CN211595013U - Pressure-equalizing liquid outlet device - Google Patents

Abstract

The utility model discloses a voltage-sharing goes out liquid device, temperature control mechanism and a plurality of shunt tubes including control fluid temperature, the shunt tubes all is equipped with inlet and liquid outlet, temperature control mechanism sets up on the shunt tubes, and rivers flow from the inlet after flowing into the shunt tubes through temperature control mechanism and flow out, one from the liquid outlet after regulating and controlling the temperature the last one or more liquid outlet that is equipped with of shunt tubes. The utility model discloses the rivers pressure that flows in can the balanced every liquid outlet provides the rivers of different temperatures and quality of water, solves the water pressure unbalance and quality of water and the single problem of temperature selection that cause owing to use the liquid outlet of different quantity.

Description

Pressure-equalizing liquid outlet device

Technical Field

The utility model relates to a go out liquid technical field, specifically be a voltage-sharing goes out liquid device.

Background

As shown in fig. 5, in daily life, a plurality of water taps are often connected to one main pipe for users to use. Such drinking water facilities often have a problem of unstable water pressure. When only one of the plurality of water taps is opened for use, the water pressure of the opened water tap is excessively high due to the fact that other water taps are not opened, water flow is poured, and use is affected; however, when all the taps are turned on for use, the water pressure of each tap is exceptionally low due to only one main pipe supplying water, which also affects the use.

In addition, when all the water taps are connected to a main pipe, the water temperature and the water quality in all the water pipes are the same, a user cannot select the water temperature and the water quality according to the needs of the user, and the arrangement of the drinking water facility is not humanized enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a pressure-equalizing goes out liquid device can equalize the rivers pressure that flows in every liquid outlet, provides the rivers of different temperatures and quality of water, solves the water pressure that causes owing to the liquid outlet that uses different quantity unbalance and quality of water and the single problem of temperature selection.

In order to achieve the purpose of the invention, the utility model adopts the following technical scheme: the utility model provides a pressure-equalizing liquid outlet device, includes temperature control mechanism and a plurality of shunt tubes of control liquid temperature, the shunt tubes all is equipped with inlet and liquid outlet, temperature control mechanism sets up on the shunt tubes, and rivers flow into the shunt tubes from the inlet and flow out from the liquid outlet after temperature control mechanism regulation and control temperature, one be equipped with one or more liquid outlet on the shunt tubes.

Above-mentioned technical scheme can connect a plurality of liquid outlets through the shunt tubes of difference, and rivers in every shunt tube all adjust into the rivers of different temperatures through temperature control mechanism. Compared with the prior art, the pressure-equalizing liquid outlet device adopting the technical scheme has the beneficial effects that:

1. the utility model provides a shunt tubes is balanced the play liquid water pressure that is equipped with a plurality of liquid outlets, can guarantee that the liquid outlet goes out the water pressure of liquid under the user state of difference balanced. Specifically, after a plurality of liquid outlets are arranged on one flow dividing pipe, when each liquid outlet is used independently, the situation of overlarge water pressure cannot occur; when using a plurality of liquid outlets simultaneously, also can not cause water pressure too low, rivers are slow, liquid outlet water pressure is crossed too low or too high phenomenon in the balanced use that can be better.

2. Different shunt tubes can be connected with different liquid sources, so that different choices are provided for users.

Preferably, the heat exchange device further comprises a heat exchange mechanism, wherein the heat exchange mechanism comprises a second pipeline and a first pipeline, and the first pipeline and the second pipeline exchange heat with each other; the shunt tubes include first branch pipe, be equipped with heat exchange mechanism on the first branch pipe, rivers flow through first pipeline, accuse temperature mechanism and second pipeline in proper order after getting into first branch pipe from the inlet, finally flow out from the liquid outlet. The heat exchange mechanism can carry out the heat exchange to the drink that the accuse temperature mechanism was handled, can obtain more than the direct temperature from accuse temperature mechanism outflow at the liquid outlet of first branch pipe rivers lower or higher, increases the selectivity of user to different temperature rivers, carries out preliminary preheating or precooling to the rivers in the second pipeline simultaneously, handles the energy that rivers consumed in the reposition of redundant personnel pipe among the reduction accuse temperature mechanism, can the energy saving.

Preferably, the heat exchanger comprises a plurality of first branch pipes, and the first branch pipes are provided with heat exchange mechanisms. The water heater is provided with the first branch pipes and the heat exchange mechanism, so that the supply amount of warm water is increased, and the requirement of the public on the warm water is met.

Preferably, the water flow directions in the second pipeline and the first pipeline are opposite or the same. When two rivers directions when in opposite directions, can increase time and the area of rivers mutual contact heat transfer in second pipeline and the first pipeline, promote the efficiency of heat exchange.

Preferably, still including the temperature adjustment mechanism who is used for further regulating and control rivers temperature in the pipeline, the shunt tubes includes the second branch pipe, be equipped with temperature adjustment mechanism on the second branch pipe, temperature adjustment mechanism sets up between the liquid outlet of temperature adjustment mechanism and second branch pipe, rivers flow through the liquid outlet of second branch pipe after the temperature adjustment mechanism of second branch pipe flows through after getting into the second branch pipe from the inlet of second branch pipe. The water flow processed by the temperature control mechanism is further regulated and controlled by the temperature regulation mechanism, so that the water flow with lower or higher temperature than the water flow flowing out of the liquid outlet of the first branch pipe can be obtained, the selection of a user on the water flows with different temperatures is increased, and the applicability of the liquid outlet device is improved.

Preferably, the liquid inlet of the second branch pipe is communicated with the first branch pipe and is located between the liquid outlets of the heat exchange mechanism and the first branch pipe, after the water flows through the second pipeline, the water is shunted at the joint of the second branch pipe and the first branch pipe, one water flow flows out from the liquid outlet of the first branch pipe, and the other water flow flows out from the liquid outlet of the second branch pipe after passing through the temperature regulating mechanism. The liquid inlet of the second branch pipe is arranged between the heat exchange mechanism of the first branch pipe and the liquid outlet of the first branch pipe, so that the temperature of the water flow after being regulated by the temperature control mechanism and the heat exchange mechanism can be directly regulated and controlled, and the energy is saved.

Drawings

Fig. 1 is a schematic structural view of a pressure equalizing and liquid discharging device of embodiment 1 of the present invention.

Fig. 2 is a schematic structural view of the pressure equalizing and liquid discharging device of embodiment 2 of the present invention.

Fig. 3 is a schematic structural view of a pressure equalizing liquid outlet device of the present invention in embodiment 3.

Fig. 4 is a schematic structural view of a pressure equalizing liquid outlet device of embodiment 4 of the present invention.

Fig. 5 is a schematic view of a connection structure of a water flow pipe in the prior art.

Reference numerals: 1. a temperature control mechanism; 3. a shunt tube; 31. a first branch pipe; 32. a second branch pipe; 4. a heat exchange mechanism; 41. a first conduit; 42. a second conduit; 5. a temperature adjusting mechanism.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

Example 1:

fig. 1 is a schematic structural diagram of an embodiment 1 of a pressure-equalizing liquid-discharging device, the pressure-equalizing liquid-discharging device includes a temperature control mechanism 1 and a plurality of flow dividing pipes 3, the flow dividing pipes 3 are respectively provided with a liquid inlet and a liquid outlet, the temperature control mechanism 1 is arranged on the flow dividing pipes 3, water flows into the flow dividing pipes 3 from the liquid inlet and then flows out from the liquid outlets after being processed by the temperature control mechanism 1, and one flow dividing pipe 3 is provided with one or more liquid outlets. In this embodiment, three shunt tubes 3 are provided, but in actual use or during construction, two or more shunt tubes 3 may be provided due to differences in the tube diameter and the water inflow of the shunt tubes 3.

After shunt tubes 3 were flowed through from the inlet of shunt tubes 3 of difference to rivers, the water pressure in every shunt tubes 3 is certain, and every shunt tubes 3 is equipped with a plurality of liquid outlets, and a plurality of liquid outlets can distribute the water pressure in shunt tubes 3 again, and at the in-process of using, the water pressure of guaranteeing between every liquid outlet is balanced. In this embodiment, the liquid outlets of each dividing pipe 3 are provided with two, but actually, the number of the liquid outlets corresponding to each dividing pipe 3 may be two or more according to actual situations. Generally, the liquid outlet is provided with a water tap and other mechanisms capable of controlling water outlet.

The embodiment is used for carrying out temperature treatment on liquid flowing into the device, and the liquid can be domestic water or drinking water, and can also be drinks such as fruit juice, soybean milk and tea. Wherein, temperature control mechanism 1 plays the effect of temperature regulation to the liquid in the shunt tubes 3, that is to say, temperature control mechanism 1 can play the effect of heating or refrigeration to the liquid in shunt tubes 3.

Example 2:

fig. 2 is a schematic structural diagram of an embodiment 2 of the liquid equalizing and discharging device, which is different from embodiment 1 in that the liquid equalizing and discharging device of the present embodiment further comprises a heat exchange mechanism 4, the heat exchange mechanism 4 comprises a second pipeline 42 and a first pipeline 41, and the first pipeline 41 and the second pipeline 42 exchange heat with each other; the shunt pipe 3 comprises a first branch pipe 31, a heat exchange mechanism 4 is arranged on the first branch pipe 31, and the heat exchange mechanism 4 is arranged between the liquid inlet and the temperature control mechanism 1.

The water flows in from the corresponding liquid inlet, sequentially flows through the first pipeline 41, the temperature control mechanism 1 and the second pipeline 42, and finally flows out from the liquid outlet of the first branch pipe 31. And in the present embodiment, one or more first branch pipes 31 and corresponding heat exchange means 4 may be provided.

In fig. 2, a plurality of sets of first branch pipes 31 and heat exchange mechanisms 4 are provided, each first branch pipe 31 shares one temperature control mechanism 1, but each first branch pipe 31 is independent, the heat exchange mechanisms 4 thereon are also not affected by the heat exchange mechanisms 4 on the other first branch pipe 31, the water flow in each first branch pipe 31 is not interfered with each other, the supply amount of the medium-temperature liquid of the pressure-equalizing liquid outlet device is increased, and the energy consumption is further saved by matching with the heat exchange mechanisms 4.

When the temperature control mechanism 1 in this embodiment is a heater, the first pipe 41 in the heat exchange mechanism 4 is a temperature raising pipe, and the second pipe 42 is a temperature lowering pipe. When water flow with lower temperature enters from the liquid inlet, the water flow is heated by the temperature control mechanism 1 to become high-temperature water flow. In this case, the water flowing through the first pipe 41 is low-temperature water, the water flowing through the second pipe 42 is high-temperature water, and after heat exchange is performed between the first pipe 41 and the second pipe 42, the water flowing through the first pipe 41 absorbs heat emitted by the second pipe 42, so that the water flowing into the temperature control mechanism 1 to be heated is preheated and becomes medium-temperature water.

In contrast to the above-mentioned case where the temperature control mechanism 1 is a heater, when the temperature control mechanism 1 in this embodiment is a refrigerator, the first pipe 41 is a cooling pipe, and the second pipe 42 is a heating pipe in the heat exchange mechanism 4. When water flow with higher temperature enters from the liquid inlet, the water flow is refrigerated by the temperature control mechanism 1 and then becomes low-temperature water flow. In this case, the water flow flowing through the first pipe 41 is a high-temperature water flow, the water flow flowing through the second pipe 42 is a low-temperature water flow, and after the heat exchange between the first pipe 41 and the second pipe 42, the water flow in the second pipe 42 absorbs the heat emitted by the first pipe 41, and precools the water flow entering the temperature control mechanism 1 for refrigeration, so as to change the water flow into a medium-temperature water flow.

No matter temperature control mechanism 1 adopts above-mentioned heater or refrigerator, the rivers that flow from the liquid outlet of first branch pipe 31 behind heat exchange mechanism 4 are medium temperature rivers, can both reduce temperature control mechanism 1 with the same rivers heating or refrigerate the energy that same temperature consumed, can provide the liquid of various different temperatures for the user when the energy saving, application scope is wider.

The water flow directions in the second conduit 42 and the first conduit 41 in this embodiment are opposite or the same. In fig. 2, the two water flows are opposite in direction, which can increase the time and area for the water flows in the second pipe 42 and the first pipe 41 to contact each other to transfer heat, and improve the efficiency of heat exchange. When the first pipeline 41 and the second pipeline 42 are disposed, the second pipeline 42 may be disposed closely to the first pipeline 41, or the first pipeline 41 and the second pipeline 42 are disposed in a sleeved manner, or the first pipeline 41 and the second pipeline 42 are not in contact with each other and perform heat transfer through a heat conducting medium, in the embodiment of fig. 2, the sleeved arrangement is adopted, and the first pipeline 41 is sleeved on the outer side of the second pipeline 42.

Example 3:

fig. 3 is a schematic structural diagram of an embodiment 3 of a pressure-equalizing liquid-discharging device, in this embodiment, in order to satisfy the different drinking water demands of the public, the dividing tube 3 includes a second branch tube 32, a temperature-adjusting mechanism 5 is provided on the second branch tube 32, the temperature-adjusting mechanism 5 is provided between the temperature-controlling mechanism 1 and the liquid outlet of the second branch tube 32, water flows in from the liquid inlet, and flows out from the liquid outlet after flowing through the temperature-adjusting mechanism 5.

Corresponding to the embodiment 2, if the temperature control mechanism 1 adopts a heater, the temperature control mechanism 5 adopts a refrigerator, so that water flows with three different water temperatures, namely medium temperature, low temperature and high temperature, sequentially flow out from top to bottom in fig. 3; if the temperature control mechanism 1 adopts a refrigerator, the temperature control mechanism 5 adopts a heater, and thus three water flows with different water temperatures, namely medium temperature, high temperature and low temperature, sequentially flow out from bottom to top in the figure 3.

The temperature adjusting mechanism 5 directly cools or heats the water flow treated by the temperature adjusting mechanism 1, so that the water flow with lower or higher temperature than the water flow flowing out of the liquid outlet of the first branch pipe 31 can be obtained, the selection of the drinker on the liquid with different temperatures is increased, and the applicability of the liquid outlet device is improved.

Example 4:

fig. 4 is a schematic structural diagram of an embodiment 4 of a liquid equalizing and discharging device, which is different from the above embodiments in that a liquid inlet of a second branch pipe 32 is connected to a first branch pipe 31 and located between a heat exchange mechanism 4 and a liquid outlet of the first branch pipe 31, a water flow is branched at a connection position of the second branch pipe 32 and the first branch pipe 31 after flowing through a second pipe 42 of the heat exchange mechanism 4, one water flow flows out from the liquid outlet of the first branch pipe 31, and the other water flow flows out from the liquid outlet of the second branch pipe 32 after being cooled or heated by a temperature adjusting mechanism 5. Compared with the arrangement position of the liquid inlet of the second branch pipe 32 in embodiment 3, the present embodiment further cools or heats the medium temperature water flow passing through the heat exchange mechanism 4, so that the energy consumed by the temperature adjustment mechanism 5 during further cooling or heating can be reduced, and the energy can be saved.

The above is the preferred embodiment of the present invention, and a person skilled in the art can make several modifications and improvements without departing from the principle of the present invention, and these should also be regarded as the protection scope of the present invention.

Claims (6)

1. The utility model provides a pressure-equalizing liquid outlet device which characterized in that: temperature control mechanism (1) and a plurality of shunt tubes (3) including control liquid temperature, shunt tubes (3) all are equipped with inlet and liquid outlet, temperature control mechanism (1) sets up on shunt tubes (3), and rivers flow into shunt tubes (3) from the inlet and flow out, one from the liquid outlet after temperature control mechanism (1) regulation and control temperature, be equipped with one or more liquid outlet on shunt tubes (3).

2. The pressure equalizing and liquid outlet device according to claim 1, characterized in that: the heat exchanger further comprises a heat exchange mechanism (4), wherein the heat exchange mechanism (4) comprises a second pipeline (42) and a first pipeline (41), and the first pipeline (41) and the second pipeline (42) are in heat exchange with each other; shunt tubes (3) include first branch pipe (31), be equipped with heat exchange mechanism (4) on first branch pipe (31), the rivers flow through first pipeline (41), accuse temperature mechanism (1) and second pipeline (42) in proper order after getting into first branch pipe (31) from the inlet, finally flow out from the liquid outlet.

3. The pressure equalizing and liquid outlet device according to claim 2, characterized in that: the heat exchanger comprises a plurality of first branch pipes (31), wherein the first branch pipes (31) are provided with heat exchange mechanisms (4).

4. The pressure equalizing and liquid outlet device according to claim 2 or 3, characterized in that: the water flow directions in the second pipeline (42) and the first pipeline (41) are opposite or the same.

5. The pressure equalizing and liquid outlet device according to claim 4, characterized in that: still including temperature adjustment mechanism (5) that are used for further regulating and controlling rivers temperature in the pipeline, shunt tubes (3) include second branch pipe (32), be equipped with temperature adjustment mechanism (5) on second branch pipe (32), temperature adjustment mechanism (5) set up between the liquid outlet of temperature control mechanism (1) and second branch pipe (32), rivers flow through the liquid outlet of following second branch pipe (32) behind temperature adjustment mechanism (5) of second branch pipe (32) after entering second branch pipe (32) from the inlet of second branch pipe (32).

6. The pressure equalizing and liquid outlet device according to claim 5, characterized in that: the inlet of second branch pipe (32) communicates first branch pipe (31), and is located between the liquid outlet of heat exchange mechanism (4) and first branch pipe (31), behind second pipeline (42) is flowed through to rivers, shunts at the junction of second branch pipe (32) and first branch pipe (31), and one rivers flow from the liquid outlet of first branch pipe (31), and another rivers flow from the liquid outlet of second branch pipe (32) behind temperature adjusting mechanism (5).

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