CN208300924U - Collecting system - Google Patents

Abstract

The main technical schemes of the utility model are as follows: a kind of collecting system, comprising: the first water vessel, including the first cabinet and first pipe；First cabinet is equipped with the first air inlet, the first gas outlet and the first liquid outlet；Second water vessel, including the second cabinet and second pipe；Second cabinet is equipped with the second air inlet, the second gas outlet and the second liquid outlet；Liquid collecting tank is connected to the first liquid outlet and the second liquid outlet, for collecting the first cabinet and second case intracorporal water；Vacuum pump；Vacuum pump is connected to the first gas outlet and the second gas outlet, provides power for gas flowing；When low temperature aqueous vapor mixture is passed through the first air inlet by dehydration equipment, first pipe circulates refrigerant, and the water in gas-vapor mix body is condensed into water in the first cabinet and stays in the first cabinet, and the gas in gas-vapor mix body flows to vacuum pump from the first gas outlet and detaches；Second pipe flows heating agent at this time, carries out holding frost to above-mentioned second cabinet, vacuum pump makes second case intracorporal water enter liquid collecting tank.

Description

Collecting system

Technical field

The utility model relates to be dehydrated the field of catchmenting more particularly to a kind of collecting system.

Background technique

In food-processing industry, there are many processing methods, and for the ease of the storage of food, some use preservative, have It is vacuum-packed, it is also some, select the mode of dehydration.Dehydrated food include dehydrated vegetables, fruit, sea (water) product, Meat products, egg dairy products etc..Drying method has nature to dry, air-dries, drying in the shade, manually dry stove, drying chamber and mechanical drying etc. its It is dried.

In the prior art, the moisture being usually detached from by artificial drying is directly discharged, so that working environment is very Humidity is easy so that the ironys equipment such as pipeline is got rusty, while being easy to breed bacterium, virus and fungi in air, it is more likely that Meeting contaminated food products, causes product quality unqualified, and also harmful to the health of staff more simultaneously.

Utility model content

In view of this, the utility model embodiment provides a kind of collecting system, main purpose is by the gaseous state of dehydration equipment Water is collected, and concentration is handled, and guarantees that streamlined works, and guarantees working efficiency.

In order to achieve the above objectives, the utility model mainly provides the following technical solutions:

The utility model embodiment provides a kind of collecting system, comprising:

First water vessel, including the first cabinet and first pipe；First cabinet is equipped with the first air inlet, the first outlet Mouth and the first liquid outlet；First air inlet is connected to dehydration equipment；The first pipe is arranged in first cabinet, First cabinet is stretched out at the both ends of the first pipe, and the first pipe is for circulate refrigerant or heating agent；It is described First air inlet and first gas outlet are set up separately in first tank ends；First liquid outlet is arranged described first Cabinet bottom end；

Second water vessel, including the second cabinet and second pipe；Second cabinet is equipped with the second air inlet, the second outlet Mouth and the second liquid outlet；Second air inlet is connected to the dehydration equipment；The second pipe is arranged in second case In vivo, second cabinet is stretched out at the both ends of the second pipe, and the second pipe is for the circulate refrigerant or institute State heating agent；Second air inlet and second gas outlet are set up separately in second tank ends；Second liquid outlet It is arranged in second cabinet bottom end；

Liquid collecting tank is connected to first liquid outlet and second liquid outlet, for collecting first cabinet and institute State second case intracorporal water；

Vacuum pump；The vacuum pump is connected to first gas outlet and second gas outlet, provides for gas flowing Power；

When low temperature aqueous vapor mixture is passed through first air inlet by dehydration equipment, the first pipe circulation system Cryogen, the water in the gas-vapor mix body are condensed into water in first cabinet and stay in first cabinet, the water Gas in gas mixture flows to the vacuum pump from first gas outlet and detaches；The second pipe flowing heating at this time Agent carries out above-mentioned second cabinet to hold frost, and the vacuum pump is connected to the liquid collecting tank so that second case intracorporal water from Second liquid outlet enters the liquid collecting tank.

Further, the liquid collecting tank is equipped with leakage fluid dram, first liquid outlet, second liquid outlet and the collection The setting height of the junction of flow container is higher than the leakage fluid dram setting height.

Further, setting height in the junction of the vacuum pump and the liquid collecting tank is higher than first liquid outlet, institute State the setting height of the junction of the second liquid outlet and the liquid collecting tank.

Further, further include three liquid level sensors, be divided into the first liquid level sensor, the second liquid level sensor and third Liquid level sensor is separately positioned on first cabinet, first cabinet and the liquid collecting tank；When the first cabinet liquid level When height reaches the preset value of first liquid level sensor, first liquid level sensor closes first air inlet, institute The first gas outlet is stated, first liquid outlet is opened, water is discharged into the liquid collecting tank；When the first cabinet liquid level reaches When the default high level of first liquid level sensor, first liquid level sensor closes first air inlet, described first Gas outlet opens first liquid outlet, water is discharged into the liquid collecting tank；When the second cabinet liquid level reaches described When the default high level of two liquid level sensors, second liquid level sensor closes second air inlet, second gas outlet, Second liquid outlet is opened, water is discharged into the liquid collecting tank；When the second cabinet liquid level reaches second liquid level When the default high level of sensor, second liquid level sensor closes second air inlet, second gas outlet, opens institute The second liquid outlet is stated, water is discharged into the liquid collecting tank；The liquid collecting tank liquid level reaches the pre- of the third liquid level sensor If when high level, first liquid outlet and second liquid outlet are closed, and the leakage fluid dram is opened.

Further, the first pipe and the second pipe spiral setting in first cabinet and described the respectively In two cabinets, so that the surface area of the first pipe and the second pipe increases.

It further, further include multiple solenoid valves, multiple solenoid valves are separately positioned on first air inlet, described First gas outlet, first liquid outlet, second air inlet, second gas outlet, second liquid outlet, the row Between liquid mouth, the vacuum pump and the liquid collecting tank.

It further, further include ice chest and hot tank, the ice chest is connected to the both ends of the first pipe and described The both ends of second pipe；The hot tank is connected to the both ends of the first pipe and the both ends of the second pipe.Work as institute When stating ice chest and being connected to the first pipe, the hot tank is connected to the second pipe；When the ice chest and second pipe When road is connected to, the hot tank is connected to the first pipe；The ice chest is used to cool down to the refrigerant, and the hot tank is used for It heats up to the heating agent.

It further, further include PLC, the PLC is connected to first liquid level sensor, second level sensing Device, the third liquid level sensor, multiple solenoid valves, ice chest and hot tank.

A kind of collecting system that the utility model embodiment proposes, comprising: the first water vessel, the second water vessel, vacuum pump And liquid collecting tank；First water vessel includes the first cabinet and first pipe；First cabinet be equipped with the first air inlet, the first gas outlet and First liquid outlet；First air inlet is connected to dehydration equipment；First pipe is arranged in the first cabinet, and the both ends of first pipe are equal The first cabinet is stretched out, first pipe is for circulate refrigerant or heating agent；First air inlet and the first gas outlet are set up separately first Tank ends；First liquid outlet is arranged in the first cabinet bottom end；Second water vessel includes the second cabinet and second pipe；Second case Body is equipped with the second air inlet, the second gas outlet and the second liquid outlet；Second air inlet is connected to dehydration equipment；Second pipe setting In the second cabinet, the second cabinet is stretched out at the both ends of second pipe, and second pipe is for circulate refrigerant or heating agent；Second Air inlet and the second gas outlet are set up separately in the second tank ends；Second liquid outlet is arranged in the second cabinet bottom end；Liquid collecting tank connection In the first liquid outlet and the second liquid outlet, for collecting the first cabinet and second case intracorporal water；Vacuum pump is connected to first and goes out Port and the second gas outlet provide power for gas flowing；When low temperature aqueous vapor mixture is passed through the first air inlet by dehydration equipment When, first pipe circulates refrigerant, and the water in gas-vapor mix body is condensed into water in the first cabinet and stays in the first cabinet, water Gas in gas mixture flows to vacuum pump from the first gas outlet and detaches；Second pipe flows heating agent at this time, to above-mentioned second Cabinet carries out holding frost, and vacuum pump is connected to liquid collecting tank, so that second case intracorporal water enters liquid collecting tank from the second liquid outlet.Existing Have in technology, the moisture being usually detached from by artificial drying is directly discharged so that working environment is very moist, be easy so that The ironys equipment such as pipeline is got rusty, while being easy to breed bacterium, virus and fungi in air, it is more likely that meeting contaminated food products is led Cause product quality unqualified, and it is also harmful to the health of staff more simultaneously.And the utility model then utilizes refrigerant To gas-vapor mix body fast cooling, even condenses so that vaporous water liquefies rapidly, effectively stay in water in water vessel, guarantee work The drying in place, while alternating cycle work is carried out using the first water vessel and the second water vessel, the defrosting time is saved, without etc. To so that dehydration equipment reaches streamlined operation, and the effect of vacuum pump be performed to maximum, use principle of negative pressure always, add The flowing of fast gas and liquid, effectively improves working efficiency.

Detailed description of the invention

Fig. 1 is a kind of overlooking structure figure of captation provided by the embodiment of the utility model；

Fig. 2 is a kind of facing structure figure of captation provided by the embodiment of the utility model.

Specific embodiment

Further to illustrate that the utility model is the technical means and efficacy for reaching predetermined purpose of utility model and being taken, Below in conjunction with attached drawing and preferred embodiment, to according to the utility model proposes ----specific embodiment, structure, feature and its Effect, detailed description is as follows.

As shown in Figure 1 and Figure 2, a kind of collecting system, comprising:

First water vessel 1, including the first cabinet 11 and first pipe 12；Above-mentioned first cabinet 11 is equipped with the first air inlet 111, the first gas outlet 112 and the first liquid outlet 113；Above-mentioned first air inlet 111 is connected to dehydration equipment 9；Above-mentioned first pipe Road 12 is arranged in above-mentioned first cabinet 11, and above-mentioned first cabinet 11 is stretched out at the both ends of above-mentioned first pipe 12, and above-mentioned first Pipeline 12 is for circulate refrigerant or heating agent；Above-mentioned first air inlet 111 and above-mentioned first gas outlet 112 are set up separately above-mentioned One cabinet, 11 both ends；Above-mentioned first liquid outlet 113 is arranged in above-mentioned first cabinet, 11 bottom end；Above-mentioned first pipe 12 is in circulation When stating refrigerant condensed water, in order to guarantee dehydrating effect, above-mentioned refrigerant is lower using temperature, so that the gas in gas-vapor mix body Body water can not only condense into liquid, can also be frozen into ice, therefore need after catchmenting to the water in above-mentioned first cabinet 11 Defrosting is carried out, to make water become liquid, convenient for flowing and collecting.

Second water vessel 2, including the second cabinet 21 and second pipe 22；Above-mentioned second cabinet 21 is equipped with the second air inlet 211, the second gas outlet 212 and the second liquid outlet 213；Above-mentioned second air inlet 211 is connected to above-mentioned dehydration equipment 9；Above-mentioned Two pipelines 22 are arranged in above-mentioned second cabinet 21, and above-mentioned second cabinet 21 is stretched out at the both ends of above-mentioned second pipe 22, above-mentioned Second pipe 22 is for circulate above-mentioned refrigerant or above-mentioned heating agent；Above-mentioned second air inlet 211 and above-mentioned second gas outlet 212 Set up separately at above-mentioned second cabinet, 21 both ends；Above-mentioned second liquid outlet 213 is arranged in above-mentioned second cabinet, 21 bottom end；Above-mentioned first catches Hydrophone 1 and above-mentioned second water vessel 2 work alternatively, so that always there is one to condense in refrigeration, one flows in defrosting, so that above-mentioned Dehydration equipment 9 can continue working, and guarantee working efficiency, while can guarantee the degree of drying of working environment, prevent bacterium etc. The growth of harmful organism.

Liquid collecting tank 3 is connected to above-mentioned first liquid outlet 113 and above-mentioned second liquid outlet 213, for collecting above-mentioned first case Water in body 11 and above-mentioned second cabinet 21；Above-mentioned liquid collecting tank 3 can empty above-mentioned first cabinet 11 or above-mentioned second case in time The water collected in body 21, enables above-mentioned first cabinet 11 or above-mentioned second cabinet 21 quickly to put into new work, real Now it is dehydrated the streamlined operation catchmented.

Vacuum pump 4；Above-mentioned vacuum pump 4 is connected to above-mentioned first gas outlet 112 and above-mentioned second gas outlet 212, is gas Flowing provides power；Above-mentioned vacuum pump 4 always is in a state of negative pressure above-mentioned first cabinet 11 and above-mentioned second cabinet 21, from And the flowing of gas and liquid is assisted, to improve working efficiency.

When low temperature aqueous vapor mixture is passed through above-mentioned first air inlet 111 by dehydration equipment 9, above-mentioned first pipe 12 circulates Above-mentioned refrigerant, the water in above-mentioned gas-vapor mix body are condensed into water in above-mentioned first cabinet 11 and stay in above-mentioned first cabinet 11 In, the gas in above-mentioned gas-vapor mix body flows to above-mentioned vacuum pump 4 from above-mentioned first gas outlet 112 and detaches；At this time above-mentioned second Pipeline 22 flows heating agent, carries out holding frost to above-mentioned second cabinet 21, and above-mentioned vacuum pump 4 is connected to above-mentioned liquid collecting tank 3, so that on The water stated in the second cabinet 21 enters above-mentioned liquid collecting tank 3 from above-mentioned second liquid outlet 213.

The collection water system in the present embodiment is illustrated below by way of the working process and principle of collecting system in the present embodiment System:

When low temperature aqueous vapor mixture is passed through above-mentioned first air inlet 111 by above-mentioned dehydration equipment 9, above-mentioned first pipe 12 Circulate above-mentioned refrigerant, and the water in above-mentioned gas-vapor mix body is condensed into water in above-mentioned first cabinet 11 and stays in above-mentioned first case In body 11, the gas in above-mentioned gas-vapor mix body flows to above-mentioned vacuum pump 4 from above-mentioned first gas outlet 112 and detaches；It is above-mentioned at this time Second pipe 22 flows heating agent, carries out holding frost to above-mentioned second cabinet 21, above-mentioned vacuum pump 4 is connected to above-mentioned liquid collecting tank 3, makes The water obtained in above-mentioned second cabinet 21 enters above-mentioned liquid collecting tank 3 from above-mentioned second liquid outlet 213；When above-mentioned first cabinet 11 condenses After water reaches a certain amount of, low temperature aqueous vapor mixture is passed through above-mentioned second air inlet 211, above-mentioned second pipe by above-mentioned dehydration equipment 9 Circulate above-mentioned refrigerant in road 22, and the water in above-mentioned gas-vapor mix body is condensed into water in above-mentioned second cabinet 21 and stays in above-mentioned In two cabinets 21, the gas in above-mentioned gas-vapor mix body flows to above-mentioned vacuum pump 4 from above-mentioned second gas outlet 212 and detaches；At this time Above-mentioned first pipe 12 flows heating agent, carries out holding frost to above-mentioned first cabinet 11, above-mentioned vacuum pump 4 connects with above-mentioned liquid collecting tank 3 It is logical, so that the water in above-mentioned first cabinet 11 enters above-mentioned liquid collecting tank 3 from above-mentioned first liquid outlet 113；

A kind of collecting system that the utility model embodiment proposes, comprising: the first water vessel 1, the second water vessel 2, vacuum Pump 4 and liquid collecting tank 3；First water vessel 1 includes the first cabinet 11 and first pipe 12；First cabinet 11 is equipped with the first air inlet 111, the first gas outlet 112 and the first liquid outlet 113；First air inlet 111 is connected to dehydration equipment 9；First pipe 12 is arranged In the first cabinet 11, the first cabinet 11 is stretched out at the both ends of first pipe 12, and first pipe 12 refrigerant or adds for circulating Thermit powder；First air inlet 111 and the first gas outlet 112 are set up separately at 11 both ends of the first cabinet；First liquid outlet 113 is arranged first 11 bottom end of cabinet；Second water vessel 2 includes the second cabinet 21 and second pipe 22；Second cabinet 21 be equipped with the second air inlet 211, Second gas outlet 212 and the second liquid outlet 213；Second air inlet 211 is connected to dehydration equipment 9；The setting of second pipe 22 is the In two cabinets 21, the second cabinet 21 is stretched out at the both ends of second pipe 22, and second pipe 22 is for circulate refrigerant or heating agent； Second air inlet 211 and the second gas outlet 212 are set up separately at 21 both ends of the second cabinet；Second liquid outlet 213 is arranged in the second cabinet 21 bottom ends；Liquid collecting tank 3 is connected to the first liquid outlet 113 and the second liquid outlet 213, for collecting the first cabinet 11 and the second cabinet Water in 21；Vacuum pump 4 is connected to the first gas outlet 112 and the second gas outlet 212, provides power for gas flowing；Work as dehydration When low temperature aqueous vapor mixture is passed through the first air inlet 111 by equipment 9, first pipe 12 circulates refrigerant, in gas-vapor mix body Water is condensed into water in the first cabinet 11 and stays in the first cabinet 11, and the gas in gas-vapor mix body is from the first gas outlet 112 Vacuum pump 4 is flowed to detach；Second pipe 22 flows heating agent at this time, carries out holding frost, vacuum pump 4 and collection to above-mentioned second cabinet 21 Flow container 3 is connected to, so that the water in the second cabinet 21 enters liquid collecting tank 3 from the second liquid outlet 213.In the prior art, usually de- From moisture directly discharged so that working environment is very moist, be easy to be easy simultaneously so that the ironys equipment such as pipeline is got rusty Bacterium, virus and fungi are bred in air, it is more likely that meeting contaminated food products causes product quality unqualified, and also right simultaneously The health of staff more is harmful.And the utility model then utilizes refrigerant to gas-vapor mix body fast cooling, makes to bring about the desired sensation State water, which liquefies rapidly, even to be condensed, and is effectively stayed in water vessel water, is guaranteed the drying of work-yard, while catching water using first Device 1 and the second water vessel 2 carry out alternating cycle work, the defrosting time are saved, without waiting, so that dehydration equipment 9 reaches flowing water It is turned into industry, and the effect of vacuum pump 4 is performed into maximum, use principle of negative pressure always, accelerates the flowing of gas and liquid, effectively Improve working efficiency.

The utility model is described in further detail with reference to the accompanying drawings and examples.

Since above-mentioned 3 capacity of liquid collecting tank is limited, in order to enable to be dehydrated work streamlined operation of catchmenting, specifically, above-mentioned Liquid collecting tank 3 is equipped with leakage fluid dram 31, the connection of above-mentioned first liquid outlet 113, above-mentioned second liquid outlet 213 and above-mentioned liquid collecting tank 3 The setting height at place is higher than the above-mentioned setting of leakage fluid dram 31 height.It is above-mentioned in order to make above-mentioned liquid collecting tank 3 that there is certain savings ability The setting height of the junction of first liquid outlet 113, above-mentioned second liquid outlet 213 and above-mentioned liquid collecting tank 3 is higher than above-mentioned leakage fluid dram 31 setting height, and this difference in height is the liquid storage capacity of above-mentioned fluid reservoir.

As shown in Fig. 2, to prevent above-mentioned vacuum pump 4 from drawing the water in above-mentioned liquid collecting tank 3, specifically, above-mentioned vacuum pump 4 with The junction setting height of above-mentioned liquid collecting tank 3 is higher than above-mentioned first liquid outlet 113, above-mentioned second liquid outlet 213 and above-mentioned liquid collecting The setting height of the junction of tank 3.It can effectively prevent the water in above-mentioned liquid collecting tank 3 from flowing out from above-mentioned vacuum pump 4 in this way, together When can reduce the maintenance cost of above-mentioned vacuum pump 4.

In order to enable the monitoring of above-mentioned first water vessel 1 and above-mentioned second water vessel 2 is more accurate, while in order to reduce people Power labour, specifically, further including three liquid level sensors, is divided into the first liquid level sensor, the second liquid level sensor and third liquid Level sensor is separately positioned on above-mentioned first cabinet 11, above-mentioned first cabinet 11 and above-mentioned liquid collecting tank 3；When above-mentioned first cabinet When 11 liquid levels reach the preset value of above-mentioned first liquid level sensor, above-mentioned first liquid level sensor closes above-mentioned first air inlet Mouth 111, above-mentioned first gas outlet 112, open above-mentioned first liquid outlet 113, water are discharged into above-mentioned liquid collecting tank 3；When above-mentioned first When 11 liquid level of cabinet reaches the default high level of above-mentioned first liquid level sensor, above-mentioned first liquid level sensor closes above-mentioned the One air inlet 111, above-mentioned first gas outlet 112 open above-mentioned first liquid outlet 113, water are discharged into above-mentioned liquid collecting tank 3；When upper When stating 21 liquid level of the second cabinet and reaching the default high level of above-mentioned second liquid level sensor, above-mentioned second liquid level sensor is closed Above-mentioned second air inlet 211, above-mentioned second gas outlet 212 open above-mentioned second liquid outlet 213, water are discharged into above-mentioned liquid collecting tank 3；When above-mentioned second cabinet, 21 liquid level reaches the default high level of above-mentioned second liquid level sensor, above-mentioned second level sensing Device closes above-mentioned second air inlet 211, above-mentioned second gas outlet 212, opens above-mentioned second liquid outlet 213, water is discharged into above-mentioned Liquid collecting tank 3；When above-mentioned 3 liquid level of liquid collecting tank reaches the default high level of above-mentioned third liquid level sensor, above-mentioned first liquid outlet 113 and above-mentioned second liquid outlet 213 close, above-mentioned leakage fluid dram 31 is opened.When above-mentioned first water vessel 1 and above-mentioned second water vessel After 2 can be with streamlined operation, above-mentioned first water vessel 1 and above-mentioned second water vessel 2 can switching time, with above-mentioned first cabinet 11 or second subject to the water agglomerated in cabinet 21, therefore usually requires direct surveillance to switch, and needs manually to work long hours, Large labor intensity is then not necessarily to direct surveillance after above-mentioned liquid level sensor, so that cost of labor is reduced, while switching time It is more accurate, it is not easy to mistakes and omissions occur, while being more suitable for streamlined work.

It as shown in Figure 1 and Figure 2, is the using effect for reinforcing above-mentioned refrigerant and above-mentioned heating agent, specifically, above-mentioned first Pipeline 12 and above-mentioned second pipe 22 spiral respectively to be arranged in above-mentioned first cabinet 11 and above-mentioned second cabinet 21, so that above-mentioned The surface area of first pipe 12 and above-mentioned second pipe 22 increases.Path of the above-mentioned first pipe 12 in above-mentioned first cabinet 11 Longer, surface area is bigger, and more with the contact of gas-vapor mix body, capacity of heat transmission is stronger, and spirals set-up mode then It is varied, it can be selected according to particular condition in use.Above-mentioned second pipe 22 is similarly.

For the ease of control, specifically, further including multiple solenoid valves, multiple above-mentioned solenoid valves are separately positioned on above-mentioned first Air inlet 111, above-mentioned first gas outlet 112, above-mentioned first liquid outlet 113, above-mentioned second air inlet 211, above-mentioned second outlet Between mouth 212, above-mentioned second liquid outlet 213, above-mentioned leakage fluid dram 31, above-mentioned vacuum pump 4 and above-mentioned liquid collecting tank 3.Due to needing to cut It changes and states the first water vessel 1 and above-mentioned second water vessel 2, common valve needs manually to switch, and the position of each valve Set and be not together so that need multiple people and meanwhile operation or one operate one by one, it is complex, and use above-mentioned solenoid valve Can easily switch directly by the change of electric current, without finding one by one, while can reduce each above-mentioned electromagnetic valve switch it Between the time difference, even eliminate its time difference so that work it is more accurate.

As shown in Figure 1, above-mentioned refrigerant and above-mentioned heating agent are recycled for convenience, save the cost, specifically, also Including ice chest 5 and hot tank 6, above-mentioned ice chest 5 be connected to above-mentioned first pipe 12 both ends and above-mentioned second pipe 22 two End；Above-mentioned hot tank 6 is connected to the both ends of above-mentioned first pipe 12 and the both ends of above-mentioned second pipe 22；Above-mentioned ice chest 5 is used Cool down in above-mentioned refrigerant, above-mentioned hot tank 6 is used to heat up to above-mentioned heating agent.When above-mentioned ice chest 5 and above-mentioned first pipe 12 When connection, above-mentioned hot tank 6 is connected to above-mentioned second pipe 22；When above-mentioned ice chest 5 is connected to above-mentioned second pipe 22, above-mentioned heat Case 6 is connected to above-mentioned first pipe 12.Enable above-mentioned refrigerant and above-mentioned heating agent to be recycled in this way, and then reduces life Produce cost.

In order to enable control more automation and intelligentification, specifically, further including PLC, above-mentioned PLC is connected to above-mentioned first liquid Level sensor, above-mentioned second liquid level sensor, above-mentioned third liquid level sensor, multiple above-mentioned solenoid valves, ice chest 5 and hot tank 6.Make It can be programmed with above-mentioned PLC, to carry out the control of automation and intelligentification to above-mentioned solenoid valve, above-mentioned liquid level liquid level sensor System, is effectively reduced intensity of workers.

A kind of collecting system that the utility model embodiment proposes, comprising: the first water vessel, the second water vessel, vacuum pump And liquid collecting tank；First water vessel includes the first cabinet and first pipe；First cabinet be equipped with the first air inlet, the first gas outlet and First liquid outlet；First air inlet is connected to dehydration equipment；First pipe is arranged in the first cabinet, and the both ends of first pipe are equal The first cabinet is stretched out, first pipe is for circulate refrigerant or heating agent；First air inlet and the first gas outlet are set up separately first Tank ends；First liquid outlet is arranged in the first cabinet bottom end；Second water vessel includes the second cabinet and second pipe；Second case Body is equipped with the second air inlet, the second gas outlet and the second liquid outlet；Second air inlet is connected to dehydration equipment；Second pipe setting In the second cabinet, the second cabinet is stretched out at the both ends of second pipe, and second pipe is for circulate refrigerant or heating agent；Second Air inlet and the second gas outlet are set up separately in the second tank ends；Second liquid outlet is arranged in the second cabinet bottom end；Liquid collecting tank connection In the first liquid outlet and the second liquid outlet, for collecting the first cabinet and second case intracorporal water；Vacuum pump is connected to first and goes out Port and the second gas outlet provide power for gas flowing；When low temperature aqueous vapor mixture is passed through the first air inlet by dehydration equipment When, first pipe circulates refrigerant, and the water in gas-vapor mix body is condensed into water in the first cabinet and stays in the first cabinet, water Gas in gas mixture flows to vacuum pump from the first gas outlet and detaches；Second pipe flows heating agent at this time, to above-mentioned second Cabinet carries out holding frost, and vacuum pump is connected to liquid collecting tank, so that second case intracorporal water enters liquid collecting tank from the second liquid outlet.Existing Have in technology, the moisture being usually detached from by artificial drying is directly discharged so that working environment is very moist, be easy so that The ironys equipment such as pipeline is got rusty, while being easy to breed bacterium, virus and fungi in air, it is more likely that meeting contaminated food products is led Cause product quality unqualified, and it is also harmful to the health of staff more simultaneously.And the utility model then utilizes refrigerant To gas-vapor mix body fast cooling, even condenses so that vaporous water liquefies rapidly, effectively stay in water in water vessel, guarantee work The drying in place, while alternating cycle work is carried out using the first water vessel and the second water vessel, the defrosting time is saved, without etc. To so that dehydration equipment reaches streamlined operation, and the effect of vacuum pump be performed to maximum, use principle of negative pressure always, add The flowing of fast gas and liquid, effectively improves working efficiency.

Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to In this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in variation Or replacement, it should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be with the power Subject to the protection scope that benefit requires.

Claims (8)

1. a kind of collecting system characterized by comprising

First water vessel, including the first cabinet and first pipe；First cabinet be equipped with the first air inlet, the first gas outlet and First liquid outlet；First air inlet is connected to dehydration equipment；The first pipe is arranged in first cabinet, described First cabinet is stretched out at the both ends of first pipe, and the first pipe is for circulate refrigerant or heating agent；Described first Air inlet and first gas outlet are set up separately in first tank ends；First liquid outlet is arranged in first cabinet Bottom end；

Second water vessel, including the second cabinet and second pipe；Second cabinet be equipped with the second air inlet, the second gas outlet and Second liquid outlet；Second air inlet is connected to the dehydration equipment；The second pipe is arranged in second cabinet, Second cabinet is stretched out at the both ends of the second pipe, and the second pipe is for the circulate refrigerant or the heating Agent；Second air inlet and second gas outlet are set up separately in second tank ends；The second liquid outlet setting exists Second cabinet bottom end；

Liquid collecting tank is connected to first liquid outlet and second liquid outlet, for collecting first cabinet and described Two casees intracorporal water；

Vacuum pump；The vacuum pump is connected to first gas outlet and second gas outlet, provides power for gas flowing；

When low temperature aqueous vapor mixture is passed through first air inlet by dehydration equipment, the first pipe circulation refrigeration Agent, the water in the gas-vapor mix body are condensed into water in first cabinet and stay in first cabinet, the aqueous vapor Gas in mixture flows to the vacuum pump from first gas outlet and detaches；The second pipe flows heating agent at this time, Above-mentioned second cabinet is carried out to hold frost, the vacuum pump is connected to the liquid collecting tank, so that second case intracorporal water is from institute The second liquid outlet is stated into the liquid collecting tank.

2. collecting system according to claim 1, which is characterized in that the liquid collecting tank be equipped with leakage fluid dram, described first The setting height of the junction of liquid outlet, second liquid outlet and the liquid collecting tank is higher than the leakage fluid dram setting height.

3. collecting system according to claim 2, which is characterized in that the junction of the vacuum pump and the liquid collecting tank is set Set the setting height that height is higher than the junction of first liquid outlet, second liquid outlet and the liquid collecting tank.

4. collecting system according to claim 3, which is characterized in that further include three liquid level sensors, be divided into the first liquid Level sensor, the second liquid level sensor and third liquid level sensor, be separately positioned on first cabinet, first cabinet and The liquid collecting tank；When the first cabinet liquid level reaches the preset value of first liquid level sensor, first liquid Level sensor closes first air inlet, first gas outlet, opens first liquid outlet, water is discharged into the liquid collecting Tank；When the first cabinet liquid level reaches the default high level of first liquid level sensor, first level sensing Device closes first air inlet, first gas outlet, opens first liquid outlet, water is discharged into the liquid collecting tank；When When the second cabinet liquid level reaches the default high level of second liquid level sensor, second liquid level sensor is closed Second air inlet, second gas outlet open second liquid outlet, water are discharged into the liquid collecting tank；When described When two cabinet liquid levels reach the default high level of second liquid level sensor, second liquid level sensor closes described the Two air inlets, second gas outlet open second liquid outlet, water are discharged into the liquid collecting tank；The liquid collecting jar liquid surface When height reaches the default high level of the third liquid level sensor, first liquid outlet and second liquid outlet are closed, institute State leakage fluid dram opening.

5. collecting system according to claim 4, which is characterized in that the first pipe and the second pipe disk respectively Rotation is arranged in first cabinet and second cabinet, so that the surface area of the first pipe and the second pipe increases Greatly.

6. collecting system according to claim 5, which is characterized in that it further include multiple solenoid valves, multiple solenoid valves It is separately positioned on first air inlet, first gas outlet, first liquid outlet, second air inlet, described Between two gas outlets, second liquid outlet, the leakage fluid dram, the vacuum pump and the liquid collecting tank.

7. collecting system according to claim 6, which is characterized in that further include ice chest and hot tank, the ice chest connects respectively It is connected to the both ends of the first pipe and the both ends of the second pipe；The hot tank is connected to the two of the first pipe The both ends at end and the second pipe, when the ice chest is connected to the first pipe, the hot tank and the second pipe Connection；When the ice chest is connected to the second pipe, the hot tank is connected to the first pipe；The ice chest is for giving The refrigerant cooling, the hot tank are used to heat up to the heating agent.

8. collecting system according to claim 7, which is characterized in that further include PLC, the PLC is connected to described first Liquid level sensor, second liquid level sensor, the third liquid level sensor, multiple solenoid valves, ice chest and hot tank.