CN220397791U - Intelligent multi-host double-liner hydraulic module - Google Patents

Abstract

The utility model discloses an intelligent multi-host double-liner hydraulic module which comprises a pressure-bearing water tank, wherein a first water tank liner and a second water tank liner are arranged in the pressure-bearing water tank, the first water tank liner is communicated with the second water tank liner through a communicating pipe, a host water return port and a terminal water return port are arranged on the first water tank liner, a host water outlet and a terminal water inlet are connected to the second water tank liner, and at least two host water return ports and host water outlets are respectively arranged. The utility model is provided with the plurality of host water return ports and the host water outlets, can realize the parallel connection of a plurality of hosts, is matched with the design of the double water tank liner of the pressure-bearing water tank, ensures the normal operation of the plurality of parallel hosts by ensuring the capacity of the pressure-bearing water tank, ensures the operation stability and reliability of the whole system, and can be matched and selected according to the needs, thereby being applicable to different installation requirements and expanding the application range.

Description

Intelligent multi-host double-liner hydraulic module

Technical Field

The utility model belongs to the technical field of dual-supply air conditioning systems of heat pump (cold water) sets, and particularly relates to an intelligent multi-host double-liner hydraulic module.

Background

In the prior art, a pressure-bearing bucket, a mechanical bypass valve and a mechanical water supplementing valve form a three-part independent system. The pressure-bearing water bucket is connected in series on a pipeline of the water inlet end of the main machine of the dual-supply air conditioning system, the mechanical bypass valve is connected in parallel on a water inlet and outlet main pipeline of the dual-supply air conditioning system, one end of the mechanical water supplementing valve is connected to tap water, and the other end of the mechanical water supplementing valve is connected to the dual-supply air conditioning system. In the prior art, a pressure-bearing water bucket is generally adopted in the dual-supply air conditioning system, and a host machine and a plurality of host machines are connected to the pressure-bearing water bucket. In addition, as a plurality of main machines are adopted, the water flow needs to be greatly increased, the size of an independent pipeline fed into the room is too large, the indoor use opening rate is low, the pipe diameter is too large, the water capacity is too large, the energy waste is too large, the refrigerating and heating effects are too slow, and the installation difficulty of the large pipe diameter is also large, so that the installation application range of the dual-supply air conditioning system is limited.

Disclosure of Invention

The utility model aims to provide the technical scheme of the intelligent multi-host double-liner hydraulic module aiming at the defects in the prior art, the intelligent multi-host double-liner hydraulic module is simple and reasonable in structural design and strong in practicability, a plurality of host water return ports and host water outlets are arranged, parallel connection of a plurality of hosts can be realized, the design of double-liner of a pressure-bearing water tank is matched, the capacity of the pressure-bearing water tank is ensured, normal operation of the plurality of parallel hosts is ensured, the running stability and reliability of the whole system are ensured, the number of hosts can be selected according to the needs, and therefore, the intelligent multi-host double-liner hydraulic module is suitable for different installation requirements and expands the application range.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the intelligent multi-host double-liner hydraulic module comprises a pressure-bearing water tank, wherein a first water tank liner and a second water tank liner are arranged in the pressure-bearing water tank, the first water tank liner is communicated with the second water tank liner through a communicating pipe, a host water return port and a terminal water return port are arranged on the first water tank liner, a host water outlet and a terminal water inlet are connected on the second water tank liner, and at least two host water return ports and host water outlets are respectively arranged; the utility model has the advantages of structural design is simple reasonable, and the practicality is strong, through setting up a plurality of host computer water return ports and host computer delivery port, can realize the parallelly connected setting of many host computers, and the dual water tank inner bag design of cooperation pressure-bearing water tank, through guaranteeing the capacity of pressure-bearing water tank to guarantee the normal operating of many parallelly connected host computers, ensure the running stability and the reliability of entire system, host computer quantity can also be collocated by oneself as required and select, thereby is applicable to different installation demands, enlarges application scope.

Further, the tail end water return port and the tail end water inlet are both provided with at least two, and through setting up a plurality of tail end water return ports and tail end water inlets, a plurality of tail ends are parallelly connected to be set up, and each tail end corresponds on the independent pipeline communicates the pressure-bearing water tank for whole system pipeline lays more clearly rationally, also is convenient for later stage pipeline maintenance. The problems of balance of water flow of the host machines and end use efficiency can be solved by adopting the arrangement of multiple host machines and multiple ends, so that equipment installation is standardized, and the installation process is simplified.

The host water return port and the tail end water return port can be arranged on the same side face of the first water tank liner, the host water return port and the tail end water return port can be respectively arranged on two sides of the first water tank liner according to requirements, the host water return ports and the tail end water return ports are uniformly distributed on the side wall of the first water tank liner, the host water outlet and the tail end water inlet can be arranged on the same side face of the second water tank liner, the host water outlet and the tail end water inlet can be respectively arranged on two sides of the second water tank liner according to requirements, the host water outlet and the tail end water inlet are uniformly distributed on the side wall of the first water tank liner, and the positions can be reasonably and scientifically arranged according to the design requirements and the number of interfaces, so that the access connection of various pipelines is facilitated.

Further, the bypass electric valve is arranged on the communicating pipe, the timeliness and the rapidity of the reaction can be improved by adopting the design of the bypass electric valve relative to the mechanical bypass ball valve, and the bypass electric valve is not easy to damage, so that the accident rate is effectively reduced.

Further, be provided with the electric cabinet in the pressure-bearing water tank, electronic pressure sensor, bypass motorised valve and moisturizing motorised valve are connected to the electric cabinet, can realize the long-range real-time management to equipment, make things convenient for dealer or producer to the operation maintenance of system to better serve the customer, be provided with control panel on the electric cabinet simultaneously, thereby make things convenient for the management and the operation of on-the-spot to equipment.

Further, the exhaust valve is connected to the first water tank liner and the second water tank liner, and can exhaust air in the liner, so that water entering the host or the tail end does not contain air, the stability and the tail end effect of the host are improved, and the safety performance of the whole system is improved.

Further, the first water tank liner and the second water tank liner are both connected with expansion tanks, and the expansion tanks can play a role in buffering when the water pressure suddenly changes.

Further, the first water tank liner is connected with a safety valve, the safety valve is automatically opened when the water pressure in the system is too high through the design of the safety valve, and the safety valve is automatically closed again until the water pressure in the system is reduced to a safety range, so that the risk of overpressure of the system is prevented, the accident rate is reduced, and the operation safety performance of the whole system is improved.

Further, all be connected with electronic pressure sensor on water tank inner bag one and the water tank inner bag two, electronic pressure sensor is used for measuring the water pressure value in the system, and has all set up electronic pressure sensor on water tank inner bag one and the water tank inner bag two, through the common measurement of two electronic pressure sensors for the collection of water pressure in the system is more accurate.

Further, be connected with the moisturizing mouth on the water tank inner bag, the intercommunication has the moisturizing pipe on the moisturizing mouth, the moisturizing pipe extends to in the pressure-bearing water tank and is connected with the water tank inner bag one, structural design is reasonable, can carry out moisturizing operation in the water tank inner bag through the moisturizing pipe, the moisturizing valve control system is carried out the replenishment of water in the moisturizing valve, the moisturizing valve is for the design of current mechanical type moisturizing valve, and cooperate electronic pressure sensor's measured value, can be in normal moisturizing state or the abnormal moisturizing state that the pipeline damage led to in the perception system, in case when the phenomenon of leaking has in the discovery system, the moisturizing valve stops moisturizing, and report to the police, reduce user's loss risk.

Further, all be provided with the mounting bracket on water tank inner bag one and the water tank inner bag two, be provided with the mounting hole on the mounting bracket, the mounting between mounting bracket and the pressure-bearing water tank is realized through the mounting hole cooperation screw to realize that water tank inner bag one, water tank inner bag two are fixed in the installation of pressure-bearing water tank, design benefit is reasonable, and the installation is dismantled conveniently, and ensures the installation fastness.

Due to the adoption of the technical scheme, the utility model has the following beneficial effects:

the utility model has simple and reasonable structural design and strong practicability, can realize the parallel arrangement of a plurality of hosts by arranging the water return ports and the water outlets of the hosts, and is matched with the design of the double water tank inner container of the pressure-bearing water tank, thereby ensuring the normal operation of the plurality of hosts connected in parallel by ensuring the capacity of the pressure-bearing water tank, ensuring the operation stability and reliability of the whole system, the number of the hosts can be matched and selected according to the needs, thereby being suitable for different installation requirements, expanding the application range, and simultaneously, a plurality of tail end water return ports and tail end water inlets can be arranged, the parallel arrangement of a plurality of tail ends can be realized, and each tail end is correspondingly communicated to the pressure-bearing water tank through an independent pipeline, so that the pipeline arrangement of the whole system is clearer and more reasonable, and the pipeline maintenance in the later period is convenient.

The utility model changes the mechanical bypass valve into the bypass electric valve, thereby increasing the timeliness and rapidness of the reaction, and the electronic pressure sensors are arranged on the first water tank liner and the second water tank liner, improving the accuracy of collecting the water pressure of the system, and simultaneously changes the mechanical water supplementing valve into the water supplementing valve, and according to the collecting signal of the electronic pressure sensor, the utility model can sense whether the system is in a normal water supplementing state or an abnormal water supplementing state caused by the damage of a pipeline, thereby reducing the risk of user loss and improving the performance of the whole product. The pressure-bearing water tank, the bypass electric valve and the water supplementing electric valve are integrated together, so that the installation process is simplified, the connection risk is reduced, the installation space is reduced, the working efficiency and the performance are improved effectively during installation, the dual-supply air conditioning system is more stable due to the improvement of the product technology, faults can be reduced greatly, and property loss caused by water leakage of users can be reduced greatly.

Drawings

The utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic diagram of the pipeline connection structure between equipment and a host machine and between equipment and the tail end when a plurality of host machine water return ports, host machine water outlets, tail end water return ports and tail end water inlets are all arranged in the utility model;

FIG. 2 is a schematic structural diagram of the intelligent multi-host dual-liner hydraulic module of FIG. 1;

FIG. 3 is a schematic diagram of a position distribution structure of a first tank liner and a second tank liner in a pressure-bearing water tank in the intelligent multi-host double-liner hydraulic module of FIG. 2;

FIG. 4 is a schematic diagram of a communication structure between the first tank liner and the second tank liner in FIG. 3;

FIG. 5 is a schematic diagram showing the position distribution structure of the mounting frame on the first water tank liner and the second water tank liner;

FIG. 6 is a schematic diagram of the structure of the device when a plurality of return water inlets and a plurality of return water inlets are arranged at the tail end and a plurality of water inlets are arranged at the tail end;

FIG. 7 is a schematic view of the internal structure of FIG. 6;

fig. 8 is a schematic view of the pipe connection between the device of fig. 6 and the host, end.

In the figure: 1-a pressure-bearing water tank; 2-a first water tank liner; 3-a second water tank liner; 4-communicating pipe; 5-by-pass electric valve; 6, a main machine water return port; 7-a tail end water return port; 8, a host water outlet; 9-end water inlets and 10-electric control boxes; 11-an exhaust valve; 12-an expansion tank; 13-a safety valve; 14-an electronic pressure sensor; 15-water supplementing port; 16-a water supplementing pipe; 17-a water supplementing valve; 18-terminal; 19-a host; 20-a water supply pipe; 21-a return pipe; 22-mounting frame; 23-mounting holes; 24-control panel.

Detailed Description

As shown in fig. 1 to 8, the intelligent multi-host double-liner hydraulic module comprises a pressure-bearing water tank 1, wherein a first water tank liner 2 and a second water tank liner 3 are arranged in the pressure-bearing water tank 1, the first water tank liner 2 is communicated with the second water tank liner 3 through a communicating pipe 4, a bypass electric valve 5 is arranged on the communicating pipe 4, and the bypass electric valve 5 is designed relative to a mechanical bypass ball valve, so that timeliness and rapidness of reaction can be improved, and the bypass electric valve 5 is not easy to damage, so that the accident rate is effectively reduced, and the whole system operates more stably.

The first water tank liner 2 is provided with a main machine water return port 6 and a tail end water return port 7, the second water tank liner 3 is connected with a main machine water outlet 8 and a tail end water inlet 9, and the main machine water return port 6 and the main machine water outlet 8 are respectively provided with at least two; the utility model has the advantages of structural design is simple reasonable, and the practicality is strong, through setting up a plurality of host computer water return openings 6 and host computer delivery port 8, can realize the parallelly connected setting of many host computers 19, and the dual water tank inner bag design of cooperation pressure-bearing water tank 1, through guaranteeing the capacity of pressure-bearing water tank 1 to guarantee the normal operating of many parallelly connected host computers 19, ensure the running stability and the reliability of entire system, host computers 19 quantity can also be collocated by oneself as required and select, thereby is applicable to different installation demands, enlarges application scope. The host 19 is communicated with the host water outlet 8 on the second water tank liner 3 through a water supply pipe 20, the tail end water inlet 9 on the second water tank liner 3 is communicated with the tail end 18 through the water supply pipe 20, the tail end 18 is communicated with the tail end water return port 7 on the first water tank liner 2 through a water return pipe 21, and the host water return port 6 on the first water tank liner 2 is communicated with the host 19 through the water return pipe 21 to form water circulation.

Terminal water return mouth 7 and terminal water inlet 9 all are provided with two at least, terminal water return mouth 7 and terminal water inlet 9's in this application number also can set up one or more according to actual demand, when setting up a plurality of terminal water return mouth 7 and terminal water inlet 9, a plurality of terminal water return mouth 7 evenly distributed is in the corresponding lateral part of water tank inner bag one 2, and a plurality of terminal water inlet 9 then evenly distributed is in the corresponding lateral part of water tank inner bag two 3, thereby realize the parallelly connected setting of a plurality of terminals 18, every terminal 18 corresponds on the pipeline intercommunication pressure-bearing water tank 1 alone, make the pipeline of entire system lay more clear reasonable, also be convenient for the pipeline maintenance in later stage. By adopting the arrangement of multiple hosts 19 and multiple paths of tail ends 18, the problems of balance of water flow of the hosts 19 and use efficiency of the tail ends 18 can be solved, so that equipment installation is standardized, and the installation process is simplified.

The host water return port 6 and the tail end water return port 7 can be arranged on the same side face of the first water tank liner 2, the host water return port 6 and the tail end water return port 7 can be respectively arranged on two sides of the first water tank liner 2 according to requirements, the host water return ports 6 and the tail end water return ports 7 are uniformly distributed on the side wall of the first water tank liner 2, the host water outlet 8 and the tail end water inlet 9 can be arranged on the same side face of the second water tank liner 3, the host water outlet 8 and the tail end water inlet 9 can be respectively arranged on two sides of the second water tank liner 3 according to requirements, the host water outlet 8 and the tail end water inlet 9 are uniformly distributed on the side wall of the second water tank liner 3, and when the interface is arranged on the liner, the positions can be scientifically and reasonably distributed according to the design requirements and the number of interfaces, so that the connection of various pipelines is facilitated.

The electric cabinet 10 is arranged in the pressure-bearing water tank 1, the electric cabinet 10 is connected with the electronic pressure sensor 14, the bypass electric valve 5 and the water supplementing electric valve 17, remote real-time management of equipment can be realized, operation and maintenance of a system are facilitated for a dealer or a manufacturer, so that the system can be better served for customers, meanwhile, the electric cabinet 10 is provided with the control panel 24, so that the management and operation of the equipment are facilitated on site, the control panel 24 is provided with the display screen and the operation buttons, the operation buttons can facilitate the control and the adjustment of the equipment, the display screen is used for displaying parameters, the parameter values of the equipment are conveniently and intuitively checked, and the pressure-bearing water tank 1 is provided with a window matched with the control panel 24, so that the control panel 24 is exposed, and the control of the equipment is facilitated.

The exhaust valve 11 is connected to the first water tank liner 2 and the second water tank liner 3, the exhaust valve 11 can exhaust air in the liners, so that water entering the host 19 or the tail end 18 does not contain air, stability of the host 19 and the effect of the tail end 18 are improved, the two water tank liners correspond to the design of the two exhaust valves 11, the exhaust effect in the whole system can be greatly improved, and safety performance and stability performance of the whole system are improved. The expansion tank 12 is connected to the first water tank liner 2 and the second water tank liner 3, and the expansion tank 12 is designed to play a role in buffering when the water pressure suddenly changes. The first water tank liner 2 is connected with the safety valve 13, and the safety valve 13 is automatically opened when the water pressure in the system is too high through the design of the safety valve 13 until the water pressure in the system is reduced to a safe range, so that the safety valve 13 is automatically closed again, the system overpressure danger is prevented, the accident rate is reduced, and the operation safety performance of the whole system is improved.

The first water tank liner 2 and the second water tank liner 3 are respectively connected with an electronic pressure sensor 14, the electronic pressure sensors 14 are used for measuring the water pressure value in the system, the first water tank liner 2 and the second water tank liner 3 are respectively provided with the electronic pressure sensors 14, and the water pressure in the system is acquired more accurately through independent measurement of the two electronic pressure sensors 14.

The water tank liner 2 is connected with the water supplementing port 15, the water supplementing port 15 is communicated with the water supplementing pipe 16, the water supplementing pipe 16 extends into the pressure-bearing water tank 1 and is connected with the water tank liner 2, the water supplementing pipe 16 is provided with the water supplementing electromagnetic valve 17, the water supplementing operation can be carried out on the water tank liner through the water supplementing pipe 16, the water supplementing electromagnetic valve 17 controls the supplementing and conveying of water in the system, the water supplementing electromagnetic valve 17 is designed relative to the existing mechanical water supplementing valve, and the water supplementing electromagnetic valve 17 is matched with the measured value of the electronic pressure sensor 14, so that the abnormal water supplementing state caused by normal water supplementing state or pipeline damage in the system can be perceived, and once the water leakage phenomenon in the system is found, the water supplementing electromagnetic valve 17 stops water supplementing, alarms and the loss risk of a user is reduced.

The installation of the installation frame 22 and the pressure-bearing water tank 1 is realized through the installation holes 23 matched with screws on the installation frame 22, so that the installation fixation of the first water tank liner 2 and the second water tank liner 3 in the pressure-bearing water tank 1 is realized, the design is ingenious and reasonable, the installation and the disassembly are convenient, and the installation firmness is ensured.

The utility model has simple and reasonable structural design and strong practicability, can realize the parallel arrangement of a plurality of main machine water return ports 6 and main machine water outlets 8, and is matched with the design of the double water tank inner container of the pressure water tank 1, the normal operation of the plurality of parallel main machines is ensured by ensuring the capacity of the pressure water tank 1, the operation stability and the reliability of the whole system are ensured, the number of main machines can be matched and selected according to the needs, thus being suitable for different installation requirements, expanding the application range, and simultaneously, a plurality of tail end water return ports 7 and tail end water inlets 9 can be arranged, thereby realizing the parallel arrangement of a plurality of tail ends, each tail end is communicated to the pressure water tank 1 corresponding to an independent pipeline, so that the pipeline arrangement of the whole system is more clear and reasonable, and the later pipeline maintenance is also convenient.

The utility model changes the mechanical bypass valve into the bypass electric valve 5, thereby increasing the timeliness and rapidness of the reaction, and the electronic pressure sensors 14 are arranged on the first water tank liner 2 and the second water tank liner 3, improving the accuracy of collecting the water pressure of the system, and simultaneously changes the mechanical water supplementing valve into the water supplementing electromagnetic valve 17, and according to the collecting signal of the electronic pressure sensor 14, the system can sense whether the system is in a normal water supplementing state or an abnormal water supplementing state caused by the damage of a pipeline, thereby reducing the loss risk of users, and improving the performance of the whole product. In the utility model, the pressure-bearing water tank 1, the bypass electric valve 5 and the water supplementing electric valve 17 are integrated together, so that the installation process is simplified, the connection risk is reduced, the installation space is reduced, the working efficiency and the performance are improved more simply and rapidly during installation, the dual-supply air conditioning system is more stable due to the improvement of the product technology, the faults can be greatly reduced, and the property loss caused by water leakage of users can be greatly reduced.

The above is only a specific embodiment of the present utility model, but the technical features of the present utility model are not limited thereto. Any simple changes, equivalent substitutions or modifications made on the basis of the present utility model to achieve substantially the same technical effects are included in the scope of the present utility model.

Claims (10)

1. Intelligent multi-host double-liner hydraulic module comprises a pressure-bearing water tank and is characterized in that: the pressure-bearing water tank is characterized in that a first water tank liner and a second water tank liner are arranged in the pressure-bearing water tank, the first water tank liner is communicated with the second water tank liner through a communicating pipe, a host water return port and a tail end water return port are arranged on the first water tank liner, a host water outlet and a tail end water inlet are connected on the second water tank liner, and at least two host water return ports and at least two host water outlets are respectively arranged.

2. The intelligent multi-host dual-liner hydraulic module of claim 1, wherein: and the tail end water return port and the tail end water inlet are both provided with at least two.

3. The intelligent multi-host dual-liner hydraulic module of claim 1, wherein: and a bypass electric valve is arranged on the communicating pipe.

4. The intelligent multi-host dual-liner hydraulic module of claim 1, wherein: an electric cabinet is arranged in the pressure-bearing water tank.

5. The intelligent multi-host dual-liner hydraulic module of claim 1, wherein: and the first water tank liner and the second water tank liner are both connected with exhaust valves.

6. The intelligent multi-host dual-liner hydraulic module of claim 1, wherein: and the first water tank liner and the second water tank liner are both connected with expansion tanks.

7. The intelligent multi-host dual-liner hydraulic module of claim 1, wherein: and a safety valve is connected to the first water tank liner.

8. The intelligent multi-host dual-liner hydraulic module of claim 1, wherein: and the first water tank liner and the second water tank liner are both connected with electronic pressure sensors.

9. The intelligent multi-host dual-liner hydraulic module of claim 1, wherein: the water tank liner I is connected with a water supplementing port, the water supplementing port is communicated with a water supplementing pipe, the water supplementing pipe extends into the pressure-bearing water tank and is connected with the water tank liner I, and the water supplementing pipe is provided with a water supplementing valve.

10. The intelligent multi-host dual-liner hydraulic module of claim 1, wherein: the water tank liner I and the water tank liner II are respectively provided with a mounting frame, and mounting holes are formed in the mounting frames.