CN117800446A - Medical condensate water recycling device - Google Patents

Abstract

The utility model provides a medical condensate recycling device, including the sterilizer, medical RO water treatment facilities and comdenstion water recycling system, comdenstion water recycling system includes the comdenstion water main line, the running water main line, medical equipment water inlet pipeline and the box of taking the proportional control valve are equipped with the interbedded water tank, the water tank outer wall spiral winding has the hose, be connected with comdenstion water inlet tube first and comdenstion water inlet tube second between comdenstion water main line and the water tank, comdenstion water inlet tube one is connected with hose bottom water inlet, hose top delivery port and comdenstion water inlet tube second are connected with the water tank top, be connected with the running water inlet tube between the interbedded water inlet of running water main line and the water tank, be connected with the running water outlet pipe between the interbedded delivery port of running water main line and the water tank, medical equipment water inlet tube is connected the bottom of water tank, running water main line is connected with the proportional control valve. The device effectively utilizes heat energy, solves the problem that the water inlet temperature of medical equipment is low and the water yield of the membrane is affected, reduces energy consumption and saves water resources.

Description

Medical condensate water recycling device

Technical Field

The invention relates to the technical field of heat energy recovery systems, in particular to a medical condensate water recycling device.

Background

In places such as hospitals, common equipment has pressure steam sterilizer, medical water treatment facilities etc. the comdenstion water that pressure steam sterilizer produced does not contain the organic matter, accords with emission standard, and the current problem that exists is: 1. the condensed water produced by the pressure steam sterilizer has a certain temperature, and the direct discharge can cause the waste of water resources and heat energy; 2. the RO membrane water yield of the medical water treatment equipment is reduced along with the reduction of the water temperature, the temperature is reduced by 1 ℃ under the same pressure, the water yield is reduced by 2% -4%, and particularly in winter, the water inlet temperature of the equipment is low, so that the membrane water yield is seriously influenced. Accordingly, there is a need for an apparatus that solves the above-mentioned problems.

Disclosure of Invention

Aiming at the above requirements, the invention provides the medical condensate water recycling device which effectively utilizes heat energy, solves the problem that the water inlet temperature of medical equipment is low and the water yield of a film is affected, has simple operation and high automation degree, reduces energy consumption and saves water resources.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the utility model provides a medical condensate recycling device, includes sterilizer, medical RO water treatment facilities and comdenstion water recycling system, comdenstion water recycling system includes the main pipeline of comdenstion water of taking ball valve A of connection sterilizer delivery port, the main pipeline of running water of taking ball valve B, the medical equipment intake pipe of taking proportional control valve and ball valve D of connecting medical RO water treatment facilities water inlet and box are equipped with the water tank of intermediate layer, and the water tank outer wall spiral winding has the hose, the main pipeline of comdenstion water with be connected with the condensate inlet tube one of electrified valve A and the condensate inlet tube two of electrified valve B between the water tank, condensate inlet tube one of electrified valve A connects hose bottom water inlet, hose top delivery port and condensate inlet tube two connect the water tank top, be located be equipped with electric valve D on the main pipeline of running water of ball valve B front side be connected with the running water inlet tube of electrified valve E between the intermediate layer water inlet of running water main pipeline and the water tank of electric valve D rear side be connected with the running water outlet pipe of running water of electric valve E, medical equipment intake pipe connection the bottom of water tank, the running water main pipeline is connected with proportional control valve. The interlayer increases the contact area of tap water and internal condensed water to the greatest extent, takes away the heat of the condensed water, ensures that the wall thickness of the hose is less than 1.5mm, and improves the heat dissipation capacity. The condensed water outlet temperature of the sterilizer is about 40 ℃, the tap water temperature in summer is about 25 ℃, the tap water temperature in winter is about 5 ℃, and the water inlet temperature of the medical RO water treatment equipment is controlled by adjusting the pipeline and the proportional regulating valve.

Preferably, a condensate bypass with a motor valve C is connected to the condensate main pipeline before and after the ball valve A. When the condensed water in the water tank reaches a high liquid level, the electric valve A and the electric valve B are closed, and the electric valve C is opened.

Preferably, the upper part of the water tank is provided with an overflow port, and the overflow port is connected with a condensate main pipeline or a condensate bypass through a condensate overflow pipe. When the condensed water in the water tank reaches the overflow port and overflows, the condensed water enters the condensed water main pipeline through the condensed water overflow pipe.

Preferably, the condensate overflow pipe is provided with a check valve A.

Preferably, a check valve B is arranged on the tap water outlet pipe, and a check valve D is arranged on a medical equipment water inlet pipe between the water tank and the proportional control valve.

Preferably, a check valve C and a ball valve C are sequentially arranged on a tap water main pipeline at the rear side of the ball valve B, and a tap water branch pipe is connected to a tap water main pipeline between the ball valve B and the check valve C and leads to other water consumption points.

Preferably, a temperature sensor is arranged on the water inlet pipe of the medical equipment. The ratio of tap water to condensed water is dynamically adjusted by the outlet water temperature detected by the temperature sensor.

Preferably, the water tank is provided with a liquid level measurer. The device is used for measuring the liquid level of the condensed water in the water tank, the water tank is provided with a medium-low liquid level, and the condensed water in the water tank stops entering the condensed water when reaching the high liquid level.

Preferably, the water tank is made of 304 stainless steel, an immersed ultraviolet sterilizer is arranged in the water tank to prevent microorganism from breeding, the width of the interlayer is 40-60 mm, the length of the hose is 300-400 m, and the diameter of the hose is 15-20 mm.

Preferably, the condensed water recycling system further comprises a heat exchanger, an R0 water producing pipeline is connected between the water inlet of the sterilizer and the water outlet of the medical RO water treatment equipment, the condensed water inlet pipe is connected with the first inlet and the first outlet of the heat exchanger, and the R0 water producing pipeline is connected with the second inlet and the second outlet of the heat exchanger. The heat exchanger can be a plate heat exchanger, R0 water is used as water inlet of the sterilizer, high-temperature condensed water and low-temperature R0 water are subjected to heat exchange in the heat exchanger, and the warmed R0 water is used for increasing the water inlet temperature, so that the energy consumption consumed by the temperature rise of the sterilizer can be saved.

Preferably, a balancer and a check valve E are arranged on the R0 water production pipeline between the heat exchanger and the sterilizer. In order to ensure that the section of R0 water production pipeline from the water outlet of the medical RO water treatment equipment to the water inlet of the sterilizer always flows, a balancer is added in front of the sterilizer, when the sterilizer is not in a water inlet state or the sterilizer is used in a small quantity, the R0 water produced by the heat exchanger is firstly stored in the balancer when the water consumption is small, and the water stored in the balancer is preferentially utilized when the sterilizer is used for water inflow again.

Preferably, the balancer is internally provided with an immersed ultraviolet sterilizer to prevent microorganism breeding.

Preferably, the number of the condensate water recycling systems is one or more. According to different hospital scale, sterilizer use quantity also different, when sterilizer quantity is 5 and below, it can to adopt a set of comdenstion water recycling system, and when sterilizer quantity is more than 10, can adopt two sets of comdenstion water recycling systems, and the sterilizer quantity is more than 10 and below 15, adopts three sets of comdenstion water recycling systems, and so on.

The invention has the advantages that: 1. the heat energy is effectively utilized, the problem that the water inlet temperature of medical equipment is low, and the water yield of the membrane is affected is solved, the operation is simple, the automation degree is high, the energy consumption is reduced, and the water resource is saved; 2. the modular design can be combined and flexibly used according to the water consumption of hospitals; 3. an interlayer is arranged in the water tank, a hose is wound on the outer wall of the water tank, the heat exchange efficiency is improved, and the occupied area and the cost are saved.

Drawings

FIG. 1 is a schematic diagram of a system according to the present invention;

FIG. 2 is a block diagram of the water tank of the present invention;

FIG. 3 is a second system diagram of the present invention;

FIG. 4 is a third system diagram of the present invention;

fig. 5 is a schematic diagram of a system according to the present invention.

The main reference symbols in the drawings indicate:

10. a sterilizer; 20. medical RO water treatment equipment; 30. a heat exchanger;

100. a condensed water main pipeline; 101. a ball valve A; 102. an electric valve A; 103. an electric valve B; 104. an electric valve C; 105. a check valve A;

200. a tap water main pipeline; 201. a ball valve B; 202. an electric valve D; 203. an electric valve E; 204. a check valve B; 205. a check valve C; 206. a ball valve C;

300. a water inlet pipeline of medical equipment; 301. a proportional control valve; 302. a ball valve D; 303. a check valve D;

400. a water tank; 401. an interlayer; 402. a hose; 403. a liquid level measurer;

500. r0 water producing pipeline; 501. a balancer; 502. and a check valve E.

Detailed Description

In order to more clearly illustrate the invention, the invention is further described below with reference to the accompanying drawings.

Embodiment one: 1-2, a medical condensate recycling device comprises a sterilizer 10, medical RO water treatment equipment 20 and a condensate recycling system, wherein the condensate recycling system comprises a condensate main pipeline 100 with a ball valve A101 connected with a water outlet of the sterilizer 10, a tap water main pipeline 200 with a ball valve B201 connected with a water inlet of the medical RO water treatment equipment 20, a medical equipment water inlet pipeline 300 with a proportional control valve 301 and a ball valve D302, and a water tank 400 with an interlayer 401 arranged in a tank body, and a hose 402 is spirally wound on the outer wall of the water tank 400. A first condensate water inlet pipe with a motor valve A102 and a second condensate water inlet pipe with a motor valve B103 are connected between the main condensate water pipeline 100 and the water tank 400, the first condensate water inlet pipe is connected with a water inlet at the bottom of the hose 402, and a water outlet at the top of the hose 402 and the second condensate water inlet pipe are connected with the top of the water tank 400. An electric valve D202 is arranged on the tap water main pipeline 200 positioned at the front side of the ball valve B201, a tap water inlet pipe with an electric valve E203 is connected between the tap water main pipeline 200 positioned at the front side of the electric valve D202 and a water inlet of an interlayer 401 of the water tank 400, and a tap water outlet pipe is connected between the tap water main pipeline 200 positioned at the rear side of the electric valve D202 and a water outlet of the interlayer 401 of the water tank 400. The medical equipment water inlet pipeline 300 is connected with the bottom of the water tank 400, and the tap water main pipeline 200 is connected with the proportional control valve 301.

Wherein, a temperature sensor is arranged on the water inlet pipeline 300 of the medical equipment, and a liquid level measurer 403 is arranged on the water tank 400.

The water tank 400 is made of 304 stainless steel, an immersion ultraviolet sterilizer is arranged in the water tank, the width of the interlayer 401 is 40 mm-60 mm, the length of the hose 402 is 300 m-400 m, and the diameter of the hose is 15 mm-20 mm.

Embodiment two: as shown in fig. 1, on the basis of the first embodiment, a condensate bypass with a solenoid valve C104 is connected to a condensate main pipe 100 before and after the ball valve a 101. The upper part of the water tank 400 is provided with an overflow port, and the overflow port is connected with the condensate main pipeline 100 or the condensate bypass through a condensate overflow pipe.

The condensate overflow pipe is provided with a check valve A105, the tap water outlet pipe is provided with a check valve B204, and a medical equipment water inlet pipeline 300 between the water tank 400 and the proportional control valve 301 is provided with a check valve D303.

The main tap water pipeline 200 at the rear side of the ball valve B201 is sequentially provided with a check valve C205 and a ball valve C206, and the main tap water pipeline 200 between the ball valve B201 and the check valve C205 is connected with a tap water branch pipe.

The condensate water recycling control logic of the first embodiment and the second embodiment is as follows:

1. in summer, the water temperature of tap water is about 25 ℃, tap water and condensed water are utilized for neutralization, and water resources are saved. The ball valve A101 is normally closed, the ball valve B201, the ball valve C206 and the ball valve D302 are normally opened, the electric valve A102 and the electric valve E203 are opened, the electric valve B103, the electric valve C104 and the electric valve D202 are closed, condensed water at about 40 ℃ enters the water tank 400 through a hose 402 wound on the outer wall of the water tank 400 through a first condensed water inlet pipe, tap water enters the interlayer 401 from the upper part of the water tank 400 through a tap water inlet pipe, flows out from a tap water outlet pipe at the bottom of the water tank 400, is always in a flowing state, takes away the heat of the condensed water in the water tank 400, and controls the flow ratio of the tap water to the condensed water to be greater than or equal to 2 through the proportional control valve 301, so that the mixed water temperature is lower than 30 ℃ and is used as the water inlet of medical equipment.

Wherein, when the condensed water in the water tank 400 reaches a high level, the electric valve C104 is opened and the electric valve a102 is closed.

Wherein, when the condensed water in the water tank 400 overflows beyond the overflow port, the condensed water directly enters the condensed water main pipeline 100.

2. In winter, the water temperature of tap water is about 5 ℃, the ball valve A101 is normally closed, the ball valve B201, the ball valve C206 and the ball valve D302 are normally opened, the electric valve B103 and the electric valve D202 are opened, the electric valve A102, the electric valve E203 and the electric valve C104 are closed, condensed water at about 40 ℃ directly enters the water tank 400 through the condensed water inlet pipe II, tap water does not pass through the water tank 400, the flow ratio of tap water to the condensed water is controlled to be less than or equal to 1 through the proportional control valve 301, the heat energy of the condensed water is utilized, the problems that the water inlet temperature of medical equipment is low and the RO membrane water yield is reduced are solved, and meanwhile, water resources are saved.

When the condensed water in the water tank 400 reaches a high liquid level, the electric valve C104 is opened, the electric valve B103 is closed, and when the condensed water in the water tank 400 overflows beyond the overflow port, the condensed water directly enters the main condensed water pipeline 100.

Embodiment III: as shown in fig. 3, on the basis of the first embodiment or the second embodiment, the condensate recycling system further includes a heat exchanger 30, an R0 water producing pipeline 500 is connected between the water inlet of the sterilizer 10 and the water outlet of the medical RO water treatment apparatus 20, the condensate water inlet pipe is connected to the first inlet and the first outlet of the heat exchanger 30, and the R0 water producing pipeline 500 is connected to the second inlet and the second outlet of the heat exchanger 30.

Wherein, a balancer 501 and a check valve E502 are arranged on the R0 water producing pipeline 500 between the heat exchanger 30 and the sterilizer 10, and an immersed ultraviolet sterilizer is arranged in the balancer 501.

The condensate water recycling control logic of the third embodiment is as follows:

on the basis of the condensate water recycling control logics in the first embodiment and the second embodiment, the high-temperature condensate water in the condensate water inlet pipe I and the low-temperature R0 water in the R0 water production pipeline 500 exchange heat in the heat exchanger 10, and the warmed R0 water production is equivalent to the increase of the water inlet temperature of the heat exchanger 10, so that the energy consumption consumed by warming the sterilizer 10 can be saved.

In the third embodiment, the number of the condensed water recycling systems is one, and the condensed water recycling system is suitable for the condition that the number of the sterilizers 10 in the hospital is 5 or less.

Embodiment four: as shown in fig. 4, the condensate water recycling system is different from the third embodiment in that the condensate water recycling system is two in number, and is suitable for the case that the number of sterilizers 10 in hospitals is more than 5 and less than 10.

Fifth embodiment: as shown in fig. 5, the condensate water recycling system is different from the third embodiment and the fourth embodiment in that the number of condensate water recycling systems is three, and the condensate water recycling system is suitable for the case that the number of sterilizers 10 in hospitals is more than 10 and less than 15.

The above embodiments are merely examples of the present invention, but the present invention is not limited thereto, and the present invention may be applied to similar products, and any person skilled in the art who is skilled in the field of the present invention shall make changes or modifications within the scope of the present invention.

Claims (10)

1. The utility model provides a medical condensate recycling device which characterized in that: the system comprises a sterilizer (10), medical RO water treatment equipment (20) and a condensate water recycling system, wherein the condensate water recycling system comprises a condensate water main pipeline (100) with a ball valve A (101) connected with a water outlet of the sterilizer (10), a tap water main pipeline (200) with a ball valve B (201), a medical equipment water inlet pipeline (300) with a proportional control valve (301) and a ball valve D (302) connected with a water inlet of the medical RO water treatment equipment (20), a water tank (400) with an interlayer (401) and a heat exchanger (30);

the outer wall of the water tank (400) is spirally wound with a hose (402), and a liquid level measurer (403) is arranged on the water tank (400);

a first condensate water inlet pipe with an electric valve A (102) and a second condensate water inlet pipe with an electric valve B (103) are connected between the condensate water main pipeline (100) and the water tank (400), the first condensate water inlet pipe is connected with a water inlet at the bottom of a hose (402), and a water outlet at the top of the hose (402) and the second condensate water inlet pipe are connected with the top of the water tank (400);

an electric valve D (202) is arranged on a tap water main pipeline (200) positioned at the front side of the ball valve B (201), a tap water inlet pipe with an electric valve E (203) is connected between the tap water main pipeline (200) positioned at the front side of the electric valve D (202) and a water inlet of an interlayer (401) of the water tank (400), and a tap water outlet pipe is connected between the tap water main pipeline (200) positioned at the rear side of the electric valve D (202) and a water outlet of the interlayer (401) of the water tank (400);

a temperature sensor is arranged on the water inlet pipeline (300) of the medical equipment and is connected with the bottom of the water tank (400), and the tap water main pipeline (200) is connected with the proportional control valve (301);

an R0 water producing pipeline (500) is connected between the water inlet of the sterilizer (10) and the water outlet of the medical RO water treatment equipment (20), the first condensed water inlet pipe is connected with the first inlet and the first outlet of the heat exchanger (30), and the R0 water producing pipeline (500) is connected with the second inlet and the second outlet of the heat exchanger (30).

2. The medical condensate water recycling apparatus according to claim 1, wherein: the condensate water bypass with the electric valve C (104) is connected with a condensate water main pipeline (100) in front of and behind the ball valve A (101).

3. The medical condensate water recycling apparatus according to claim 2, wherein: an overflow port is arranged at the upper part of the water tank (400), and the overflow port is connected with a condensate main pipeline (100) or a condensate bypass through a condensate overflow pipe.

4. A medical condensate water recycling apparatus according to claim 3, wherein: the condensate overflow pipe is provided with a check valve A (105).

5. The medical condensate water recycling apparatus according to claim 1, wherein: the tap water outlet pipe is provided with a check valve B (204), and a medical equipment water inlet pipeline (300) between the water tank (400) and the proportional control valve (301) is provided with a check valve D (303).

6. The medical condensate water recycling apparatus according to claim 1, wherein: the main tap water pipeline (200) at the rear side of the ball valve B (201) is sequentially provided with a check valve C (205) and a ball valve C (206), and the main tap water pipeline (200) between the ball valve B (201) and the check valve C (205) is connected with a tap water branch pipe.

7. The medical condensate water recycling apparatus according to claim 1, wherein: the water tank (400) is made of 304 stainless steel, an immersed ultraviolet sterilizer is arranged in the water tank, the width of the interlayer (401) is 40-60 mm, the length of the hose (402) is 300-400 m, and the diameter of the hose is 15-20 mm.

8. The medical condensate water recycling apparatus according to claim 1, wherein: a balancer (501) and a check valve E (502) are arranged on an R0 water production pipeline (500) between the heat exchanger (30) and the sterilizer (10).

9. The medical condensate recycling apparatus according to claim 8, wherein: the balancer (501) is internally provided with an immersed ultraviolet sterilizer.

10. A medical condensate water recycling apparatus according to any one of claims 1 to 9, wherein: the number of the condensed water recycling systems is one or more groups.