CN213901502U - Integrated all-in-one of hot water - Google Patents

Abstract

The utility model provides an integrated all-in-one of hot water, install the hot-water machine on the relevant position of the shaped steel base of this all-in-one, holding water tank, the control box, hot water booster pump and heating circulating pump, hot-water machine and heating circulating pump are connected through pipeline and holding water tank, the control box and hot-water machine, heating circulating pump and hot water booster pump, cold water control valve and return water control valve electricity are connected, with cold water, hot water, the return water three routes are plugged into the splice joint welding on the water tank, save the outside linking pipeline of water tank, hide not prominent, not only whole pleasing to the eye, still convenience of customers plugs into the water route. The hot water integration all-in-one machine can be connected with a heat supply circulation pipe network and a cold supply circulation pipe network, and is more widely applied.

Description

Integrated all-in-one of hot water

Technical Field

The utility model relates to a commercial hot-water heating system field, especially a hot-water integration all-in-one.

Background

The market of medium and small-sized commercial hot water systems has stepped into the integration stage, and the hot water integration all-in-one machine consists of a profile steel base, a heat preservation water tank, an air energy water heater, a heating circulating pump, a hot water booster pump, a cold water control valve, a return water control valve and other components. The integrated all-in-one of hot water dispatches from the factory and has designed the cold water interface, the hot water interface of plugging into for the user, the return water interface, and the installation is simple and convenient, connects the electric water receiving and can use, receives more and more welcoming and recognition in market, but, the integrated all-in-one of hot water that has now in the market all is external interface for user's water route connection mouth, and water tank external connection pipeline is more and in disorder, and water route connection mouth is more be close to the control box part, and the water and electricity is plugged into closely apart from, and difficult exemption has the potential safety hazard.

Disclosure of Invention

The utility model aims at providing a hot water integration all-in-one, its water route is plugged into the point and is apart from hot-water machine and electric cabinet apart from the position adjustable, and convenience of customers plugs into, and factor of safety further improves, safer, more energy-conserving, more practical, the cost is lower.

The utility model discloses a through following technical scheme realize above mesh: the utility model provides an integrated all-in-one of hot water, constitutes the component and includes shaped steel base and the hot-water machine of installing on its relevant position, holding water tank, hot water booster pump, heating circulating pump and control box, and hot-water machine and heating circulating pump are connected with holding water tank through circulating line, and the control box is connected with hot-water machine, heating circulating pump, hot water booster pump, cold water control valve and return water control valve electricity, and the structure and the connection relation of constituteing the component are:

the heat preservation water tank is fixedly welded with a cold water outlet joint, a cold water inlet joint, a backwater outlet joint, a hot water inlet joint, a hot water outlet joint, a cold water connection joint, a backwater connection joint and a hot water connection joint, the cold water control valve is arranged outside the heat preservation water tank, two ends of the cold water control valve are respectively connected with one ends of the cold water outlet joint and the cold water inlet joint, the other end of the cold water inlet joint is connected with an in-tank water outlet pipeline, the other end of the cold water outlet joint is connected with one end of the cold water connection joint through a first in-tank pipeline, the backwater control valve is arranged outside the heat preservation water tank, two ends of the backwater valve are respectively connected with one ends of the backwater inlet joint and the backwater outlet joint, the other end of the backwater inlet joint is connected with the in-tank water outlet pipeline, the other end of the backwater outlet joint is connected with one end of the backwater connection joint through a second in-tank pipeline, the water inlet end of the hot water booster pump is connected with one end of the hot water outlet connector, the water outlet end of the hot water booster pump is connected with one end of the hot water inlet connector, and the other end of the hot water inlet connector is connected with one end of the hot water connection connector through a third in-tank pipeline.

The water outlet ends of the cold water control valve and the water return control valve are connected with one end of a water inlet connector through an outer box pipeline, and the other end of the water inlet connector is connected with a water outlet pipeline in the first box.

And the water outlet ends of the cold water control valve and the water return control valve are connected with an upper circulating pipeline through an external pipeline of the tank.

And the water outlet ends of the cold water control valve and the water return control valve are connected with a lower circulating pipeline through an outer pipeline of the tank.

And the water outlet ends of the cold water control valve and the water return control valve are connected with the upper circulating pipeline, the lower circulating pipeline and the pipeline outside the tank together or respectively.

The cold water control system comprises a cold water control valve, a return water control valve, a cold water inlet joint, a cold water outlet joint, a return water outlet joint, a cold water inlet joint, a cold water outlet joint, a cold water inlet joint, a cold water inlet.

One ends of the cold water control valve and the backwater control valve are respectively connected with one ends of the cold water connection joint and the backwater connection joint, and the first and second in-tank pipelines are connected with the other ends of the cold water connection joint and the backwater connection joint.

The installation position of the cold water joint is high enough, and the water outlet pipeline in the second tank is not required to be connected and installed.

The installation position of the water return joint is high enough, and the water outlet pipeline in the first tank does not need to be connected and installed.

The mounting position of the water inlet joint is high enough, and the water outlet pipeline in the first tank does not need to be connected and mounted.

Check valves are arranged on the cold water pipeline and the water return pipeline as required, so that water backflow and water cross between the pipelines are prevented.

The profile steel base is made of channel steel, I-shaped steel, H-shaped steel, angle steel, square steel, stainless steel profiles or aluminum alloy profiles.

The water heater of the hot water integrated all-in-one machine is as follows: the air energy water heater, the solar water heater, the water source ground source heat pump water heater, the air conditioner cooling and heating dual supply machine or the gas fuel oil electric water heater, wherein the water heater works singly or in combination.

All parts of the hot water integration all-in-one machine can be assembled on the site of a user and also can be constructed and assembled on a concrete base.

The heating circulating pump and the hot water booster pump work in a single or multiple combined mode.

The cold water control valve is an electromagnetic valve or an electric valve, and the water return control valve is an electromagnetic valve or an electric valve or an automatic temperature control valve.

The utility model has the advantages that:

1. the cold water, hot water and return water three-way connection port is welded and fixed on the water tank according to the position required by a user, hidden and unobtrusive, saves the external pipeline connection of the water tank, is overall attractive, and is convenient for the user to connect a water way.

2. The integrated all-in-one machine for hot water is integrally arranged on the section steel base, so that the installation of equipment components is tighter, and the space and the material cost are saved.

3. The integrated hot water all-in-one machine can be quickly, simply and conveniently connected with a power supply and a heat supply circulating pipe network after being sent to a user site and put into use.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the integrated all-in-one machine for heating and water of the present invention.

Fig. 2 is a schematic structural diagram of embodiment 2 of the integrated all-in-one machine for heating and water of the present invention.

Fig. 3 is a schematic structural diagram of embodiment 3 of the integrated all-in-one hot water machine of the present invention.

Fig. 4 is a schematic structural diagram of embodiment 4 of the integrated all-in-one hot water apparatus of the present invention.

Fig. 5 is a schematic structural diagram of embodiment 5 of the integrated all-in-one hot water apparatus of the present invention.

Fig. 6 is a schematic structural view of embodiment 6 of the integrated all-in-one hot water machine of the present invention.

Labeled as: the system comprises a cold water control valve 1, a return water control valve 2, a cold water outlet joint 3, a cold water inlet joint 4, a return water inlet joint 5, a return water outlet joint 6, a first tank inner pipeline 7, a second tank inner pipeline 8, a third tank inner pipeline 9, a cold water connection joint 10, a return water connection joint 11, a hot water connection joint 12, a hot water inlet joint 13, a hot water outlet joint 14, a hot water booster pump 15, a profile steel base 16, a control tank 17, a water heater 18, a heating circulating pump 19, a lower circulating pipeline 20, an upper circulating pipeline 21, a check valve 22, a first tank inner water outlet pipeline 23, a second tank inner water outlet pipeline 24, a heat preservation water tank 25, a user hot water circulating pipe network 26, an out-of-tank pipeline 27 and a water inlet joint 28.

Detailed Description

The technical solution of the present invention is further explained below by means of drawings and examples.

Example 1

As shown in fig. 1 to 6, the hot water integrated all-in-one machine comprises a cold water control valve 1, a return water control valve 2, a cold water outlet joint 3, a cold water inlet joint 4, a return water inlet joint 5, a return water outlet joint 6, a first in-tank pipeline 7, a second in-tank pipeline 8, a third in-tank pipeline 9, a cold water connection joint 10, a return water connection joint 11, a hot water connection joint 12, a hot water inlet joint 13, a hot water outlet joint 14, a hot water booster pump 15, a profile steel base 16, a control box 17, a water heater 18, a heating circulating pump 19, a lower circulating pipeline 20, an upper circulating pipeline 21, a check valve 22, a first in-tank water outlet pipeline 23, a second in-tank water outlet pipeline 24, a heat preservation water tank 25 and a user hot water circulating pipeline network 26. The concrete structure and connection relationship of the component members are as follows:

the hot water heating device comprises a steel section base 16, and a hot water machine 18, a heat preservation water tank 25, a hot water booster pump 15, a heating circulating pump 19 and a control box 17 which are arranged at corresponding positions of the steel section base, wherein the hot water machine 18 and the heating circulating pump 19 are connected with the heat preservation water tank 25 through an upper circulating pipeline 21 and a lower circulating pipeline 20, and the control box 17 is electrically connected with the hot water machine 18, the heating circulating pump 19, the hot water booster pump 15, a cold water control valve 1 and a return water control valve 2.

And a cold water outlet joint 3, a cold water inlet joint 4, a backwater inlet joint 5, a backwater outlet joint 6, a hot water inlet joint 13, a hot water outlet joint 14, a cold water connection joint 10, a backwater connection joint 11 and a hot water connection joint 12 are welded and fixed on the heat preservation water tank 25.

The cold water control valve 1 is installed outside the heat preservation water tank 25, two ends of the cold water control valve 1 are respectively connected with one end of the cold water outlet connector 3 and one end of the cold water inlet connector 4, the other end of the cold water inlet connector 4 is connected with the water outlet pipeline 24 in the tank, and the other end of the cold water outlet connector 3 is connected with one end of the cold water connection connector 10 through the first tank pipeline 7.

The backwater control valve 2 is installed outside the heat preservation water tank 25, two ends of the backwater control valve 2 are respectively connected with one end of a backwater water inlet joint 5 and one end of a backwater water outlet joint 6, the other end of the backwater water inlet joint 5 is connected with a first in-tank water outlet pipeline 23, and the other end of the backwater water outlet joint 6 is connected with one end of a backwater connection joint 11 through a second in-tank pipeline 8.

The water inlet end of the hot water booster pump 15 is connected with one end of a hot water outlet joint 14, the water outlet end of the hot water booster pump 15 is connected with one end of a hot water inlet joint 13, and the other end of the hot water inlet joint 13 is connected with one end of a hot water connection joint 12 through a third in-tank pipeline 9.

The first tank inner pipe 7, the second tank inner pipe 8, the third tank inner pipe 9, the first tank inner water outlet pipe 23, and the second tank inner water outlet pipe 24 are all installed inside the heat-insulating water tank 25.

Example 2

The present embodiment is the same as embodiment 1 except that the cold water control valve 1 and the backwater control valve 2 are connected in a different manner.

The different structure is that the water outlet ends of the cold water control valve 1 and the water return control valve 2 are connected with one end of a water inlet connector 28 through an outside tank pipeline 27, and the other end of the water inlet connector 28 is connected with the first inside tank water outlet pipeline 23. As shown in fig. 2.

Example 3

The present embodiment is the same as embodiments 1 and 2 except that the cold water control valve 1 and the backwater control valve 2 are connected in a different manner.

The different structure is that the water outlet ends of the cold water control valve 1 and the return water control valve 2 are connected with the upper circulation pipe 21 through the outside tank pipe 27. As shown in fig. 3.

Example 4

The present embodiment is the same as embodiment 1 except that the cold water control valve 1 and the backwater control valve 2 are connected in a different manner.

The different structure is that the water outlet ends of the cold water control valve 1 and the water return control valve 2 are connected with the lower circulation pipe 20 through the outside tank pipe 27. As shown in fig. 4.

Example 5

The present embodiment is the same as embodiment 1 except that the cold water control valve 1 and the backwater control valve 2 are connected in a different manner.

The different structures are that a first in-tank pipeline 7 and a second in-tank pipeline 8 are respectively connected with one end of a cold water connection joint 10 and one end of a backwater connection joint 11, the other ends of the first in-tank pipeline 7 and the second in-tank pipeline 8 are connected with one ends of a cold water control valve 1 and a backwater control valve 2 through a cold water outlet joint 3 and a backwater outlet joint 4, and the other ends of the cold water control valve 1 and the backwater control valve 2 are connected with an out-tank pipeline 27 entering a water tank. As shown in fig. 5.

Example 6

Example the structure is the same as that of example 1 except that the cold water control valve 1 and the back water control valve 2 are connected in a different manner.

The different structures are that one end of the cold water control valve 1 and one end of the backwater control valve 2 are respectively connected with one end of a cold water connection joint 10 and one end of a backwater connection joint 11, and the other ends of the cold water connection joint 10 and the backwater connection joint 11 are respectively connected with a first tank inner pipeline 7 and a second tank inner pipeline 8. As shown in fig. 6.

The working principle and the process are as follows:

cold water enters the heat-preservation water tank 25 through the cold water connecting joint 10, the first tank inner pipeline 7, the cold water outlet joint 3, the cold water control valve 1, the cold water inlet joint 4 and the second tank inner water outlet pipeline 24, water in the heat-preservation water tank 25 is circularly heated through the control box 17 controlling the water heater 18 and the heating circulating pump 19, the water reaches a set temperature and then enters the user hot water circulating pipe network 26 through the hot water booster pump 15 through the third tank inner pipeline 9 and the hot water connecting joint 12, hot water enters the backwater connecting joint 11 through a loop of the user hot water circulating pipe network 26 and enters the heat-preservation water tank 25 through the second tank inner pipeline 8, the backwater water outlet joint 6, the backwater control valve 2, the backwater water inlet joint 5 and the first tank inner water outlet pipeline 23 for circulation, and hot water in the user hot water circulating pipe network 26 is always guaranteed.

Claims (7)

1. A hot water integrated machine comprises a profile steel base, and a hot water machine, a heat preservation water tank, a hot water booster pump, a heating circulating pump and a control box which are arranged on the corresponding positions of the profile steel base, wherein the hot water machine and the heating circulating pump are connected with the heat preservation water tank through a circulating pipeline, the control box is electrically connected with the hot water machine, the heating circulating pump, the hot water booster pump, a cold water control valve and a return water control valve,

the cold water control valve is arranged outside the heat preservation water tank, two ends of the cold water control valve are respectively connected with one end of the cold water outlet joint and one end of the cold water inlet joint, the other end of the cold water inlet joint is connected with a water outlet pipeline in a second tank, the other end of the cold water outlet joint is connected with one end of the cold water connection joint through a first tank inner pipeline, the backwater control valve is arranged outside the heat preservation water tank, two ends of the backwater control valve are respectively connected with one end of the backwater inlet joint and one end of the backwater water outlet joint, the other end of the backwater inlet joint is connected with a first tank inner water outlet pipeline, the other end of the backwater water outlet joint is connected with one end of the backwater connection joint through a second tank inner pipeline, the water inlet end of the hot water booster pump is connected with one end of the hot water outlet connector, the water outlet end of the hot water booster pump is connected with one end of the hot water inlet connector, and the other end of the hot water inlet connector is connected with one end of the hot water connection connector through a third in-tank pipeline.

2. The integrated hot water supply system according to claim 1, wherein the water outlet ends of the cold water control valve and the return water control valve are connected with one end of a water inlet connector through an outside tank pipeline, and the other end of the water inlet connector is connected with the water outlet pipeline in the first tank.

3. The integrated hot water integration all-in-one machine as claimed in claim 1, wherein the water outlet ends of the cold water control valve and the water return control valve are connected with the upper circulation pipeline through an out-of-box pipeline.

4. The integrated hot water integration all-in-one machine as claimed in claim 1, wherein the water outlet ends of the cold water control valve and the water return control valve are connected with the lower circulation pipeline through an out-of-box pipeline.

5. The integrated hot water supply unit according to any one of claims 1, 2, 3 and 4, wherein the water outlet ends of the cold water control valve and the water return control valve are connected with the upper circulation pipeline, the lower circulation pipeline and the out-of-tank pipeline together or respectively.

6. The integrated hot water supply system according to claim 1, wherein the first and second in-tank pipes are connected to one ends of a cold water connection joint and a return water connection joint, respectively, and the other ends of the first and second in-tank pipes are connected to one ends of a cold water control valve and a return water control valve through a cold water outlet joint and a return water outlet joint, and the other ends of the cold water control valve and the return water control valve are connected to an out-tank pipe which enters the water tank.

7. The integrated hot water integration all-in-one machine according to claim 1, wherein one end of the cold water control valve and one end of the return water control valve are respectively connected with one end of the cold water connection joint and one end of the return water connection joint, and the first tank-inner pipeline and the second tank-inner pipeline are connected with the other end of the cold water connection joint and the other end of the return water connection joint.

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