CN215595782U - Giant water turbine push guide shoe transfer platform - Google Patents

Abstract

The utility model provides a giant water turbine push away guide tile transfer platform, constitute the inner ring platform through a plurality of interior crown plates, a plurality of outer crown plates constitute the outer loop platform, the inner ring platform is located outer loop platform and is concentric with it, well crown plate is located between inner ring platform and the outer loop platform and communicates with it, the guide plate is located outer rather than communicating with it of outer loop platform, inner ring plate, well crown plate, outer crown plate and guide plate downside all are connected with the regulation and support, air cushion suspension device is located the interior deduction tile lower part of inner ring platform and outer loop platform, push away the guide tile and drive it and get into in the guide plate through air cushion suspension device jack-up. The utility model overcomes the problems of complicated procedure and long time consumption when the original large hydraulic generator push shoe is drawn out of the oil groove, and has the characteristics of simple structure, quick drawing of the push shoe and transfer to the outside of the wind tunnel, shortened shoe drawing time, safe and reliable shoe drawing, and simple and convenient operation.

Description

Giant water turbine push guide shoe transfer platform

Technical Field

The utility model belongs to the technical field of water turbines, and relates to a giant water turbine thrust shoe transfer platform.

Background

At present, the tile pumping operation of a domestic large hydraulic generator thrust bearing is mainly completed through a tile pumping trolley with rollers, when the tile pumping operation is performed, the space in an oil groove is narrow, the tile pumping trolley does not move circumferentially in the oil groove conveniently and can collide with the oil groove, even pollute the oil groove, the tile pumping tool and the tile pumping mode are large in limitation, when the tile pumping operation is required for a derivation tile which is not right opposite to an oil groove window, the derivation tile is required to be moved to the tile pumping trolley of the tile pumping window through manual carrying, then the tile is lifted to the trolley to be pushed out, a large amount of manpower and material resources are required to be input through the tile pumping tool and the tile pumping mode, the operation is complicated, the tile pumping time is long, and the tile pumping operation of the current large hydraulic generator set is not satisfied.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a giant water turbine push guide shoe transfer platform which is simple in structure, an inner ring platform is formed by a plurality of inner ring plates, an outer ring platform is formed by a plurality of outer ring plates, the inner ring platform is positioned in the outer ring platform and concentric with the outer ring platform, a middle ring plate is positioned between the inner ring platform and the outer ring platform and communicated with the inner ring platform, a guide plate is positioned outside the outer ring platform and communicated with the outer ring platform, the lower sides of the inner ring plate, the middle ring plate, the outer ring plate and the guide plate are all connected with an adjusting support, an air cushion suspension device is positioned at the lower part of a push shoe in the inner ring platform and the outer ring platform, the air cushion suspension device jacks the push guide shoe and drives the push shoe to enter the guide plate, the push shoe is quickly pulled out and transferred to the outside of a wind tunnel, the shoe pulling time is shortened, the shoe pulling is safe and reliable, and the operation is simple and convenient.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows: a giant water turbine thrust shoe transfer platform comprises an inner ring plate, a middle ring plate, an outer ring plate, an adjusting support, a connecting plate, an air cushion suspension device and a guide plate; the air cushion suspension device is positioned in the inner ring platform and the outer ring platform, the middle ring plate is positioned between the inner ring platform and the outer ring platform, and the guide plate is close to the middle ring plate and is positioned outside the outer ring platform and connected by a connecting plate.

The guide plate is positioned on the central line of the inner ring platform and the outer ring platform, and the middle ring plate is close to one side of the central line.

The upper side surfaces of the inner ring platform and the outer ring platform are respectively provided with an inner ring groove and an outer ring groove, and the inner ring groove and the outer ring groove are both provided with tile drawing windows.

The inner ring plate and the outer ring plate are arc flat plates with trapezoidal structures, inclined edges of the arc flat plates are provided with inclined plates which are bent downwards, and the inclined plates are provided with through connecting holes.

The middle ring plate is an arc flat plate with a trapezoidal structure, the inclined edge of the middle ring plate is provided with an inclined plate which is bent upwards, the edges of the inner arc and the outer arc are provided with downward arc plates, and the mounting holes penetrate through the arc plates.

The adjusting support comprises a support rod matched with the threaded pipe and an adjusting nut positioned on the support rod.

The connecting plate is two arc plates which are overlapped with each other, one arc plate is positioned at the lower part of the open slot of the outer ring platform, the other arc plate is connected with the lower part of the arc end of the guide plate, and the fastener penetrates through the two arc plates.

The guide plate is a flat plate, one end of the guide plate is of an arc structure, and the other straight edges are provided with upwards-protruding baffles; the cross section of the arc-shaped end of the guide plate is larger than that of the corresponding end of the guide plate.

The middle ring plate is communicated with the inner ring groove and the outer ring groove, and the guide plate is communicated with the outer ring groove.

A giant water turbine thrust shoe transfer platform comprises an inner ring plate, a middle ring plate, an outer ring plate, an adjusting support, a connecting plate, an air cushion suspension device and a guide plate; the air cushion suspension device is positioned in the inner ring platform and the outer ring platform, the middle ring plate is positioned between the inner ring platform and the outer ring platform, and the guide plate is close to the middle ring plate and is positioned outside the outer ring platform and connected by a connecting plate. Simple structure, constitute the inner ring platform through a plurality of interior crown plates, the outer loop platform is constituteed to a plurality of outer crown plates, the inner ring platform is located outer loop platform and rather than concentric, well crown plate is located between inner ring platform and the outer loop platform rather than the intercommunication, the guide plate is located outer loop platform rather than the intercommunication, interior crown plate, well crown plate, outer crown plate and guide plate downside all are connected with the regulation and support, air cushion suspension device is located the derivation tile lower part of inner ring platform and outer loop platform, push up through air cushion suspension device and push away in the guide tile and drive it and get into the guide plate, take out the derivation tile fast and shift outside the wind-tunnel, shorten and take out the tile time, take out tile safe and reliable, easy operation is convenient.

In a preferred scheme, the guide plate is positioned on a central line of the inner ring platform and the outer ring platform, and the middle ring plate is close to one side of the central line. The structure is simple, when the device is used, the middle ring plate is positioned on one side of the guide plate, an eccentric structure is formed relative to the central line of the middle ring plate, the air cushion suspension device can enter the outer annular groove from the inner annular groove along the middle ring plate, and the derivation tile can be smoothly drawn out of the oil groove.

In a preferred scheme, an inner annular groove and an outer annular groove are respectively arranged on the upper side surfaces of the inner annular platform and the outer annular platform, and tile drawing windows are arranged in the inner annular groove and the outer annular groove. The structure is simple, when in use, the air cushion suspension device is positioned in the inner annular groove and the outer annular groove, and the tile drawing window is used for the air cushion suspension device to pass through.

In the preferred scheme, the inner ring plate and the outer ring plate are arc flat plates with trapezoidal structures, inclined edges of the arc flat plates are provided with downwards bent inclined plates, and the inclined plates are provided with through connecting holes. Simple structure, during the use, the inner ring platform is constituteed to a plurality of inner ring board interconnect, and the outer loop platform is constituteed to a plurality of outer loop board interconnect, and during the connection, the fastener passes the connecting hole connection fastening on the swash plate.

In the preferred scheme, the middle ring plate is an arc flat plate with a trapezoidal structure, the inclined edge of the middle ring plate is provided with an inclined plate which is bent upwards, the edges of the inner arc and the outer arc are provided with downward arc plates, and the mounting holes penetrate through the arc plates. The structure is simple, when the middle ring plate is used, the middle ring plate is positioned between the inner ring platform and the outer ring platform, the inner arc surface of the middle ring plate is connected with the outer side of the inner ring platform, and the outer arc surface of the middle ring plate is connected with the inner side of the outer ring platform.

In a preferred scheme, the adjusting support comprises a support rod matched with the threaded pipe and an adjusting nut positioned on the support rod. Simple structure, during the use, the bracing piece of adjusting the support is used for supporting, and rotatory adjusting nut drives screwed pipe lift adjustment height.

In a preferred scheme, the connecting plate is two arc plates which are overlapped with each other, one arc plate is positioned at the lower part of the open slot of the outer ring platform, the other arc plate is connected with the lower part of the arc end of the guide plate, and the fastener penetrates through the two arc plates. The structure is simple, when the device is used, the connecting plate is composed of two arc-shaped plates, one arc-shaped plate is connected with the outer ring platform, the other arc-shaped plate is connected with the guide plate, and the guide plate and the outer ring platform are connected into a whole.

In a preferred scheme, the guide plate is a flat plate, one end of the guide plate is of an arc structure, and the other straight edges are provided with upwards-protruding baffles; the cross section of the arc-shaped end of the guide plate is larger than that of the corresponding end of the guide plate. Simple structure, during the use, the great one end of guide plate cross section is close to its arc end, enlarges the operating area when pushing away the guide shoe and taking out, and the smaller one end of cross section moves to lifting by crane the position after the derivation tile is taken out, shifts convenient and fast, safe and reliable.

In a preferred embodiment, the middle ring plate communicates with the inner annular groove and the outer annular groove, and the guide plate communicates with the outer annular groove. The structure is simple, when the air cushion suspension device is used, the inner annular groove is communicated with the outer annular groove, and the guide plate is communicated with the outer annular groove, so that the air cushion suspension device can drive the push guide shoe to enter the guide plate from the communication position.

The utility model provides a giant water turbine push away guide tile transfer platform, it includes interior crown plate, well crown plate, outer crown plate, adjust and support, connecting plate, air cushion suspension device and guide plate, constitute the inner ring platform through a plurality of inner crown plates, a plurality of outer crown plate constitute the outer ring platform, the inner ring platform is located outer ring platform and is rather than concentric, well crown plate is located between inner ring platform and the outer ring platform and communicates with it, the guide plate is located outer rather than communicating with of outer ring platform, inner crown plate, well crown plate, outer crown plate and guide plate downside all are connected with the regulation and support, air cushion suspension device is located the derivation tile lower part in inner ring platform and the outer ring platform, jack up through air cushion suspension device and push away the guide tile and drive it and get into in the guide plate. The utility model overcomes the problems of complicated procedure and long time consumption when the original large hydraulic generator push shoe is drawn out of the oil groove, and has the characteristics of simple structure, quick drawing of the push shoe and transfer to the outside of the wind tunnel, shortened shoe drawing time, safe and reliable shoe drawing, and simple and convenient operation.

Drawings

The utility model is further illustrated by the following figures and examples.

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the connection between the ring plate and the adjusting support according to the present invention.

Fig. 3 is a side view of fig. 2.

Fig. 4 is a schematic top view of fig. 2.

Fig. 5 is a schematic structural view of an inner ring plate of the present invention.

Fig. 6 is a schematic view of the structure of the outer ring plate of the present invention.

Fig. 7 is a schematic structural view of the guide plate of the present invention.

In the figure: the air cushion suspension device comprises an inner ring plate 1, an inner annular groove 11, a middle ring plate 2, an outer ring plate 3, an outer annular groove 31, an adjusting support 4, a threaded pipe 41, a support rod 42, an adjusting nut 43, a connecting plate 5, an air cushion suspension device 6, a guide plate 7 and a baffle plate 71.

Detailed Description

As shown in fig. 1 to 7, a giant water turbine thrust shoe transfer platform comprises an inner ring plate 1, a middle ring plate 2, an outer ring plate 3, an adjusting support 4, a connecting plate 5, an air cushion suspension device 6 and a guide plate 7; a plurality of inner ring plates 1 and a plurality of outer ring plates 3 respectively form concentric inner ring platforms and outer ring platforms, the lower sides of the inner ring plates 1, the middle ring plates 2, the outer ring plates 3 and the guide plates 7 are connected with adjusting supports 4, air cushion suspension devices 6 are located in the inner ring platforms and the outer ring platforms, the middle ring plates 2 are located between the inner ring platforms and the outer ring platforms, and the guide plates 7 are close to the middle ring plates 2 and located outside the outer ring platforms and connected through connecting plates 5. Simple structure, constitute the inner ring platform through a plurality of inner ring boards 1, outer loop platform is constituteed to a plurality of outer ring boards 3, the inner ring platform is located outer loop platform and rather than concentric, well ring board 2 is located between inner ring platform and the outer loop platform rather than the intercommunication, guide plate 7 is located outer loop platform rather than the intercommunication, inner ring board 1, well ring board 2, outer ring board 3 and guide plate 7 downside all are connected with regulation support 4, air cushion suspending device 6 is located the derivation tile lower part in inner ring platform and the outer loop platform, push up through air cushion suspending device 6 and push away in the guide tile and drive it gets into guide plate 7, take out the derivation tile fast and shift outside the wind-tunnel, shorten and take out the tile time, take out tile safe and reliable, easy operation is convenient.

In a preferable scheme, the guide plate 7 is positioned on a central line of the inner ring platform and the outer ring platform, and the middle ring plate 2 is close to one side of the central line. The structure is simple, when the device is used, the middle ring plate 2 is positioned on one side of the guide plate 7, an eccentric structure is formed relative to the central line of the middle ring plate 2, the air cushion suspension device 6 can enter the outer annular groove 31 from the inner annular groove 11 along the middle ring plate 2, and the derived tile can be smoothly drawn out of the oil groove.

In a preferred scheme, the upper side surfaces of the inner ring platform and the outer ring platform are respectively provided with an inner annular groove 11 and an outer annular groove 31, and the inner annular groove 11 and the outer annular groove 31 are both provided with tile drawing windows. The structure is simple, when in use, the air cushion suspension device 6 is positioned in the inner annular groove 11 and the outer annular groove 31, and the tile drawing window is used for the air cushion suspension device 6 to pass through.

In the preferred scheme, the inner ring plate 1 and the outer ring plate 3 are arc-shaped flat plates with trapezoidal structures, inclined sides of the arc-shaped flat plates are provided with downwards bent inclined plates, and the inclined plates are provided with through connecting holes. Simple structure, during the use, 1 interconnect in a plurality of interior crown plates constitutes the inner ring platform, and 3 interconnect in a plurality of outer crown plates constitutes the outer loop platform, and during the connection, the fastener passes the connecting hole connection fastening on the swash plate.

In the preferred scheme, the middle ring plate 2 is an arc flat plate with a trapezoidal structure, the inclined edge of the middle ring plate is provided with an inclined plate which is bent upwards, the edges of the inner arc and the outer arc are provided with downward arc plates, and the mounting holes penetrate through the arc plates. Simple structure, during the use, well ring plate 2 is located between inner ring platform and the outer loop platform, and its interior cambered surface is connected with the inner ring platform outside, and its outer cambered surface is connected with the outer loop platform inboard.

In a preferred embodiment, the adjusting support 4 comprises a support rod 42 engaged with the threaded pipe 41, and an adjusting nut 43 located on the support rod 42. The structure is simple, when in use, the support rod 42 of the adjusting support 4 is used for supporting, and the adjusting nut 43 is rotated to drive the threaded pipe 41 to lift and adjust the height.

In a preferable scheme, the connecting plate 5 is two arc plates overlapped with each other, one arc plate is positioned at the lower part of an open slot of the outer ring platform, the other arc plate is connected with the lower part of the arc end of the guide plate 7, and the fastener penetrates through the two arc plates. The structure is simple, when the device is used, the connecting plate 5 consists of two arc-shaped plates, one arc-shaped plate is connected with the outer ring platform, the other arc-shaped plate is connected with the guide plate 7, and the guide plate 7 and the outer ring platform are connected into a whole.

In a preferable scheme, the guide plate 7 is a flat plate, one end of the guide plate is of an arc structure, and the other straight edges are provided with upwards-protruding baffles 71; the cross section of the arc-shaped end of the guide plate 7 is larger than that of the corresponding end thereof. Simple structure, during the use, the great one end of guide plate 7 cross section is close to its arc end, enlarges the operating area when pushing away the guide shoe and take out, pushes away the tile and takes out the less one end motion of back cross section to lifting by crane the position, shifts convenient and fast, safe and reliable.

In a preferred scheme, the middle ring plate 2 is communicated with the inner annular groove 11 and the outer annular groove 31, and the guide plate 7 is communicated with the outer annular groove 31. The structure is simple, when in use, the inner annular groove 11 is communicated with the outer annular groove 31, and the guide plate 7 is communicated with the outer annular groove 31, so that the air cushion suspension device 6 can drive the push guide shoe to enter the guide plate 7 from the communicated position.

When the giant water turbine push guide shoe transfer platform is installed and used, the inner ring plates 1 form an inner ring platform, the outer ring plates 3 form an outer ring platform, the inner ring platform is positioned in the outer ring platform and concentric with the outer ring platform, the middle ring plates 2 are positioned between the inner ring platform and the outer ring platform and communicated with the outer ring platform, the guide plates 7 are positioned outside the outer ring platform and communicated with the outer ring platform, the lower sides of the inner ring plates 1, the middle ring plates 2, the outer ring plates 3 and the guide plates 7 are all connected with the adjusting supports 4, the air cushion suspension devices 6 are positioned at the lower parts of the push guide shoes in the inner ring platform and the outer ring platform, the air cushion suspension devices 6 jack the push guide shoes and drive the push guide shoes to enter the guide plates 7, the push shoes are quickly pulled out and transferred to the outside of a wind tunnel, the shoe pulling time is shortened, the shoe pulling is safe and reliable, and the operation is simple and convenient.

When the device is used, the middle ring plate 2 is positioned on one side of the guide plate 7, an eccentric structure is formed relative to the central line of the middle ring plate 2, the air cushion suspension device 6 can enter the outer annular groove 31 from the inner annular groove 11 along the middle ring plate 2, and the derived tile can be smoothly drawn out of the oil groove.

In use, the air suspension unit 6 is positioned within the inner annular groove 11 and the outer annular groove 31, and the tile extraction window is used for the passage of the air suspension unit 6.

During the use, a plurality of inner ring board 1 interconnect constitutes the inner ring platform, and a plurality of outer ring board 3 interconnect constitutes the outer loop platform, and during the connection, the fastener passes the connecting hole on the swash plate and connects the fastening.

When the device is used, the middle ring plate 2 is positioned between the inner ring platform and the outer ring platform, the inner arc surface of the middle ring plate is connected with the outer side of the inner ring platform, and the outer arc surface of the middle ring plate is connected with the inner side of the outer ring platform.

When in use, the support rod 42 of the adjusting support 4 is used for supporting, and the adjusting nut 43 is rotated to drive the threaded pipe 41 to lift and adjust the height.

When the device is used, the connecting plate 5 consists of two arc-shaped plates, one arc-shaped plate is connected with the outer ring platform, the other arc-shaped plate is connected with the guide plate 7, and the guide plate 7 and the outer ring platform are connected into a whole.

When the device is used, the larger end of the cross section of the guide plate 7 is close to the arc end of the guide plate, the operation area of the push guide tile when being pulled out is enlarged, the push guide tile moves to a lifting position to the smaller end of the cross section after being pulled out, and the device is convenient and quick to transfer, safe and reliable.

When the air cushion suspension device is used, the inner annular groove 11 is communicated with the outer annular groove 31, the guide plate 7 is communicated with the outer annular groove 31, and therefore the air cushion suspension device 6 can drive the push guide shoe to enter the guide plate 7 from the communicated position.

The above-described embodiments are merely preferred embodiments of the present invention, and should not be construed as limiting the present invention, and features in the embodiments and examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention is defined by the claims, and includes equivalents of technical features of the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the utility model.

Claims (9)

1. The utility model provides a giant water turbine push away guide shoe transfer platform which characterized by: the device comprises an inner ring plate (1), a middle ring plate (2), an outer ring plate (3), an adjusting support (4) and a guide plate (7); a plurality of interior crown plates (1) and a plurality of outer crown plates (3) constitute concentric inner ring platform and outer loop platform respectively, and inner ring plate (1), well crown plate (2), outer crown plate (3) and guide plate (7) downside all are connected with and adjust support (4), and well crown plate (2) are located between inner ring platform and the outer loop platform.

2. The giant water turbine thrust shoe transfer platform of claim 1, wherein: the guide plate (7) is positioned on the central line of the inner ring platform and the outer ring platform, and the middle ring plate (2) is close to one side of the central line.

3. The giant water turbine thrust shoe transfer platform of claim 1, wherein: the upper side surfaces of the inner ring platform and the outer ring platform are respectively provided with an inner annular groove (11) and an outer annular groove (31), and the inner annular groove (11) and the outer annular groove (31) are both provided with tile drawing windows.

4. The giant water turbine thrust shoe transfer platform of claim 1, wherein: the inner ring plate (1) and the outer ring plate (3) are arc flat plates with trapezoidal structures, inclined edges of the arc flat plates are provided with downwards bent inclined plates, and the inclined plates are provided with through connecting holes.

5. The giant water turbine thrust shoe transfer platform of claim 1, wherein: the middle ring plate (2) is an arc flat plate with a trapezoidal structure, the inclined edge of the middle ring plate is provided with an inclined plate which is bent upwards, the edges of the inner arc and the outer arc are provided with downward arc plates, and the mounting holes penetrate through the arc plates.

6. The giant water turbine thrust shoe transfer platform of claim 1, wherein: the adjusting support (4) comprises a support rod (42) matched with the threaded pipe (41) and an adjusting nut (43) positioned on the support rod (42).

7. The giant water turbine thrust shoe transfer platform of claim 1, wherein: the outer ring platform is characterized by further comprising a connecting plate (5), the connecting plate (5) is two arc-shaped plates which are overlapped with each other, one arc-shaped plate is located on the lower portion of an open slot of the outer ring platform, the other arc-shaped plate is connected with the lower portion of the arc-shaped end of the guide plate (7), and the fastener penetrates through the two arc-shaped plates.

8. The giant water turbine thrust shoe transfer platform of claim 1, wherein: the guide plate (7) is a flat plate, one end of the guide plate is of an arc structure, and the other straight edges are provided with upwards-protruding baffles (71); the cross section of the arc-shaped end of the guide plate (7) is larger than that of the corresponding end.

9. The giant water turbine thrust shoe transfer platform of claim 1, wherein: the middle ring plate (2) is communicated with the inner annular groove (11) and the outer annular groove (31), and the guide plate (7) is communicated with the outer annular groove (31).

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