CN209041118U - A kind of novel saving and the vacuum pump for automatically controlling water ring temperature - Google Patents

Abstract

The utility model discloses a kind of novel saving and automatically control the vacuum pump of water ring temperature, including the pump housing, gas-liquid separator, suspension cooling circulation mechanism, the bottom end two sides of the pump housing are respectively and fixedly provided with end cap, the pump body is equipped with air inlet, gas vent, water ring, impeller, the left side of air inlet is arranged in the gas vent, the top right side of the pump housing is communicated with the first air inlet, the top left side of the pump housing is communicated with exhaust outlet, the one end of the exhaust outlet far from the pump housing is connected with the second air inlet of gas-liquid separator, the right upper portion of gas-liquid separator is arranged in second air inlet, middle part in the gas-liquid separator is fixed with eddy flow reversing tube.The utility model is structurally reasonable, can recycle the water to volatilize in water ring and repeatedly utilize, economize on resources, while can be monitored to water temperature in water ring by temperature detect switch (TDS), to achieve the purpose that automatically control water ring temperature.

Description

A kind of novel saving and the vacuum pump for automatically controlling water ring temperature

Technical field

The utility model relates to vacuum pump technology field more particularly to a kind of novel saving and automatically control water ring temperature Vacuum pump.

Background technique

Vacuum pump be vacuumize for the scientific research departments such as each biology, agricultural, physics, the necessary equipment of scientific research.Application range Extensively, but water-ring vacuum pump used at present, be mostly that vacuum pump is directly connected with motor, set as vacuumizing It is standby, there is water ring temperature in this case and be easy excessively high, the efficiency of vacuum pump substantially reduces, while the water in water ring can also be waved Hair leads to the work for wasting and needing manually to carry out adding water, and the effect to work long hours is bad, needs to the liquid-ring type first having Vacuum pump is further to be improved.

It would therefore be highly desirable to design a kind of novel saving and automatically control the vacuum pump of water ring temperature, to solve the above problems.

Utility model content

The purpose of this utility model is to provide a kind of novel saving and the vacuum pump of water ring temperature is automatically controlled, has knot Structure is reasonable, can recycle the water to volatilize in water ring and repeatedly utilize, economize on resources, while can be right by temperature detect switch (TDS) Water temperature is monitored in water ring, reaches the advantages of automatically controlling water ring temperature, solves existing apparatus low efficiency, the water in water ring Also it can volatilize, the problem for causing the effect for wasting and working long hours bad.

According to a kind of novel saving of the utility model embodiment and automatically control the vacuum pump of water ring temperature, including pump Body, gas-liquid separator, suspension cooling circulation mechanism, the bottom end two sides of the pump housing are respectively and fixedly provided with end cap, the pump body be equipped with into The left side of air inlet is arranged in stomata, gas vent, water ring, impeller, the gas vent, and the top right side of the pump housing is communicated with One air inlet, the top left side of the pump housing are communicated with exhaust outlet, the exhaust outlet one end and gas-liquid separator far from the pump housing The second air inlet be connected, second air inlet is arranged in the right upper portion of gas-liquid separator, in the gas-liquid separator Middle part be fixed with eddy flow reversing tube, the two sidewalls of the eddy flow reversing tube be respectively and fixedly provided with the outside of reversing plate and reversing plate with The inner wall of gas-liquid separator offsets, and the lower section of the eddy flow reversing tube is equipped with the liquid separatnig plate for being fixed on bottom in gas-liquid separator, The left and right sides in the middle part of the gas-liquid separator inner wall is respectively and fixedly provided with catheter, and the left upper portion of the gas-liquid separator is communicated with Gas outlet；The both ends of the suspension cooling circulation mechanism are respectively connected with temperature detect switch (TDS), pass through threeway on the right side of the temperature detect switch (TDS) of left side It is connect with gas-liquid separator, the pump housing, the right side of the right side temperature detect switch (TDS) is connected to the pump housing.

Further, the suspension cooling circulation mechanism includes cooler bin, and the inside of the cooler bin is equipped with cooling bath, described cold But the both ends of case pass through pipeline and connect temperature detect switch (TDS).

Further, the bottom end two sides of the cooler bin are respectively and fixedly provided with pedestal, the cooler bin bottom wall between two pedestals On be fixed with it is multiple in array setting cooling fins.

Further, the exhaust outlet is to be fixedly connected with the second air inlet.

Further, the sensor of the temperature detect switch (TDS) is fixed in the pump housing and contacts with water ring.

The utility model has the beneficial effect that compared with prior art

1, the present apparatus is structurally reasonable, easy to use, by the effect of gas-liquid separator, can by the water to volatilize in water ring into Row is recycled and is repeatedly utilized, to achieve the purpose that saving；

2, it can be realized and water temperature in water ring be monitored, cold water is controlled by temperature detect switch (TDS) and enters water ring, while by water The higher water discharge of temperature in ring, recycles after carrying out cooling, to achieve the purpose that automatically control water ring temperature.

Detailed description of the invention

Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:

Fig. 1 be the utility model proposes a kind of novel saving and the vacuum pump that automatically controls water ring temperature structural representation Figure；

Fig. 2 be the utility model proposes a kind of novel saving and the cooling water of the vacuum pump that automatically controls water ring temperature follow Ring mechanism structural schematic diagram.

In figure: 1 exhaust outlet, 2 first air inlets, 3 gas vents, 4 air inlets, 5 water rings, 6 impellers, 7 pump housings, 8 end caps, 9 temperature Control switch, 10 cooling water circulations, 11 second air inlets, 12 liquid separatnig plates, 13 catheters, 14 eddy flow reversing tubes, 15 gas outlets, 16 reversing plates, 17 cooler bins, 18 cooling baths, 19 pedestals, 20 cooling fins, 21 gas-liquid separators.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Referring to Fig.1-2, a kind of novel saving and the vacuum pump of water ring temperature is automatically controlled, including the pump housing 7, gas-liquid separator 21, suspension cooling circulation mechanism 10, the bottom end two sides of the pump housing 7 are respectively and fixedly provided with end cap 8, be equipped with inside the pump housing 7 air inlet 4, gas vent 3, The left side of air inlet 4 is arranged in water ring 5, impeller 6, gas vent 3, and the top right side of the pump housing 7 is communicated with the first air inlet 2, the pump housing 7 Top left side be communicated with exhaust outlet 1,11 phase of the second air inlet of the one end of exhaust outlet 1 far from the pump housing 7 and gas-liquid separator 21 The right upper portion of gas-liquid separator 21 is arranged in connection, the second air inlet 11, and the middle part in gas-liquid separator 21 is fixed with eddy flow Reversing tube 14, the two sidewalls of eddy flow reversing tube 14 be respectively and fixedly provided with the outside of reversing plate 16 and reversing plate 16 with gas-liquid separator 21 Inner wall offset, stop the liquid in steam, the lower section of eddy flow reversing tube 14 is equipped with and is fixed on bottom in gas-liquid separator 21 Liquid separatnig plate 12, middle part is protruding upward, is higher than four sides, and liquid can be allowed to two effluents, the left and right in the middle part of 21 inner wall of gas-liquid separator Two sides are respectively and fixedly provided with catheter 13, and the left upper portion of gas-liquid separator 21 is communicated with gas outlet 15；The two of suspension cooling circulation mechanism 10 End is respectively connected with temperature detect switch (TDS) 9, and 9 attached with switch valve of temperature detect switch (TDS) can be switched by the temperature value of setting, and model is selected The right side of J911X-ZT, left side temperature detect switch (TDS) 9 are connect by threeway with gas-liquid separator 21, the pump housing 7, right side temperature detect switch (TDS) 9 Right side is connected to the pump housing 7, and the height of left side temperature detect switch (TDS) 9 is higher than right side.

Suspension cooling circulation mechanism 10 includes cooler bin 17, and the inside of cooler bin 17 is equipped with cooling bath 18, and there is cooling water inside, The both ends of cooler bin 17 connect temperature detect switch (TDS) 9 by pipeline；The bottom end two sides of cooler bin 17 are respectively and fixedly provided with pedestal 19, two bottoms It is fixed with multiple cooling fins 20 in array setting on 17 bottom wall of cooler bin between seat 19, drop is realized by the effect of cooling fin 20 Temperature；Exhaust outlet 1 is to be fixedly connected with the second air inlet 11；The sensor of temperature detect switch (TDS) 9 is fixed in the pump housing 7 and connects with water ring 5 Touching, for monitoring the temperature of water ring 5.

This practical working principle: when the pump housing 7 is powered on, the water volatilization in water ring 5 is led to the gases by gas vent 3 Cross exhaust outlet 1 enter gas-liquid separator 21 inside, vapor in gas-liquid separator 21 by gas liquefaction Cheng Shui, via drain Pipe 13 and liquid separatnig plate 12 recycle, and return to finally by the threeway that 21 bottom of gas-liquid separator connects into water ring 5, to reach section Water is about used, without manually adding the purpose of water；Simultaneously because the rotation of impeller 6 can generate heat, the temperature of water ring 5 is caused to increase, led to Temperature detect switch (TDS) 9 is crossed, the temperature of water ring can be monitored, when temperature reaches setting value, left side temperature detect switch (TDS) 9 is opened, will be original cold But the cold water in case 17 is added in water ring 5, and right side temperature detect switch (TDS) 9 is opened, and the higher water of temperature in water ring 5 is discharged, entrance is cold But in water circulation mechanism 10, the two carries out simultaneously, the effect that the cooling fin 20 and cooling bath 18 in 17 bottom end of cooler bin are open Under, can quickly reduce water temperature, to guarantee that the temperature of water ring 5 works in the state of lower, be finally reached saving and from The purpose of dynamic control 5 temperature of water ring.

Place is not described in detail for the utility model, is the well-known technique of those skilled in the art.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of novel saving and the vacuum pump for automatically controlling water ring temperature, including the pump housing (7), gas-liquid separator (21), cooling Circulation mechanism (10), it is characterised in that: the bottom end two sides of the pump housing (7) are respectively and fixedly provided with end cap (8), and the pump housing (7) is internal Equipped with air inlet (4), gas vent (3), water ring (5), impeller (6), the gas vent (3) is arranged in the left side of air inlet (4), institute The top right side for stating the pump housing (7) is communicated with the first air inlet (2), and the top left side of the pump housing (7) is communicated with exhaust outlet (1), The exhaust outlet (1) is connected far from the one end of the pump housing (7) with the second air inlet (11) of gas-liquid separator (21), and described second The right upper portion in gas-liquid separator (21) is arranged in air inlet (11), and the middle part in the gas-liquid separator (21) is fixed with eddy flow Reversing tube (14), the two sidewalls of the eddy flow reversing tube (14) be respectively and fixedly provided with the outside of reversing plate (16) and reversing plate (16) with The inner wall of gas-liquid separator (21) offsets, and the lower section of the eddy flow reversing tube (14), which is equipped with, is fixed on gas-liquid separator (21) interior bottom The liquid separatnig plate (12) in portion, the left and right sides in the middle part of gas-liquid separator (21) inner wall are respectively and fixedly provided with catheter (13), the gas The left upper portion of liquid/gas separator (21) is communicated with gas outlet (15)；The both ends of the suspension cooling circulation mechanism (10) are respectively connected with temperature control It switchs (9), the right side of the left side temperature detect switch (TDS) (9) is connect by threeway with gas-liquid separator (21), the pump housing (7), right side institute State the right side connection pump housing (7) of temperature detect switch (TDS) (9).

2. a kind of novel saving according to claim 1 and the vacuum pump for automatically controlling water ring temperature, it is characterised in that: institute Stating suspension cooling circulation mechanism (10) includes cooler bin (17), and the inside of the cooler bin (17) is equipped with cooling bath (18), the cooling The both ends of case (17) connect temperature detect switch (TDS) (9) by pipeline.

3. a kind of novel saving according to claim 2 and the vacuum pump for automatically controlling water ring temperature, it is characterised in that: institute The bottom end two sides for stating cooler bin (17) are respectively and fixedly provided with pedestal (19), solid on cooler bin (17) bottom wall between two pedestals (19) Surely there are multiple cooling fins (20) in array setting.

4. a kind of novel saving according to claim 1 and the vacuum pump for automatically controlling water ring temperature, it is characterised in that: institute It is to be fixedly connected that exhaust outlet (1), which is stated, with the second air inlet (11).

5. a kind of novel saving according to claim 1 and the vacuum pump for automatically controlling water ring temperature, it is characterised in that: institute The sensor for stating temperature detect switch (TDS) (9) is fixed in the pump housing (7) and contacts with water ring (5).