CN220870986U - Pump valve combined heat exchange station regulating and controlling device - Google Patents

Abstract

The utility model relates to the technical field of heating, in particular to a heat exchange station regulating and controlling device with a pump and a valve combined. The utility model provides a heat exchange station, it includes the heat exchange station body, one side of heat exchange station body is connected one-level governing valve respectively through the water pipe, temperature detector, gems3100 pressure sensor and flowmeter, heat exchange station body opposite side is connected through second connecting pipe and hierarchical controlling means, and heat exchange station body opposite side is connected through connecting the secondary delivery pipe respectively, the first connecting pipe bottom in both sides is equipped with auxiliary water supply device, a plurality of ring flanges and second regulating valve through shunt tubes one end setting, when the one-level governing valve between inlet tube and the heat exchange station body breaks down, the second regulating valve of every family can carry out corresponding regulation according to the user demand respectively, thereby satisfy user's user demand, when the secondary delivery pipe of inlet tube and heat exchange station body both sides stops supplying water, the water pump pumps the water in with the heat preservation jar into the heat exchange station body, so as to supply water to the user, improve the efficiency of supplying water.

Description

Pump valve combined heat exchange station regulating and controlling device

Technical Field

The utility model relates to the technical field of heating, in particular to a heat exchange station regulating and controlling device with a pump valve combined.

Background

The heat exchange station is also called a thermodynamic station, is a place where heat is intensively exchanged, is used for providing heat for residential buildings and various working units, and at present, the work of the heat exchange station is controlled automatically and intelligently by adopting a computer, so that manual operation is greatly reduced.

For intelligent adjusting devices of heat exchange stations, there are many existing technologies, such as:

Chinese patent publication No. CN213300224U discloses a heat exchange station intelligent regulation device, including the heat exchange station, the left side position fixedly provided with of heat exchange station is connected with a delivery pipe, the right side fixedly provided with of heat exchange station is connected with the air supply pipe, air supply pipe other end position fixedly connected with user device, heat exchange station lower extreme position fixed mounting has a secondary delivery pipe, relates to the intelligent technical field of heat exchange station. The intelligent adjusting device for the heat exchange station utilizes the advanced Internet of things technology and the automatic control technology to form the water supplementing device for the heat exchange station, so that the power consumption of a water pump can be saved to the greatest extent, the overheat phenomenon of a user is avoided, the energy waste is reduced, the heat exchange efficiency of the heat exchange station is improved, the intelligent adjusting device for the heat exchange station has very huge economic benefit and social benefit, meanwhile, the automatic control level in the heat exchange station can be improved through a plurality of pressure measuring points, the pressure change and the equipment use condition in the heat exchange station can be intuitively known, a manager can discover and repair the faults in the heat exchange station as early as possible, and the user can conveniently perform automatic control operation.

However, current heat exchange station intelligent regulation and control device is in the operation, through the parameter of machine in the real-time supervision entire system, with the distribution of control heat supply demand, but in current heating system, set up the governing valve in total delivery pipe department and adjust the heat supply of all users generally, the bronze drum adopts this kind of regulation mode for the heat supply of every family is the same, can't carry out corresponding regulation according to different user's user demand, moreover, the governing valve of above-mentioned setting adapts to single user's regulation, simultaneously, the water tank both sides that set up in the above-mentioned device communicate with the heat exchange station respectively, when inlet tube and secondary delivery pipe stop supplying water, the water that draws from in the water tank still can flow into the water tank again in, result in the effect of water tank water supply to reduce, influence the use of supplying the user.

In view of this, the present utility model provides a pump valve combined heat exchange station regulating device.

Disclosure of utility model

The utility model aims to solve the defects and provide the heat exchange station regulating and controlling device with the combination of pump valves for graded control heat supply and efficient heat supply.

Through a plurality of ring flanges and the second grade governing valve that shunt tubes one end set up, when the one-level governing valve between inlet tube and the heat exchange station breaks down, every family's second grade governing valve can carry out corresponding regulation according to the user demand respectively to satisfy user's user demand, secondly, when the secondary delivery pipe of inlet tube and heat exchange station both sides stops supplying water, in the heat preservation jar with both sides water suction heat exchange station through the moisturizing pump, so as to supply water to the user, improve the efficiency of supplying water.

The utility model thus provides a pump valve combination

The utility model provides a heat exchange station regulation and control device, includes the heat exchange station body, one side of heat exchange station body is connected one-level governing valve, temperature detector, gems3100 pressure sensor and flowmeter respectively through the water pipe, and water pipe and inlet tube intercommunication, the heat exchange station body opposite side is connected through second connecting pipe and hierarchical controlling means, just heat exchange station body opposite side heat exchange station body symmetry both sides are connected the secondary delivery pipe through first connecting pipe respectively, be equipped with Gems3100 pressure sensor and temperature detector on the secondary delivery pipe, both sides first connecting pipe bottom is equipped with auxiliary water supply device.

As a further improvement of the technical scheme, the auxiliary water supply device comprises two heat preservation tanks and water supplementing pumps, wherein the heat preservation tanks are used for storing hot water in the first connecting pipes, the heat preservation tanks are connected with the water supplementing pumps through water pipes, and the water outlets of the water supplementing pumps are connected to the heat exchange station body.

As a further improvement of the technical scheme, the bottom of the first connecting pipe is fixedly connected with a water suction pipe, the bottom of the water suction pipe is fixedly connected with a water suction pump, and the water suction pump is connected with the heat preservation tank through a water pipe.

As a further improvement of the technical scheme, the grading control device consists of a water diversion pipe and a plurality of flanges, the water diversion pipe is fixedly connected with the second connecting pipe, a plurality of flanges are arranged on one side of the water diversion pipe, and one side of each flange can be connected with a secondary regulating valve.

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

In this heat exchange station regulation and control device that pump valve combines, a plurality of ring flanges and the second grade governing valve that set up through shunt tubes one end, when the one-level governing valve between inlet tube and the heat exchange station body breaks down, every family's second grade governing valve can carry out corresponding regulation according to the user demand respectively to satisfy user's user demand, secondly, when the secondary delivery pipe of inlet tube and heat exchange station body both sides stops supplying water, in the heat preservation jar with both sides water suction heat exchange station body through the moisturizing pump, so as to supply water to the user, improve the efficiency of supplying water.

Drawings

The utility model is described in more detail below, by way of example, with reference to the accompanying drawings, in which:

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

FIG. 2 is a schematic diagram of the overall left-view structure of the present utility model;

FIG. 3 is a schematic view of an auxiliary water supply apparatus according to the present utility model;

fig. 4 is a schematic structural diagram of the hierarchical control device of the present utility model.

The meaning of each reference sign in the figure is:

100. A water inlet pipe; 101. a flow meter; 102. gems3100 pressure sensor; 103. a temperature detector; 104. a primary regulating valve; 105. a heat exchange station body;

200. A secondary water supply pipe;

300. An auxiliary water supply device; 301. a heat preservation tank; 302. a water supplementing pump; 303. a water pump; 304. a water pumping pipe; 305. a first connection pipe;

400. A hierarchical control device; 401. a water diversion pipe; 402. a secondary regulating valve; 403. a flange plate; 404. and a second connection pipe.

Detailed Description

However, current heat exchange station intelligent regulation and control device is in the operation, through the parameter of machine in the real-time supervision entire system, with the distribution of control heat supply demand, but in current heating system, set up the governing valve in total delivery pipe department and adjust the heat supply of all users generally, the bronze drum adopts this kind of regulation mode for the heat supply of every family is the same, can't carry out corresponding regulation according to different user's user demand, moreover, the governing valve of above-mentioned setting adapts to single user's regulation, simultaneously, the water tank both sides that set up in the above-mentioned device communicate with the heat exchange station respectively, when inlet tube and secondary delivery pipe stop supplying water, the water that draws from in the water tank still can flow into the water tank again in, result in the effect of water tank water supply to reduce, influence the use of supplying the user.

As shown in fig. 1-4, the device comprises a heat exchange station body 105, one side of the heat exchange station body 105 is respectively connected with a primary regulating valve 104, a temperature detector 103, a Gems3100 pressure sensor 102 and a flowmeter 101 through water pipes, the water pipes are communicated with a water inlet pipe 100, the other side of the heat exchange station body 105 is connected with a hierarchical control device 400 through a second connecting pipe 404, two symmetrical sides of the heat exchange station body 105 are respectively connected with a secondary water supply pipe 200 through first connecting pipes 305, the secondary water supply pipe 200 is provided with the Gems3100 pressure sensor 102 and the temperature detector 103, an auxiliary water supply device 300 is arranged at the bottom of the first connecting pipes 305, the flowmeter 101, the Gems3100 pressure sensor 102 and the temperature detector 103 which are arranged at the water inlet pipe 100 are connected with the secondary water supply pipe 200 and the temperature detector 103 through wires, and parameter data transmitted by the flowmeter 101, the Gems3100 pressure sensor 102 and the temperature detector 103 are regulated and controlled in real time, so that a heat supply demand relation is convenient for a user to automatically regulate and control the heat supply relation and overhaul in time, and when the primary water supply pipe 100 and the primary water supply pipe 105 are in the primary water supply pipe 104 and the primary water supply pipe 104 are in a fault condition, the heat supply relation is not controlled by the user, the secondary water supply device is further arranged in the water supply device 300 and the water supply device 300 is provided with the water supply device 200 at the two sides of the heat exchange station body 100, and the water supply device is further satisfied when the heat supply demand is satisfied by the user and the heat supply device is in the heat supply device 100 and the heat supply device is in the heat supply needs and the heat supply device is in the heat and the heat supply device 200.

Specifically, the auxiliary water supply device 300 includes both sides heat preservation jar 301 and moisturizing pump 302, both sides heat preservation jar 301 is arranged in storing the hot water in the first connecting pipe 305, and link to each other through water pipe and moisturizing pump 302 water inlet between the heat preservation jar 301, moisturizing pump 302 delivery port is connected to heat exchange station body 105, first connecting pipe 305 bottom fixed connection suction pipe 304, suction pump 303 is connected through the water pipe between suction pump 303 and the heat preservation jar 301, when the secondary delivery pipe 200 of heat exchange station body 105 both sides supplies water to heat exchange station body 105, the inside vacuum of heat preservation jar 301 of heat exchange station body 105 both sides bottom, through starting the suction pump 303 of both sides, the hot water that suction pump 303 draws from first connecting pipe 305 is stored in heat preservation jar 301, when the hot water is filled in heat preservation jar 301, suction pump 303 stops working, then, according to the secondary delivery pipe 200 volume of inlet tube 100 and heat exchange station body 105 both sides, when the supply is less than required, through starting moisturizing pump 302, the hot water in the moisturizing pump 301 is carried to user's device through heat exchange station body 105 use through, satisfy user's device, the demand is satisfied, the temperature sensor is convenient for detecting in time, the temperature sensor is carried out to the temperature sensor 101, the demand is detected in time, the maintenance is measured and is in time, the demand is measured and is controlled to the temperature sensor is measured for the temperature sensor 102, the maintenance, and is convenient for the maintenance, the demand is measured and is measured in time, and is measured.

Secondly, hierarchical controlling means 400 comprises shunt tubes 401 and a plurality of ring flanges 403, shunt tubes 401 and second connecting pipe 404 fixed connection, and shunt tubes 401 one side is equipped with a plurality of ring flanges 403, and ring flange 403 one side all can connect a second grade governing valve 402, and when the one-level governing valve 104 between inlet tube 100 and the heat exchange station body 105 breaks down, a plurality of second grade governing valves 402 that set up through shunt tubes 401 one end, second grade governing valve 402 are connected to different user devices to heat supply demand of different users is controlled respectively through a plurality of second grade governing valves 402, in order to satisfy user's daily use demand.

To sum up, the working principle of the scheme is as follows: firstly, the secondary water supply pipes 200 on the two sides of the water inlet pipe 100 and the heat exchange station body 105 are connected to a hot water supply pipe, a plurality of flanges 403 on one side of the water diversion pipe 401 are respectively provided with a secondary regulating valve 402, each secondary regulating valve 402 respectively controls devices used by different users, then, the secondary water supply pipes 200 on the two sides of the water inlet pipe 100 and the heat exchange station body 105 supply water to the users through the heat exchange station body 105, when the primary regulating valve 104 between the water inlet pipe 100 and the heat exchange station body 105 breaks down, the secondary regulating valves 402 are connected to different user devices through a plurality of secondary regulating valves 402 arranged at one end of the water diversion pipe 401, so that the heat supply requirements of different users are respectively controlled through the plurality of secondary regulating valves 402 to meet the daily use requirements of the users, and secondly, when the secondary water supply pipes 200 on the two sides of the heat exchange station body 105 supply water to the heat exchange station body 105, because the heat preservation tank 301 at both sides of the bottom of the heat exchange station body 105 is internally vacuum, through starting the water suction pumps 303 at both sides, the hot water extracted by the water suction pumps 303 from the first connecting pipe 305 is stored into the heat preservation tank 301, when the heat preservation tank 301 is full of hot water, the water suction pumps 303 stop working, then, according to the water supply amount of the water inlet pipe 100 and the secondary water supply pipes 200 at both sides of the heat exchange station body 105, when the water supply amount is less than the required amount, the water supply pumps 302 are started, the hot water in the heat preservation tanks 301 at both sides is conveyed into a device used by a user through the heat exchange station body 105 by the water supply pumps 302, so as to meet the use requirement of the user, and meanwhile, the flowmeter 101, the Gems3100 pressure sensor 102 and the temperature detector 103 detect the hot water in the water pipes and transmit detected data into the control panel, so that the heat supply requirement can be regulated and controlled in time, and maintenance staff can maintain in time conveniently.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (4)

1. Pump valve combines heat exchange station regulation and control device, its characterized in that: including heat exchange station body (105), one side of heat exchange station body (105) is connected one-level governing valve (104), temperature detector (103), gems3100 pressure sensor (102) and flowmeter (101) respectively through the water pipe, and water pipe and inlet tube (100) intercommunication, heat exchange station body (105) opposite side is connected through second connecting pipe (404) and hierarchical controlling means (400), just heat exchange station body (105) opposite side heat exchange station body (105) symmetry both sides are connected secondary delivery pipe (200) through first connecting pipe (305) respectively, be equipped with Gems3100 pressure sensor (102) and temperature detector (103) on secondary delivery pipe (200), both sides first connecting pipe (305) bottom is equipped with auxiliary water supply device (300).

2. The pump valve integrated heat exchange station control device of claim 1, wherein: the auxiliary water supply device (300) comprises two heat preservation tanks (301) and a water supplementing pump (302), the two heat preservation tanks (301) are used for storing hot water in a first connecting pipe (305), the heat preservation tanks (301) are connected with a water inlet of the water supplementing pump (302) through water pipes, and a water outlet of the water supplementing pump (302) is connected to the heat exchange station body (105).

3. The pump valve integrated heat exchange station control device of claim 1, wherein: the bottom of the first connecting pipe (305) is fixedly connected with a water suction pipe (304), the bottom of the water suction pipe (304) is fixedly connected with a water suction pump (303), and the water suction pump (303) and the heat preservation tank (301) are connected through a water pipe.

4. The pump valve integrated heat exchange station control device of claim 1, wherein: the grading control device (400) is composed of a water diversion pipe (401) and a plurality of flanges (403), the water diversion pipe (401) is fixedly connected with a second connecting pipe (404), a plurality of flanges (403) are arranged on one side of the water diversion pipe (401), and one side of each flange (403) can be connected with a second-level regulating valve (402).