CN207761884U - A kind of multi-functional tower system of multi-claw type for wind power generation - Google Patents

Abstract

The utility model is related to a kind of multi-functional tower systems of the multi-claw type for wind power generation, include main basal base, tower base and supporting mechanism with door, in supporting mechanism of the end surface installation with socket of the tower base, another end surfaces of the tower base are connect by transmission mechanism with the power source inside main basal base, and wind movement is along the circumferential direction sought with supporting mechanism, socket and tower base by the power source drive transmission mechanism and drive.The utility model is simple in structure, easy for installation, and floor space is small, can directly build a station in Around the house, field user side.It can be used as local new energy application landmark, it can be with spare interface in each main support rod and middle studdle of supporting mechanism, in the case where not influencing structural strength, searchlight, shot-light and reserved billboard installation site are installed, for city publicity etc., raising system landscape increases the diversification performance of pylon function.

Description

A kind of multi-functional tower system of multi-claw type for wind power generation

Technical field

The utility model is related to field of wind power equipment more particularly to a kind of multi-claw type for wind power generation are multi-functional Tower system.

Background technology

The new wind power technology of distributing is the important development direction of future world new energy technology, it has efficiency of energy utilization Height, environment negative effect is small, improves energy supply reliability and good in economic efficiency feature.According to《Wind Power Development " 13 " Planning》, the low wind speed distributing Wind Power Generation of the central and east and southern area will become the accent of " 13 " period industry development Play.

It is well known that conventional fan imagine with lengthen blade wind sweeping area break through this area, make its rob a seat it Ground lengthens blade and brings cost increase, and safety factor decline, transport difficult, load increasing are outer, prevent it from total with people, animal It deposits.Therefore, the wind gathering type wind-driven generator generated according to funnelling is due to its wind gathering characteristic, pressure-raising speedup kinetic energy, raising The advantage of wind energy utilization is with a wide range of applications in technical field of wind power generation, and conventional fan is got over from people residential area Closely, bigger to the dysopia of inhabitation people, safety is poorer, and efficiency is lower.For new wind-powered electricity generation, nor unalterable , it is necessary to landform, wind regime, geographical location, specification size, match most adaptable type and pylon.

Currently, the application places of existing wind collection power generation system are spacious region and wind energy concentration lower region, adopt With bikini pylon structure, but in the case where the smaller condition in basis is limited, especially pylon top wind speed is big, lower part and bottom The case where portion gravity increases load after increasing, it is easy to so that the generating equipment in support component is unable to control or out of control causes Equipment is damaged, and the service life of wind-driven generator is greatly reduced, and be cannot be satisfied the use demand of client and is realized stable state power generation.

Utility model content

The applicant is directed to above-mentioned existing issue, has carried out Improvement, provides a kind of multi-claw type for wind power generation Multi-functional tower system has the advantages that easily transport is assembled, construction cost is low, floor space is small, bearing strength is high.

Technical solution used by the utility model is as follows：

A kind of multi-functional tower system of multi-claw type for wind power generation, include main basal base with door, tower base and Supporting mechanism, in supporting mechanism of the end surface installation with socket of the tower base, the other end of the tower base Surface is connect by transmission mechanism with the power source inside main basal base, by the power source drive transmission mechanism and is driven with branch Support mechanism, socket and tower base along the circumferential direction seek wind movement.

Its further technical solution is：

The concrete structure of the supporting mechanism is as follows：

The main support rod for being used to support socket including more and one are for installing socket and the centre perpendicular with ground Supporting rod, each main support rod is inclined to be arranged and is enclosed one with tapered main frame structure, the main frame structure Taper from top to bottom be in gradually successively decrease, the middle studdle is located at the inside of the main frame structure and perpendicular to ground, respectively Main support rod and middle studdle are caliber from top to bottom in gradually incremental conical pipe；

Supporting rod is reinforced in connection first between each main support rod adjacent each other, and be located at the same face each first adds Strong supporting rod is enclosed polygonal frame structure, in the length of each piece first reinforcement supporting rod of the main frame structure per one side Degree is in gradually to be incremented by from bottom to top；In each first top for reinforcing supporting rod, in middle studdle adjacent each other and each master The second reinforcement supporting rod is also connected between supporting rod, the length of each second reinforcement supporting rod is in from bottom to top in main frame structure Gradually it is incremented by；Multiple pylon cat ladders are also arranged from top to bottom in the periphery of the middle studdle；

It is at least also connect with one end of hound under reinforcement in each first reinforcement supporting rod periphery lower part of the same face, respectively The other end for reinforcing lower hound is connect with main support rod；At least on the periphery of each second reinforcement supporting rod of the same face Portion is also connect with the one end for reinforcing upper hound, and each other end for reinforcing upper hound is also connect with main support rod；

At least one end that two opposite each other main support rods are connect with socket also arrange from top to bottom more for branch The first of stay tube cylinder reinforces connecting tube, is at least also arranged in one end that other two main support rods opposite each other are connect with socket A pair second reinforces connecting tube and a pair of of third reinforces connecting tube；

The length of each first reinforcement connecting tube is in gradually to be incremented by from top to bottom on main support rod, and each second reinforces connection Pipe, third are reinforced connecting tube and are arranged symmetrically centered on the main support rod；

The power source includes the multiple yaw motors being set to inside main basal base, and the transmission mechanism includes and yaw electricity The yaw gear of machine output end connection and the yaw bearing for being connected to main basal base surface, the yaw bearing are installed on yaw bearing The surface of the surface of pedestal, the yaw bearing pedestal and main basal base connects；The internal tooth of the yaw gear and yaw bearing is mutual For engagement；

The cover board with door is also set up in the upper surface of the flange.

The beneficial effects of the utility model are as follows：

The utility model is simple in structure, easy for installation, and floor space is small, can be straight in Around the house, field user side It connects and builds a station.Local new energy application landmark is can be used as, in each main support rod and middle studdle of supporting mechanism, not It influences searchlight, shot-light and reserved billboard installation site can be installed with spare interface in the case of structural strength, is used for city City's publicity etc., improves system landscape, increases the diversification performance of pylon function.

The utility model is directly bolted with wind power generation with narrow tube cylinder, eliminates original support platform, drop Low manufacture and complete machine construction cost, support construction is more reasonable, intensity higher, and the high gravity for being more suitable for wind power generation unit carries Lotus improves antidumping, anti-fatigue ability and set steady and the safety of pylon.Each main support rod and middle studdle Between have larger gap, reduce the wind resistance area of pylon, connect with pylon main support rod using each reinforcement connecting tube, can be effective Reduction cause resonance with socket because blade rotates, make unit noise smaller, green clean energy resource provided for society Meanwhile noise pollution will not be formed to resident living.

Supporting mechanism is connected by the Taper Pipe and pipe of more different sizes in the utility model, and material is easily purchased, steel pipe point Duan Heli is easily transported.Different size steel pipe is numbered, by flanged joint, it can be achieved that rapid assembly between each pipe or Taper Pipe, Steel pipe passes through zinc-plated processing, improves the utility model service life.

The utility model bottom is taper reinforced concrete plinth, has high bearing capacity, service life is long, construction cost Low, the utility model selects internal-gear type yaw bearing, is fixedly installed in inside concrete pedestal using multiple synchronous yaw motors, Maintenance, maintenance convenient for the later stage to Yawing mechanism, can adjust unit Windward angle in due course, most rationally efficiently according to environment wind direction Using wind-resources, also using reinforced concrete plinth as army post (class is unit), especially for outlying district, height While cold, High aititude, isolated island solve power supply, quality of further making the life better.

Description of the drawings

Fig. 1 is the dimensional structure diagram I of the utility model.

Fig. 2 is enlarged structure schematic diagrams of the Fig. 1 at A.

Fig. 3 is the dimensional structure diagram II of the utility model.

Fig. 4 is enlarged structure schematic diagrams of the Fig. 3 at B.

Fig. 5 is the partial structural diagram I of pedestal in the utility model.

Fig. 6 is the partial structural diagram II of pedestal in the utility model.

Fig. 7 is the application state schematic diagram of the utility model.

Wherein：1, main basal base；101, door；2, yaw bearing pedestal；3, yaw bearing；4, tower base；5, supporting mechanism； 501, main support rod；502, middle studdle；503, pylon cat ladder；504, first reinforces supporting rod；505, second reinforces support Bar；506, hound in reinforcement；507, reinforce lower hound；508, first reinforces connecting tube；509, second reinforces connecting tube； 510, third reinforces connecting tube；6, cover board；7, door；8, flange；9, shaped steel；10, yaw motor；11, yaw gear；12, it manages Cylinder.

Specific implementation mode

Illustrate specific embodiment of the present utility model below.

As shown in Figure 1, Figure 2 and shown in Fig. 3 and Fig. 7, a kind of multi-functional tower system of multi-claw type for wind power generation includes Main basal base 1, tower base 4 with door 101 and supporting mechanism 5, main basal base 1 are taper reinforced concrete plinth；In pylon base Supporting mechanism 5 of the end surface installation with socket 12 of seat 4, another end surfaces of tower base 4 pass through transmission mechanism and master Power source connection inside pedestal 1, by power source drive transmission mechanism and drives with supporting mechanism 5, socket 12 and pylon base Seat 4 along the circumferential direction seeks wind movement.

As shown in figure 3, the concrete structure of above-mentioned supporting mechanism 5 is as follows：

Including the more main support rods for being used to support socket 12 501 and one for socket 12 is installed and with ground it is perpendicular Middle studdle 502, the inclined arrangement of each main support rod 501 is simultaneously enclosed one with tapered main frame structure, main The taper of frame structure from top to bottom be in gradually successively decrease, middle studdle 502 be located at the inside of the main frame structure and perpendicular to Ground, each main support rod 501 and middle studdle 502 are caliber from top to bottom in gradually incremental conical pipe.

As shown in Figure 2 and Figure 3, between each main support rod 501 adjacent each other connection for reinforcing support strength the One reinforces supporting rod 504, and each first reinforcement supporting rod 504 positioned at the same face is enclosed polygonal frame structure, in master The length of each piece first reinforcement supporting rod 504 of the frame structure per one side is in gradually to be incremented by from bottom to top；In each first reinforcement The top of supporting rod 504 is also connected between middle studdle 502 and each main support rod 501 adjacent each other for reinforcing branch Support intensity second reinforce supporting rod 505, in main frame structure it is each second reinforce supporting rod 505 length from bottom to top be in by Gradually it is incremented by；Multiple pylon cat ladders 503 are also arranged from top to bottom in the periphery of middle studdle 502.As shown in Figure 2 and Figure 3, at least It is also connect with one end of hound under reinforcement 507 in each first 504 periphery lower part of reinforcement supporting rod of the same face, under each reinforcement The other end of hound 507 is connect with main support rod 501；At least in the outer of each second reinforcement supporting rod 505 of the same face All top also connect with the one end for reinforcing upper hound 506, each other end for reinforcing above hound 506 also with main support rod 501 connections.At least one end that two opposite each other main support rods 501 are connect with socket 12 also arrange from top to bottom more with First in support tube 12 reinforces connecting tube 508, at least connects in other two main support rods 501 opposite each other and socket 12 The one end connect also arranges that a pair second reinforces connecting tube 509 and a pair of of third reinforces connecting tube 510.It is each on main support rod 501 The length that root first reinforces connecting tube 508 is in gradually to be incremented by from top to bottom, and each second reinforces connecting tube 509, third reinforces connection Pipe 510 is arranged symmetrically centered on main support rod 501.

Hound 506, the lower hound of reinforcement on the above-mentioned first reinforcement reinforcement of supporting rod 504, second supporting rod 505, reinforcement 507, first reinforces connecting tube 508, second to reinforce connecting tube 509 and third reinforcement connecting tube 510 being pipe, above-mentioned first Hound 506, the lower hound 507, first of reinforcement are reinforced connecting on the reinforcement reinforcement of supporting rod 504, second supporting rod 505, reinforcement Pipe 508, second reinforces connecting tube 509 and third and reinforces the both ends of connecting tube 510 being both provided with flange, main support rod 501 and in Between the junction of supporting rod 502 and above-mentioned each pipe be also both provided with flange.

As shown in Fig. 4, Fig. 5 and Fig. 6, power source includes the multiple yaw motors 10 being set to inside main basal base 1, driver Structure includes the yaw gear 11 being connect with 10 output end of yaw motor and the yaw bearing 3 for being connected to 1 surface of main basal base, yaw axis Holding 3 uses internal-gear type bearing, yaw bearing 3 to be installed on the surface of yaw bearing pedestal 2, yaw bearing pedestal 2 and main basal base 1 Surface connects；Yaw gear 11 engages each other with the internal tooth of yaw bearing 3.It is also set up in the inside of tower base 4 for connecting The shaped steel 9 of each main support rod 501 and middle studdle 502, the shaped steel 9 are H profile steel, shaped steel 9 and each main support rod 501 and in Between supporting rod 502 joint face at flange 8 is set, also set up with door 7 in the tower base 4, in the upper surface of flange 8 Cover board 6, maintenance personal can climb up the surface of cover board 6 by opening door 7 out of main basal base 1, then pass through pylon cat ladder 503 It is overhauled to designated position.The specific work process of the utility model is as follows：

Torsion is generated by yaw motor 10, so that supporting mechanism 5 and socket 12 is rotated by yaw gear 11 and yaw bearing 3 It is directed at wind direction, the motor signal of yaw motor 10 comes from anemoclinograph (not shown), when anemoclinograph senses The air inlet orientation angle of wind direction and socket 12 is deviated more than 10 °, just starts yaw motor 10, which can be positive and negative Turn, realizes that 360 ° of supporting mechanism 5 and socket 12 are sought wind with this.

The utility model is simple in structure, easy for installation, and floor space is small, can be straight in Around the house, field user side It connects and builds a station.Local new energy application landmark is can be used as, in each main support rod and middle studdle of supporting mechanism, not It influences searchlight, shot-light and reserved billboard installation site can be installed with spare interface in the case of structural strength, is used for city City's publicity etc., improves system landscape, increases the diversification performance of pylon function.

The utility model is directly bolted with wind power generation with narrow tube cylinder, eliminates original support platform, drop Low manufacture and complete machine construction cost, support construction is more reasonable, intensity higher, and the high gravity for being more suitable for wind power generation unit carries Lotus improves antidumping, anti-fatigue ability and set steady and the safety of pylon.Each main support rod and middle studdle Between have larger gap, reduce the wind resistance area of pylon, connect with pylon main support rod using each reinforcement connecting tube, can be effective Reduction cause resonance with socket because blade rotates, make unit noise smaller, green clean energy resource provided for society Meanwhile noise pollution will not be formed to resident living.

Supporting mechanism is connected by the Taper Pipe and pipe of more different sizes in the utility model, and material is easily purchased, steel pipe point Duan Heli is easily transported.Different size steel pipe is numbered, by flanged joint, it can be achieved that rapid assembly between each pipe or Taper Pipe, Steel pipe passes through zinc-plated processing, improves the utility model service life.

The utility model bottom is taper reinforced concrete plinth, has high bearing capacity, service life is long, construction cost Low, the utility model selects internal-gear type yaw bearing, is fixedly installed in inside concrete pedestal using multiple synchronous yaw motors, Maintenance, maintenance convenient for the later stage to Yawing mechanism, can adjust unit Windward angle in due course, most rationally efficiently according to environment wind direction Using wind-resources, also using reinforced concrete plinth as army post (class is unit), especially for outlying district, height While cold, High aititude, isolated island solve power supply, quality of further making the life better.

Above description is the explanation to the utility model, is not the restriction to utility model, defined by the utility model Range is referring to claim, and without prejudice to the basic structure of the utility model, the utility model can make any shape The modification of formula.

Claims (8)

1. a kind of multi-functional tower system of multi-claw type for wind power generation, it is characterised in that：Main base including carrying door (101) Seat (1), tower base (4) and supporting mechanism (5) carry socket (12) in the end surface installation of the tower base (4) Another end surfaces of supporting mechanism (5), the tower base (4) are connected by the internal power source of transmission mechanism and main basal base (1) It connects, by the power source drive transmission mechanism and drives with supporting mechanism (5), socket (12) and tower base (4) circumferentially Wind movement is sought in direction.

2. a kind of multi-functional tower system of multi-claw type for wind power generation as described in claim 1, it is characterised in that：It is described The concrete structure of supporting mechanism (5) is as follows：

Including the more main support rods for being used to support socket (12) (501) and one for installing socket (12) and with ground in vertical Straight middle studdle (502), each main support rod (501) is inclined to arrange and is enclosed one with tapered main frame knot Structure, the taper of the main frame structure are in gradually to successively decrease from top to bottom, and the middle studdle (502) is located at the main frame structure Inside and perpendicular to ground, it is in gradually to be incremented by from top to bottom that each main support rod (501) and middle studdle (502), which are caliber, Conical pipe.

3. a kind of multi-functional tower system of multi-claw type for wind power generation as claimed in claim 2, it is characterised in that：Each Supporting rod (504) is reinforced in connection first between root main support rod adjacent each other (501), is located at each first reinforcement of the same face Supporting rod (504) is enclosed polygonal frame structure, in each piece first reinforcement supporting rod of the main frame structure per one side (504) length is in gradually to be incremented by from bottom to top；In each first top for reinforcing supporting rod (504), in adjacent each other Between the second reinforcement supporting rod (505) is also connected between supporting rod (502) and each main support rod (501), it is each in main frame structure Second length for reinforcing supporting rod (505) is in gradually to be incremented by from bottom to top；The periphery of the middle studdle (502) from upper and Under also arrange multiple pylon cat ladders (503).

4. a kind of multi-functional tower system of multi-claw type for wind power generation as claimed in claim 2, it is characterised in that：At least It also connect with one end of hound (507) under reinforcement in each first reinforcement supporting rod (504) periphery lower part of the same face, respectively adds The other end of strong lower hound (507) is connect with main support rod (501)；At least reinforce supporting rod at each second of the same face (505) periphery top is also connect with the one end for reinforcing upper hound (506), and each other end for reinforcing upper hound (506) is equal Also it is connect with main support rod (501).

5. a kind of multi-functional tower system of multi-claw type for wind power generation as claimed in claim 2, it is characterised in that：At least More are also arranged from top to bottom in one end that two opposite each other main support rods (501) connect with socket (12) is used to support pipe The first of cylinder (12) reinforces connecting tube (508), at least connects in other two main support rods (501) opposite each other and socket (12) The one end connect also arranges that a pair second reinforces connecting tube (509) and a pair of of third reinforces connecting tube (510).

6. a kind of multi-functional tower system of multi-claw type for wind power generation as claimed in claim 5, it is characterised in that：In master Upper each first length for reinforcing connecting tube (508) of supporting rod (501) is in gradually to be incremented by from top to bottom, and each second reinforces connecting tube (509), third reinforcement connecting tube (510) is arranged symmetrically centered on the main support rod (501).

7. a kind of multi-functional tower system of multi-claw type for wind power generation as described in claim 1, it is characterised in that：It is described Power source includes being set to the internal multiple yaw motors (10) of main basal base (1), and the transmission mechanism includes and yaw motor (10) yaw gear (11) of output end connection and it is connected to the yaw bearing (3) on main basal base (1) surface, the yaw bearing (3) it is installed on the surface of yaw bearing pedestal (2), the yaw bearing pedestal (2) connect with the surface of main basal base (1)；It is described Yaw gear (11) engages each other with the internal tooth of yaw bearing (3).

8. a kind of multi-functional tower system of multi-claw type for wind power generation as described in claim 1, it is characterised in that：Institute The inside for stating tower base (4) also sets up shaped steel (9) for connecting each main support rod (501) and middle studdle (502), Shaped steel (9) and setting flange (8) at the joint face of each main support rod (501) and middle studdle (502), in the tower base (4) cover board (6) with door (7) is also set up in, in the upper surface of the flange (8).