CN210678778U - Transverse locking device for photovoltaic module cleaning robot line changing trolley - Google Patents

Abstract

The utility model discloses a horizontal locking means for photovoltaic module cleans machine people's dolly of trading, horizontal locking means includes front end locking means, front end locking fixed plate, rear end locking means and rear end locking fixed plate, front end locking means and rear end locking means are installed respectively in the both sides on the dolly of trading chassis, front end locking means arranges in the front end position on the dolly of trading chassis, rear end locking means arranges in the well rear portion on dolly of trading chassis, front end locking means and rear end locking means correspond respectively in the track outside of trading to have front end locking fixed plate and rear end locking fixed plate, the utility model discloses it is rational in infrastructure, can carry out automatic locking after the dolly of trading stops and fix, prevent the dolly of trading back-and-forth movement and turn on one's side, improve the security of cleaning machine people system operation in-process.

Description

Transverse locking device for photovoltaic module cleaning robot line changing trolley

Technical Field

The utility model relates to a photovoltaic module cleans robot locking equipment technical field, specifically is a horizontal locking means that is used for photovoltaic module to clean robot dolly of marching.

Background

In the present day that the ecological environment is worsening and fossil fuel is tense, solar energy is used as a clean and safe renewable resource, and compared with the traditional petrochemical energy, the solar energy has the advantages of inexhaustibility, cleanness, no pollution and the like, and becomes one of the main forms of new energy. For photovoltaic systems operating for long periods of time, panel dust deposition and its effects are a non-negligible problem. With the large-scale construction of solar photovoltaic power stations, photovoltaic power stations face the problem of component cleanliness. In the past, the cleaning of photovoltaic modules is mostly in a manual cleaning mode, and at present, more and more automatic cleaning robots are used in the cleaning work of the photovoltaic modules. In order to improve the utilization efficiency of the robot, a line changing trolley is generally used for carrying a cleaning robot to clean a plurality of rows of components, the line changing trolley carries the cleaning robot to the sides of the rows of photovoltaic components through a line changing track, and then the cleaning robot climbs the photovoltaic components to clean the photovoltaic components. In the operation process of the robot system, due to factors such as terrain or weather, the line feed trolley may move accidentally when stopping beside the photovoltaic module, and in order to maintain the position state of the line feed trolley in the operation process, the line feed trolley generally needs to have a certain locking function.

The common locking mode of carrying robot at present has: the driving wheel is locked through the self-locking function of the driving motor, so that the line changing trolley is prevented from moving; or the shift trolley is limited to move at the stopping position in a mode of a stop lever and a baffle. The locking methods can limit the movement of the line feed trolley to a certain extent, but have certain defects in the actual use process.

The existing part of robot locking devices adopt a one-way locking mode, generally only the movement of the robot along the track direction is limited, and the risk that the robot turns over due to accidents is ignored. And some robot locking devices have larger virtual positions, the locking and positioning accuracy of the robot is not high, and the robot still can move to a certain extent under the action of external force, so that the reliability is not high. And the partial cleaning robot realizes the fixed locking of the robot at a stop position by utilizing the self-locking function of the driving motor. The locking mode needs to keep the motor continuously electrified, once the motor is powered off, the robot loses the locking function and is likely to move due to accidents, and danger is generated. Meanwhile, the continuous motor is electrified, so that the limited battery electric energy of the robot is consumed, and the long-time locking of the robot is not facilitated. Therefore, an improved technique for solving the problem in the prior art is desired.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a horizontal locking means that is used for photovoltaic module to clean robot dolly of trading to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a transverse locking device for a line-changing trolley of a photovoltaic component cleaning robot is movably arranged on a line-changing track, the line-changing trolley is matched with a photovoltaic component in position, the cleaning trolley is matched with the photovoltaic component and the line-changing trolley, the transverse locking device is arranged inside the line-changing trolley and comprises a front end locking device, a front end locking and fixing plate, a rear end locking device and a rear end locking and fixing plate, the front end locking device and the rear end locking device are respectively arranged on two sides of a chassis of the line-changing trolley, the front end locking device is arranged at the front end position of the chassis of the line-changing trolley, the rear end locking device is arranged at the middle rear part of the chassis of the line-changing trolley, and the front end locking device and the rear end locking device are respectively correspondingly provided with the front end locking and fixing plate and the rear end locking and fixing plate outside the line-changing track;

the front end locking device comprises a push rod electric cylinder, a flange bearing seat, an L-shaped push rod, an H-shaped lock head, a reversing motor, a T-shaped mounting plate, a driving synchronous belt wheel, a reversing synchronous belt, a driven synchronous belt wheel, a supporting bearing seat, a reversing slide rod, a locking device mounting plate and an L-shaped push rod motor, wherein the push rod electric cylinder is fixed on one side of the locking device mounting plate along the vertical direction of a line changing track, one end of the push rod electric cylinder is connected with the L-shaped push rod motor, the other end of the push rod electric cylinder is connected with the L-shaped push rod, the T-shaped mounting plate is arranged on the other side of the locking device mounting plate in the direction parallel to the line changing track, the reversing motor is arranged at one end of the T-shaped mounting plate, the driving synchronous belt wheel is fixed on an output shaft of the reversing motor, the flange bearing seat is fixed at, the reversing slide bar is arranged in through holes of a support bearing seat and a driven synchronous belt pulley, a sliding groove is formed in the surface of the reversing slide bar, the support bearing seat is fixed on a locking device mounting plate, one end of the reversing slide bar is fixedly connected with an L-shaped push rod, the reversing slide bar can freely slide along the vertical direction of a line changing track under the driving of the L-shaped push rod, and an H-shaped lock head is fixedly arranged at the end part of the reversing slide bar close to one end of the outer side;

the front end locking fixing plate comprises a locking fixing plate, fixing plate stand columns and L-shaped supports, the locking fixing plate is fixed on the two fixing plate stand columns, the fixing plate stand columns are fixed with the ground through the L-shaped supports, and rectangular holes formed in the locking fixing plate are matched with the H-shaped lock heads.

Preferably, a sensor support is further arranged on the outer side of the line changing track, and a positioning switch baffle is arranged on the sensor support.

Preferably, a positioning switch is arranged at the rear end of the chassis of the line feed trolley, and the horizontal height of the positioning switch is consistent with that of a positioning switch baffle.

Preferably, the L-shaped push rod motor is connected with a lead screw in the push rod electric cylinder to drive the L-shaped push rod to extend outwards or retract.

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

(1) the utility model discloses a mode of the horizontal locking in line feed dolly both sides carries out automatic locking through rotatable H type tapered end and locking fixed plate and fixes, improves the security that cleans the robot system operation in-process.

(2) The utility model provides a clean the fixed problem of the long-time safe and reliable locking of robot line feed dolly.

(3) The utility model provides a problem of sliding because of the action of gravity produces when the dolly that trades stops.

(4) The utility model provides a problem that the dolly of marching takes place to turn on one's side because of the accident.

Drawings

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

Fig. 2 is an overall schematic view of the cleaning robot system.

FIG. 3 is a schematic view of a transverse locking device body layout.

Fig. 4 is an operation diagram of the lateral lock device (front lock device locked state).

In the figure: 1-a photovoltaic module; 2-line changing trolley; 3, cleaning the trolley; 4-line feed track; 5, positioning a switch baffle; 6-a sensor holder; 7-a positioning switch; 8-locking the fixing plate at the rear end; 9-a rear locking device; 10-line changing trolley chassis; 11-a front end locking device; 12-front end locking fixing plate; 13-push rod electric cylinder; 14-flange bearing seat; 15-L shaped push rods; a 16-H type lock head; 17-locking fixing plate; 18-fixing plate columns; a 19-L shaped scaffold; 20-a commutation motor; a 21-T shaped mounting plate; 22-driving synchronous pulley; 23-reversing a synchronous belt; 24-a driven synchronous pulley; 25-supporting the bearing seat; 26-a reversing slide bar; 27-a locking device mounting plate; 28-L type push rod motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a transverse locking device for a photovoltaic module cleaning robot line changing trolley, a line changing trolley 2 is movably arranged on a line changing track 4, the line changing trolley 2 is matched with a photovoltaic module 1 in position, a cleaning trolley 3 is matched with the photovoltaic module 1 and the line changing trolley 2, the transverse locking device is arranged inside the line changing trolley 2 and comprises a front end locking device 11, a front end locking fixing plate 12, a rear end locking device 9 and a rear end locking fixing plate 8, the front end locking device 11 and the rear end locking device 9 are respectively arranged on two sides of a line changing trolley chassis 10, the front end locking device 11 is arranged at the front end position of the line changing trolley chassis 10, the rear end locking device 9 is arranged at the middle rear part of the line changing trolley chassis 10, the front end locking device 11 and the rear end locking device 9 respectively correspond to the front end locking fixing plate 12 and the rear end locking fixing plate 8 on the outer side of the line changing track 4, is used for being matched with a locking device to lock and fix the line feed trolley 2; the transverse locking device mainly comprises a telescopic mechanism and a locking mechanism, wherein the telescopic mechanism comprises an L-shaped push rod motor 28, a push rod electric cylinder 13 and an L-shaped push rod 15, in the telescopic mechanism, the push rod electric cylinder 13 is fixed on a locking device mounting plate 27 along the vertical direction of the line changing track 4, one end of the push rod electric cylinder is connected with the L-shaped push rod motor 28, the other end of the push rod electric cylinder is connected with the L-shaped push rod 15, and the L-shaped push rod motor 28 is used for driving a lead screw in the push rod electric cylinder 13 to rotate and driving the L-shaped push rod 15 to extend outwards or retract; a locking mechanism in the locking device mainly comprises an H-shaped lock head 16, a reversing slide rod 26, a T-shaped mounting plate 21, a reversing motor 20 and a locking fixing plate 17, wherein the T-shaped mounting plate 21 is arranged on a locking device mounting plate 27 in parallel with the direction of a line changing track 4, the reversing motor 20 is arranged at one end of the T-shaped mounting plate, a driving synchronous pulley 22 is fixed on an output shaft of the reversing motor 20, a flange bearing seat 14 is fixed at the other end of the T-shaped mounting plate 21, a driven synchronous pulley 24 is fixed in the flange bearing seat 14, the driven synchronous pulley 24 is connected with the driving synchronous pulley 22 through a synchronous belt 23 and is used for transmitting the power of the reversing motor 20, the reversing slide rod 26 in the locking mechanism is arranged in through holes of a support bearing seat 25 and the driven synchronous pulley 24, a sliding groove is formed in the surface of the reversing slide rod 26, one, the reversing slide bar 26 is fixedly provided with an H-shaped lock head 16 at the end close to the outer side end, a locking fixing plate 17 is fixed on two fixing plate upright posts 18, and the fixing plate upright posts 18 are fixed with the ground through L-shaped brackets 19.

The utility model discloses a horizontal locking means's work flow as follows:

the method comprises the following steps: when the cleaning robot system works, the line changing trolley 2 carries the cleaning trolley 3 to start from a stop position, and moves along the moving track 4, and the cleaning trolley 3 is conveyed to the side of each row of components;

step two: when the line feed trolley 2 approaches each row of photovoltaic modules, when the line feed trolley 2 induces a positioning switch baffle 5 positioned on a sensor bracket 6 through a positioning switch 7 arranged on a chassis 10 of the line feed trolley, the line feed trolley 2 stops advancing and is aligned with the photovoltaic modules 1;

step three: when the line feed trolley 2 completely stops, the transverse locking device starts to work, firstly, an L-shaped push rod motor 28 in the rear end locking device 9 is started, and an L-shaped push rod 15 is pushed to extend out through the push rod electric cylinder 13; wherein, the L-shaped push rod 15 is fixed with the reversing slide bar 26, and one end of the reversing slide bar 26 is fixed with an H-shaped lock head 16; in the process of extending the L-shaped push rod 15, the H-shaped lock head 16 is pushed by the reversing slide rod 26 to be inserted into the square through hole of the rear end locking fixing plate 8; then, the reversing motor 20 is started, the reversing slide bar 26 is driven to rotate 90 degrees through the driving synchronous belt pulley 22, the synchronous belt 23 and the driven synchronous belt pulley 24, the H-shaped lock head 16 rotates 90 degrees in the square hole of the rear locking and fixing plate 8 under the driving of the reversing slide bar 26, and the line changing trolley 2 and the rear locking and fixing plate 8 are fixed;

step four: when the rear end locking device 9 is locked in place, the front end locking device 11 starts to act, an L-shaped push rod motor 28 in the front end locking device 11 is started, and an L-shaped push rod 15 is pushed to extend through the push rod electric cylinder 13; wherein, the L-shaped push rod 15 is fixed with the reversing slide bar 26, and one end of the reversing slide bar 26 is fixed with an H-shaped lock head 16; in the process of extending the L-shaped push rod 15, the H-shaped lock head 16 is pushed by the reversing slide rod 26 to be inserted into the square through hole of the front end locking fixing plate 12; then, the reversing motor 20 is started, and drives the reversing slide bar 26 to rotate 90 ° through the driving synchronous pulley 22, the synchronous belt 23 and the driven synchronous pulley 24, and the H-shaped lock head 16 rotates 90 ° in the square hole of the front end locking and fixing plate 12 under the driving of the reversing slide bar 26, so as to fix the line feed carriage 2 and the front end locking and fixing plate 12, as shown in fig. 4;

step five: when the front end locking device 11 and the rear end locking device 9 in the line changing trolley 2 are locked in place, the cleaning trolley 3 on the line changing trolley 2 is started, the cleaning trolley 3 gets on the photovoltaic module in the line from the line changing trolley 2 for cleaning, and after cleaning is finished, the cleaning trolley 3 returns to the line changing trolley 2 along the original path;

step six: when the cleaning trolley 3 completely stops on the line-changing trolley 2, the front end locking device 11 acts, the reversing motor 20 in the front end locking device 11 is started, and drives the H-shaped lock head 16 to rotate 90 degrees sequentially through the driving synchronous belt pulley 22, the synchronous belt 23, the driven synchronous belt pulley 24 and the reversing slide bar 26, so that the H-shaped lock head 16 and the front end locking fixing plate 12 are unlocked; then, the L-shaped push rod motor 28 is started, the H-shaped lock head is withdrawn from the square hole of the locking fixing plate through the L-shaped push rod and the reversing slide rod 26, and the front end of the line changing trolley 2 is separated from the locking fixing plate 12;

step seven: the rear end locking device 9 is started, the reversing motor 20 in the rear end locking device 9 is started, and the H-shaped lock head 16 is driven to rotate by 90 degrees through the driving synchronous pulley 22, the synchronous belt 23, the driven synchronous pulley 24 and the reversing slide bar 26 in sequence, so that the H-shaped lock head 16 and the rear end locking fixing plate 8 are unlocked; then, the L-shaped push rod motor 28 is started, the H-shaped lock head 16 is withdrawn from the square hole of the rear end locking and fixing plate 8 through the L-shaped push rod 15 and the reversing slide rod 26, and the rear end of the line changing trolley 2 is separated from the rear end locking and fixing plate 8;

step eight: after the line changing trolley 2 is separated from the locking with the front end locking fixing plate 12 and the rear end locking fixing plate 8, the line changing trolley 2 is started, the line changing trolley 3 is carried and cleaned continuously to the next row of photovoltaic modules 1, and the process is circulated until complete components are cleaned, or when the electric quantity of the line changing trolley 3 and the electric quantity of the line changing trolley 2 are insufficient, the line changing trolley 2 is carried and cleaned, and the line changing trolley 3 returns to a stop position.

The utility model discloses can be used to photovoltaic module cleans in the dolly that moves in a business of robot, realize the fixed function of locking of dolly that moves in a business when stopping, compare in current locking means, this locking means can carry out automatic locking after the dolly that moves in a business stops fixedly, prevents to move in a business the dolly back-and-forth movement and turn on one's side, improves the security of cleaning the robot system operation in-process. The utility model discloses specifically overcome following defect, to utilizing the not high and problem that is unfavorable for long-time locking of motor self-locking function locking mode reliability, the utility model provides a clean the fixed problem of the long-time safe and reliable locking of robot line changing dolly. Due to the arrangement problems of the terrain and the photovoltaic modules, the track of the line changing trolley can incline to a certain angle with the ground, and the line changing trolley can slide on the track under the action of gravity when the robot system works. The utility model provides a problem of sliding because of the action of gravity produces when the dolly that trades stops. When the cleaning trolley returns to the line-changing trolley, the line-changing trolley can turn over due to large impact force or severe weather and large outdoor wind speed. The utility model provides a problem that the dolly of marching takes place to turn on one's side because of the accident.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a horizontal locking means for photovoltaic module cleans machine people dolly of marching, the dolly activity of marching sets up on the track of marching, and the dolly of marching and photovoltaic module's position phase-match cleans dolly and photovoltaic module and the dolly phase-match of marching, and horizontal locking means sets up inside the dolly of marching, its characterized in that: the transverse locking device comprises a front end locking device, a front end locking fixing plate, a rear end locking device and a rear end locking fixing plate, the front end locking device and the rear end locking device are respectively installed on two sides of the chassis of the line changing trolley, the front end locking device is arranged at the front end of the chassis of the line changing trolley, the rear end locking device is arranged at the middle rear part of the chassis of the line changing trolley, and the front end locking device and the rear end locking device are respectively correspondingly provided with the front end locking fixing plate and the rear end locking fixing plate on the outer side of a line changing track;

the front end locking device comprises a push rod electric cylinder, a flange bearing seat, an L-shaped push rod, an H-shaped lock head, a reversing motor, a T-shaped mounting plate, a driving synchronous belt wheel, a reversing synchronous belt, a driven synchronous belt wheel, a supporting bearing seat, a reversing slide rod, a locking device mounting plate and an L-shaped push rod motor, wherein the push rod electric cylinder is fixed on one side of the locking device mounting plate along the vertical direction of a line changing track, one end of the push rod electric cylinder is connected with the L-shaped push rod motor, the other end of the push rod electric cylinder is connected with the L-shaped push rod, the T-shaped mounting plate is arranged on the other side of the locking device mounting plate in the direction parallel to the line changing track, the reversing motor is arranged at one end of the T-shaped mounting plate, the driving synchronous belt wheel is fixed on an output shaft of the reversing motor, the flange bearing seat is fixed at, the reversing slide bar is arranged in through holes of a support bearing seat and a driven synchronous belt pulley, a sliding groove is formed in the surface of the reversing slide bar, the support bearing seat is fixed on a locking device mounting plate, one end of the reversing slide bar is fixedly connected with an L-shaped push rod, the reversing slide bar can freely slide along the vertical direction of a line changing track under the driving of the L-shaped push rod, and an H-shaped lock head is fixedly arranged at the end part of the reversing slide bar close to one end of the outer side;

the front end locking fixing plate comprises a locking fixing plate, fixing plate stand columns and L-shaped supports, the locking fixing plate is fixed on the two fixing plate stand columns, the fixing plate stand columns are fixed with the ground through the L-shaped supports, and rectangular holes formed in the locking fixing plate are matched with the H-shaped lock heads.

2. The transverse locking device for the photovoltaic module cleaning robot creel cart according to claim 1, wherein: the sensor support is further arranged on the outer side of the line changing track, and a positioning switch baffle is arranged on the sensor support.

3. The transverse locking device for the photovoltaic module cleaning robot creel cart according to claim 1, wherein: and a positioning switch is arranged at the rear end of the chassis of the line feed trolley, and the horizontal height of the positioning switch is consistent with that of a positioning switch baffle.

4. The transverse locking device for the photovoltaic module cleaning robot creel cart according to claim 1, wherein: and the L-shaped push rod motor is connected with a lead screw in the push rod electric cylinder to drive the L-shaped push rod to extend outwards or retract.

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