CN104697218B - 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 connecting seat 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 to a kind of tower type solar thermo-power station The connecting seat of heliostat.

Background technology

Economical constantly develop while, the energy is increasingly short, traditional non-renewable energy resources increasingly depleted, economic development Increasingly it is limited by the exploitation of the energy, the utilization of regenerative resource is subject to common concern, and particularly solar energy is more subject to common people Attention.

Current solar energy thermal-power-generating can be divided into (1) tower type solar according to solar energy acquisition mode and generate electricity；(2) slot type is too Sun can heat generate electricity；(3) disc type solar energy heat generates electricity

In photo-thermal power generation field, because tower type solar energy thermal power generation has high photo-thermal conversion efficiency, high focus temperature, focus on Target maintains static so that control system installation and debugging are simple, the advantageous feature that radiation loss waits less, and will become the next one can business The new energy source technology of industryization operation.

Especially in tower type solar energy thermal power generation field, heliostat is an important composition of tower type solar electricity generation system Part.As shown in figure 1, heliostat reflexes to sunshine on heat dump, heat absorption working medium is heated, converts light energy into heat Can, realize light and heat collection, and then driving steam turbine generates electricity.As shown in Fig. 2 the mirror body 1 of current heliostat is typically passed through to connect Seat 4 is connected with column 5, and orientation angle driving device 3 and level angle driving means 2 need machine by connecting seat 4 simultaneously Tool can pass to mirror body 1, realizes the rotation of the different azimuth of mirror body 1.Wherein, mirror body 1 includes speculum 11 and mirror holder 12. To heliostat, the motion in horizontal angle and azimuth all can have a certain impact the structure of therefore connecting seat.

Existing connecting seat is general to be adopted directly by flange shaft on connecting seat, when heliostat is rotated, flange The rotation of axle will be rubbed with connecting seat, so that flange shaft and connecting seat are susceptible to wear and tear, and, connection herein Seat will be matched with flange shaft, the accuracy of manufacture of connecting seat is had high demands, manufacturing cost is higher.Prior art is using in connecting seat Upper setting coating is to reduce abrasion, but the durability of coating is weaker, and loss is very fast, needs to be replaced as frequently as coating, maintenance cost Higher, in addition, though being provided with coating between connecting seat and flange shaft, but still can be inevitable between connecting seat and flange shaft Ground rubs, and after long-term operating, the probability that connecting seat is damaged is larger, because connecting seat is not industrial standard Part, and volume and weight is larger, therefore changes the relatively costly of connecting seat, and, scheme of the prior art is sudden and violent by flange shaft It is exposed in the air, the water of in the air can bring it about corrosion, and dust enters into the contact surface of connecting seat and flange shaft, can affect method The rotation of blue axle.

Content of the invention

It is an object of the invention to provide a kind of connecting seat of tower type solar thermo-power station heliostat, to solve background technology The existing connecting seat of middle proposition is damaged the problem that probability is big, replacement cost is high.

For achieving the above object, the invention provides a kind of connecting seat of tower type solar thermo-power station heliostat, this connection Seat is connected with orientation angle driving device and level angle driving means respectively, and this connecting seat bottom is driven by orientation corner simultaneously Dynamic device is connected with column, and upper end is connected with the mirror holder of the mirror body of heliostat it is characterised in that including:

Connecting seat body, the support member that described connecting seat body caves inward for side；

Connecting seat flange, located at described connecting seat body lower part, described connecting seat flange passes through orientation angle driving device It is connected with described column；

Head pin installing hole, located at the described connecting seat body back side, for connecting level angle driving means；

Upper buckle and lower pinch plate, wherein, lower pinch plate is located at described connecting seat body upper part, and forms axle together with upper buckle Line is the anchor ear of horizontal direction；

Parts of bearings, described parts of bearings includes bearing and horizontal rotating shaft, and described horizontal rotating shaft is sheathed in described bearing, Described bearing holder (housing, cover) in described anchor ear, held tightly and be fixed on connecting seat by described anchor ear by described parts of bearings；

Wherein, described horizontal rotating shaft rotates under described level angle driving means directly or indirectly drive, described It is freely rotatable in described anchor ear that horizontal rotating shaft passes through described bearing；A pair of protuberance with head pin installing hole extends downward Connecting seat flange is simultaneously integrally formed with connecting seat flange.

It is preferred that described parts of bearings also includes sleeve, described sleeve is between described parts of bearings and described anchor ear.

It is preferred that described sleeve is provided with breather plug.

It is preferred that described sleeve is respectively arranged at two ends with sealing ring.

It is preferred that when described horizontal rotating shaft rotates in described parts of bearings, the pivot of described heliostat mirror body with The offset distance of mirror body center of gravity is less than 50mm.

It is preferred that described mirror holder has a girder, described girder is fixedly connected with this connecting seat by girder bearing, During connection, described girder is located at the place that caves inward of described connecting seat body, when the minute surface of heliostat is in horizontality, even Joint chair body cave inward side inwall any point to described girder distance be more than 2mm.

It is preferred that the wall thickness range of described connecting seat body is 5mm～14mm.

It is preferred that the material of described connecting seat body is cast steel and/or cast iron.

It is preferred that described connecting seat body has a cavity, in described cavity, it is provided with some reinforcements.

It is preferred that the junction between described connecting seat body and connecting seat flange is provided with some reinforcements.

It is preferred that the error of perpendicularity model of the central axis of the central axis of described connecting seat flange and described horizontal rotating shaft Enclose for ± 2 °.

It is preferred that the weight of connecting seat is 25kg ~ 40kg；The height dimension of connecting seat is 400mm-600mm.

It is preferred that described connecting seat body, lower pinch plate and connecting seat flange are integral type structure.

It is preferred that described bearing is sliding bearing.

The connecting seat of the tower type solar thermo-power station heliostat that the present invention provides passes through to arrange axle between anchor ear and rotating shaft The mode held achieves following technique effect:

1) decrease frictional force between the two during axis of rotation, the use of sliding bearing is so that rotating shaft is in anchor ear Rotate more smooth.Coating need not be added, be not required to continually dismantle with more new coating, maintenance cost is relatively low.

2) interpolation of sleeve and sealing ring makes rotating shaft be in a relative airtight space with bearing, it is to avoid as turning The flange shaft of axle is chronically exposed in the air, that is, avoid chance water and corrosion occurs, it also avoid falling into the flange shaft that dust causes Abrasion, the rotation of impact bearing and working time.

3) anchor ear only plays the effect of fixing bearing, does not play the effect providing rotation space for rotating shaft, therefore, to upper Buckle and lower pinch plate are low with the matching degree requirement of rotating shaft, and the accuracy of manufacture requirement to upper buckle and lower pinch plate is low, and then reaches section The purpose of cost-saving.

4) anchor ear and connecting seat are structure as a whole, and connecting base structure integrated support ability is preferable, simultaneously because anchor ear only rises To the effect of fixing bearing, it will not occur heavy wear, only need to change bearing during bearing damage, entirely connects without changing Seat, reduces later maintenance cost further.

5) a pair of protuberance with head pin installing hole extends downward connecting seat flange and becomes one with connecting seat flange Body, can play the effect strengthening connecting seat flange and the rigidity of push rod junction.

Brief description

In order to understand the present invention, referring now to accompanying drawing and 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 diagram of tower type solar energy thermal power generation；

The overall structure schematic rear view of the connecting seat that Fig. 3 provides for the present invention；

The overall structure front schematic view of the connecting seat that Fig. 4 provides for the present invention；

The upper buckle of the connecting seat that Fig. 5 provides for the present invention and lower pinch plate disassemble view；

The structural representation of the embodiment one of the connecting seat that Fig. 6 provides for the present invention；

The horizontal rotating shaft of the connecting seat that Fig. 7 provides for the present invention and the schematic diagram of vertical rotation axis；

Fig. 8 drives dress for the connecting seat that the present invention provides with heliostat mirror body, level angle driving means and orientation corner Put the schematic rear view of connection；

Fig. 9 drives dress for the connecting seat that the present invention provides with heliostat mirror body, level angle driving means and orientation corner Put the front schematic view of connection；

The parts of bearings schematic diagram of the connecting seat that Figure 10 present invention provides；

The structural representation of the embodiment two of the connecting seat that Figure 11 provides for the present invention；

The connecting seat integration perspective view that Figure 12 provides for the present invention.

Label declaration: 1- mirror body；2- level angle driving means；3- orientation angle driving device；4- connecting seat；5- stands Post；11- speculum；12- mirror holder；121- girder；122- girder bearing；21- push rod connector；22- push rod；23- push rod Cylinder body；41- connecting seat body；42- parts of bearings；43- connecting seat flange；44- head pin installing hole；45- reinforcement；Detain on 46- Plate；47- lower pinch plate；48- breather plug；49- rivet；401- central axis；402- central axis；421- bearing；422- level Rotating shaft；423- sealing ring；424- sleeve.

Specific embodiment

For the present invention is better described, hereby with preferred embodiment, and coordinate accompanying drawing that the present invention is elaborated, specifically such as Under:

Embodiment one:

As shown in figure 3, the connecting seat 4 that the present invention provides includes connecting seat body 41, parts of bearings 42, connecting seat flange 43 And head pin installing hole 44.Wherein, connecting seat body 41 is the support member of an arc, and in other preferred embodiments, connecting seat is originally The support member that body 41 can cave inward for side, the shape of depression can be semicircle, " recessed " shape or other any planforms can Accommodate the support member of the girder 121 of mirror holder 12；Head sells installing hole 44 in the curved rear of connecting seat body 41, head pin Installing hole 44 is used for being connected with the level angle driving means 2 of mirror body 1, can control mirror body 1 by level angle driving means 2 The elevation angle rotates；Connecting seat flange 43 passes through orientation angle driving device 3 located at the bottom of connecting seat body 41, connecting seat flange 43 It is connected with column 5.

As shown in figure 4, connecting seat body 41 has a cavity, it is provided with some reinforcements 451, reinforcement 451 in cavity Setting the weight capacity of connecting seat body 41 can be greatly improved, reduce the deformation of whole connecting seat 4.Additionally, connecting seat body Junction between 41 and connecting seat flange 43 also is provided with reinforcement 452, can improve connecting seat body 41 further and be connected Bonding strength between seat flange 43.

As shown in Figure 5, Figure 6, connecting seat 4 also includes buckle 46 and lower pinch plate 47, and lower pinch plate 47 is located at connecting seat body 41 top, and form the anchor ear that axis is horizontal direction together with upper buckle 46, parts of bearings 42 includes bearing 421 and level Rotating shaft 422, bearing 421 is sheathed in anchor ear, and parts of bearings 42 is held tightly and is fixed on connecting seat 4 by anchor ear；Bearing 421 is set in Horizontal rotating shaft 422 outer surface, makes horizontal rotating shaft 422 freely rotatable.And level angle driving means 2 and horizontal rotating shaft 422 Indirectly it is fixedly connected, level angle driving means 2 are passed through to control rotation in anchor ear for the horizontal rotating shaft 422 to realize to mirror body 1 not Control with the elevation angle.

Wherein, parts of bearings 42 is the horizontal rotating shaft of connecting seat 4, and horizontal rotating shaft 422 is provided with flange for two ends And axis direction is the rotating shaft of horizontal direction, or horizontal rotating shaft 422 is that two one side are 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 is as shown in fig. 6, in figure includes two water Flat turn axle 422, wherein only illustrates the horizontal rotating shaft 422 on right side, and horizontal rotating shaft 422 is being provided with flange, level near outside side Rotating shaft 422 is installed in bearing 421, and horizontal rotating shaft 422 can be freely rotatable in bearing 421, and bearing 421 serves minimizing and rubs The effect wiped, wherein, the anchor ear that parts of bearings 42 is formed by upper buckle 46 and lower pinch plate 47 is tightly held on connecting seat 4. As shown in figure 9, mirror holder 12 has a girder 121, girder 121 is fixedly connected with this connecting seat 4 by girder bearing 122, During connection, girder 121 is located at the place that caves inward of connecting seat body 41.Horizontal rotating shaft 422 passes through the girder bearing 122 of mirror body 1 It is fixedly connected with girder 121.By this attachment structure it is achieved that the connection between mirror body 1 and connecting seat 4 is so that mirror body 1 is permissible Horizontal rotating shaft 422 is driven to be rotated in bearing 421 by level angle driving means 2 it is achieved that the elevation angle of mirror body 1 is adjusted Whole.

As shown in fig. 7, the horizontal rotating shaft 422(in figure of connecting seat 4 is not shown) central axis 401 and connecting seat flange 43(in figure is not shown) central axis 402 be mutually perpendicular to, the central axis of connecting seat flange 43 402 and connecting seat 4 Error of perpendicularity scope between the central axis 401 of horizontal rotating shaft 422 is ± 2 °.Heliostat mirror body 1 passes through horizontal rotating shaft 422 When rotating in parts of bearings, the pivot of heliostat mirror body 1 is less than 50mm with the offset distance of mirror body 1 center of gravity.

In the present embodiment, connecting seat body 41, as the support member of whole connecting seat 4, can resist the load born.Mirror Submounts 12 have a girder 121, and the radian that connecting seat body 41 has can be so that this part be in horizontality in minute surface When, the distance of inwall any point to the girder 121 of connecting seat body 41 is more than 2mm.Consider stress and cost, connecting seat The wall thickness range of body 41 is 5mm～14mm.

This connecting seat 4 lower end is connected with column 5 by connecting seat flange 43, and upper end is passed through parts of bearings 42 and anchor ear and determined The girder 121 of solar eyepiece mirror body 1 is connected, and can support mirror body 1 well, makes the mirror body 1 can be around horizontal rotating shaft under external force driving 422 rotate.Wherein, the overall weight of connecting seat 4 is 25kg ~ 40kg；The height dimension of connecting seat 4 is 400mm ~ 600mm.

As shown in Figure 8, Figure 9, this connecting seat 4, when using, coordinates assembling to make even by head pin installing hole 44 and rivet 49 Joint chair 4 is fixedly connected with the push rod 22 of level angle driving means 2, and push rod 22 is sheathed on the push rod of level angle driving means 2 In cylinder body 23, and push rod cylinder body 23 is rotated with push rod connector 21 and is connected, and push rod connector 21 is connected with girder 121.This connection The anchor ear fixing bearing 421 that seat 4 tops are formed by upper buckle 46 and lower pinch plate 47, and horizontal rotating shaft 422 passes through girder bearing 122 are fixedly connected with the girder 121 supporting mirror body 1, and can be freely rotatable in bearing 421.By both connection sides Formula can realize support mirror body 1 and the purpose transmitting mechanical force to mirror body 1 by this connecting seat 4, thus realizing changing mirror The purpose at the elevation angle of body 1.In the present embodiment, level angle driving means 2 pass through push rod 22 stretching out in push rod cylinder body 23 or Retracting motion, realizes rotation in anchor ear for the horizontal rotating shaft 422, thus changing the angle at the elevation angle.And orientation angle driving device 3 Drive connecting seat 4 to rotate by rotation, and then reach the purpose of the angle of horizontal angle changing connecting seat 4.

In the present embodiment, by arranging bearing 421 between anchor ear and horizontal rotating shaft 422, anchor ear and bearing 421 can be reduced Between frictional resistance so that rotation in anchor ear for the horizontal rotating shaft 422 is more smooth.Additionally, the side of this set bearing 421 Formula, is not required to continually dismounting and change coating with existing compared with fixture inner surface setting coating is in the way of reducing friction, tool There is more preferable durability, maintenance cost is relatively low.

Embodiment two:

Different outer divided by lower part-structure and embodiment one in the present embodiment, other parts structure and parameter all with reality Apply example one identical.Difference is specific as follows:

As shown in Figure 10, Figure 11, the parts of bearings 42 in the present embodiment includes bearing 421, horizontal rotating shaft 422, also includes Sleeve 424, sleeve 424 is sheathed on outside parts of bearings 42, and in anchor ear.The two ends of sleeve 424 are provided with sealing ring 423. Additionally, also being provided with breather plug 48 on sleeve 424, breather plug 48 is also used for injecting lubricating oil into bearing 421, can also will cover simultaneously Gas in cylinder 424 is discharged, and facilitates the assembling of whole parts of bearings 42.

The setting of sleeve 424 can protect bearing 421 further, and the setting of sealing ring 423 makes to be formed in sleeve 424 The environment of one sealing, so that horizontal rotating shaft 422 and bearing 421 are chronically exposed in the air, it is to avoid bearing 421 connects There is corrosion in tactile rainwater etc., the dust and other impurities in the external world can also be avoided to enter the contact surface of bearing 421 and horizontal rotating shaft 422 In, the rotation of impact bearing 421.

Additionally, the material of the connecting seat body 41 in above-described embodiment can be any one of cast steel or cast iron or two Kind.As shown in figure 12, the connecting seat body 41 of connecting seat 4 provided by the present invention, lower pinch plate 47 and connecting seat flange 43 are one Body formula structure.This integral structure can improve the intensity of this connecting seat 4 further.In other preferred embodiments, level Rotating shaft 422 can also rotate under the direct drive of level angle driving means 2, thus realize horizontal rotating shaft 422 passing through Bearing 421 is freely rotatable in anchor ear, and the present invention will not be described here.

The above, the only specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, and any Those skilled in the art the invention discloses technical scope in, the deformation that the present invention is done or replacement, all should cover Within protection scope of the present invention.Therefore, protection scope of the present invention should be defined by described scope of the claims.

Claims (14)

1. a kind of connecting seat of tower type solar thermo-power station heliostat, this connecting seat respectively with orientation angle driving device and level Angle driving device connects, and this connecting seat bottom is connected with column by orientation angle driving device simultaneously, upper end and heliostat Mirror body mirror holder be connected it is characterised in that include:

Connecting seat body, the support member that described connecting seat body caves inward for side；

Connecting seat flange, located at described connecting seat body lower part, described connecting seat flange passes through orientation angle driving device and institute State column to connect；

Head pin installing hole, located at the described connecting seat body back side, for connecting level angle driving means；

Upper buckle and lower pinch plate, wherein, lower pinch plate is located at described connecting seat body upper part, and forms axis together with upper buckle and be The anchor ear of horizontal direction；

Parts of bearings, described parts of bearings includes bearing and horizontal rotating shaft, and described horizontal rotating shaft is sheathed in described bearing, described Bearing holder (housing, cover) in described anchor ear, held tightly and be fixed on connecting seat by described anchor ear by described parts of bearings；

Wherein, described horizontal rotating shaft rotates under described level angle driving means directly or indirectly drive, described level It is freely rotatable in described anchor ear that described bearing is passed through in rotating shaft；A pair of protuberance with head pin installing hole extends downward connection Seat flange is simultaneously integrally formed with connecting seat flange.

2. the connecting seat of tower type solar thermo-power station heliostat according to claim 1 is it is characterised in that described bearing portion Part also includes sleeve, and described sleeve is between described parts of bearings and described anchor ear.

3. the connecting seat of tower type solar thermo-power station heliostat according to claim 2 is it is characterised in that on described sleeve It is provided with breather plug.

4. the connecting seat of tower type solar thermo-power station heliostat according to claim 2 is it is characterised in that described sleeve two End is respectively equipped with sealing ring.

5. the connecting seat of tower type solar thermo-power station heliostat according to claim 1 and 2 is it is characterised in that described water When flat turn axle rotates in described parts of bearings, the deviation of horizontal rotation center and the mirror body center of gravity of the mirror body of described heliostat away from From less than 50mm.

6. the connecting seat of tower type solar thermo-power station heliostat according to claim 1 and 2 is it is characterised in that described mirror Submounts have a girder, and described girder is fixedly connected with this connecting seat by girder bearing, and during connection, described girder is located at institute State the place that caves inward of connecting seat body, when the minute surface of heliostat is in horizontality, connecting seat body caves inward side Inwall any point to described girder distance be more than 2mm.

7. the connecting seat of tower type solar thermo-power station heliostat according to claim 6 is it is characterised in that described connecting seat The wall thickness range of body is 5mm～14mm.

8. the connecting seat of tower type solar thermo-power station heliostat according to claim 7 is it is characterised in that described connecting seat The material of body is cast steel and/or cast iron.

9. the connecting seat of tower type solar thermo-power station heliostat according to claim 1 is it is characterised in that described connecting seat Body has a cavity, is provided with some reinforcements in described cavity.

10. the connecting seat of tower type solar thermo-power station heliostat according to claim 1 is it is characterised in that described connection Junction between seat body and connecting seat flange is provided with some reinforcements.

The connecting seat of 11. tower type solar thermo-power station heliostats according to claim 1 is it is characterised in that described connection The central axis of seat flange is ± 2 ° with the error of perpendicularity scope of the central axis of described horizontal rotating shaft.

12. the connecting seat of tower type solar thermo-power station heliostat according to claim 1 is it is characterised in that connecting seat Weight is 25kg～40kg；The height dimension of connecting seat is 400mm-600mm.

The connecting seat of 13. tower type solar thermo-power station heliostats according to claim 1 is it is characterised in that described connection Seat body, lower pinch plate and connecting seat flange are integral type structure.

The connecting seat of 14. tower type solar thermo-power station heliostats according to claim 1 and 2 is it is characterised in that described axle Hold as sliding bearing.