CN216077437U - Tower section of thick bamboo apron subassembly and wind generating set - Google Patents

Abstract

The utility model provides a tower drum cover plate assembly and a wind generating set, relates to the technical field of wind generating equipment, and aims to solve the problem that a tower drum cover plate of the wind generating set is inconvenient to open. The tower drum cover plate assembly comprises a tower drum cover plate and an automatic opening and closing device, wherein the tower drum cover plate is movably arranged in a tower drum; the automatic opening and closing device comprises a driving motor, a first induction element and a second induction element, wherein the driving motor is installed on the tower and used for driving the tower cover plate to move; first sensing element and second sensing element set up respectively in the top and the below of tower section of thick bamboo apron, and the in-process that rises, first sensing element is configured to trigger driving motor's motor shaft and rotate along first direction after sensing the staff, and drive tower section of thick bamboo apron is closed, and second sensing element is configured to trigger the motor shaft and rotate along the second direction when sensing the staff, and drive tower section of thick bamboo apron is opened. The utility model can realize the automatic opening and closing of the tower drum cover plate.

Description

Tower section of thick bamboo apron subassembly and wind generating set

Technical Field

The utility model relates to the technical field of wind power generation equipment, in particular to a tower drum cover plate assembly and a wind generating set.

Background

At present, staff of a wind generating set must climb upwards for a certain distance in a tower cylinder before entering a cabin. Along with the increase of the single machine capacity of the wind generating set, the tower barrel of the wind turbine is also lengthened gradually, and the existing tower barrels are all more than 70 meters, so that workers need to climb for nearly one hundred meters in the tower barrel. Because tower section of thick bamboo inner space is narrow and small, when the fan was gone up and down to the staff, often need carry the instrument climbing. In order to accelerate the fault processing efficiency and reduce the labor intensity of workers, a plurality of wind power plants are provided with climbing-free devices. Simultaneously, in order to ensure staff's personal safety, reduce the injury that high altitude junk and object hit and bring, the tower section of thick bamboo apron all need be covered to every climbing a section of tower section of thick bamboo of staff.

In the prior art, when the climbing-free device passes through a tower drum cover plate in the ascending process, a worker needs to manually open the tower drum cover plate, and if the climbing-free device is not opened timely, the worker can collide with the tower drum cover plate; when using exempt from to climb the ware when descending the in-process through a tower section of thick bamboo apron, if a tower section of thick bamboo apron is at closure status, then need the staff earlier from exempting from to climb the ware and get off, manually open a tower section of thick bamboo apron again, return to exempt from to climb the ware again, just can continue to descend, if open untimely, will lead to exempting from to climb the ware and collide with a tower section of thick bamboo apron, in serious time, can damage and exempt from motor and the wire rope of climbing the ware, bring the potential safety hazard for site work.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a tower drum cover plate assembly to solve the technical problem that a tower drum cover plate of a wind generating set is inconvenient to open.

The tower drum cover plate assembly comprises a tower drum cover plate and an automatic opening and closing device, wherein the tower drum cover plate is movably arranged in a tower drum, and the moving direction of the tower drum cover plate is along the radial direction of the tower drum; the automatic opening and closing device comprises a driving motor, a first sensing element and a second sensing element, wherein the first sensing element and the second sensing element are electrically connected with the driving motor; the first sensing element is arranged above the tower cover plate, and is configured to trigger a motor shaft of the driving motor to rotate in a first direction after sensing a worker to drive the tower cover plate to be closed in the ascending process, and is configured to trigger the motor shaft to rotate in a second direction after sensing the worker to drive the tower cover plate to be opened in the descending process; the second sensing element is arranged below the tower drum cover plate, the second sensing element is configured to trigger the motor shaft to rotate along a second direction when sensing a worker and drive the tower drum cover plate to be opened in the ascending process, and the second sensing element is configured to trigger the motor shaft to rotate along a first direction after sensing the worker and drive the tower drum cover plate to be closed in the descending process.

Further, the first sensing element and the second sensing element are both infrared sensing switches, each infrared sensing switch comprises an infrared signal transmitter and an infrared signal receiver, each infrared signal transmitter transmits infrared light, each infrared signal receiver receives the infrared light, and the infrared light is located on a climbing path of a worker; when the infrared light is blocked, the corresponding sensing element triggers the motor shaft.

Further, the first sensing element and the second sensing element are located inside the tower barrel and are arranged opposite to the climbing-free device.

Further, the distance between the first sensing element and the tower cover plate is a, the distance between the second sensing element and the tower cover plate is b, wherein a is larger than or equal to 1.5m and smaller than or equal to 2.5m, and b is larger than or equal to 1.5m and smaller than or equal to 2.5 m.

Further, a clamping prevention module is installed on the tower drum cover plate, the clamping prevention module is electrically connected with the driving motor, and the clamping prevention module triggers the motor shaft to rotate along the second direction when sensing workers.

Furthermore, a first limiting element and a second limiting element are further arranged inside the tower drum, and are sequentially arranged at intervals along the direction of the tower drum cover plate moving from the open position to the closed position; the tower drum cover plate is fixedly provided with a stopper which is positioned between the first limiting element and the second limiting element; the first limiting element and the second limiting element are electrically connected with the driving motor.

Furthermore, a support is fixedly arranged inside the tower drum, a track is fixedly arranged on the support, the length direction of the track extends along the radial direction of the tower drum, and the tower drum cover plate is movably arranged on the track; the driving motor is mounted on the support and is in transmission connection with the tower drum cover plate through a transmission mechanism, the transmission mechanism comprises a driving belt wheel, a driven belt wheel, a synchronous belt and a connecting rod, the driving belt wheel and the driven belt wheel are rotatably arranged on the support, the driving belt wheel and a motor shaft are coaxially fixed, the synchronous belt is supported on the driving belt wheel and the driven belt wheel, one end of the connecting rod is fixedly connected with the synchronous belt, and the other end of the connecting rod is fixedly connected with the tower drum cover plate; the blocking piece is fixedly arranged on the connecting rod.

Furthermore, the inner wall of the tower cylinder is provided with a limiting groove, handles are movably mounted on the upper surface and the lower surface of the tower cylinder cover plate, and each handle is provided with a limiting part, wherein the limiting parts are in plug-in fit with the limiting grooves at the closing position of the tower cylinder cover plate and are used for limiting the up-and-down movement of the tower cylinder cover plate; an elastic element is connected between the handle and the tower drum cover plate, and the elastic element is configured to enable the limiting part to always have a movement trend of being in plug-in fit with the limiting groove.

Further, the handle is rotatably connected with the tower cover plate.

The tower drum cover plate assembly has the beneficial effects that:

the automatic opening and closing device comprises a driving motor installed on the tower barrel, a first sensing element located above the tower barrel cover plate and a second sensing element located below the tower barrel cover plate, and the driving motor is in transmission connection with the tower barrel cover plate and used for driving the tower barrel cover plate to move.

Through set up above-mentioned tower section of thick bamboo apron subassembly in a tower section of thick bamboo, when the staff when exempting from to climb under the effect of ware, will pass through the second inductive element earlier. When the second sensing element senses a worker, the worker is indicated to be about to move to the position of the tower drum cover plate, at the moment, the driving motor is triggered, the motor shaft rotates in the second direction, the tower drum cover plate is driven to be opened, and therefore the worker can move upwards through the tower drum cover plate; along with the continuous ascending motion of staff, when first sensing element sensed the staff, showed that the staff has passed through tower section of thick bamboo apron, at this moment, driving motor will be triggered again, and the motor shaft rotates along first direction, and the driving tower section of thick bamboo apron is closed.

Similarly, when the worker descends under the action of the creeper, the worker will first pass through the first sensing element. When the first sensing element senses a worker, the worker is indicated to be about to move to the position of the tower drum cover plate, at the moment, the driving motor is triggered, the motor shaft rotates in the second direction, the tower drum cover plate is driven to be opened, and therefore the worker can move downwards through the tower drum cover plate; along with the continuous descending movement of the staff, when the second sensing element senses the staff, the staff is indicated to pass through the tower drum cover plate, at the moment, the driving motor is triggered again, the motor shaft rotates along the first direction, and the tower drum cover plate is driven to be closed.

This tower section of thick bamboo apron subassembly's setting for the staff is at the in-process that rises, and tower section of thick bamboo apron can be opened in time, avoids the staff to hit tower section of thick bamboo apron, and at staff decline in-process, tower section of thick bamboo apron equally can be opened in time, prevents to exempt from to climb ware and tower section of thick bamboo apron and bump. The arrangement form of the tower drum cover plate is free of participation of workers, is convenient to open, and improves the lifting efficiency of the workers in the tower drum.

The second purpose of the utility model is to provide a wind generating set, so as to solve the technical problem that a tower cover plate of the wind generating set is inconvenient to open.

The wind generating set provided by the utility model comprises a tower cylinder and a plurality of groups of tower cylinder cover plate assemblies, wherein the plurality of groups of tower cylinder cover plate assemblies are arranged at intervals along the height direction of the tower cylinder.

The wind generating set of the utility model has the following beneficial effects:

through set up above-mentioned tower section of thick bamboo apron subassembly in wind generating set, correspondingly, this wind generating set has above-mentioned tower section of thick bamboo apron subassembly all advantages, and the repeated description is no longer repeated here.

In addition, the tower drum cover plate assemblies are arranged in the tower drum of the wind generating set, so that each tower drum cover plate can be automatically opened and closed according to the position of a worker, the use of the worker is greatly facilitated, and potential safety hazards in site work are reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic view of an installation of a tower cover assembly within a tower provided in accordance with an embodiment of the present invention;

FIG. 2 is a side view of an installed tower cover assembly within a tower provided in accordance with an embodiment of the present invention;

FIG. 3 is a top view of a tower cover assembly according to an embodiment of the present disclosure;

FIG. 4 is a first control loop wiring diagram of the tower cover assembly according to an embodiment of the present invention;

FIG. 5 is a control circuit diagram II of the tower cover assembly according to an embodiment of the present invention.

Description of reference numerals:

010-a tower drum;

100-tower drum cover plate; 200-driving motor; 400-anti-pinch module; 600-a scaffold; 700-a transmission mechanism;

110-a roller; 120-flights;

310-a first inductive element; 320-a second inductive element;

510-a first stop element; 520-a second stop element;

610-track;

710-a drive pulley; 720-driven pulley; 730-synchronous belt; 740-connecting rod.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Fig. 1 is an installation schematic view of a tower cover plate assembly provided in this embodiment in a tower 010, fig. 2 is an installation side view of the tower cover plate assembly provided in this embodiment in the tower 010, and fig. 3 is a structural top view of the tower cover plate assembly provided in this embodiment. As shown in fig. 1 to 3, the present embodiment provides a tower cover plate assembly, which includes a tower cover plate 100 and an automatic opening and closing device, wherein the tower cover plate 100 is movably installed inside a tower 010, and a moving direction of the tower cover plate 100 is along a radial direction of the tower 010; the automatic opening and closing device comprises a driving motor 200, a first induction element 310 and a second induction element 320 which are connected with the driving motor 200, wherein the driving motor 200 is installed on the tower 010 and is in transmission connection with the tower cover plate 100 for driving the tower cover plate 100 to move; the first sensing element 310 is arranged above the tower cover 100, during the ascending process, the first sensing element 310 is configured to trigger the motor shaft of the driving motor 200 to rotate along a first direction after sensing a worker to drive the tower cover 100 to close, and during the descending process, the first sensing element 310 is configured to trigger the motor shaft to rotate along a second direction after sensing the worker to drive the tower cover 100 to open; the second sensing element 320 is disposed below the tower cover 100, and during the ascending process, the second sensing element 320 is configured to trigger the motor shaft to rotate in the second direction when sensing a worker, so as to drive the tower cover 100 to open, and during the descending process, the second sensing element 320 is configured to trigger the motor shaft to rotate in the first direction after sensing the worker, so as to drive the tower cover 100 to close.

Through set up above-mentioned tower section of thick bamboo apron subassembly in tower section of thick bamboo 010, when the staff rises under the effect of exempting from to climb, will pass through second sensing element 320 earlier. When the second sensing element 320 senses a worker, it indicates that the worker is about to move to the position of the tower cover 100, at this time, the driving motor 200 is triggered, the motor shaft rotates in the second direction, and the tower cover 100 is driven to open, so that the worker can move upwards through the tower cover 100; as the worker continues to move upward, when the first sensing element 310 senses the worker, indicating that the worker has passed through the tower cover 100, the driving motor 200 is triggered again, and the motor shaft rotates in the first direction to drive the tower cover 100 to close.

Similarly, when the worker descends under the action of the crawler, the worker will first pass the first inductive element 310. When the first sensing element 310 senses a worker, it indicates that the worker is about to move to the position of the tower cover 100, at this time, the driving motor 200 is triggered, the motor shaft rotates in the second direction, and the tower cover 100 is driven to open, so that the worker can move downward through the tower cover 100; as the worker continues to descend, when the second sensing element 320 senses the worker, indicating that the worker has passed through the tower cover 100, the driving motor 200 will be triggered again, and the motor shaft rotates in the first direction, so as to drive the tower cover 100 to close.

This tower section of thick bamboo apron subassembly's setting for the staff is at the in-process that rises, and tower section of thick bamboo apron 100 can be opened in time, avoids the staff to hit tower section of thick bamboo apron 100, and at the staff decline in-process, tower section of thick bamboo apron 100 equally can be opened in time, prevents to exempt from to climb ware and tower section of thick bamboo apron 100 and collide. The arrangement form of the tower drum cover plate 100 is free of participation of workers, convenient to open and capable of improving the lifting efficiency of the workers in the tower drum 010.

In this embodiment, the "rotation of the motor shaft of the driving motor 200 in the first direction" may be the forward rotation of the motor shaft, and the "rotation of the motor shaft of the driving motor 200 in the second direction" may be the reverse rotation of the motor shaft.

Specifically, in this embodiment, the first sensing element 310 and the second sensing element 320 are both infrared sensing switches, and each infrared sensing switch includes an infrared signal transmitter and an infrared signal receiver, where the infrared signal transmitter transmits infrared light, the infrared signal receiver receives the infrared light transmitted by the infrared signal transmitter, and the infrared light is located on a climbing path of a worker; when the infrared light is blocked, the corresponding sensing element triggers the motor shaft.

The sensing of the worker by the first sensing element 310 will be described as an example. Under the normal state, the infrared signal receiver can receive the infrared light emitted by the infrared signal emitter; in the ascending process of the worker, when the worker moves to the height position of the first sensing element 310, the infrared light between the infrared signal transmitter and the infrared signal receiver of the first sensing element 310 is blocked, the infrared signal receiver cannot receive the infrared light transmitted by the infrared signal transmitter, and at the moment, the motor shaft of the driving motor 200 is triggered to rotate along the first direction, so that the tower cover plate 100 is closed. The sensing principle of the second sensing element 320 is the same as that of the first sensing element 310, and therefore, the description thereof is omitted.

The arrangement of the first inductive element 310 and the second inductive element 320 is reliable in sensing and low in cost.

It should be noted that how the first sensing element 310 and the second sensing element 320 trigger the driving motor 200 to rotate the driving motor 200 forward and backward is well known in the prior art, and this embodiment is not modified, and therefore will not be described herein.

In this embodiment, the first inductive element 310 and the second inductive element 320 are both located inside the tower 010 and are disposed opposite to the crawler. Specifically, the first sensing element 310 and the second sensing element 320 are each provided with a transmitting portion and a receiving portion, wherein the transmitting portion forms the above-mentioned infrared signal transmitter, and the receiving portion forms the above-mentioned infrared signal receiver.

This kind all sets up first inductive element 310 and second inductive element 320 in the contralateral structural style of exempting from to climb the ware, on the one hand, can avoid producing the interference to staff's lift process because of setting up exempting from to climb the ware homonymy, guaranteed staff's smooth lift, on the other hand can also avoid avoiding because of setting up exempting from to climb the ware homonymy, and the damage of colliding with that causes to the working life of first inductive element 310 and second inductive element 320 has been prolonged.

Specifically, in this embodiment, a distance between the first sensing element 310 and the tower cover plate 100 is a, and a distance between the second sensing element 320 and the tower cover plate 100 is b, where a is greater than or equal to 1.5m and less than or equal to 2.5m, and b is greater than or equal to 1.5m and less than or equal to 2.5 m.

By arranging the first sensing element 310 at a position 1.5-2.5 m above the tower cover plate 100 and the second sensing element 320 at a position 1.5-2.5 m below the tower cover plate 100, on one hand, the situation that the tower cover plate 100 is opened too early due to the fact that the first sensing element 310 and the second sensing element 320 are too far away from the tower cover plate 100 is avoided, and the safety protection of the tower cover plate 100 for workers is guaranteed, on the other hand, the situation that the tower cover plate 100 is not opened timely due to the fact that the first sensing element 310 and the second sensing element 320 are too close to the tower cover plate 100 is also avoided, so that the workers and the climbing-free device are effectively prevented from colliding with the tower cover plate 100, and potential safety hazards of the tower cover plate assembly in the using process are further reduced.

Preferably, a is 2m and b is 2 m.

Referring to fig. 3, in the present embodiment, an anti-pinch module 400 may be further installed on the tower cover 100, specifically, the anti-pinch module 400 is electrically connected to the driving motor 200, and when the anti-pinch module 400 senses a worker, the motor shaft of the driving motor 200 is triggered to rotate along a second direction.

When the staff need carry out the operation in the high position department at tower section of thick bamboo apron 100 place, the staff will stop in this high position, and at this moment, prevent that clamp module 400 will sense the staff, make driving motor 200's motor shaft rotate along the second direction to drive tower section of thick bamboo apron 100 and keep opening the position, prevent to press from both sides and hinder the staff.

Through setting up anti-pinch module 400, can avoid the condition that tower section of thick bamboo apron 100 accident closed that leads to because of first inductive element 310 and second inductive element 320 are out of order to make under the out-of-order condition of first inductive element 310 and second inductive element 320, tower section of thick bamboo apron 100 still can open automatically, can not cause the risk of pinching to the staff, has played the secondary guard action to the staff.

Specifically, the anti-pinch module 400 may include a transmitting portion and a receiving portion, wherein the transmitting portion is capable of emitting a light beam along a radial direction of the tower 010, the receiving portion is configured to receive the light beam, and the light beam substantially covers the entire diameter of the tower 010. When the light beam is blocked, the receiving part cannot receive the light beam, which indicates that a worker is in the position at the moment, the anti-pinch module 400 triggers the motor shaft of the driving motor 200 to rotate along the second direction, so that the tower cover 100 is kept in the open position; when the light beam is not blocked, the receiving portion can receive the light beam smoothly, which indicates that there is no working person at the position, and the anti-pinch module 400 will trigger the motor shaft of the driving motor 200 to rotate in the first direction, so that the tower cover 100 is kept at the closed position.

It should be noted that the specific structure of the anti-pinch module 400 and how to feedback control the rotation of the motor shaft of the driving motor 200 are well known in the art, and this embodiment does not improve this technology, so detailed descriptions are omitted.

Referring to fig. 3, in the embodiment, a first limiting element 510 and a second limiting element 520 are further disposed inside the tower 010, and specifically, the first limiting element 510 and the second limiting element 520 are sequentially disposed at an interval along a direction in which the tower cover 100 moves from the open position to the closed position; the tower cover plate 100 is fixedly provided with a stopper 120, and the stopper 120 is located between the first limiting element 510 and the second limiting element 520; the first and second stopper elements 510 and 520 are electrically connected to the driving motor 200.

When the stopper 120 contacts with the first limiting element 510 during the process of opening the tower cover 100 by the driving motor 200, it indicates that the tower cover 100 is opened to the maximum position, and at this time, the first limiting element 510 will feedback control the driving motor 200 to stop moving; when the blocking member 120 contacts the second limiting element 520 during the process of the driving motor 200 driving the tower cover 100 to close, which indicates that the tower cover 100 is completely closed, the second limiting element 520 will feedback control the driving motor 200 to stop moving.

Through the arrangement, the limitation on the movement stroke of the tower drum cover plate 100 is realized, the phenomenon that the tower drum 010 is impacted due to the fact that the tower drum cover plate 100 moves excessively is avoided, and the tower drum cover plate 100 and the tower drum 010 are protected to a certain extent.

It should be noted that how the first limiting element 510 and the second limiting element 520 feedback-control the driving motor 200 to stop moving is a prior art well known to those skilled in the art, and this embodiment does not improve this, and therefore, the detailed description is omitted.

Referring to fig. 3, in the present embodiment, a support 600 is fixedly disposed inside the tower 010, specifically, the support 600 is fixedly disposed with a rail 610, a length direction of the rail 610 extends along a radial direction of the tower 010, and the tower cover plate 100 is movably disposed on the rail 610; the driving motor 200 is mounted on the support 600, the driving motor 200 is in transmission connection with the tower drum cover plate 100 through a transmission mechanism 700, wherein the transmission mechanism 700 comprises a driving pulley 710, a driven pulley 720, a synchronous belt 730 and a connecting rod 740, the driving pulley 710 and the driven pulley 720 are rotatably arranged on the support 600, the driving pulley 710 and a motor shaft are coaxially fixed, the synchronous belt 730 is supported on the driving pulley 710 and the driven pulley 720, one end of the connecting rod 740 is fixedly connected with the synchronous belt 730, and the other end of the connecting rod 740 is fixedly connected with the tower drum cover plate 100; the stopper 120 is fixedly disposed on the connecting rod 740.

When the driving motor 200 is started, the motor shaft rotates to drive the driving pulley 710 coaxially fixed with the motor shaft to rotate, and in the process of rotating the driving pulley 710, the synchronous belt 730 is driven to move and the driven pulley 720 is driven to rotate; under the action of the movement of the synchronous belt 730, the connecting rod 740 fixedly connected with the connecting rod is driven to move, so that the tower cover plate 100 fixedly connected with the connecting rod 740 is driven to move.

The driving structure is reliable in driving, the moving reliability of the tower drum cover plate 100 is guaranteed, and the driving structure is simple in structure and easy to arrange.

Referring to fig. 3, in the present embodiment, the tower cover 100 is further installed with rollers 110, and the tower cover 100 is supported on the rails 610 through the rollers 110, so that the sliding contact between the tower cover 100 and the rails 610 is converted into the rolling contact. So set up, can reduce the frictional force between tower section of thick bamboo apron 100 and the track 610, guarantee the smooth and easy nature of tower section of thick bamboo apron 100 removal in-process to reduce the noise of tower section of thick bamboo apron 100 removal in-process.

Specifically, in this embodiment, a limiting groove may be further formed in the inner wall of the tower cylinder 010, and correspondingly, a handle is movably mounted on the upper and lower surfaces of the tower cylinder cover plate 100, where the handle has a limiting portion, and the limiting portion is in insertion fit with the limiting groove at the closing position of the tower cylinder cover plate 100 and is used for limiting the up-and-down movement of the tower cylinder cover plate 100; an elastic element is connected between the handle and the tower cover plate 100, and the elastic element is configured to enable the limiting part to always have a movement tendency of being in plug-in fit with the limiting groove.

When the tower drum cover plate 100 is in the closed position, the limiting part of the handle is inserted into the limiting groove of the tower drum 010, and the tower drum cover plate 100 is simultaneously supported on the rail 610, so that the tower drum cover plate 100 is limited in the vertical direction. When power failure occurs, the driving motor 200 cannot automatically open the tower drum cover plate 100, and at this time, a worker can pull the handle by hand to move the tower drum cover plate 100, so that manual opening and manual closing of the tower drum cover plate 100 are achieved.

Above-mentioned setting has satisfied the opening and the closed demand of tower section of thick bamboo apron 100 under the power failure condition for this tower section of thick bamboo apron subassembly can be applicable to multiple operating mode.

Preferably, the handle is pivotally connected to the tower cover 100. By the arrangement, the worker can open and close the tower drum cover plate 100 by rotating the handle, and the operation is convenient.

Fig. 4 is a first control circuit connection diagram of the tower cover plate assembly provided in the present embodiment, and fig. 5 is a second control circuit connection diagram of the tower cover plate assembly provided in the present embodiment. As shown in fig. 4 and 5, in the present embodiment, when the power switch SB1 is turned on, the tower cover 100 control circuit is powered, the coil KM2 is powered, the driving motor 200 rotates forward, the tower cover 100 is driven to move along the rail 610 to the closed position, and the tower cover 100 contacts the second limiting element 520, that is: limited by SQ2, at this time, the driving motor 200 stops working; when the staff moves to the inductive switch SB2, coil KM1 is powered on, coil KM2 is powered off, the driving motor 200 rotates reversely, the tower cover plate 100 is driven to move to the open position along the rail 610, and the tower cover plate 100 contacts with the first limiting element 510, that is: limited by SQ1, at this time, the driving motor 200 stops working; when the induction switch does not sense workers, the coil KM1 loses power, the coil KM2 is powered on, the driving motor 200 rotates forwards, the tower cover plate 100 is driven to move to the closed position along the rail 610, the tower cover plate 100 is in contact with the second limiting element 520 and is limited by the second limiting element 520, and the driving motor 200 stops working. Wherein the inductive switch SB2 is used to represent the first inductive element 310 and the second inductive element 320.

Therefore, the tower drum cover plate assembly is low in equipment cost, does not have more connecting wires and saves cost.

In conclusion, by using the tower drum cover plate assembly provided by the utility model, on one hand, personal injury caused by falling objects at a high position and injury caused by hitting of objects can be effectively reduced for workers, and personal safety is ensured; on the other hand, the damage of the climbing-free device caused by untimely opening of the tower drum cover plate 100 and the damage of equipment caused by accidental closing of the tower drum cover plate 100 can be reduced when the climbing-free device is used; on the other hand, the fault processing speed can be increased, the workload of workers is reduced, and the labor intensity of the workers is reduced.

In addition, this embodiment still provides a wind generating set, including tower section of thick bamboo 010 and the above-mentioned tower section of thick bamboo apron subassembly of multiunit, multiunit tower section of thick bamboo apron subassembly is arranged along the direction of height interval of tower section of thick bamboo 010.

Through set up above-mentioned tower section of thick bamboo apron subassembly in wind generating set, correspondingly, this wind generating set has above-mentioned tower section of thick bamboo apron subassembly all advantages, and the repeated description is no longer repeated here.

In addition, the tower drum cover plate assemblies are arranged in the tower drum 010 of the wind generating set, so that each tower drum cover plate 100 can be automatically opened and closed according to the position of a worker, the use of the worker is greatly facilitated, and potential safety hazards in field work are reduced.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the utility model as defined in the appended claims.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

In the above embodiments, the descriptions of the orientations such as "up", "down", and the like are based on the drawings.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A tower cover plate assembly is characterized by comprising a tower cover plate (100) and an automatic opening and closing device, wherein the tower cover plate (100) is movably installed inside a tower (010), and the moving direction of the tower cover plate (100) is along the radial direction of the tower (010); the automatic opening and closing device comprises a driving motor (200), and a first induction element (310) and a second induction element (320) which are electrically connected with the driving motor (200), wherein the driving motor (200) is installed on the tower (010) and is in transmission connection with the tower cover plate (100) for driving the tower cover plate (100) to move; the first sensing element (310) is arranged above the tower cover plate (100), the first sensing element (310) is configured to trigger a motor shaft of the driving motor (200) to rotate in a first direction to drive the tower cover plate (100) to be closed after sensing a worker in the ascending process, and the first sensing element (310) is configured to trigger the motor shaft to rotate in a second direction to drive the tower cover plate (100) to be opened after sensing the worker in the descending process; the second sensing element (320) is arranged below the tower cover plate (100), in the ascending process, the second sensing element (320) is configured to trigger the motor shaft to rotate in the second direction when sensing a worker and drive the tower cover plate (100) to be opened, and in the descending process, the second sensing element (320) is configured to trigger the motor shaft to rotate in the first direction after sensing the worker and drive the tower cover plate (100) to be closed.

2. The tower cover assembly according to claim 1, wherein the first sensing element (310) and the second sensing element (320) are each an infrared sensing switch, and the infrared sensing switch includes an infrared signal transmitter and an infrared signal receiver, wherein the infrared signal transmitter transmits infrared light and the infrared signal receiver receives the infrared light, and the infrared light is located in a climbing path of a worker; when the infrared light is blocked, the corresponding sensing element triggers the motor shaft.

3. The tower cover assembly of claim 1, wherein the first inductive element (310) and the second inductive element (320) are both located inside the tower (010) and are disposed opposite a creeper.

4. The tower cover plate assembly according to claim 1, wherein a distance between the first sensing element (310) and the tower cover plate (100) is a, and a distance between the second sensing element (320) and the tower cover plate (100) is b, wherein a is greater than or equal to 1.5m and less than or equal to 2.5m, and b is greater than or equal to 1.5m and less than or equal to 2.5 m.

5. The tower cover plate assembly as claimed in any one of claims 1 to 4, wherein an anti-pinch module (400) is installed on the tower cover plate (100), the anti-pinch module (400) is electrically connected to the driving motor (200), and the anti-pinch module (400) triggers the motor shaft to rotate in the second direction when sensing a worker.

6. The tower cover plate assembly as claimed in any one of claims 1 to 4, wherein the tower (010) is further provided with a first limiting element (510) and a second limiting element (520), the first limiting element (510) and the second limiting element (520) being arranged one after the other and spaced apart in the direction of movement of the tower cover plate (100) from the open position to the closed position; the tower cover plate (100) is fixedly provided with a stopper (120), and the stopper (120) is positioned between the first limiting element (510) and the second limiting element (520); the first limiting element (510) and the second limiting element (520) are both electrically connected with the driving motor (200).

7. The tower cover plate assembly as claimed in claim 6, wherein a support frame (600) is fixedly arranged inside the tower (010), a rail (610) is fixedly arranged on the support frame (600), the length direction of the rail (610) extends along the radial direction of the tower (010), and the tower cover plate (100) is movably arranged on the rail (610); the driving motor (200) is mounted on the support (600), the driving motor (200) is in transmission connection with the tower cover plate (100) through a transmission mechanism (700), the transmission mechanism (700) comprises a driving pulley (710), a driven pulley (720), a synchronous belt (730) and a connecting rod (740), the driving pulley (710) and the driven pulley (720) are rotatably arranged on the support (600), the driving pulley (710) and a motor shaft are coaxially fixed, the synchronous belt (730) is supported on the driving pulley (710) and the driven pulley (720), one end of the connecting rod (740) is fixedly connected with the synchronous belt (730), and the other end of the connecting rod (740) is fixedly connected with the tower cover plate (100); the stopper (120) is fixedly arranged on the connecting rod (740).

8. The tower cover plate assembly according to any one of claims 1 to 4, wherein a limiting groove is formed in an inner wall of the tower (010), handles are movably mounted on upper and lower surfaces of the tower cover plate (100), and each handle has a limiting portion, wherein in a closed position of the tower cover plate (100), the limiting portions are in plug-in fit with the limiting groove and used for limiting up-and-down movement of the tower cover plate (100); an elastic element is connected between the handle and the tower drum cover plate (100), and the elastic element is configured to enable the limiting part to always have a movement trend of being in plug-in fit with the limiting groove.

9. The tower cover assembly of claim 8, wherein the handle is rotatably connected to the tower cover (100).

10. A wind power plant, characterized in that it comprises a tower (010) and a plurality of sets of cover plate assemblies as claimed in any one of claims 1 to 9, said sets being arranged at intervals along the height of said tower (010).

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