone for the cleaning structure, and the cleaning structure is direct with longeron 101 cooperation can, effectively retrench part quantity.

It should be understood that, as an alternative embodiment, the driving unit 4 may be provided only at one end of the cleaning unit 5, so that the cleaning unit 5 may be ensured to move continuously and reliably.

Specifically, as shown in fig. 4, the cleaning unit 5 includes a cleaning frame 502 provided in a lateral direction and a cleaning brush 501 provided along the cleaning frame 502, and both ends of the cleaning frame 502 are fixedly connected to the driving unit 4, respectively.

Preferably, the sweeper frame 502 is a laterally disposed channel.

In this embodiment, the longitudinal beam 101 includes a transverse section and a vertical section, the driving part 4 includes a first driving wheel 402 and a second driving wheel 403, the first driving wheel 402 is in rolling fit with an upper end face of the transverse section, the second driving wheel 403 is in rolling fit with a side wall of the vertical section, the driving parts 4 on two sides simultaneously clamp the longitudinal beam 101 through the first driving wheel 402 and the second driving wheel 403, the first driving wheel 402 can provide enough driving force, and the second driving wheel 403 can prevent the cleaning structure from being pulled out from the longitudinal beam 101 along the transverse direction, so as to ensure a moving track.

Wherein, the transverse direction refers to the direction of the arrow in fig. 7, and the vertical direction refers to the direction of the arrow in fig. 7.

Specifically, the driving portion 4 further includes a driving motor 401, the first driving wheel 402 and the second driving wheel 403 are respectively connected with the driving motor 401, and the first driving wheel 402 and the second driving wheel 403 are power wheels, because the first driving wheel 402 is a wheel body mainly bearing the cleaning structure, when the photovoltaic panel 3 is horizontally arranged, the rolling friction force of the first driving wheel 402 is provided by the gravity of the cleaning structure, when the photovoltaic panel 3 is obliquely arranged, the gravity of the cleaning structure can be distributed to the first driving wheel 402 and the second driving wheel 403 on the higher side, and at the moment, the first driving wheel 402 and the second driving wheel 403 together drive the cleaning structure to move, so that the cleaning structure can reliably move under various angles.

In this embodiment, photovoltaic device still includes the structure of patrolling and examining, and the structure of patrolling and examining is fixed to be set up on cleaning the structure, and the structure of patrolling and examining is suitable for along with cleaning the structure and removes in order to inspect tube tape machine 7, because tube tape machine 7 set up the distance is longer, clean the structure of patrolling and examining that the structure together removed along with cleaning the structure on the structure, just can be to the whole journey of tube tape machine 7 continuous inspection, need not to set up drive and moving structure alone.

In this embodiment, the inspection structure includes the detection devices 6 disposed on both sides of the cleaning structure, and automated detection is realized by a simple structure.

Specifically, the detection device 6 includes an adjusting lever 601 and a camera 602, the adjusting lever 601 is disposed at one end of the cleaning frame 502, and the camera 602 is disposed at the lower end of the adjusting lever 601; the adjusting mode of the adjusting rod 601 is not limited, and can be a swinging adjusting angle or a telescopic adjusting length, and can be selected according to requirements, and the adjusting rod 601 and the camera 602 are electrically connected with the driving motor 401 through a wire harness.

According to an embodiment of the present utility model, in another aspect, there is provided a tube band machine including: the photovoltaic device comprises a frame 701, a conveyor belt and the photovoltaic device, wherein the conveyor belt is arranged in the frame 701, and the photovoltaic device is arranged above the frame 701.

Although embodiments of the present utility model have been described in connection with the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the utility model, and such modifications and variations fall within the scope of the utility model as defined by the appended claims.

Claims (10)

1. A photovoltaic device, comprising:

the pipe strap machine comprises a mounting frame, wherein the mounting frame is suitable for being mounted above a frame body (701) of the pipe strap machine (7) along the extending direction of the pipe strap machine (7), the mounting frame comprises a bearing part (1) and an adjusting part (2), the bearing part (1) is connected with the frame body (701) of the pipe strap machine (7) through the adjusting part (2), the bearing part (1) is provided with a mounting position, and the adjusting part (2) is provided with an adjusting state for adjusting the angle of the bearing part (1) and a fixing state for fixing the angle of the bearing part (1);

a plurality of photovoltaic panels (3) arranged in the installation position along the extension direction of the tube tape machine (7);

wherein the adjusting part (2) is suitable for correspondingly adjusting the angle of the photovoltaic panel (3) according to the illumination angle.

2. The photovoltaic device according to claim 1, characterized in that the adjustment portion (2) comprises a plurality of adjustment assemblies, which are arranged on the frame body (701) at intervals along the extension direction of the frame body (701).

3. The photovoltaic device according to claim 2, characterized in that each of said adjustment assemblies comprises two telescopic structures (201), two telescopic structures (201) being arranged along a transversal interval, one end of the telescopic structure (201) being hinged to the carrying portion (1) and the other end being hinged to the frame body (701).

4. A photovoltaic device according to claim 2 or 3, characterized in that the carrier (1) comprises two stringers (101) and a plurality of cross beams (102), the extension direction of the stringers (101) being identical to the extension direction of the tube mill (7), a plurality of cross beams (102) being arranged at intervals between the two stringers (101), two stringers (101) and a plurality of cross beams (102) surrounding to form the installation site, each adjusting assembly being connected to a corresponding cross beam (102) or each adjusting assembly being connected to a corresponding stringer (101).

5. The photovoltaic device according to claim 4, characterized in that it further comprises a sweeping structure, which is movably arranged on the carrier (1) along the extension direction of the mounting frame.

6. The photovoltaic device according to claim 5, characterized in that the cleaning structure comprises a driving part (4) and a cleaning part (5), the cleaning part (5) being arranged in a lateral direction, both ends of the cleaning part (5) being moved along the stringers (101) by the driving part (4).

7. The photovoltaic device according to claim 6, characterized in that the stringers (101) comprise a transverse section and a vertical section, the drive (4) comprising a first drive wheel (402) and a second drive wheel (403), the first drive wheel (402) being in rolling engagement with an upper end face of the transverse section, the second drive wheel (403) being in rolling engagement with a side wall of the vertical section.

8. The photovoltaic device according to claim 5, characterized in that it further comprises a patrol structure fixedly arranged on the sweeping structure, said patrol structure being adapted to move with the sweeping structure for checking the tube band machine (7).

9. The photovoltaic device according to claim 8, characterized in that the inspection structure comprises detection means (6) arranged on both sides of the sweeping structure.

10. A tube banding machine, comprising:

a frame body (701);

a conveyor belt disposed in the frame body (701);

the photovoltaic device of any of claims 1 to 9, which is disposed above the frame (701).