CN220689160U - Cold-storage heat pipe management device for energy station - Google Patents

Abstract

The utility model discloses a cold-storage heat pipe management device for an energy station, which belongs to the technical field of cold and hot pipes and comprises a bottom plate and a shell, wherein the shell is arranged on the surface of the bottom plate, and through a motor, a speed reducer, a rotating shaft, a heating disc, a cleaning scraping plate, a temperature sensor, a water flow rate sensor and an electric heating device which are arranged, the electric heating device converts electric energy into heat energy and transmits the heat energy into a water body through the heating disc, the heating disc rotates and can effectively break the solidification of the water body and uniformly heat the water body, the cleaning scraping plate also rotates at two sides of a multi-layer filter cavity and scrapes frozen ice cubes on the surface, the filter holes are not blocked, the ice cubes are not blocked up any more under the double functions of the two devices, the normal flow rate of the water body entering a boiler chamber is ensured, thereby the heating efficiency is improved, and the preheated water body can be heated to a heating temperature value in the boiler chamber more quickly, and the heating speed is improved.

Description

Cold-storage heat pipe management device for energy station

Technical Field

The utility model belongs to the technical field of cold and hot pipes, and particularly relates to a cold-storage heat pipe management device for an energy station.

Background

The heating machine room belongs to a device room for providing heating for a heating area, and generally comprises a water supply unit, a water pump, a boiler unit, a water treatment dosing device, a water collector, a water distributor, various electric control components and the like, wherein in order to provide heating for the heating area, fluid needs to be conveyed through a pipeline, flows to a low-pressure position from a high-pressure position of the pipeline after being pressurized by a blower, a compressor, a pump, a boiler and the like and is heated, and the fluid can also be conveyed by utilizing the pressure or gravity of the fluid, and is generally filtered and the like to be commonly used as a cold storage hot water pipe management device in order to prevent adverse chemical reactions in a severe high-temperature heating process before entering the heating boiler room.

The conventional cold-storage hot water pipe management device can only perform conventional functions such as conventional filtering, water pressure and water temperature measurement, water valve opening and closing and the like on cold water, but can easily cause icing in a pipeline and on the surface of a filtering block due to low temperature in extremely cold weather, so that the flow speed of a water inlet pipe is influenced, and the heating efficiency is reduced.

Disclosure of Invention

The utility model aims to provide a cold-storage heat pipe management device for an energy station, which aims to solve the problems that in the background art, the interior of a pipe and the surface of a filter block are frozen easily due to low temperature in extremely cold weather, and the flow speed of a water inlet pipe is influenced, so that the heating efficiency is reduced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a cold-storage heat pipe management device for energy station, includes bottom plate and casing, the bottom plate surface is located to the casing, the casing top is equipped with the filtration lid, the filtration lid bottom is equipped with the multilayer filter chamber, the inside spacing groove is located to the multilayer filter chamber, the inside casing is located to the spacing groove, casing one side is equipped with the guard box, the inside motor that is equipped with of guard box, casing one side is located to the motor, motor output one side is equipped with the speed reducer, speed reducer one side is equipped with the axis of rotation, the axis of rotation runs through to casing inside one side and is equipped with the axle sleeve, the axis of rotation surface is equipped with the heating plate, the axis of rotation surface still is equipped with cleaning scraper blade, cleaning scraper blade locates multilayer filter chamber one side, the inside temperature sensor that is equipped with of casing, the inside water velocity of flow sensor that still is equipped with of casing, the bottom plate surface still is equipped with electric heating device, the filtration lid top is equipped with the handle.

Preferably, the casing fixed connection is in the bottom plate surface, casing top bolt fastening has the filter cover, filter cover bottom fixedly connected with multilayer filter chamber, multilayer filter chamber sliding connection is inside the spacing groove, the spacing groove is fixed to be seted up inside the casing.

Preferably, a protection box is fixedly connected to one side of the shell, a motor is fixedly connected to the inside of the protection box, the motor is also fixedly connected to one side of the shell, and a speed reducer is fixedly connected to one side of an output end of the motor.

Preferably, one side of the speed reducer is fixedly connected with a rotating shaft, the rotating shaft penetrates through one side of the inside of the shell and is rotationally connected with a shaft sleeve, the surface of the rotating shaft is fixedly connected with a heating disc, and the surface of the rotating shaft is fixedly connected with a cleaning scraping plate.

Preferably, the cleaning scraping plate is rotatably connected to one side of the multi-layer filter cavity, a temperature sensor is fixedly connected to the inside of the shell, and a water flow rate sensor is fixedly connected to the inside of the shell.

Preferably, the surface of the bottom plate is also fixedly connected with an electric heating device, the electric heating device is electrically connected with the heating disc, the electric heating device, the motor and the temperature sensor are electrically connected, the electric heating device, the motor and the water flow velocity sensor are electrically connected, and the top of the filtering cover is fixedly connected with a handle.

Compared with the prior art, the utility model has the beneficial effects that:

1. through the motor that is equipped with, the speed reducer, the axis of rotation, the heating plate, cleaning scraper blade, temperature sensor, water velocity of flow sensor and electric heater unit, electric heater unit turns into heat energy and transmits to inside the water through the heating plate, the setting that can effectively break the water simultaneously makes the water evenly be heated when the heating plate rotates, and cleaning scraper blade also rotates and strike off the frozen ice-cube in surface in multilayer filter chamber both sides, no longer block up the filtration pore, under the dual effect of two devices, make ice-cube no longer block up filtration pore and inner tube, the normal velocity of flow that the water got into boiler room has been ensured, thereby heating efficiency has been improved, and the water that preheats can heat to the heating temperature value more fast in the boiler room, thereby heating rate has been improved.

2. Through multilayer filter chamber, filtration lid and the handle that are equipped with, only need unscrew the bolt and mention the handle, upwards slide out the multilayer filter chamber from the spacing inslot portion, can conveniently change the inside filter equipment of casing to maintain it and inspect, also conveniently change the filtration cavity of different filtration requirements, with the different quality of water of coping with, improved the practicality and the suitability of this device.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of an exploded construction of the present utility model;

FIG. 3 is a schematic view of the internal structure of the present utility model;

FIG. 4 is a schematic view of a rotating shaft according to the present utility model;

fig. 5 is a schematic top structure of the present utility model.

In the figure: 1. a bottom plate; 2. a housing; 3. a filter cover; 4. a multi-layer filter chamber; 5. a limit groove; 6. a protection box; 7. a motor; 8. a speed reducer; 9. a rotating shaft; 10. a heating plate; 11. a cleaning blade; 12. a shaft sleeve; 13. a temperature sensor; 14. a water flow rate sensor; 15. an electric heating device; 16. a handle.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a cold-storage heat pipe management device for energy station, including bottom plate 1 and casing 2, the surface of bottom plate 1 is located to casing 2, casing 2 top is equipped with filter cover 3, filter cover 3 bottom is equipped with multilayer filter chamber 4, inside spacing groove 5 is located to multilayer filter chamber 4, spacing groove 5 is located inside casing 2, casing 2 one side is equipped with guard box 6, guard box 6 inside is equipped with motor 7, casing 2 one side is located to motor 7, motor 7 output one side is equipped with speed reducer 8, speed reducer 8 one side is equipped with axis of rotation 9, axis of rotation 9 runs through to casing 2 inside one side and is equipped with axle sleeve 12, axis of rotation 9 surface is equipped with heating plate 10, axis of rotation 9 surface still is equipped with cleaning scraping plate 11, cleaning scraping plate 11 locates multilayer filter chamber 4 one side, casing 2 inside is equipped with temperature sensor 13, casing 2 inside still is equipped with water velocity of flow sensor 14, bottom plate 1 surface still is equipped with electric heating device 15, filter cover 3 top is equipped with handle 16.

Specifically, casing 2 fixedly connected with filter cover 3 is fixed to casing 2 top bolt, filter cover 3 bottom fixedly connected with multilayer filter chamber 4, multilayer filter chamber 4 sliding connection is inside spacing groove 5, spacing groove 5 fixedly set up in casing 2 inside, casing 2 one side fixedly connected with guard box 6, guard box 6 inside fixedly connected with motor 7, motor 7 also fixedly connected with is in casing 2 one side, motor 7 output one side fixedly connected with speed reducer 8, speed reducer 8 one side fixedly connected with axis of rotation 9, axis of rotation 9 runs through to casing 2 inside one side and rotates and be connected with axle sleeve 12, axis of rotation 9 surface fixedly connected with heating plate 10, axis of rotation 9 surface fixedly connected with cleaning scraper blade 11, cleaning scraper blade 11 rotates and connects in multilayer filter chamber 4 one side, casing 2 inside fixedly connected with temperature sensor 13, casing 2 inside still fixedly connected with water flow rate sensor 14, casing 1 surface still fixedly connected with electric heater 15, electric heater 15 and heating plate 10 electric connection, electric heater 15, motor 7 and temperature sensor 13 electric heater 15, electric heater 7 and water flow rate sensor 14 electric connection, handle 3 top fixedly connected with hand grip 16.

In this embodiment, before the cold and hot pipeline management device is used, the cold and hot pipeline management device is connected between a cold and hot pipeline and a boiler chamber in advance, a shell 2 and a motor 7 are sequentially installed, a heating disc 10 and a cleaning scraping plate 11 are fixed on the surface of a rotating shaft 9, after the multi-layer filtering cavity 4 is inserted, the cleaning scraping plate 11 is close to one side of the multi-layer filtering cavity, water can be introduced into the multi-layer filtering cavity after the sealing performance is detected, in the use project, a temperature sensor 13 and a water flow rate sensor 14 continuously monitor the water flow condition inside the shell 2, when the temperature inside the shell 2 is detected to be close to zero degree, and when the water flow rate is reduced to a certain degree, a control system starts the motor 7 to rotate, after the rotating speed is reduced to a reasonable speed through a speed reducer 8, the heating disc 10 on the surface of the rotating shaft 9 is driven to rotate, meanwhile, an electric heating device 15 starts to convert electric energy into heat energy and transmit the heat energy into the water inside the water through the heating disc 10, the heating plate 10 rotates to effectively break the solidification of the water body and uniformly heat the water body, the cleaning scraping plate 11 rotates at two sides of the multilayer filter cavity 4 and scrapes the frozen ice blocks on the surface of the multilayer filter cavity 4 while the rotating shaft 9 rotates, so that the filter holes are not blocked, the water body is effectively preheated and the ice blocks at two sides of the multilayer filter cavity 4 are scraped under the double functions of two devices, the filter holes and the inner pipelines are not blocked by the ice blocks, the normal flow rate of the water body entering the boiler chamber is ensured, the heating efficiency is improved, the preheated water body can be heated to a heating temperature value in the boiler chamber more quickly, the heating speed is improved, meanwhile, the multilayer filter cavity 4, the filter cover 3 and the handle 16 are arranged, the handle 16 is only needed to be lifted by unscrewing the bolts, the multilayer filter cavity 4 slides out of the inside of the limiting groove 5, and the filter device inside the shell 2 can be conveniently replaced, the device is convenient to replace filter cavities with different filtering requirements so as to cope with different water qualities, and the practicability and applicability of the device are improved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a cold-storage heat pipe management device for energy station, includes bottom plate (1) and casing (2), its characterized in that: the utility model discloses a water heater, including casing (2), casing (2) top is equipped with filter cap (3), filter cap (3) bottom is equipped with multilayer filter chamber (4), inside spacing groove (5) are located to multilayer filter chamber (4), inside casing (2) are located in spacing groove (5), casing (2) one side is equipped with guard box (6), inside motor (7) that are equipped with of guard box (6), casing (2) one side is located to motor (7), motor (7) output one side is equipped with speed reducer (8), speed reducer (8) one side is equipped with axis of rotation (9), axis of rotation (9) run through to casing (2) inside one side and are equipped with axle sleeve (12), axis of rotation (9) surface is equipped with heating dish (10), axis of rotation (9) surface still is equipped with clean scraper blade (11), multilayer filter chamber (4) one side is located to clean scraper blade (11), casing (2) inside is equipped with temperature sensor (13), casing (2) inside still is equipped with water flow rate sensor (14), casing (2) one side is equipped with speed sensor (16), top (3) are equipped with electric heat device (16).

2. The cold-storage heat pipe management device for an energy station according to claim 1, wherein: casing (2) fixed connection is in bottom plate (1) surface, casing (2) top bolt fastening has filtration lid (3), filtration lid (3) bottom fixedly connected with multilayer filter chamber (4), multilayer filter chamber (4) sliding connection is inside spacing groove (5), spacing groove (5) are fixed to be seted up inside casing (2).

3. The cold-storage heat pipe management device for an energy station according to claim 1, wherein: the novel electric motor is characterized in that a protection box (6) is fixedly connected to one side of the shell (2), a motor (7) is fixedly connected to the inside of the protection box (6), the motor (7) is also fixedly connected to one side of the shell (2), and a speed reducer (8) is fixedly connected to one side of an output end of the motor (7).

4. The cold-storage heat pipe management device for an energy station according to claim 1, wherein: the cleaning device is characterized in that a rotating shaft (9) is fixedly connected to one side of the speed reducer (8), a shaft sleeve (12) is rotatably connected to one side of the inside of the shell (2) in a penetrating mode, a heating disc (10) is fixedly connected to the surface of the rotating shaft (9), and a cleaning scraping plate (11) is fixedly connected to the surface of the rotating shaft (9).

5. The cold-storage heat pipe management device for an energy station according to claim 1, wherein: the cleaning scraping plate (11) is rotationally connected to one side of the multi-layer filter cavity (4), a temperature sensor (13) is fixedly connected to the inside of the shell (2), and a water flow rate sensor (14) is fixedly connected to the inside of the shell (2).

6. The cold-storage heat pipe management device for an energy station according to claim 1, wherein: the surface of the bottom plate (1) is fixedly connected with an electric heating device (15), the electric heating device (15) is electrically connected with the heating disc (10), the electric heating device (15), the motor (7) and the temperature sensor (13) are electrically connected, the electric heating device (15), the motor (7) and the water flow rate sensor (14) are electrically connected, and the top of the filtering cover (3) is fixedly connected with a handle (16).