CN104697218A - Connecting base of tower type solar energy thermal power station heliostat - Google Patents

Abstract

The invention provides a connecting base of a tower type solar energy thermal power station heliostat. The connecting base reduces the friction between a hoop and a rotation shaft by arranging a bearing between the hoop and the rotation shaft, so that the rotation shaft can rotate more smoothly; a sleeve and a seal ring are arranged outside the bearing, so that the rotation shaft and the bearing are located in a relatively closed space, long-term exposure of a flange shaft used as the rotation shaft in the air is avoided, and abrasion of the flange shaft caused by corrosion and fallen dust is avoided; the connecting base needs no coating, so that the connecting base is not required to be detached frequently to update the coating, the maintenance cost is low; the hoop and the connecting base are integrated, so that the connecting base has better overall support capability, meanwhile, the hoop only plays a role of fixing the bearing, so that the requirements for manufacturing precision of an upper buckle plate and a lower buckle plate are low; a pair of projection parts having head pin mounting holes extend downward to a connecting base flange and are integrated with the connecting base flange, so that the strength of a connection position between the connecting base flange and a push rod is enhanced.

Description

A kind of Connection Block of tower type solar thermo-power station heliostat

Technical field

The present invention relates to the heliostat structure member of field of solar thermal power generation, particularly a kind of Connection Block of tower type solar thermo-power station heliostat.

Background technology

While economic development, the energy is increasingly short, and traditional non-renewable energy resources are day by day exhausted, and economic development is more and more limited by the exploitation of the energy, and the utilization of regenerative resource is subject to common concern, and particularly solar energy is more by the attention of common people.

Current solar energy thermal-power-generating can be divided into the generating of (1) tower type solar according to solar energy acquisition mode; (2) trough type solar power generation; (3) disc type solar energy heat generating

In photo-thermal power generation field, because tower type solar energy thermal power generation has high photo-thermal conversion efficiency, high focus temperature, focus objects maintains static and makes control system installation and debugging simple, the advantageous feature that radiation loss waits less, can the new energy source technology of commercial operation by becoming the next one.

Especially in tower type solar energy thermal power generation field, heliostat is an important component part of tower type solar electricity generation system.As shown in Figure 1, sunshine reflexes on heat dump by heliostat, heats, be heat energy, realize light and heat collection by light energy conversion heat absorption working medium, and then driving steam turbine generating.As shown in Figure 2, the mirror body 1 of current heliostat is generally connected with column 5 by Connection Block 4, orientation angle driving device 3 and level angle drive unit 2 need, by Connection Block 4, mechanical energy is passed to mirror body 1 simultaneously, realize the rotation of the different azimuth of mirror body 1.Wherein, mirror body 1 comprises speculum 11 and mirror holder 12.Therefore the structure of Connection Block all can have a certain impact to the motion of heliostat in horizontal angle and azimuth.

Existing Connection Block generally adopts directly to be located on Connection Block by flange shaft, when heliostat rotates, the rotation of flange shaft will rub with Connection Block, thus make flange shaft and Connection Block be easy to be worn, and, Connection Block herein will match with flange shaft, and require high to the accuracy of manufacture of Connection Block, manufacturing cost is higher.Prior art adopts and on Connection Block, arranges coating to reduce wear, but the durability of coating is more weak, loss is very fast, need to change coating continually, maintenance cost is higher, in addition, although be provided with coating between Connection Block and flange shaft, but still can inevitably rub between Connection Block and flange shaft, after long-term running, the probability that Connection Block is damaged is larger, because Connection Block is not industrial standard component, and volume and weight is larger, therefore the cost changing Connection Block is higher, and, flange shaft is exposed in air by scheme of the prior art, water in air can make it that corrosion occurs, dust enters into the contact surface of Connection Block and flange shaft, the rotation of flange shaft can be affected.

Summary of the invention

The object of the present invention is to provide a kind of Connection Block of tower type solar thermo-power station heliostat, to be damaged the problem that probability is large, replacement cost is high to solve the existing Connection Block proposed in background technology.

For achieving the above object, the invention provides a kind of Connection Block of tower type solar thermo-power station heliostat, this Connection Block is connected with orientation angle driving device and level angle drive unit respectively, this Connection Block bottom is connected with column by orientation angle driving device simultaneously, upper end is connected with the mirror holder of the mirror body of heliostat, it is characterized in that, comprising:

Connection Block body, described Connection Block body is the support member that side caves inward;

Connection Block flange, is located at described Connection Block body lower part, and described Connection Block flange is connected with described column by orientation angle driving device;

Head pin installing hole, is located at the described Connection Block body back side, for connecting level angle drive unit;

Upper buckle and lower pinch plate, wherein, lower pinch plate is located at described Connection Block body upper part, and forms the anchor ear that axis is horizontal direction together with upper buckle;

Parts of bearings, described parts of bearings comprises bearing and horizontal rotating shaft, and described horizontal rotating shaft is sheathed in described bearing, and described bearing holder (housing, cover) is located in described anchor ear, and described parts of bearings is held tightly and is fixed on Connection Block by described anchor ear;

Wherein, described horizontal rotating shaft rotates under described level angle drive unit directly or indirectly drives, and described horizontal rotating shaft is freely rotated in described anchor ear by described bearing; A pair protuberance with head pin installing hole extends downward Connection Block flange and becomes to be integrated with Connection Block flange.

Preferably, described parts of bearings also comprises sleeve, and described sleeve is located between described parts of bearings and described anchor ear.

Preferably, described sleeve is provided with breather plug.

Preferably, described sleeve two ends are respectively equipped with sealing ring.

Preferably, when described horizontal rotating shaft rotates in described parts of bearings, the pivot of described heliostat mirror body and the offset distance of the mirror body weight heart are less than 50mm.

Preferably, described mirror holder has a girder, described girder is fixedly connected with this Connection Block by girder bearing, during connection, described girder is positioned at the place that caves inward of described Connection Block body, when the minute surface of heliostat is in level, cave inward inwall any point of side of Connection Block body is greater than 2mm to the distance of described girder.

Preferably, the wall thickness range of described Connection Block body is 5mm ~ 14mm.

Preferably, the material of described Connection Block body is cast steel and/or cast iron.

Preferably, described Connection Block body has a cavity, is provided with some reinforcements in described cavity.

Preferably, the junction between described Connection Block body and Connection Block flange is provided with some reinforcements.

Preferably, the error of perpendicularity scope of the central axis of described Connection Block flange and the central axis of described horizontal rotating shaft is ± 2 °.

Preferably, the weight of Connection Block is 25kg ~ 40kg; The height dimension of Connection Block is 400mm-600mm.

Preferably, described Connection Block body, lower pinch plate and Connection Block flange are integral type structure.

Preferably, described bearing is sliding bearing.

The Connection Block of tower type solar thermo-power station heliostat provided by the invention achieves following technique effect by the mode arranging bearing between anchor ear and rotating shaft:

1) frictional force between the two when decreasing axis of rotation, the use of sliding bearing, makes the rotation of rotating shaft in anchor ear more smooth and easy.Need not add coating, do not need to dismantle continually with more new coating, maintenance cost is lower.

2) interpolation of sleeve and sealing ring makes rotating shaft and bearing be in a relative airtight space, the flange shaft avoided as rotating shaft is chronically exposed in air, namely avoid and meet water generation corrosion, it also avoid the flange shaft wearing and tearing falling into dust and cause, affect rotation and the working time of bearing.

3) anchor ear only plays the effect of rigid bearing, do not play as rotating shaft provides the effect of rotation space, therefore, require low to the matching degree of upper buckle and lower pinch plate and rotating shaft, require low to the accuracy of manufacture of upper buckle and lower pinch plate, and then reach cost-effective object.

4) anchor ear and Connection Block are structure as a whole, and connecting base structure integrated support ability is better, simultaneously because anchor ear only plays the effect of rigid bearing, can not heavy wear be there is in it, only need change bearing during bearing damage, and whole Connection Block need not be changed, reduce later maintenance cost further.

5) a pair protuberance with head pin installing hole extends downward Connection Block flange and becomes to be integrated with Connection Block flange, can play the effect of the rigidity strengthening Connection Block flange and push rod junction.

Accompanying drawing explanation

In order to understand the present invention, referring now to accompanying drawing, embodiment is described, wherein:

Fig. 1 is the condenser system schematic diagram of tower type solar energy thermal power generation;

Fig. 2 is the heliostat overall structure schematic diagram of tower type solar energy thermal power generation;

Fig. 3 is the overall structure schematic rear view of Connection Block provided by the invention;

Fig. 4 is the overall structure front schematic view of Connection Block provided by the invention;

Fig. 5 is that the upper buckle of Connection Block provided by the invention and lower pinch plate disassemble view;

Fig. 6 is the structural representation of the embodiment one of Connection Block provided by the invention;

Fig. 7 is the horizontal rotating shaft of Connection Block provided by the invention and the schematic diagram of vertical rotation axis;

Fig. 8 is the schematic rear view that Connection Block provided by the invention is connected with heliostat mirror body, level angle drive unit and orientation angle driving device;

Fig. 9 is the front schematic view that Connection Block provided by the invention is connected with heliostat mirror body, level angle drive unit and orientation angle driving device;

The parts of bearings schematic diagram of Figure 10 Connection Block provided by the invention;

Figure 11 is the structural representation of the embodiment two of Connection Block provided by the invention;

Figure 12 is Connection Block provided by the invention integration perspective view.

Label declaration: 1-mirror body; 2-level angle drive unit; 3-orientation angle driving device; 4-Connection Block; 5-column; 11-speculum; 12-mirror holder; 121-girder; 122-girder bearing; 21-push rod connector; 22-push rod; 23-push rod cylinder body; 41-Connection Block body; 42-parts of bearings; 43-Connection Block flange; 44-head pin installing hole; 45-reinforcement; The upper buckle of 46-; 47-lower pinch plate; 48-breather plug; 49-rivet; 401-central axis I; 402-central axis II; 421-bearing; 422-horizontal rotating shaft; 423-sealing ring; 424-sleeve.

Detailed description of the invention

For better the present invention being described, hereby with preferred embodiment, and accompanying drawing is coordinated to elaborate to the present invention, specific as follows:

Embodiment one:

As shown in Figure 3, Connection Block 4 provided by the invention comprises Connection Block body 41, parts of bearings 42, Connection Block flange 43 and head pin installing hole 44.Wherein, Connection Block body 41 is the support member of an arc, in other preferred embodiments, Connection Block body 41 can be the support member that side caves inward, and the shape of depression can be the support member that semicircle, " recessed " shape or other any planforms can hold the girder 121 of mirror holder 12; Head pin installing hole 44 is located in the curved rear of Connection Block body 41, and head pin installing hole 44 is for being connected with the level angle drive unit 2 of mirror body 1, and the elevation angle that can be controlled mirror body 1 by level angle drive unit 2 is rotated; Connection Block flange 43 is located at the bottom of Connection Block body 41, and Connection Block flange 43 is connected with column 5 by orientation angle driving device 3.

As shown in Figure 4, Connection Block body 41 has a cavity, is provided with some reinforcements 451 in cavity, and the setting of reinforcement 451 significantly can improve the weight capacity of Connection Block body 41, reduces the deformation of whole Connection Block 4.In addition, the junction between Connection Block body 41 and Connection Block flange 43 is also provided with reinforcement 452, can improve the bonding strength between Connection Block body 41 and Connection Block flange 43 further.

As shown in Figure 5, Figure 6, Connection Block 4 also comprises buckle 46 and lower pinch plate 47, lower pinch plate 47 is located at the top of Connection Block body 41, and the anchor ear that axis is horizontal direction is formed together with upper buckle 46, parts of bearings 42 comprises bearing 421 and horizontal rotating shaft 422, bearing 421 is sheathed in anchor ear, and parts of bearings 42 is held tightly and is fixed on Connection Block 4 by anchor ear; Bearing 421 is set in horizontal rotating shaft 422 outer surface, and horizontal rotating shaft 422 can freely be rotated.And level angle drive unit 2 is fixedly connected with indirectly with horizontal rotating shaft 422, level angle drive unit 2 realizes the control to the different elevation angle of mirror body 1 by the rotation of level of control rotating shaft 422 in anchor ear.

Wherein, parts of bearings 42 is the horizontal rotating shaft of Connection Block 4, horizontal rotating shaft 422 be two ends be provided with flange and axis direction is the rotating shaft of horizontal direction, or horizontal rotating shaft 422 be two one-sided be provided with flange and axis direction is the rotating shaft of horizontal direction.Bearing 421 is sliding bearing.Parts of bearings 42 scheme of installation as shown in Figure 6, figure comprises two horizontal rotating shafts 422, the horizontal rotating shaft 422 on right side is wherein only shown, horizontal rotating shaft 422 is being provided with flange near side, outside, horizontal rotating shaft 422 is installed in bearing 421, and horizontal rotating shaft 422 freely can rotate in bearing 421, and bearing 421 serves the effect reducing friction, wherein, parts of bearings 42 is fixed on Connection Block 4 tightly by the anchor ear that upper buckle 46 and lower pinch plate 47 are formed.As shown in Figure 9, mirror holder 12 has a girder 121, and girder 121 is fixedly connected with this Connection Block 4 by girder bearing 122, and during connection, girder 121 is positioned at the place that caves inward of Connection Block body 41.Horizontal rotating shaft 422 is fixedly connected with girder 121 by the girder bearing 122 of mirror body 1.By this syndeton, achieve the connection between mirror body 1 and Connection Block 4, make mirror body 1 horizontal rotating shaft 422 can be driven to rotate in bearing 421 by level angle drive unit 2, achieve the elevation angle adjustment of mirror body 1.

As shown in Figure 7, the horizontal rotating shaft 422(of Connection Block 4 is not shown) central axis I 401 not shown with Connection Block flange 43() central axis II 402 mutually vertical, the error of perpendicularity scope between the central axis I 401 of the central axis II 402 of Connection Block flange 43 and the horizontal rotating shaft 422 of Connection Block 4 is ± 2 °.When heliostat mirror body 1 is rotated in parts of bearings by horizontal rotating shaft 422, the pivot of heliostat mirror body 1 and the offset distance of mirror body 1 center of gravity are less than 50mm.

In the present embodiment, Connection Block body 41, as the support component of whole Connection Block 4, can resist the load of bearing.Mirror holder 12 has a girder 121, and the radian that Connection Block body 41 has can make these parts when minute surface is in level, and inwall any point of Connection Block body 41 is greater than 2mm to the distance of girder 121.Consider stressed and cost, the wall thickness range of Connection Block body 41 is 5mm ~ 14mm.

This Connection Block 4 lower end is connected with column 5 by Connection Block flange 43, and upper end is connected with the girder 121 of heliostat mirror body 1 by parts of bearings 42 and anchor ear, can support mirror body 1 well, and mirror body 1 can be rotated around horizontal rotating shaft 422 under external force drives.Wherein, the overall weight of Connection Block 4 is 25kg ~ 40kg; The height dimension of Connection Block 4 is 400mm ~ 600mm.

As shown in Figure 8, Figure 9, this Connection Block 4 in use, coordinate assembling that Connection Block 4 is fixedly connected with the push rod 22 of level angle drive unit 2 by head pin installing hole 44 and rivet 49, push rod 22 is sheathed in the push rod cylinder body 23 of level angle drive unit 2, and push rod cylinder body 23 and push rod connector 21 are rotationally connected, push rod connector 21 is connected with girder 121.The anchor ear rigid bearing 421 that this Connection Block 4 top is formed by upper buckle 46 and lower pinch plate 47, and horizontal rotating shaft 422 is fixedly connected with the girder 121 supporting mirror body 1 by girder bearing 122, and freely can rotate in bearing 421.Namely realized the object supporting mirror body 1 and mechanical force transmitted to mirror body 1 by these two kinds of connected modes by this Connection Block 4, thus realize the object at the elevation angle changing mirror body 1.In the present embodiment, level angle drive unit 2, by push rod 22 stretching out or retracting motion in push rod cylinder body 23, realizes the rotation of horizontal rotating shaft 422 in anchor ear, thus changes the angle at the elevation angle.And orientation angle driving device 3 drives Connection Block 4 to rotate by rotation, and then reach the object of angle of the horizontal angle changing Connection Block 4.

In the present embodiment, by arranging bearing 421 between anchor ear and horizontal rotating shaft 422, the frictional resistance between anchor ear and bearing 421 can be reduced, making the rotation of horizontal rotating shaft 422 in anchor ear more smooth and easy.In addition, the mode of this set bearing 421, arrange coating to reduce compared with the mode that rubs with existing at fixture inner surface, do not need dismounting and change coating continually, have better durability, maintenance cost is lower.

Embodiment two:

In the present embodiment divided by lower part structure and embodiment one different outside, other part-structures and parameter are all identical with embodiment one.Difference is specific as follows:

As shown in Figure 10, Figure 11, the parts of bearings 42 in the present embodiment comprises bearing 421, horizontal rotating shaft 422, also comprises sleeve 424, and it is outside that sleeve 424 is sheathed on parts of bearings 42, and be located in anchor ear.The two ends of sleeve 424 are provided with sealing ring 423.In addition, sleeve 424 is also provided with breather plug 48, the gas in sleeve 424, also for injecting lubricating oil in bearing 421, can also be discharged simultaneously, facilitating the assembling of whole parts of bearings 42 by breather plug 48.

Arranging of sleeve 424 can protect bearing 421 further; and sealing ring 423 be arranged so that define in sleeve 424 one sealing environment; horizontal rotating shaft 422 and bearing 421 can be made to be chronically exposed in air; avoid bearing 421 and contact the generation corrosions such as rainwater; extraneous dust and other impurities can also be avoided to enter bearing 421 with the contact surface of horizontal rotating shaft 422, affect the rotation of bearing 421.

In addition, the material of the Connection Block body 41 in above-described embodiment can be any one in cast steel or cast iron or two kinds.As shown in figure 12, the Connection Block body 41 of Connection Block 4 provided by the present invention, lower pinch plate 47 and Connection Block flange 43 are integral type structure.This integral structure can improve the intensity of this Connection Block 4 further.In other preferred embodiments, horizontal rotating shaft 422 can also rotate under the Direct driver of level angle drive unit 2, thus realizes horizontal rotating shaft 422 and freely rotated in anchor ear by bearing 421, and the present invention does not repeat them here.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those skilled in the art is in the technical scope that the present invention discloses; the distortion do the present invention or replacement, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims (14)

1. the Connection Block of a tower type solar thermo-power station heliostat, this Connection Block is connected with orientation angle driving device and level angle drive unit respectively, this Connection Block bottom is connected with column by orientation angle driving device simultaneously, upper end is connected with the mirror holder of the mirror body of heliostat, it is characterized in that, comprising:

Connection Block body, described Connection Block body is the support member that side caves inward;

Connection Block flange, is located at described Connection Block body lower part, and described Connection Block flange is connected with described column by orientation angle driving device;

Head pin installing hole, is located at the described Connection Block body back side, for connecting level angle drive unit;

Upper buckle and lower pinch plate, wherein, lower pinch plate is located at described Connection Block body upper part, and forms the anchor ear that axis is horizontal direction together with upper buckle;

Parts of bearings, described parts of bearings comprises bearing and horizontal rotating shaft, and described horizontal rotating shaft is sheathed in described bearing, and described bearing holder (housing, cover) is located in described anchor ear, and described parts of bearings is held tightly and is fixed on Connection Block by described anchor ear;

Wherein, described horizontal rotating shaft rotates under described level angle drive unit directly or indirectly drives, and described horizontal rotating shaft is freely rotated in described anchor ear by described bearing; A pair protuberance with head pin installing hole extends downward Connection Block flange and becomes to be integrated with Connection Block flange.

2. the Connection Block of tower type solar thermo-power station heliostat according to claim 1, it is characterized in that, described parts of bearings also comprises sleeve, and described sleeve is located between described parts of bearings and described anchor ear.

3. the Connection Block of tower type solar thermo-power station heliostat according to claim 2, it is characterized in that, described sleeve is provided with breather plug.

4. the Connection Block of tower type solar thermo-power station heliostat according to claim 2, is characterized in that, described sleeve two ends are respectively equipped with sealing ring.

5. the Connection Block of tower type solar thermo-power station heliostat according to claim 1 and 2, is characterized in that, when described horizontal rotating shaft rotates in described parts of bearings, the pivot of described heliostat mirror body and the offset distance of the mirror body weight heart are less than 50mm.

6. the Connection Block of tower type solar thermo-power station heliostat according to claim 1 and 2, it is characterized in that, described mirror holder has a girder, described girder is fixedly connected with this Connection Block by girder bearing, during connection, described girder is positioned at the place that caves inward of described Connection Block body, and when the minute surface of heliostat is in level, cave inward inwall any point of side of Connection Block body is greater than 2mm to the distance of described girder.

7. the Connection Block of tower type solar thermo-power station heliostat according to claim 6, is characterized in that, the wall thickness range of described Connection Block body is 5mm ~ 14mm.

8. the Connection Block of tower type solar thermo-power station heliostat according to claim 7, is characterized in that, the material of described Connection Block body is cast steel and/or cast iron.

9. the Connection Block of tower type solar thermo-power station heliostat according to claim 1, is characterized in that, described Connection Block body has a cavity, is provided with some reinforcements in described cavity.

10. the Connection Block of tower type solar thermo-power station heliostat according to claim 1, is characterized in that, the junction between described Connection Block body and Connection Block flange is provided with some reinforcements.

The Connection Block of 11. tower type solar thermo-power station heliostats according to claim 1, is characterized in that, the error of perpendicularity scope of the central axis of described Connection Block flange and the central axis of described horizontal rotating shaft is ± 2 °.

The Connection Block of 12. tower type solar thermo-power station heliostats according to claim 1, is characterized in that, the weight of Connection Block is 25kg ~ 40kg; The height dimension of Connection Block is 400mm-600mm.

The Connection Block of 13. tower type solar thermo-power station heliostats according to claim 1, it is characterized in that, described Connection Block body, lower pinch plate and Connection Block flange are integral type structure.

The Connection Block of 14. tower type solar thermo-power station heliostats according to claim 1 and 2, it is characterized in that, described bearing is sliding bearing.