CN203147897U - Integrated type waterpower module based on heating medium - Google Patents

Abstract

The utility model discloses an integrated type waterpower module based on heating medium. The integrated type waterpower module based on the heating medium mainly solves the problems that a transportation and distribution system for transporting the heat medium in the prior art is low in integration, needs multiple pipelines, is complex in system structure, is large in installation difficulty, is poor in control effect and the like. The integrated type waterpower module based on the heating medium is characterized by comprising a water tank (1), a water passing plate (2), a heat source water supply pipe (3), at least one set of high-temperature water supply system and low-temperature water supply system, and a heat source return water pipe (4), wherein the water passing plate (2) is located at the lower portion of the inside of the water tank (1), is provided with pipeline through holes and is used for dividing the inside of water tank (1) into an upper part and a lower part, one end of the heat source water supply pipe (3) penetrates through the water passing plate (2) and extends to the upper portion of the water tank (1), the other end of the heat source water supply pipe (3) is used for connecting an external hot water supply mechanism, and the heat source return water pipe (4) is used for returning back water. The integrated type waterpower module based on the heating medium is high in integration, enables water in the water tank to be layered naturally by utilizing the density difference of water of different temperatures, and achieves the goal that two kinds of heat medium with temperature capable of being independently set flow out of one part.

Description

Integrated form waterpower module based on heating agent

Technical field

The utility model belongs to the water quality transportation art, specifically, relates to a kind of integrated form waterpower module based on heating agent.

Background technology

At present, the use of ground low-temp radiation heating (floor heating) and radiator/health hot water needs distributing system to transmit heating agent; And when using same thermal source to heat, in order to separate pining down mutually of waterpower and water temperature, in the prior art, main solution is to increase waterpower bleeder mechanism and flow mixing device on the basis of original system, its defective is: increased number of tubes, control weak effect, system complex, integration is low, and the construction of system, design, debugging difficulty is big, efficient is low, work on the engineering is numerous and diverse, and is very high to operating personnel's technical ability requirement.

How to research and develop a kind of integration height, system simple, easy for installation, control accurately that distributing system is used for the heating agent transmission, just become those skilled in the art's primary study content.

The utility model content

The purpose of this utility model is to overcome above-mentioned defective, provides that a kind of system architecture is simple, easy for installation, control is accurately based on the integrated form waterpower module of heating agent.

To achieve these goals, the technical solution adopted in the utility model is as follows:

Integrated form waterpower module based on heating agent, comprise water tank, be positioned at water tank inside below and offer the pipeline through hole, be used for water tank inside is divided into the two-part water plate of crossing up and down, one end passed the water plate and extended to water tank upper, the other end for the thermal source feed pipe that connects outside hot water organization of supply, at least one group of high-temperature water supply system and water at low temperature supply system, and the thermal source return pipe that is used for backwater.

Specifically, described high-temperature water supply system comprises and being communicated with water tank and the upper end was passed the water plate by the pipeline through hole and extended to the high temperature feed pipe of water tank inner and upper, and is communicated with water tank and the upper end was positioned at the high-temperature tempering pipe of water plate below;

Described water at low temperature supply system comprises and being communicated with water tank and the upper end was positioned at the low temperature return pipe of water plate below, and the upper end was passed the water plate by the pipeline through hole and was positioned at the low temperature feed pipe of below, high temperature feed pipe upper end;

Wherein, the gap that all exists water supply stream to pass through between the hole wall of high temperature feed pipe and low temperature feed pipe and pipeline through hole.

Further, also comprise be arranged on the water tank and extend to water tank inner and near the low temperature return pipe, be used for the temperature-sensing probe of control heat energy input quantity.By the leaving water temperature of temperature-sensing probe control water at low temperature, separating of flow and adjustment temperature and controlled adjusted in realization.

For easy for installation, also comprise at least two installation siphunculus that are symmetrical arranged and run through the water tank rear and front end, are used for installing and fixing water tank.Symmetrically arranged installation siphunculus constitutes symmetrical mirror-image structure with water tank after implementing installation, the load that makes water tank extension wall install is bigger, mounting means is more flexible.

Further again, be enclosed with heat-insulation layer around the described water tank.

Thorough for exhaust, make that the water tank internal pressure is constant or be no more than the critical value of water tank internal pressure, be provided with for the pressure security component interface that the exhaust, safety assembly is installed in described water tank upper end.

In order better to realize being provided with water supplement port in described water tank lower end by the utility model.

In order to simplify pipeline configuration, realize the compactness installation of water pump, the pipeline that all are connected with water tank adopts along the design of the hierarchical layout of water tank front and back trend, and specifically, the high temperature feed pipe in the described high-temperature water supply system and high-temperature tempering pipe evenly arrange along the front and back trend of water tank; Meanwhile, the low temperature feed pipe in the described water at low temperature supply system and low temperature return pipe evenly arrange along the front and back trend of water tank.

Design principle of the present utility model is: in an equipment (water tank) lining, utilize the density variation between the water of different temperatures, the natural layering that has the water of the temperature difference in the realization equipment is realized the water supply of different temperatures again by corresponding high-temperature water supply system/water at low temperature supply system.

Compared with prior art, the beneficial effects of the utility model are:

(1) the utility model design is ingenious, rational in infrastructure, simple, realization is convenient.

(2) the utility model directly carries out the high-temperature water supply to water tank upper by the thermal source feed pipe, make it to form the high temperature pool, simultaneously, utilize the density variation between the water of different temperatures, make the water natural layering of different water temperatures, namely form the low temperature pool in the water tank bottom, and by corresponding with it high-temperature water supply system and water at low temperature supply system, realize parts (water tank) export simultaneously two kinds can independent design temperature heating agent (high-temperature-hot-water, low-temperature water heating), to satisfy the different demands of radiator, health hot water or ground warm water temperature water.

(3) the utility model integration height, all pipelines all are integrated in the water tank, and need not waterpower bleeder mechanism and flow mixing device, have greatly simplified system architecture, and the technical ability that has reduced the operating personnel requires and difficulty of construction; Simultaneously, utilize gap uniform distribution low temperature backwater and the high temperature of high temperature feed pipe and low temperature feed pipe and pipeline through hole hole wall to supply water, can make the two abundant mixed flow, occur the hidden danger of current short circuit when having avoided the normal off-design flow (flow velocity) that occurs of waterpower uncoupling jar.

(4) the utility model adopts symmetrically arranged installation siphunculus that water tank integral body is hung the wall installation, and is not only easy for installation, flexible; And this kind set-up mode and water tank constitute the mirror-image structure of symmetry, and after installation was implemented, the heavy burden of water tank was bigger.

(5) water temperature in high-temperature water zone is directly controlled by outside hot water organization of supply in the utility model, and the water at low temperature zone is then by temperature-sensing probe control, and the two temperature controlling and water temperature output are separate.

(6) parts that the utility model adopts are existing mature technology, not only cheap, and it is stable and reliable for performance, compared to existing technologies, it is possessing novelty and creationary while, possess very high practicality and market economy and be worth, apply on a large scale for it, established solid foundation.

Description of drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is that A among Fig. 1 is to view.

Wherein, the mark title of above-mentioned accompanying drawing correspondence: 1-water tank, 2-are crossed the water plate, 3-thermal source feed pipe, 4-thermal source return pipe, 5-high temperature feed pipe, 6-high-temperature tempering pipe, 7-low temperature return pipe, 8-low temperature feed pipe, 9-temperature-sensing probe, the 10-heat-insulation layer, 11-installs siphunculus, 12-pressure security component interface, 13-water supplement port.

The specific embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.Embodiment of the present utility model includes but not limited to the following example.

Embodiment

Present embodiment uses in the heating system of same thermal source at ground low-temp radiation heating (floor heating) and radiator/health hot water in order to solve in the prior art, need set up waterpower bleeder mechanism and flow mixing device, cause system complex, pipeline, control is many, to the demanding problem of operating personnel's level of skill, a kind of integrated form waterpower module based on heating agent is provided, as shown in Figure 1, this integrated form waterpower module is integrated in pipeline in the water tank, utilize the density variation between the water of different temperatures, make that the interior water natural layering of water tank is high temperature pool and low temperature pool, again by realizing the water supply of different temperatures with the corresponding high-temperature water supply system of different water temperatures and water at low temperature supply system, and the control of the water temperature between high temperature pool and the low temperature pool is separate; The entire equipment system architecture is simple, and the external interface hierarchical layout of water tank upper pipeline simultaneously, adopts the wall-hanging mounting means, has simplified the installation of water tank, has reduced operating personnel's difficulty of construction.

Be familiar with more clearly and understand in order to make those skilled in the art have structure of the present utility model, figure is described in detail below in conjunction with the width of cloth:

As shown in Figure 1, the integrated form waterpower module based on heating agent mainly comprises water tank 1, crosses water plate 2, thermal source feed pipe 3, thermal source return pipe 4, high-temperature water supply system and water at low temperature supply system six parts.

Water tank 1 is the main body of entire equipment, and its shape is varied, can be tank body, cube, cuboid etc., need to prove the related water tank shape of accompanying drawing the application's protection domain now not in the utility model; Related structure member all is integrated on the water tank 1 in the present embodiment, during concrete enforcement, water tank upper is the high temperature pool, it is mainly used in docking the equipment that radiator/heat-exchanging water tank etc. needs the high temperature water, the water tank bottom is the low temperature pool, and it is mainly used in the watering equipments lower to the water temperature demand such as floor heating/health hot water.Further, the heat of water scatters and disappears in the water tank, is enclosed with heat-insulation layer 10 around the water tank 1; Constant or be positioned at the critical value of water tank safe pressure all the time in order to ensure the water tank internal pressure, offer for the pressure security component interface 12 that the exhaust, safety assembly is installed on the top of water tank 1, during enforcement, the pressure security assembly is installed on the water tank by this interface, when the water tank internal pressure is transshipped, water tank is unloaded press operation.

Water tank adopts the punching structure to hang wall when mounted and installs, and both has been symmetrical arranged by two and the installation siphunculus 11 that runs through water tank 1 rear and front end is installed in metope with water tank.Hang wall and install and not only install more flexibly, and the mirror-image structure that siphunculus and water tank constitute symmetry is installed, enforcement is installed after, the heavy burden of water tank is bigger.Guaranteeing that siphunculus is installed and water tank is combined as under the enantiomorphous prerequisite, siphunculus is being installed is arranged some.

Cross water plate 2, it is positioned at the below of water tank inside, offers some pipeline through holes that pass for pipeline crossing water plate 2, by crossing water plate 2 water tank 1 inside is divided into two parts up and down, and its material is not particularly limited, and usually, is preferably corrosion resistant plate.

Thermal source feed pipe 3, be that water tank is from the trunk line of outside water inlet, the one end passed water plate 2 and extended to water tank 1 top, the other end for connecting outside hot water organization of supply, this outside hot water organization of supply is generally boiler, the water that flows into water tank from the upper end of thermal source feed pipe 3 is high-temperature water, the temperature of high-temperature water is determined that by the processing temperature of boiler it is positioned at water tank upper and forms the high-temperature water zone.Because of the water density difference of different temperatures, high-temperature water is positioned at top, and low-temp water level is in the bottom, and the water layer of bottom, high-temperature water zone is the water at low temperature zone.

The high-temperature water supply system, it is corresponding with the high-temperature water zone, main picked-up high-temperature water, in the present embodiment, the high-temperature water supply system comprises and being communicated with water tank 1 and the upper end was passed water plate 2 by the pipeline through hole and extended to the high temperature feed pipe 5 of water tank 1 inner and upper, and is communicated with water tank 1 and the upper end was positioned at the high-temperature tempering pipe 6 of water plate 2 belows.Specifically, the upper end port of high temperature feed pipe 5 is positioned at the high-temperature water zone, high-temperature water flows into high temperature feed pipe 5 from this port, the lower end of high temperature feed pipe 5 is connected with corresponding high temperature watering equipment, meanwhile, the high temperature watering equipment also is connected with above-mentioned high-temperature tempering pipe 6, and high-temperature water is after high temperature feed pipe 5 flows into the high temperature watering equipments, and then by high temperature watering equipment inflow high-temperature tempering pipe 6, finish the circulation of a high-temperature water.The high-temperature water temperature that refluxes reduces, and gushes out from the gap between the hole wall of high temperature feed pipe and pipeline through hole, with than the low water of temperature mixes the formation water at low temperature, enter next water at low temperature and circulate.

The water at low temperature supply system, it is corresponding with the water at low temperature zone, main picked-up water at low temperature, in the present embodiment, the water at low temperature supply system comprises and being communicated with water tank 1 and the upper end was positioned at the low temperature return pipe 7 of water plate 2 belows, and the upper end was passed water plate 2 by the pipeline through hole and was positioned at the low temperature feed pipe 8 of below, high temperature feed pipe 5 upper ends.The low-temperature water heating in low temperature feed pipe 8 picked-up water at low temperature zones flows into the low temperature watering equipment that is attached thereto then, is back to the low temperature return pipe through the low temperature watering equipment again, finishes the circulation of a water at low temperature.

Need to prove, the not specific restriction in the position of above-mentioned low temperature return pipe and high-temperature tempering pipe, related low temperature return pipe and high-temperature tempering pipe should not limit protection domain of the present utility model in the position of same horizontal plane relation in the accompanying drawing.

Further, present embodiment is provided with temperature-sensing probe 9 near the delivery port of low temperature return pipe, by the flow that temperature-sensing probe 9 is responded to, the heat energy of thermal source feed pipe 3 inputs is passed through in control, thus the leaving water temperature in control water at low temperature zone, and separating of flow and adjustment temperature and controlled adjusted in realization.When the temperature at temperature-sensing probe 9 places is higher than setting value, then the controlled output that heats source feed pipe 3 reduces, at this moment, the cold water (lower temperature water) of crossing water plate below (backwater zone) then pours in the mouth of pipe place of low temperature feed pipe by the gap between the hole wall of high temperature feed pipe and low temperature feed pipe and pipeline through hole, mix with the high-temperature-hot-water at this place, finished the cooling of high-temperature-hot-water; Otherwise, when the temperature at temperature-sensing probe 9 places is lower than setting value, then the controlled output that heats source feed pipe 3 increases, at this moment, the cold water (lower temperature water) of crossing water plate below (backwater zone) can not pour in the hydrothermal area (high temperature pool) who has been water plate top by the pipeline through hole hole wall of crossing on the water plate, when the flow in the thermal source loop that is constituted by thermal source feed pipe and thermal source return pipe during greater than the total flow of each duplexure (water at low temperature circulation and high-temperature water circulate), the hot water in high-temperature water zone, top will be poured into backwater zone, below by the gap of crossing between water plate and the feed pipe, and then water temperature inside of the present utility model will all improve.

Should be noted that, the operating mode of high-temperature water circulation and water at low temperature circulation is a lot, the above-mentioned cyclic process of only for example understanding under a kind of operating mode wherein, those skilled in the art are in the present embodiment on the basis of disclosed technology contents, be appreciated that technology of the present utility model and realize the utility model, therefore, enumerate the cyclic process of the high temperature hydration water at low temperature under each operating mode in the present embodiment no longer one by one.Simultaneously, above-mentioned high-temperature water supply system and water at low temperature supply system can be established one group, two groups, three groups, four groups even more, can correspondingly set up high-temperature water supply system and/or water at low temperature supply system according to the actual condition needs.

Thermal source return pipe 4 is communicated with aforesaid outside hot water organization of supply, be back in the outside hot water organization of supply by thermal source return pipe 4, constitute the primary side loop with thermal source water supply water pipe and boiler (thermal source), during boiler work, the water that refluxes is heated again, and then it is delivered in the water tank by the high temperature feed pipe, realize the recycling of water.

In order better to realize present embodiment, guarantee that the water circulation in the water tank is normally carried out, present embodiment is provided with water supplement port 13 in water tank 1 lower end.

In order to simplify pipeline configuration, realize the compactness installation of water pump, as shown in Figure 2, the pipeline that all are connected with water tank in the present embodiment adopts along the design of the hierarchical layout of water tank front and back trend, specifically, the high temperature feed pipe in the high-temperature water supply system and high-temperature tempering pipe evenly arrange along the front and back trend of water tank; Meanwhile, the low temperature feed pipe in the water at low temperature supply system and low temperature return pipe evenly arrange along the front and back trend of water tank.Special welding manner is all adopted in the junction of each pipeline and water tank, to prevent that water is from connecting clearance leakage in the water case.

The above, it only is preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, though the utility model discloses as above with preferred embodiment, yet be not in order to limit the utility model, any those skilled in the art work as the technology contents of available above-mentioned announcement and make a little change or modify the equivalent embodiment of equivalent variations in not breaking away from the technical solutions of the utility model scope.

According to above-described embodiment, just can realize the utility model well.What deserves to be explained is; under the prerequisite based on above-mentioned design principle; for solving same technical problem; some do not have substantial change or polishing even in that architecture basics disclosed in the utility model is made; the essence of the technical scheme that adopts is still the same with the utility model, so it also should be in protection domain of the present utility model.

Claims (8)

1. based on the integrated form waterpower module of heating agent, it is characterized in that, comprise water tank (1), be positioned at the inner below of water tank (1) and offer the pipeline through hole, be used for water tank (1) inside is divided into the two-part water plate (2) of crossing up and down, one end passed water plate (2) and extended to water tank (1) top, the other end for the thermal source feed pipe (3) that connects outside hot water organization of supply, at least one group of high-temperature water supply system and water at low temperature supply system, and the thermal source return pipe (4) that is used for backwater.

2. the integrated form waterpower module based on heating agent according to claim 1, it is characterized in that, described high-temperature water supply system comprises and being communicated with water tank (1) and the upper end was passed water plate (2) by the pipeline through hole and extended to the high temperature feed pipe (5) of water tank (1) inner and upper, and is communicated with water tank (1) and the upper end was positioned at the high-temperature tempering pipe (6) of water plate (2) below;

Described water at low temperature supply system comprises and being communicated with water tank (1) and the upper end was positioned at the low temperature return pipe (7) of water plate (2) below, and the upper end was passed water plate (2) by the pipeline through hole and was positioned at the low temperature feed pipe (8) of below, high temperature feed pipe (5) upper end;

Wherein, the gap that all exists water supply stream to pass through between the hole wall of high temperature feed pipe (5) and low temperature feed pipe (8) and pipeline through hole.

3. the integrated form waterpower module based on heating agent according to claim 2 is characterized in that, also comprises being arranged on the temperature-sensing probe (9) that water tank (1) was gone up and extended to the inner and close low temperature feed pipe (8) of water tank (1), is used for control heat energy input quantity.

4. according to claim 2 or 3 described integrated form waterpower modules based on heating agent, it is characterized in that, also comprise at least two installation siphunculus (11) that are symmetrical arranged and run through water tank (1) rear and front end, are used for installing and fixing water tank (1).

5. the integrated form waterpower module based on heating agent according to claim 4 is characterized in that described water tank (1) is enclosed with heat-insulation layer (10) all around.

6. the integrated form waterpower module based on heating agent according to claim 5 is characterized in that, is provided with for the pressure security component interface (12) that the exhaust, safety assembly is installed in described water tank (1) upper end.

7. the integrated form waterpower module based on heating agent according to claim 6 is characterized in that, is provided with water supplement port (13) in described water tank (1) lower end.

8. according to each described integrated form waterpower module based on heating agent of claim 5 to 7, it is characterized in that the high temperature feed pipe (5) in the described high-temperature water supply system and high-temperature tempering pipe (6) evenly arrange along the front and back trend of water tank (1); Low temperature return pipe (7) in the described water at low temperature supply system and low temperature feed pipe (8) evenly arrange along the front and back trend of water tank (1).

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