CN220415569U - Circulating water energy recovery and release system of thermal power plant - Google Patents
Circulating water energy recovery and release system of thermal power plant Download PDFInfo
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- CN220415569U CN220415569U CN202322072129.0U CN202322072129U CN220415569U CN 220415569 U CN220415569 U CN 220415569U CN 202322072129 U CN202322072129 U CN 202322072129U CN 220415569 U CN220415569 U CN 220415569U
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- circulating water
- release system
- power plant
- energy recovery
- thermal power
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 45
- 238000011084 recovery Methods 0.000 title claims abstract description 30
- 238000010248 power generation Methods 0.000 claims abstract description 28
- 238000007789 sealing Methods 0.000 claims description 15
- 238000006243 chemical reaction Methods 0.000 abstract description 5
- 238000010586 diagram Methods 0.000 description 4
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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Abstract
The utility model discloses a circulating water energy recovery and release system of a thermal power plant, belongs to the technical field of water treatment, and solves the problem that the circulating water energy recovery and release system of the thermal power plant in the prior art cannot provide larger force when supplying energy. The circulating water energy recovery and release system of the thermal power plant comprises a main pipeline, a power generation device, a torque lifting device and a stretching device; the main pipeline is internally provided with a power generation device, the power generation device is provided with a torque lifting device, and the torque lifting device is provided with a stretching device. According to the circulating water energy recovery and release system of the thermal power plant, provided by the utility model, larger intermittent force release is realized through the work of the power generation device, the torque lifting device and the stretching device, and vibration and feeding of the filter plate can be realized by matching with the eccentric device or the rotating device through the action of storing and then intermittently releasing the kinetic energy of circulating water, so that torque which cannot be provided by a conventional circulating water conversion device is provided.
Description
Technical Field
The utility model belongs to the technical field of water treatment, and particularly relates to a circulating water energy recovery and release system of a thermal power plant.
Background
When a power plant performs thermal power generation, the process water needs to be repeatedly used in the inner periphery of the system, and a circulating water power conversion device is usually arranged in a circulating channel of the circulating water to convert part of kinetic energy of the circulating water into electric energy required by a sensor or kinetic energy required by a control part.
The existing circulating water conversion device can only provide energy for devices with smaller energy requirements, and cannot meet the requirements of short time and large force requirements, such as vibration of a filter plate, feeding of a feeding device and the like.
Disclosure of Invention
In view of the above analysis, the utility model aims to provide a circulating water energy recovery and release system of a thermal power plant, which solves the problem that the circulating water energy recovery and release system of the thermal power plant in the prior art cannot provide larger force when supplying energy.
The aim of the utility model is mainly realized by the following technical scheme:
the utility model provides a circulating water energy recovery and release system of a thermal power plant, which comprises a main pipeline, a power generation device, a torque lifting device and a stretching device, wherein the main pipeline is connected with the power generation device; a power generation device is arranged in the main pipeline, a torque lifting device is arranged on the power generation device, and a stretching device is arranged on the torque lifting device;
the stretching device comprises a lifting rotating member, a deflector rod, a pushing column, a rotating disc, a pull rope, a guiding member and an elastic resetting member.
Further, a pushing column and a pull rope are arranged on the rotating disc, the pushing column is connected with a deflector rod, the deflector rod is fixedly provided with a lifting rotating member, the deflector rod is connected with a guiding member, and the pull rope is connected with an elastic reset member.
Further, the lifting rotating member includes a lifting spring, a square bar, and an inner Fang Caozhu; the square rod is connected in the inner square groove column in a sliding manner, and a lifting spring is fixed on one side of the inner square groove column.
Further, the elastic reset member comprises a first plate body, a telescopic rod, a telescopic spring and a second plate body; the first plate body is connected with the second plate body through a telescopic rod and a telescopic spring.
Further, extension frames are arranged on two sides of the main pipeline and used for providing space for the motion of the power generation device.
Further, the power generation device comprises a first blade, a first rotating shaft, a first straight gear and a second straight gear; the plurality of first blades are evenly distributed along the first rotating shaft, the first rotating shaft is connected with a first straight gear, and the first straight gear is meshed with a second straight gear.
Further, the power generation device further comprises a second blade, a second rotating shaft, a third straight gear and a closed rack; the second rotating shaft is connected with a third spur gear, and the third spur gear is connected with the second spur gear through a closed rack.
Further, the torque lifting device comprises a threaded rod, a fourth straight gear, a drive bevel gear and a driven bevel gear; the threaded rod is meshed with a fourth straight gear, a driving bevel gear is fixed on one side of the fourth straight gear, and a driven bevel gear is meshed with the driving bevel gear.
Further, the main pipeline is connected with the first rotating shaft through a first sealing bearing.
Further, the main pipeline is connected with the second rotating shaft through a second sealing bearing.
Further, the second spur gear is connected with the main pipeline through a third connecting rod and a third sealing bearing seat.
Further, the second spur gear is fixedly connected with the threaded rod.
Further, the fourth spur gear is connected with the main pipeline through a fourth sealing bearing and a fourth connecting rod.
Further, the driven bevel gear is connected with the main pipeline through a fifth sealing bearing and a fifth connecting rod.
Further, the square rod is fixedly connected with the driven bevel gear.
Further, the guide member includes a guide and a semicircular rod; the 2 guide pieces are fixed at two ends of the semicircular rod.
Further, the rotating disc is connected with the main pipeline through a sixth sealing bearing seat and a sixth connecting rod.
Further, the guide member is fixedly connected with the sixth connecting rod.
Further, the first plate body is fixedly connected with the main pipeline.
Further, the guide member can drive the deflector rod to ascend or descend when rotating.
Compared with the prior art, the utility model has at least the following beneficial effects:
according to the circulating water energy recovery and release system of the thermal power plant, provided by the utility model, larger intermittent force release is realized through the work of the power generation device, the torque lifting device and the stretching device, and the vibration, the feeding and the like of the filter plate can be realized by matching with the eccentric device or the rotating device through the action of storing and then intermittently releasing the kinetic energy of circulating water, so that the torque which cannot be provided by the conventional circulating water conversion device is provided.
Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model may be realized and attained by the structure particularly pointed out in the written description and drawings.
Drawings
The drawings are only for purposes of illustrating particular embodiments and are not to be construed as limiting the utility model, like reference numerals being used to refer to like parts throughout the several views.
Fig. 1 is a schematic diagram of the structure of the circulating water energy recovery and release system of the thermal power plant of the present utility model.
Fig. 2 is a schematic diagram showing the connection relationship among the power generating device, the torque lifting device and the stretching device of the circulating water energy recovery and release system of the thermal power plant.
Fig. 3 is a schematic diagram of the power generation device of the circulating water energy recovery and release system of the thermal power plant of the present utility model.
Fig. 4 is a schematic structural view of a torque lifting device of the circulating water energy recovery and release system of the thermal power plant of the present utility model.
Fig. 5 is a schematic structural view of a stretching device of the circulating water energy recovery and release system of the thermal power plant of the present utility model.
FIG. 6 is a schematic diagram showing the connection relationship among a lifting rotating member, a deflector rod and a driven bevel gear of the passive bevel gear of the circulating water energy recovery and release system of the thermal power plant.
Fig. 7 is a schematic view of the structure of a rotating disk of the circulating water energy recovery and release system of the thermal power plant of the present utility model.
Fig. 8 is a schematic structural view of an elastic restoring member of the circulating water energy recovery and release system of the thermal power plant of the present utility model.
Reference numerals:
1. the device comprises a main pipeline, an expansion frame, a power generation device, a torque lifting device and a stretching device, wherein the expansion frame is arranged in the main pipeline;
31. the first blade, 32, the first rotating shaft, 33, the first straight gear, 34, the second straight gear, 35, the second blade, 36, the second rotating shaft, 37, the third straight gear, 38, the closed rack;
41. threaded rod, 42, fourth straight gear, 43, drive bevel gear, 44, driven bevel gear;
51. lifting rotating members, 52, deflector rods, 53, pushing posts, 54, rotating discs, 55, pull ropes, 56, guiding members, 57, elastic reset members.
Detailed Description
Preferred embodiments of the present utility model are described in detail below with reference to the attached drawing figures, which form a part of the present utility model and are used in conjunction with the embodiments of the present utility model to illustrate the principles of the present utility model.
Example 1
The embodiment provides a circulating water energy recovery and release system of a thermal power plant, which is shown in fig. 1 and 2, and comprises a main pipeline 1, a power generation device 3, a torque lifting device 4 and a stretching device 5; the power generation device 3 is arranged in the driving pipeline, the torque lifting device 4 is arranged on the power generation device 3, and the stretching device 5 is arranged on the torque lifting device 4.
The flow of the circulating water in the main pipeline 1 enables the power generation device 3 to rotate, the power generation device 3 drives the torque lifting device 4 to rotate, and the torque lifting device 4 drives the stretching device 5 to compress and reset.
As shown in fig. 5, 6, 7 and 8, the stretching device 5 includes a lifting rotating member 51, a lever 52, a pushing post 53, a rotating disc 54, a pulling rope 55, a guide member 56 and an elastic restoring member 57.
Preferably, a pushing post 53 and a pull rope 55 are installed on the rotating disc 54, the pushing post 53 is connected with a deflector rod 52, the deflector rod 52 is fixed with a lifting rotating member 51, the deflector rod 52 is connected with a guiding member 56, and the pull rope 55 is connected with an elastic reset member 57.
The lifting rotating member 51 drives the deflector rod 52 to rotate, the deflector rod 52 drives the pushing post 53 to rotate, the pushing post 53 drives the rotating disc 54 to rotate, the rotating disc 54 drives the pull rope 55 to wind the rotating disc 54, when the deflector rod 52 rotates to be in contact with the guiding member 56, the guiding member 56 guides the deflector rod 52 to rotate and simultaneously move downwards, the lifting rotating member 51 is compressed, the deflector rod 52 is not in contact with the pushing post 53 any more, and the rotating disc 54 reversely rotates under the drive of the elastic reset member 57 to provide a high-torque force.
Preferably, the lifting and rotating member 51 includes a lifting spring, a square bar, and an inner Fang Caozhu; the square rod is connected in the inner square groove column in a sliding manner, and a lifting spring is fixed on one side of the inner square groove column.
The square rod rotates, and the square rod drives the inner square groove column to rotate, and the inner square groove column drives the poking rod to rotate, so that the poking rod rotates and has the up-and-down motion capability.
Preferably, the elastic restoring member 57 includes a first plate body, a telescopic rod, a telescopic spring, and a second plate body; the first plate body is connected with the second plate body through a telescopic rod and a telescopic spring.
When the rotating disc 54 is forced by the deflector rod 52, the rotating disc 54 drives the pull rope 55 to compress the extension spring, and when the rotating disc 54 is no longer forced by the deflector rod 52, the extension spring is reset to provide larger force.
Preferably, expansion brackets 2 are arranged on two sides of the main pipeline 1, and the expansion brackets 2 are used for providing space for the motion of the power generation device 3.
Preferably, as shown in fig. 3, the power generating device 3 includes a first blade 31, a first rotating shaft 32, a first spur gear 33, and a second spur gear 34; the plurality of first blades 31 are uniformly distributed along the first rotating shaft 32, the first rotating shaft 32 is connected with a first straight gear 33, and the first straight gear 33 is meshed with a second straight gear 34.
The first vane 31 drives the first rotating shaft 32 to rotate, the first rotating shaft 32 drives the first spur gear 33 to rotate, and the first spur gear 33 drives the second spur gear 34 to rotate.
Preferably, the power generating device 3 further comprises a second blade 35, a second rotating shaft 36, a third spur gear 37 and a closing rack 38; the second rotating shaft 36 is connected with a third spur gear 37, and the third spur gear 37 is connected with the second spur gear 34 through a closed rack 38.
The second blade 35 drives the second rotating shaft 36 to rotate, the second rotating shaft 36 drives the third spur gear 37 to rotate, the third spur gear 37 drives the closing rack 38 to move, the closing rack 38 drives the second spur gear 34 to rotate, and the first spur gear 33 and the third spur gear 37 jointly drive the second spur gear 34 to rotate so as to provide larger torque, and the phenomenon that transmission among parts stops due to too small provided force is avoided.
Preferably, as shown in fig. 4, the torque lifting device 4 includes a threaded rod 41, a fourth spur gear 42, a drive bevel gear 43, and a driven bevel gear 44; the threaded rod 41 is meshed with a fourth straight gear 42, a driving bevel gear 43 is fixed on one side of the fourth straight gear 42, and a driven bevel gear 44 is meshed with the driving bevel gear 43.
The threaded rod 41 drives the fourth straight gear 42 to rotate, the rapid low-torque rotation is converted into low-speed high-torque rotation, the fourth straight gear 42 drives the drive bevel gear 43 to rotate, and the drive bevel gear 43 drives the driven bevel gear 44 to rotate.
Preferably, the main pipeline 1 is connected with the first rotating shaft 32 through a first sealing bearing.
Preferably, the main pipeline 1 is connected with the second rotating shaft 36 through a second sealing bearing.
Preferably, the second spur gear 34 is connected with the main pipeline 1 through a third connecting rod and a third sealing bearing seat.
Preferably, the second spur gear 34 is fixedly connected with the threaded rod 41.
Preferably, the fourth spur gear 42 is connected with the main pipeline 1 through a fourth sealing bearing and a fourth connecting rod.
Preferably, the driven bevel gear 44 is connected with the main pipeline 1 through a fifth sealing bearing and a fifth connecting rod.
Preferably, the square bar is fixedly connected with the driven bevel gear 44.
Preferably, the guide member 56 comprises a guide and a semicircular rod; the 2 guide pieces are fixed at two ends of the semicircular rod.
Preferably, the rotating disc 54 is connected with the main pipeline 1 through a sixth sealing bearing seat and a sixth connecting rod.
Preferably, the guide member 56 is fixedly connected to the sixth connecting rod.
Preferably, the first plate body is fixedly connected with the main pipeline 1.
Preferably, the guide member 56 is capable of moving the lever 52 up or down when rotated.
According to the circulating water energy recovery and release system of the thermal power plant, provided by the utility model, larger intermittent release force is realized through the work of the power generation device 3, the torque lifting device 4 and the stretching device 5, and the functions of vibration, feeding and the like of the filter plate can be realized by matching with the eccentric device or the rotating device through the action of storing and then intermittently releasing the kinetic energy of circulating water, so that the torque which cannot be provided by the conventional circulating water conversion device is provided.
The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.
Claims (10)
1. The utility model provides a circulation water energy recuperation release system of steam power plant which characterized in that: comprises a main pipeline (1), a power generation device (3), a torque lifting device (4) and a stretching device (5); a power generation device (3) is arranged in the main pipeline (1), a torque lifting device (4) is arranged on the power generation device (3), and a stretching device (5) is arranged on the torque lifting device (4);
the stretching device (5) comprises a lifting rotating member (51), a deflector rod (52), a pushing column (53), a rotating disc (54), a pull rope (55), a guiding member (56) and an elastic resetting member (57).
2. The circulating water energy recovery and release system of a thermal power plant according to claim 1, wherein: the rotary disc (54) is provided with a pushing column (53) and a pull rope (55), the pushing column (53) is connected with a deflector rod (52), the deflector rod (52) is fixedly provided with a lifting rotary member (51), the deflector rod (52) is connected with a guide member (56), and the pull rope (55) is connected with an elastic reset member (57).
3. The circulating water energy recovery and release system of a thermal power plant according to claim 2, characterized in that: the lifting rotating member (51) comprises a lifting spring, a square rod and an inner Fang Caozhu; the square rod is connected in the inner square groove column in a sliding manner, and a lifting spring is fixed on one side of the inner square groove column.
4. The circulating water energy recovery and release system of a thermal power plant according to claim 1, wherein: extension frames (2) are arranged on two sides of the main pipeline (1), and the extension frames (2) are used for providing space for movement of the power generation device (3).
5. The circulating water energy recovery and release system of a thermal power plant according to claim 1, wherein: the power generation device (3) comprises a first blade (31), a first rotating shaft (32), a first straight gear (33) and a second straight gear (34); the plurality of first blades (31) are uniformly distributed along the first rotating shaft (32), the first rotating shaft (32) is connected with a first straight gear (33), and the first straight gear (33) is meshed with a second straight gear (34).
6. The circulating water energy recovery and release system of a thermal power plant according to claim 5, wherein: the power generation device (3) further comprises a second blade (35), a second rotating shaft (36), a third spur gear (37) and a closing rack (38); the second rotating shaft (36) is connected with a third spur gear (37), and the third spur gear (37) is connected with the second spur gear (34) through a closed rack (38).
7. The circulating water energy recovery and release system of a thermal power plant according to claim 1, wherein: the torque lifting device (4) comprises a threaded rod (41), a fourth straight gear (42), a drive bevel gear (43) and a driven bevel gear (44); the threaded rod (41) is meshed with a fourth straight gear (42), a driving bevel gear (43) is fixed on one side of the fourth straight gear (42), and a driven bevel gear (44) is meshed with the driving bevel gear (43).
8. The circulating water energy recovery and release system of a thermal power plant according to claim 5, wherein: the main pipeline (1) is connected with the first rotating shaft (32) through a first sealing bearing.
9. The circulating water energy recovery and release system of a thermal power plant according to claim 6, wherein: the main pipeline (1) is connected with the second rotating shaft (36) through a second sealing bearing.
10. The circulating water energy recovery and release system of a thermal power plant according to claim 5, wherein: the second spur gear (34) is connected with the main pipeline (1) through a third connecting rod and a third sealing bearing seat.
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CN202322072129.0U CN220415569U (en) | 2023-08-03 | 2023-08-03 | Circulating water energy recovery and release system of thermal power plant |
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CN202322072129.0U CN220415569U (en) | 2023-08-03 | 2023-08-03 | Circulating water energy recovery and release system of thermal power plant |
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