CN212130799U - Compressed air system for battery workshop - Google Patents

Abstract

In order to solve air compressor calorific capacity in the operation process very big, this part heat is taken away and releases the heat to the atmosphere through airing exhaust or cooling system usually, can cause the problem of thermal waste like this usually, the utility model provides a battery workshop compressed air system, it includes: the cooling tower system 1, the cooling water pump group 2, the cooling water protection plate heat exchange system 3, the heat recovery water pump group 4, the air compressor heat recovery system 5, the air compressor unit 10, the first air storage tank group 12, the drying unit 14 and the second air storage tank group 16 are provided with the air compressor heat recovery system 5, the recovered heat is conveyed to the domestic hot water supply, the air conditioner hot water supply and the like, the heat generated by the operation of the air compressor is effectively utilized, the energy consumption required by the production of the domestic hot water and the air conditioner hot water is saved, and the energy-saving effect is particularly remarkable for a compressed air system with large air consumption.

Description

Compressed air system for battery workshop

Technical Field

The utility model relates to a new forms of energy processing technology field, it is comparatively concrete, involve a battery workshop compressed air system.

Background

The economic construction of China has rapidly developed in recent years, and the development of economy is not independent of the exploitation and utilization of energy. However, with the continuous decrease of the traditional energy, the new energy has gradually become the mainstream of the energy strategy of each country, wherein the photovoltaic industry has an important position in the new energy.

The battery workshop needs a large amount of anhydrous oilless compressed air in the production process, and the compressed air mainly comprises an air compressor, and the calorific capacity of the air compressor in the operation process is very big, and this part of heat is usually taken away and is released the heat to the atmosphere through air exhaust or cooling system, can cause thermal waste like this usually.

SUMMERY OF THE UTILITY MODEL

In view of this, in order to solve air compressor calorific capacity in the operation process very big, this part heat is usually taken away and is released the heat to the atmosphere through airing exhaust or cooling system, can cause the problem of thermal waste like this, the utility model provides a battery workshop compressed air system sets up air compressor machine heat recovery system, carries the heat of retrieving for uses such as domestic hot water supply and air conditioner hot water supply, has effectively utilized the produced heat of air compressor machine operation to the required energy consumption of production domestic hot water and air conditioner hot water has been saved, and to the compressed air system that the tolerance is big, energy-conserving effect is showing especially.

A battery shop compressed air system comprising: cooling tower system 1, cooling water pump package 2, cooling water protection shield heat exchange system 3, heat recovery water pump package 4, air compressor machine heat recovery system 5, air compressor unit 10, first gas tank group 12, drying unit 14 and second gas tank group 16, its characterized in that: the water inlet of the cooling tower system 1 is connected with the left water outlet of the cooling water protection plate heat exchange system 3 through an air pressure cooling water return pipe 19, the water outlet of the cooling tower system 1 is connected with the water inlet of the cooling water pump unit 2 through an air pressure cooling water supply pipe 20, the water outlet of the cooling water pump unit 2 is connected with the left water inlet of the cooling water protection plate heat exchange system 3 through an air pressure cooling water supply pipe 20, so that the cooling tower system 1, the cooling water pump unit 2 and the cooling water protection plate heat exchange system 3 form a cooling water circulation system, the right water outlet of the cooling water protection plate heat exchange system 3 is connected with the water inlet of the heat recovery water pump unit 4 through an air pressure hot water recovery return pipe 21, the water outlet of the heat recovery water pump unit 4 is connected with the water inlet of the air compressor unit 10 through an air pressure hot water recovery water supply pipe 22, and the water outlet of the air compressor unit 10 is respectively connected with the water inlet of the The water inlet of the system 5 enables the cooling water protection plate heat exchange and exchange system 3, the air compressor heat recovery system 5, the heat recovery water pump unit 4 and the air compressor unit 10 to form a heat exchange and heat recovery circulation system, the air compressor unit 10 is connected with the first air storage tank unit 12 through an air pressure pipe 25, two ends of the drying unit 14 are respectively provided with a primary air filter 17 and a secondary air filter 18, the first air storage tank unit 12 is sequentially connected with the primary air filter 17, the drying unit 14, the secondary air filter 18 and the second air storage tank unit 16 through the air pressure pipe 25, and the air compressor unit 10, the first air storage tank unit 12, the primary air filter 17, the drying unit 14, the secondary air filter 18 and the second air storage tank unit 16 are sequentially connected, so that air is compressed and then conveyed to a battery workshop for use.

Further, the air compressor heat recovery system 5 includes: the water purification station tap water heating primary plate is changed 6, the water purification station tap water heating secondary plate is changed 7, a first electric valve 8 and a second electric valve 9 are arranged, the water outlet of the air compressor unit 10 is respectively connected with the first electric valve 8 and the second electric valve 9, the first electric valve 8 and the second electric valve 9 are respectively connected with the water purification station tap water heating primary plate 6 and the water purification station tap water heating secondary plate 7, the other ends of the water purification station tap water heating primary plate 6 and the water purification station tap water heating secondary plate 7 are connected with the tap water of the water purification station, so that the heat generated by the air compressor unit 10 is transferred to the tap water for heat recovery.

Further, the upper ends of the first air tank group 12 and the second air tank group 16 are respectively provided with a ball valve 13, the air compressor unit 10 and the drying unit 14 are directly connected through the ball valve 13 on the first air tank group 12, the drying unit 14 and the equipment needing compressed air in the battery workshop are directly connected through the ball valve 13 on the second air tank group 16, and therefore the situation that the compressed air is stopped being conveyed when the first air tank group 12 or the second air tank group 16 breaks down can be avoided.

Further, the dryer in the dryer group 14 is a forced air regeneration adsorption dryer.

Further, the lower ends of the primary air filter 17 and the secondary air filter 18 are both provided with automatic water drains 15, and the automatic water drains 15 are communicated with a nearby drainage ditch, so that water filtered by the primary air filter 17 and the secondary air filter 18 is directly and automatically drained.

Further, the air compressor in the air compressor unit 10 is a water-cooling oil-free screw type variable frequency air compressor.

Furthermore, a pressure sensor 23 and a dew point temperature sensor 24 are arranged on a pipeline connecting the air pressure pipe 25 and the battery workshop, and the compressed air in the air pressure pipe 25 is monitored in real time in pressure and temperature, so that the safety of the compressed air conveyed to the battery workshop is ensured.

Further, the air cooling water return pipe 19 is provided with a full-automatic online dosing device 26, the full-automatic online dosing device 26 is provided with a control cabinet, the air cooling water return pipe 19 is further provided with a conductivity tester 27, the conductivity tester 27 is electrically connected with the full-automatic online dosing device 26, when the conductivity tester 27 detects that the conductivity in the air cooling water return pipe 19 is higher than a set value, automatic dosing is carried out, and impurities in water in an air cooling water pipe system are removed.

Furthermore, a constant pressure water supplementing device 11 is arranged at the air compression hot water recovery water return pipe 21 between the cooling water protection plate heat exchange system 3 and the heat recovery water pump unit 4, so that the water pressure of the water in the air compression hot water recovery water return pipe 21 is ensured to be stable.

The utility model has the advantages that: the utility model provides a compressed air system in battery workshop sets up air compressor machine heat recovery system 5, and the heat of retrieving is carried and is used for life hot water supply and air conditioner hot water supply etc. effectively utilized the produced heat of air compressor machine operation to saved the required energy consumption of production life hot water and air conditioner hot water, to the compressed air system that the tolerance is big, energy-conserving effect is showing very much.

Drawings

Fig. 1 is the structure schematic diagram of the compressed air system in the battery workshop of the utility model.

Fig. 2 is the local structural schematic diagram of the compressed air system in the battery workshop of the utility model.

Fig. 3 is the local structural schematic diagram of the compressed air system in the battery workshop of the present invention.

Description of the main elements

The following detailed description of the invention will be further described in conjunction with the above-identified drawings.

Detailed Description

As shown in fig. 1, it is a schematic structural diagram of a compressed air system in a battery shop of the present invention; as shown in fig. 2, it is a schematic view of a partial structure of the compressed air system in a battery shop of the present invention; as shown in fig. 3, the present invention is a schematic view of a partial structure of a compressed air system in a battery shop.

A battery shop compressed air system comprising: cooling tower system 1, cooling water pump package 2, cooling water protection shield heat exchange system 3, heat recovery water pump package 4, air compressor machine heat recovery system 5, air compressor unit 10, first gas tank group 12, drying unit 14 and second gas tank group 16, its characterized in that: the water inlet of the cooling tower system 1 is connected with the left water outlet of the cooling water protection plate heat exchange system 3 through an air pressure cooling water return pipe 19, the water outlet of the cooling tower system 1 is connected with the water inlet of the cooling water pump unit 2 through an air pressure cooling water supply pipe 20, the water outlet of the cooling water pump unit 2 is connected with the left water inlet of the cooling water protection plate heat exchange system 3 through an air pressure cooling water supply pipe 20, so that the cooling tower system 1, the cooling water pump unit 2 and the cooling water protection plate heat exchange system 3 form a cooling water circulation system, the right water outlet of the cooling water protection plate heat exchange system 3 is connected with the water inlet of the heat recovery water pump unit 4 through an air pressure hot water recovery return pipe 21, the water outlet of the heat recovery water pump unit 4 is connected with the water inlet of the air compressor unit 10 through an air pressure hot water recovery water supply pipe 22, and the water outlet of the air compressor unit 10 is respectively connected with the water inlet of the The water inlet of the system 5 enables the cooling water protection plate heat exchange and exchange system 3, the air compressor heat recovery system 5, the heat recovery water pump unit 4 and the air compressor unit 10 to form a heat exchange and heat recovery circulation system, the air compressor unit 10 is connected with the first air storage tank unit 12 through an air pressure pipe 25, two ends of the drying unit 14 are respectively provided with a primary air filter 17 and a secondary air filter 18, the first air storage tank unit 12 is sequentially connected with the primary air filter 17, the drying unit 14, the secondary air filter 18 and the second air storage tank unit 16 through the air pressure pipe 25, and the air compressor unit 10, the first air storage tank unit 12, the primary air filter 17, the drying unit 14, the secondary air filter 18 and the second air storage tank unit 16 are sequentially connected, so that air is compressed and then conveyed to a battery workshop for use.

The air compressor heat recovery system 5 includes: the water purification station tap water heating primary plate is changed 6, the water purification station tap water heating secondary plate is changed 7, a first electric valve 8 and a second electric valve 9 are arranged, the water outlet of the air compressor unit 10 is respectively connected with the first electric valve 8 and the second electric valve 9, the first electric valve 8 and the second electric valve 9 are respectively connected with the water purification station tap water heating primary plate 6 and the water purification station tap water heating secondary plate 7, the other ends of the water purification station tap water heating primary plate 6 and the water purification station tap water heating secondary plate 7 are connected with the tap water of the water purification station, so that the heat generated by the air compressor unit 10 is transferred to the tap water for heat recovery.

The upper ends of the first air tank group 12 and the second air tank group 16 are respectively provided with a ball valve 13, the air compressor unit 10 and the drying unit 14 are directly connected through the ball valve 13 on the first air tank group 12, the drying unit 14 and the equipment needing compressed air in a battery workshop are directly connected through the ball valve 13 on the second air tank group 16, and therefore the situation that the compressed air stops being conveyed when the first air tank group 12 or the second air tank group 16 breaks down can be avoided.

The dryer in the dryer group 14 is a blowing regeneration adsorption dryer.

The lower ends of the primary air filter 17 and the secondary air filter 18 are both provided with automatic water drainers 15, and the automatic water drainers 15 are communicated with nearby drainage ditches, so that water filtered by the primary air filter 17 and the secondary air filter 18 is directly and automatically discharged.

The air compressor in the air compressor unit 10 is a water-cooling oil-free screw type variable frequency air compressor.

The pressure sensor 23 and the dew point temperature sensor 24 are arranged on a pipeline connecting the air pressure pipe 25 and the battery workshop, real-time pressure and temperature monitoring is carried out on compressed air in the air pressure pipe 25, and the safety and quality standard of the compressed air conveyed to the battery workshop are guaranteed.

19 departments of air pressure cooling water wet return are equipped with full-automatic online charge device 26, and full-automatic online charge device 26 is from taking the switch board, and air pressure cooling water wet return 19 still is equipped with conductivity tester 27, and conductivity tester 27 and full-automatic online charge device 26 electric connection carry out the automatic reagent feeding when conductivity tester 27 detects that the conductivity in the air pressure cooling water wet return 19 is higher than the setting value, clear away the impurity of air pressure cooling water pipe system internal water, guarantee the high-efficient operation of system.

And a constant-pressure water supplementing device 11 is arranged at the air compression hot water recovery water return pipe 21 between the cooling water protection plate heat exchange and exchange system 3 and the heat recovery water pump set 4, so that the water pressure of the water in the air compression hot water recovery water return pipe 21 is ensured to be stable.

The utility model has the advantages that: the utility model provides a compressed air system in battery workshop sets up air compressor machine heat recovery system 5, and the heat of retrieving is carried and is used for life hot water supply and air conditioner hot water supply etc. effectively utilized the produced heat of air compressor machine operation to saved the required energy consumption of production life hot water and air conditioner hot water, to the compressed air system that the tolerance is big, energy-conserving effect is showing very much.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. A battery shop compressed air system comprising: cooling tower system (1), cooling water pump package (2), cooling water protection shield heat exchange system (3), heat recovery water pump package (4), air compressor machine heat recovery system (5), air compressor unit (10), first gas tank group (12), drying unit (14) and second gas tank group (16), its characterized in that: a water inlet of the cooling tower system (1) is connected with a left water outlet of the cooling water protection plate heat exchange system (3) through an air pressure cooling water return pipe (19), a water outlet of the cooling tower system (1) is connected with a water inlet of the cooling water pump set (2) through an air pressure cooling water supply pipe (20), a water outlet of the cooling water pump set (2) is connected with a left water inlet of the cooling water protection plate heat exchange system (3) through the air pressure cooling water supply pipe (20), so that the cooling tower system (1), the cooling water pump set (2) and the cooling water protection plate heat exchange system (3) form a cooling water circulation system, a right water outlet of the cooling water protection plate heat exchange system (3) is connected with a water inlet of the heat recovery water pump set (4) through an air pressure hot water recovery water return pipe (21), a water outlet of the heat recovery water pump set (4) is connected with a water inlet of the air pressure unit (10) through the air pressure hot water recovery, the water outlet of the air compressor unit (10) is respectively connected with the water inlet of the cooling water protection plate heat exchange system (3) and the water inlet of the air compressor heat recovery system (5) through an air compression hot water recovery water supply pipe (22), so that the cooling water protection plate heat exchange system (3), the air compressor heat recovery system (5), the heat recovery water pump unit (4) and the air compressor unit (10) form a heat exchange heat recovery circulation system, the air compressor unit (10) is connected with a first air storage tank unit (12) through an air compression pipe (25), two ends of the drying unit (14) are respectively provided with a primary air filter (17) and a secondary air filter (18), the first air storage tank unit (12) is sequentially connected with the primary air filter (17), the drying unit (14), the secondary air filter (18) and a second air storage tank unit (16) through the air compression pipe (25), and the air compressor unit (10) is connected with the heat exchange, The first air storage tank group (12), the primary air filter (17), the drying unit (14), the secondary air filter (18) and the second air storage tank group (16) are sequentially connected, so that air is compressed and then conveyed to a battery workshop for use.

2. The battery shop compressed air system of claim 1, wherein: the air compressor heat recovery system (5) comprises: the water purification station tap water heating primary plate exchange device (6), the water purification station tap water heating secondary plate exchange device (7), a first electric valve (8) and a second electric valve (9), a water outlet of an air compressor unit (10) is respectively connected with the first electric valve (8) and the second electric valve (9), the first electric valve (8) and the second electric valve (9) are respectively connected with the water purification station tap water heating primary plate exchange device (6) and the water purification station tap water heating secondary plate exchange device (7), and the other ends of the water purification station tap water heating primary plate exchange device (6) and the water purification station tap water heating secondary plate exchange device (7) are connected with the water purification station tap water.

3. The battery shop compressed air system of claim 1, wherein: the upper ends of the first air storage tank group (12) and the second air storage tank group (16) are respectively provided with a ball valve (13), the air compressor unit (10) is directly connected with the drying unit (14) through the ball valve (13) on the first air storage tank group (12), and the drying unit (14) is directly connected with equipment needing compressed air in a battery workshop through the ball valve (13) on the second air storage tank group (16).

4. The battery shop compressed air system of claim 1, wherein: the drier in the drier unit (14) is a blowing regeneration adsorption drier.

5. The battery shop compressed air system of claim 1, wherein: the lower ends of the primary air filter (17) and the secondary air filter (18) are respectively provided with an automatic water drainer (15), and the automatic water drainers (15) are communicated with a nearby drainage ditch.

6. The battery shop compressed air system of claim 1, wherein: an air compressor in the air compressor unit (10) is a water-cooling oil-free screw type variable frequency air compressor.

7. The battery shop compressed air system of claim 1, wherein: and a pressure sensor (23) and a dew point temperature sensor (24) are arranged on a pipeline connecting the air pressure pipe (25) and the battery workshop.

8. The battery shop compressed air system of claim 1, wherein: the air cooling water return pipe (19) is provided with a full-automatic online dosing device (26), the full-automatic online dosing device (26) is provided with a control cabinet, the air cooling water return pipe (19) is further provided with a conductivity tester (27), and the conductivity tester (27) is electrically connected with the full-automatic online dosing device (26).

9. The battery shop compressed air system of claim 1, wherein: a constant pressure water supplementing device (11) is arranged at an air pressure hot water recovery water return pipe (21) between the cooling water protection plate heat exchange system (3) and the heat recovery water pump set (4).

Images