CN116677717A - Rigid support of generator transmission shaft bearing component - Google Patents

Abstract

The invention provides a rigid support of a bearing component of a transmission shaft of a generator, which relates to the technical field of rigid supports, wherein one side, far away from a side plate, of a connecting block is fixedly connected with a support body, so that the problem that the bearing body is easy to abrade when in interference connection with the support and is inconvenient to disassemble and overhaul, and the normal use of the generator is influenced is solved.

Description

Rigid support of generator transmission shaft bearing component

Technical Field

The invention relates to the technical field of rigid supports, in particular to a rigid support of a bearing component of a transmission shaft of a generator.

Background

The generator is a mechanical device for converting mechanical energy into electric energy, and the transmission shaft in the generator is generally used with a corresponding bearing, and the bearing is more stable in order to rotate, and the support is needed to bear the bearing.

The existing stent has the following defects when in use:

1. when the support is used, because the support lacks an effective quick disassembly structure, the bearing body is easy to wear when in interference connection with the support, and the bearing is inconvenient to disassemble and overhaul subsequently, so that the normal use of the generator can be influenced.

In view of the above, the present invention provides a rigid support for a bearing component of a generator drive shaft, which aims to achieve a practical value.

Disclosure of Invention

The invention provides a rigid support of a bearing component of a transmission shaft of a generator, which solves the problems that the bearing body is easy to wear when in interference connection with the support due to the lack of an effective quick dismounting structure, and the bearing is inconvenient to detach and overhaul subsequently, so that the normal use of the generator is influenced.

The invention provides a purpose and an effect of a rigid support of a bearing component of a transmission shaft of a generator, which specifically comprise the following steps: the base and remove the seat, the main part of base is rectangular structure, and the inside four corners position of base has all been seted up the through-hole, and this through-hole is the mounting hole, remove the seat and pass through slider sliding connection in the guide rail, one side that keeps away from the guide rail in the seat is two places curb plates of linear array fixedly connected with, motor B is installed in the outside of two places curb plates, install the connecting block on motor B's the rear side output shaft, the connecting block is located the inboard position of two places curb plates, one side fixedly connected with support body of keeping away from the curb plate in the connecting block, the support body is the arc structure, and one side fixedly connected with clamp plate of keeping away from the curb plate in the support body, one side fixedly connected with pressure sensor of clamp plate, pressure sensor's internally mounted has the alarm.

Further, the support frame is equipped with two places altogether, and two support frames respectively fixed connection in the front and back both sides face position of base, and base and support frame have formed bearing structure jointly.

Further, a damper is arranged at the center of the top end surface of the base, and a supporting frame is fixedly connected to the outer side of the base.

Further, the upper side and the lower side of the inside of the sliding groove formed in the front side and the rear side of the guide rail are fixedly connected with proximity sensors, and the top end of the base is provided with a motor A.

Further, the inboard fixedly connected with slider of support frame, the guide rail is installed to the inboard of two sliders, the spout has all been seted up to the front and back both sides of guide rail, the meshing transmission through gear A and setting up at screw rod top gear B is realized driving the screw rod and is rotating in the inside of guide rail, and be connected through the transmission of screw rod and sliding connection movable seat in the guide rail, make two movable seat move through the longitudinal groove of seting up in its outside fixed connection along the guide rail and realize driving two synchronous inwards side of support body and be close to carry out the clamp limit to the bearing assembly, the support body through split type setting can reach the purpose of being convenient for follow-up dismantlement maintenance more.

Further, install the thermoscope on the outer peripheral face of support body, bearing assembly is installed to the inboard of support body, and bearing assembly's inboard is installed the axis body, and the axis body is the transmission shaft, and limit structure has been constituteed jointly with the clamp plate to the support body, and the front end fixedly connected with pump liquid ware of guide rail, the takeover is installed on the top of pump liquid ware, the top fixedly connected with ring flange of takeover, and two circulating pipes are installed to the front end of pump liquid ware in linear array, and two circulating pipes are connected with two frame bodies respectively, and the support body is inside hollow structure, and the solenoid valve is installed in the outside of two circulating pipes.

Further, a gear A is installed on an output shaft at the bottom end of the motor A, and a screw is installed in a longitudinal groove formed in the guide rail.

Further, gear B is coaxially installed on the top end of the screw rod, the gear B is meshed with gear A for transmission, a movable seat is slidably connected in the guide rail, and sliding blocks are fixedly connected on the front side and the rear side of the movable seat.

Compared with the prior art, the invention has the following beneficial effects:

1. after the fixed spacing completion of base, the rethread is installed the inboard position of two sliders with the guide rail, then the rethread is according to the inside of installing the generator with the axis body, and synchronous with the bearing assembly install the outside of axis body carry out spacing can, the rethread will set up in the one side of support body towards the bearing assembly put this moment, and make two support bodies lie in respectively the upper and lower both sides position of bearing assembly can, the rethread starts motor A of installing on the guide rail top and rotates drive, and realize driving the screw rod and rotate in the inside of guide rail through gear A and the meshing transmission of setting up at screw rod top gear B, and be connected through screw rod and sliding connection in the transmission of moving the seat in the guide rail, make two moving seat move along the longitudinal groove of seting up in the guide rail through its outside fixed connection and realize driving two synchronous inwards side of support body and be close to carry out the clamp spacing to the bearing assembly, the support body through split type setting up can reach the purpose of convenient to dismantle the maintenance more follow-up.

2. After the clamping and limiting of the bearing assembly are completed through the frame body, the guide rail can move through the sliding blocks in the guide rail through sliding connection, and the corresponding damper is arranged between the guide rail and the base, so that when the bearing assembly and the shaft body are used, the bearing assembly and the shaft body shake in the working process of the generator, the damping and buffering operation can be performed synchronously by utilizing the damper arranged between the base and the guide rail, and when the bearing assembly and the shaft body are used, the vibration amplitude of the current guide rail can be detected synchronously by utilizing the proximity sensor arranged in the guide rail, if the proximity sensor arranged in the guide rail detects that the sliding connection is excessively close to the sliding block in the guide rail, the alarm in the bearing assembly is automatically started to perform quick buzzing and alarming, and the purpose of ensuring the normal use of the generator is achieved.

3. When the frame body is used for limiting the bearing assembly, the closing pressure between the two current frame bodies can be detected by using the pressure sensors arranged in the pressing plates, if the closing pressure of the two current frame bodies cannot reach a specified value, the fact that the clamping force of the bearing assembly is weakened currently is indicated, an alarm installed in the pressure sensors can be synchronously started to carry out quick buzzing alarm, after the frame body is used for limiting the bearing assembly, the circulating pipe can be continuously used for circulating cold water from the inside of the frame body by starting the liquid pump installed at the front end of the guide rail, so that the bearing assemblies positioned in the two frame bodies can be subjected to efficient heat dissipation operation by circulating cold water in the frame body, and the temperature of the current frame body can be continuously monitored by using the temperature detector arranged at the outer side of the frame body, so that the aim of accurate temperature control is achieved.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

In the drawings:

FIG. 1 shows a schematic view of a front side view in partial structural cut-away of a rigid bracket according to an embodiment of the present invention;

FIG. 2 shows a schematic view of a side elevation view in partial structural section of a rigid support in accordance with an embodiment of the present invention;

FIG. 3 shows a schematic diagram of a front side view of a rigid bracket according to an embodiment of the invention;

FIG. 4 shows a schematic diagram of a front view of a rigid support in accordance with an embodiment of the invention;

FIG. 5 illustrates a schematic view of a base-to-slider display of a rigid cradle in accordance with an embodiment of the invention;

FIG. 6 shows a schematic top view of a rigid support in accordance with an embodiment of the invention;

FIG. 7 shows an enlarged schematic view of the structure of FIG. 2 at A of a rigid support in accordance with an embodiment of the invention;

fig. 8 shows an enlarged schematic view of the structure of fig. 2 at B of the rigid support according to an embodiment of the invention.

List of reference numerals

1. A base; 2. a mounting hole; 3. a damper; 4. a support frame; 5. a slide block; 6. a guide rail; 7. a proximity sensor; 8. a motor A; 9. a gear A; 10. a screw; 11. a gear B; 12. a movable seat; 13. a moving block; 14. a side plate; 15. a motor B; 16. a connecting block; 17. a frame body; 18. a pressing plate; 19. a pressure sensor; 20. a temperature measurer; 21. a bearing assembly; 22. a shaft body; 23. a liquid pump; 24. connecting pipe; 25. a circulation pipe; 26. a solenoid valve.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Examples:

as shown in fig. 1 to 8:

the invention provides a rigid support of a bearing component of a transmission shaft of a generator, which comprises the following components: the base 1 and the movable seat 12, the main body of the base 1 is of a rectangular structure, through holes are formed in four corners of the interior of the base 1, the through holes are mounting holes 2, the movable seat 12 is slidably connected in a guide rail 6 through a movable block 13, one side of the movable seat 12 far away from the guide rail 6 is fixedly connected with two side plates 14 in a linear array, a motor B15 is arranged on the outer sides of the two side plates 14, a connecting block 16 is arranged on a rear output shaft of the motor B15, the connecting block 16 is positioned at the inner sides of the two side plates 14, one side of the connecting block 16 far away from the side plates 14 is fixedly connected with a frame 17, the frame 17 is of an arc structure, one side of the frame 17 far away from the side plates 14 is fixedly connected with a pressing plate 18, one side of the pressing plate 18 is fixedly connected with a pressure sensor 19, an alarm is arranged in the pressure sensor 19, a temperature detector 20 is arranged on the outer peripheral surface of the frame 17, a bearing assembly 21 is arranged on the inner side of the frame 17, the shaft body 22 is arranged on the inner side of the bearing assembly 21, the shaft body 22 is a transmission shaft, the frame body 17 and the pressing plate 18 jointly form a limiting structure, the front end of the guide rail 6 is fixedly connected with the liquid pumping device 23, the top end of the liquid pumping device 23 is provided with the connecting pipe 24, the top end of the connecting pipe 24 is fixedly connected with the flange plate, the front end of the liquid pumping device 23 is provided with two circulating pipes 25 in a linear array, the two circulating pipes 25 are respectively connected with the two connecting frame bodies 17, the frame bodies 17 are of an internal hollow structure, the outer sides of the two circulating pipes 25 are provided with electromagnetic valves 26, when the frame bodies 17 limit the bearing assembly 21, the closing pressure between the current two frame bodies 17 can be detected by utilizing the pressure sensor 19 arranged in the pressing plate 18, if the closing pressure of the current two frame bodies 17 is detected to not reach a specified value, the clamping force of the current bearing assembly 21 is weakened, at this time, the alarm installed in the pressure sensor 19 can be synchronously started to carry out quick buzzing alarm, and after the clamping limit of the bearing assembly 21 is completed when the frame 17, cold water can be continuously circulated from the inside of the frame 17 by starting the liquid pump 23 installed at the front end of the guide rail 6, so that the bearing assemblies 21 positioned in the two frame 17 can carry out efficient heat dissipation operation through the circulation of cold water in the frame 17, and the temperature of the current frame 17 can be continuously monitored by utilizing the temperature detector 20 arranged at the outer side of the frame 17, thereby achieving the aim of accurately controlling the temperature.

The damper 3 is installed in the center position of the top surface of the base 1, the support frame 4 is fixedly connected to the outer side of the base 1, two parts are arranged on the support frame 4, the two support frames 4 are fixedly connected to the front side and the rear side of the base 1 respectively, the base 1 and the support frame 4 form a bearing structure jointly, after the fixed limit of the base 1 is completed, the guide rail 6 is installed to the inner side positions of the two sliding blocks 5, the shaft body 22 is installed in the generator according to the inner side of the generator, the bearing assembly 21 is synchronously installed to the outer side of the shaft body 22, at this time, one side of the frame body 17 is placed towards the bearing assembly 21, the two frame bodies 17 are respectively located at the upper side and the lower side positions of the bearing assembly 21, at this time, the motor A8 installed at the top end of the guide rail 6 is started to drive the gear A9 in a rotating mode, the screw 10 is driven to rotate in the inner side of the guide rail 6 through the gear A9 and the meshed transmission of the gear B11 arranged at the top end of the screw 10, the screw 10 is connected with the transmission of the moving seat 12 in a sliding mode, the moving seat 12 is enabled to move along the inner side of the guide rail 6 in a sliding mode, the moving seat 12 is enabled to move towards the bearing assembly 21, the bearing assembly 17 is enabled to move along the two side of the fixed frame bodies, and the moving seat 17 can be more synchronously, and the two side frames are convenient to be detached along the longitudinal direction of the moving seat frame body 17, and the moving seat 17 is placed along the fixed side of the fixed frame body, and the moving seat frame body is convenient, and the moving frame body is convenient to move along the moving frame 17.

The inner sides of the supporting frames 4 are fixedly connected with sliding blocks 5, the inner sides of the two sliding blocks 5 are provided with sliding grooves, the front side and the rear side of the sliding grooves are provided with sliding grooves, the upper side and the lower side of the inner portion of each sliding groove provided with the front side and the rear side of each sliding groove are fixedly connected with proximity sensors 7, the top end of each base 1 is provided with a motor A8, after the bearing assembly 21 is clamped and limited through the frame 17, the sliding blocks 5 which are arranged inside the sliding blocks 6 can be slidably connected to move, and corresponding dampers 3 are arranged between the sliding blocks 6 and the base 1, so that when the bearing assembly 21 and the shaft 22 are used, the bearing assembly 21 and the shaft 22 are used for shaking in the working process of the generator, efficient damping and buffering operations can be carried out synchronously by utilizing the arrangement of the dampers 3 which are arranged between the base 1 and the sliding blocks 6, and when the bearing assembly is used, the current sliding blocks 6 are detected by the proximity sensors 7 which are arranged in the sliding blocks 6, if the proximity sensors 7 which are arranged in the sliding blocks 6 are detected to be automatically close to each other in the sliding blocks 6, the bearing assembly 6 can be started up, and the generator can be started up normally and automatically, and the alarm can be normally and automatically carried out.

The gear A9 is installed on the bottom output shaft of the motor A8, the screw 10 is installed in a longitudinal groove formed in the guide rail 6, the gear B11 is coaxially installed at the top end of the screw 10, the gear B11 is meshed with the gear A9 for transmission, the movable seat 12 is slidably connected in the guide rail 6, and the movable blocks 13 are fixedly connected to the front side and the rear side of the movable seat 12.

When in use, the utility model is characterized in that: when the transmission shaft of the generator needs to be provided with a bearing for use, the base 1 can be contacted with a fixed base surface, and the base 1 can be rapidly limited and fixed by passing a fixing bolt through a mounting hole 2 formed in the base 1;

after the fixing and limiting of the base 1 are completed, the guide rail 6 is installed at the inner side positions of the two sliding blocks 5, then the bearing assembly 21 is synchronously installed at the outer sides of the shaft bodies 22 according to the installation of the shaft bodies 22 in the generator, at the moment, one side of the two moving seats 12 is placed towards the bearing assembly 21 by being arranged at one side of the frame body 17, the two frame bodies 17 are respectively positioned at the upper side and the lower side of the bearing assembly 21, at the moment, the gear A9 is driven in a rotating way by starting the motor A8 installed at the top end of the guide rail 6, the screw rod 10 is driven to rotate in the guide rail 6 by the meshing transmission of the gear A9 and the gear B11 arranged at the top end of the screw rod 10, and the moving seats 12 are connected in a sliding way through the screw rod 10 and the sliding way, so that the two moving seats 12 can move along the longitudinal grooves formed in the guide rail 6 by the moving blocks 13 fixedly connected at the outer sides of the moving seats, the two moving seats 17 are driven to synchronously close to the inner sides of the bearing assembly 21 to be clamped and limited, and the split type frame bodies 17 can be disassembled conveniently and maintained;

after the bearing assembly 21 is clamped and limited through the frame 17, the guide rail 6 can move through the sliding block 5 which is in sliding connection in the guide rail 6, and the corresponding damper 3 is arranged between the guide rail 6 and the base 1, so that when the bearing assembly 21 and the shaft 22 are used, high-efficiency damping and buffering operation can be synchronously performed by using the arrangement of the damper 3 which is arranged between the base 1 and the guide rail 6 when the bearing assembly 21 and the shaft 22 shake in the working process of the generator, and when the generator is used, the shaking amplitude of the current guide rail 6 can be synchronously detected by using the proximity sensor 7 which is arranged in the guide rail 6, if the proximity sensor 7 which is arranged in the guide rail 6 detects that the sliding connection of the sliding block 5 in the guide rail 6 is excessively close, the alarm in the guide rail 6 can be automatically started to perform quick buzzing and alarming, and the aim of ensuring the normal use of the generator is achieved;

when the frame 17 limits the bearing assembly 21, the closing pressure between the two current frames 17 can be detected by using the pressure sensor 19 arranged in the pressing plate 18, if the closing pressure of the two current frames 17 is detected to be not up to a specified value, the current clamping force of the bearing assembly 21 is weakened, at the moment, an alarm installed in the pressure sensor 19 can be synchronously started to perform quick buzzing alarm, and after the frame 17 clamps the bearing assembly 21, the pump 23 installed at the front end of the guide rail 6 can be started to continuously circulate cold water from the inside of the frame 17 by using the circulating pipe 25, so that the bearing assembly 21 positioned in the two frames 17 can perform efficient heat dissipation operation by using the temperature detector 20 arranged at the outer side of the frame 17 to continuously monitor the temperature of the current frame 17, thereby achieving the aim of accurate temperature control.

Claims (8)

1. The utility model provides a rigid support of generator transmission shaft bearing part, its characterized in that, including base (1) and removal seat (12), the main part of base (1) is rectangular structure, and the inside four corners position of base (1) has all been seted up the through-hole, and this through-hole is mounting hole (2), remove seat (12) and pass through movable block (13) sliding connection in guide rail (6), be linear array fixedly connected with two curb plates (14) in one side of keeping away from guide rail (6) in removal seat (12), motor B (15) are installed in the outside of two curb plates (14), install connecting block (16) on the rear side output shaft of motor B (15), connecting block (16) are located the inboard position of two curb plates (14), one side fixedly connected with support body (17) of keeping away from curb plate (14) in connecting block (16), support body (17) are arc structure, and one side fixedly connected with clamp plate (18) of keeping away from curb plate (14) in support body (17), one side fixedly connected with pressure sensor (19), the internally mounted of pressure sensor (19) has the alarm.

2. A rigid support for a generator drive shaft bearing assembly as defined in claim 1 wherein: the damping device is characterized in that a damper (3) is arranged at the center of the top end surface of the base (1), and a supporting frame (4) is fixedly connected to the outer side of the base (1).

3. A rigid support for a generator drive shaft bearing assembly as defined in claim 2 wherein: the support frame (4) is equipped with two altogether, and two support frames (4) are fixed connection respectively in the front and back both sides face position of base (1), and bearing structure has been constituteed jointly to base (1) and support frame (4).

4. A rigid support for a generator drive shaft bearing assembly as defined in claim 3 wherein: the inner side of the support frame (4) is fixedly connected with sliding blocks (5), guide rails (6) are arranged on the inner sides of the two sliding blocks (5), and sliding grooves are formed in the front side and the rear side of each guide rail (6).

5. A rigid support for a generator drive shaft bearing assembly as defined in claim 4 wherein: the upper side and the lower side of the inside of a chute formed in the front side and the rear side of the guide rail (6) are fixedly connected with proximity sensors (7), and the top end of the base (1) is provided with a motor A (8).

6. A rigid support for a generator drive shaft bearing assembly as defined in claim 5 wherein: the gear A (9) is mounted on the bottom output shaft of the motor A (8), and a screw (10) is mounted in a longitudinal groove formed in the guide rail (6).

7. A rigid support for a generator drive shaft bearing assembly as defined in claim 6 wherein: the top of the screw rod (10) is coaxially provided with a gear B (11), the gear B (11) is meshed with the gear A (9) for transmission, the inside of the guide rail (6) is connected with a movable seat (12) in a sliding manner, and the front side and the rear side of the movable seat (12) are fixedly connected with movable blocks (13).

8. A rigid support for a generator drive shaft bearing assembly as defined in claim 1 wherein: install thermoscope (20) on the outer peripheral face of support body (17), bearing assembly (21) are installed to the inboard of support body (17), shaft body (22) are installed to the inboard of bearing assembly (21), shaft body (22) are the transmission shaft, limit structure has been constituteed jointly to support body (17) and clamp plate (18), connecting tube (24) are installed on the front end fixedly connected with pump liquid ware (23) of guide rail (6), connecting tube (24) are installed on the top of connecting tube (24), two circulating pipes (25) are installed in the front end of pump liquid ware (23) in linear array, two circulating pipes (25) are connected with two support bodies (17) respectively, support body (17) are inside hollow structure, and solenoid valve (26) are installed in the outside of two circulating pipes (25).