CN215267976U

CN215267976U - Over-temperature prevention generator

Info

Publication number: CN215267976U
Application number: CN202121079773.5U
Authority: CN
Inventors: 陈勇; 刘会立; 许汝明; 杨新田
Original assignee: Weifang Longyuan Motor Co ltd
Current assignee: Weifang Longyuan Motor Co ltd
Priority date: 2021-05-19
Filing date: 2021-05-19
Publication date: 2021-12-21
Anticipated expiration: 2031-05-19

Abstract

The utility model discloses a prevent generator of excess temperature, including water inlet, biography sump, base and hydraulic generator, the one end fixedly connected with water inlet of passing the sump, hydraulic generator is installed to one side of passing the sump, the bottom fixedly connected with base of passing the sump, hydraulic generator installs binding post, it falls the structure of making an uproar to be provided with in the inner wall of passing the sump, the inside of water inlet is provided with filtration, the delivery port is installed to the intermediate position department of base. The utility model discloses after rivers are spread into to the inside of passing the sump, during rivers flowed into the inside water pipe that passes in the cooling storehouse from the position department of advancing the storehouse mouth, the inside rivers of passing the water pipe then encircle the walking in the inside in cooling storehouse, spread into the inside position department from the outlet in cooling storehouse with hydraulic generator simultaneously and take away, avoided hydraulic generator to appear the phenomenon that the high temperature is gone into at the during operation, realized the water-cooling function of this device from this, improved the functionality of this device.

Description

Over-temperature prevention generator

Technical Field

The utility model relates to a generator technical field specifically is a prevent generator of excess temperature.

Background

In present society, along with the gradual progress of the constantly developing technological level of times, electric power has become more than indispensable kinetic energy in our daily life gradually, the appearance of this generator is exactly to have rivers to the low place that have potential energy with rivers, lakes equipotential, the mechanical energy of hydraulic turbine is converted to through the hydraulic turbine, the frequency of output alternating current is decided to the rotational speed of generator, when rivers are torrential, the rotational speed of flabellum accelerates gradually, lead to the generator can output too big alternating current, can prevent the generator of excessive temperature when needing a use now, but current hydroelectric generator still has a lot of problems and defects:

the traditional generator has the problem of overhigh internal temperature when in use, so that the phenomenon of overhigh internal temperature occurs in the generator in daily power supply for a long time, and further the electricity transmission speed of internal parts of the generator and the service life of the internal parts of the generator are influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a prevent generator of excess temperature to the problem of proposing the device inside high temperature in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a generator capable of preventing over-temperature comprises a water inlet, a water delivery bin, a base and a hydraulic generator, wherein one end of the water delivery bin is fixedly connected with the water inlet, one side of the water delivery bin is provided with the hydraulic generator, the bottom end of the water delivery bin is fixedly connected with the base, the inside of the hydraulic generator is provided with a water cooling structure, the water cooling structure comprises a bin inlet, a cooling bin, a water delivery pipe, a fixing piece and a water outlet, the cooling bin is arranged inside one end of the hydraulic generator, the inside of the cooling bin is provided with the water delivery pipe, the surface of the water delivery pipe is fixedly connected with the fixing piece, the water outlet is arranged on one side of the water delivery pipe, the other side of the water delivery pipe is provided with the bin inlet, one side of the hydraulic generator is provided with a belt pulley, the hydraulic generator is provided with a wiring terminal, the inside of the water delivery bin is provided with fan blades, and the inner wall of the water delivery bin is provided with a noise reduction structure, the inside of water inlet is provided with filtration, the intermediate position department of base installs the delivery port.

Preferably, the water transfer pipe is distributed in a surrounding manner in the cooling bin, and the fixing pieces are distributed on the surface of the water transfer pipe at equal intervals.

Preferably, the noise reduction structure comprises a cavity, a reinforcing rod and a noise reduction sponge, the cavity is arranged in the inner wall of the water transfer bin, the noise reduction sponge is mounted at the bottom end inside the cavity, and the reinforcing rod is mounted at the top end of the noise reduction sponge.

Preferably, the reinforcing rods are arranged at the top ends of the noise reduction sponges in a plurality of groups, and the reinforcing rods in the plurality of groups are in an 'eight' shape in the cavity.

Preferably, the filtering structure comprises a fixing ring, a reinforcing rod and a noise reduction sponge, the fixing ring is arranged at the top end of the water inlet, a filtering plate is arranged inside the fixing ring, and fixing bolts are arranged on the surface of the fixing ring.

Preferably, the surface of the fixed ring is provided with six groups of the fixed bolts, and the six groups of the fixed bolts are distributed on the surface of the fixed ring in an annular shape.

Compared with the prior art, the beneficial effects of the utility model are that: this prevent generator of excess temperature is rational in infrastructure, has following advantage:

(1) when water flow is introduced into the interior of the water delivery bin, the water flow flows into the water delivery pipe in the cooling bin from the position of the bin inlet, then the water flow in the water delivery pipe runs around the interior of the cooling bin, and meanwhile, the water wheel generator is introduced into the interior of the cooling bin and taken away from the position of the water outlet, so that the phenomenon that the water wheel generator has overhigh temperature during working is avoided, the water cooling function of the device is realized, and the functionality of the device is improved;

(2) when water flow is transmitted into the water transfer bin, the water flow strikes the inner wall of the water transfer bin to generate noise, then the noise is transmitted into the noise reduction sponge, the noise resonance is counteracted through the self characteristic of the noise reduction sponge, the noise is prevented from being transmitted out of the water transfer bin by the noise reduction sponge to influence outside personnel, the noise reduction function of the device is realized, and the practicability of the device is improved;

(3) through solid fixed ring with the filter at the top installation of water inlet, rivers flow through the filter afterwards and block inside impurity, have avoided the water inlet to flow into the inside of passing the sump with the magazine to cause the damage to the inside blade in sump, realized the filtering capability of this device from this, improved the convenience of this device.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a schematic side view of the cross-sectional structure of the present invention;

FIG. 3 is a schematic view of the front cross-sectional structure of the water cooling structure of the present invention;

fig. 4 is a schematic view of a front cross-sectional structure of the noise reduction structure of the present invention;

fig. 5 is a schematic top view of the filtering structure of the present invention.

In the figure: 1. a water inlet; 2. a water transfer bin; 3. a base; 4. a water-cooling structure; 401. a bin inlet; 402. a cooling bin; 403. a water transfer pipe; 404. a fixing sheet; 405. a water outlet; 5. A hydro-generator; 6. a belt pulley; 7. a wiring terminal; 8. a water outlet; 9. a fan blade; 10. A noise reduction structure; 1001. a chamber; 1002. a reinforcing bar; 1003. a noise reducing sponge; 11. a filter structure; 1101. a fixing ring; 1102. a filter plate; 1103. and (6) fixing the bolt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides an embodiment: a generator for preventing over-temperature comprises a water inlet 1, a water delivery bin 2, a base 3 and a hydraulic generator 5, wherein one end of the water delivery bin 2 is fixedly connected with the water inlet 1, one side of the water delivery bin 2 is provided with the hydraulic generator 5, the bottom end of the water delivery bin 2 is fixedly connected with the base 3, the interior of the hydraulic generator 5 is provided with a water cooling structure 4, the water cooling structure 4 comprises a bin inlet 401, a cooling bin 402, a water delivery pipe 403, a fixing plate 404 and a water outlet 405, the cooling bin 402 is arranged inside one end of the hydraulic generator 5, the water delivery pipe 403 is arranged inside the cooling bin 402, the surface of the water delivery pipe 403 is fixedly connected with the fixing plate 404, the water outlet 405 is arranged on one side of the water delivery pipe 403, the bin inlet 401 is arranged on the other side of the water delivery pipe 403, a belt pulley 6 is arranged on one side of the hydraulic generator 5, a connecting terminal 7 is arranged on the hydraulic generator 5, and fan blades 9 are arranged inside the water delivery bin 2, a water outlet 8 is arranged in the middle of the base 3, the water transfer pipes 403 are distributed in a surrounding manner in the cooling bin 402, the fixing plates 404 are distributed on the surface of the water transfer pipes 403 at equal intervals, the cold water in the water transfer pipes 403 is heated through the surrounding design of the water transfer pipes 403 in the cooling bin 402, and then the hot water is discharged from the water outlet 405 to cool the hydraulic generator 5;

the device is installed at a proper position, external water flow is guided into the water delivery bin 2 through the water inlet 1, fan blades 9 inside the water delivery bin 2 are impacted through the water flow, then the water flow is discharged from the position of the water outlet 8, further the fan blades 9 enable the rotor inside the hydraulic generator 5 to rotate under the driving of the water flow to generate alternating current, then the alternating current is guided out from the inside of the wiring terminal 7, after the water flow is guided into the water delivery bin 2, the water flow flows into the water delivery pipe 403 inside the cooling bin 402 from the position of the bin inlet 401, then the water flow inside the water delivery pipe 403 walks around the inside of the cooling bin 402, meanwhile, the hydraulic generator 5 is conveyed into the inside of the cooling bin 402 and taken away from the position of the water outlet 405, and the phenomenon that the temperature of the hydraulic generator 5 is too high during working is avoided;

the noise reduction structure 10 is arranged in the inner wall of the water transfer bin 2, the noise reduction structure 10 comprises a cavity 1001, reinforcing rods 1002 and noise reduction sponges 1003, the cavity 1001 is arranged in the inner wall of the water transfer bin 2, the noise reduction sponges 1003 are mounted at the bottom end of the interior of the cavity 1001, the reinforcing rods 1002 are mounted at the top end of the noise reduction sponges 1003, a plurality of groups of reinforcing rods 1002 are arranged at the top end of the noise reduction sponges 1003, the reinforcing rods 1002 of the groups are in an eight-shaped form inside the cavity 1001, the inner wall of the water transfer bin 2 is reinforced through the reinforcing rods 1002 mounted inside the cavity 1001, and the phenomenon that the water transfer bin 2 deforms when being impacted by the outside is avoided;

when water flow is transmitted into the water transfer bin 2, the water flow strikes the inner wall of the water transfer bin 2 to generate noise, then the noise is transmitted into the noise reduction sponge 1003, the noise resonance is counteracted through the self-characteristics of the noise reduction sponge 1003, and the influence of the noise reduction sponge 1003 on outside personnel transmitting the noise out of the water transfer bin 2 is avoided;

the water inlet 1 is internally provided with a filtering structure 11, the filtering structure 11 comprises a fixing ring 1101, a reinforcing rod 1002 and a noise reduction sponge 1003, the fixing ring 1101 is arranged at the top end of the water inlet 1, a filtering plate 1102 is arranged inside the fixing ring 1101, fixing bolts 1103 are arranged on the surface of the fixing ring 1101, six groups of fixing bolts 1103 are arranged on the surface of the fixing ring 1101, the six groups of fixing bolts 1103 are distributed on the surface of the fixing ring 1101 in an annular mode, and the filtering plate 1102 is arranged inside the water inlet 1 by the fixing bolts 1103 annularly arranged on the surface of the fixing ring 1101;

install filter 1102 at the top of water inlet 1 through solid fixed ring 1101, inside impurity is blocked with filter 1102 to rivers flow through afterwards, has avoided water inlet 1 to flow into the inside of passing sump 2 with the magazine to cause the damage to the inside blade of passing sump 2.

The working principle is as follows: when the device is used, firstly, the device is installed at a proper position, external water flow is guided into the water delivery bin 2 through the water inlet 1, the fan blades 9 in the water delivery bin 2 are impacted through the water flow, then the water flow is discharged from the position of the water outlet 8, further the fan blades 9 enable the rotor in the hydraulic generator 5 to rotate under the driving of the water flow to generate alternating current, then the alternating current is led out from the inside of the wiring terminal 7, after the water flow is guided into the water delivery bin 2, the water flow flows into the water delivery pipe 403 in the cooling bin 402 from the position of the bin inlet 401, then the water flow in the water delivery pipe 403 runs around the inside of the cooling bin 402, meanwhile, the hydraulic generator 5 is guided into the position in the cooling bin 402 from the water outlet 405, and the phenomenon that the temperature of the hydraulic generator 5 is too high during working is avoided;

secondly, when water flow is transmitted into the water transfer bin 2, the water flow strikes the inner wall of the water transfer bin 2 to generate noise, then the noise is transmitted into the noise reduction sponge 1003, the noise resonance is counteracted through the self-characteristics of the noise reduction sponge 1003, and the influence of the noise reduction sponge 1003 on outside personnel when the noise is transmitted out of the water transfer bin 2 is avoided;

finally, the filter plate 1102 is installed at the top end of the water inlet 1 through the fixing ring 1101, then water flows through the filter plate 1102 to block impurities inside, the situation that magazines flow into the water conveying bin 2 from the water inlet 1 and damage to blades inside the water conveying bin 2 is avoided, and finally all work of the device is finished.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a prevent generator of excess temperature, includes water inlet (1), passes sump (2), base (3) and hydraulic generator (5), its characterized in that: the water cooling device is characterized in that one end of the water conveying bin (2) is fixedly connected with a water inlet (1), one side of the water conveying bin (2) is provided with a hydraulic generator (5), the bottom end of the water conveying bin (2) is fixedly connected with a base (3), the inside of the hydraulic generator (5) is provided with a water cooling structure (4), the water cooling structure (4) comprises a bin inlet (401), a cooling bin (402), a water conveying pipe (403), a fixing sheet (404) and a water outlet (405), the cooling bin (402) is arranged inside one end of the hydraulic generator (5), the water conveying pipe (403) is arranged inside the cooling bin (402), the surface of the water conveying pipe (403) is fixedly connected with the fixing sheet (404), the water outlet (405) is arranged on one side of the water conveying pipe (403), the bin inlet (401) is arranged on the other side of the water conveying pipe (403), one side of the hydraulic generator (5) is provided with a belt pulley (6), the hydraulic generator is characterized in that a wiring terminal (7) is installed on the hydraulic generator (5), fan blades (9) are arranged inside the water transfer bin (2), a noise reduction structure (10) is arranged in the inner wall of the water transfer bin (2), a filtering structure (11) is arranged inside the water inlet (1), and a water outlet (8) is installed in the middle position of the base (3).

2. An over-temperature protected generator according to claim 1, wherein: the water transfer pipes (403) are distributed in the cooling bin (402) in a surrounding mode, and the fixing pieces (404) are distributed on the surface of the water transfer pipes (403) at equal intervals.

3. An over-temperature protected generator according to claim 1, wherein: the noise reduction structure (10) comprises a cavity (1001), a reinforcing rod (1002) and a noise reduction sponge (1003), wherein the cavity (1001) is arranged in the inner wall of the water transfer bin (2), the noise reduction sponge (1003) is arranged at the bottom end inside the cavity (1001), and the reinforcing rod (1002) is arranged at the top end of the noise reduction sponge (1003).

4. An over-temperature protected generator according to claim 3, wherein: the top end of the noise reduction sponge (1003) of the reinforcing rods (1002) is provided with a plurality of groups, and the reinforcing rods (1002) of the groups are in an 'eight' shape in the cavity (1001).

5. An over-temperature protected generator according to claim 1, wherein: the utility model discloses a water inlet (1) filter structure, including filter ring (1101), stiffener (1002) and the sponge (1003) of making an uproar fall, fixed ring (1101) sets up the top at water inlet (1), the internally mounted of fixed ring (1101) has filter (1102), gim peg (1103) are all installed to the surface of fixed ring (1101).

6. An over-temperature protected generator according to claim 5, wherein: six groups of fixing bolts (1103) are arranged on the surface of the fixing ring (1101), and the six groups of fixing bolts (1103) are annularly distributed on the surface of the fixing ring (1101).