CN215996161U - Automatic water delivery device of instrument air compressor desicator - Google Patents
Automatic water delivery device of instrument air compressor desicator Download PDFInfo
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- CN215996161U CN215996161U CN202121930186.2U CN202121930186U CN215996161U CN 215996161 U CN215996161 U CN 215996161U CN 202121930186 U CN202121930186 U CN 202121930186U CN 215996161 U CN215996161 U CN 215996161U
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Abstract
The utility model discloses an automatic water delivery device of an instrument air compressor dryer, which comprises an air compressor, an adsorber A and an adsorber B, wherein the middle position of one side of the air compressor is connected with the adsorber A through an air inlet pipe B, the middle position of the outer surface of the air inlet pipe B is connected with the adsorber B through the air inlet pipe A, an air outlet pipe B is arranged at the middle position of the top end of the adsorber B, and the middle position of the outer surface of the air outlet pipe B is connected to the top end of the adsorber A through the air outlet pipe A. The utility model solves the problems that the existing device mostly takes out the renewable drying agent from the container, independently heats and regenerates the renewable drying agent, the container cannot be used during the regeneration of the renewable drying agent, the production efficiency is reduced, the process of taking out and placing is required to be repeated, air is easy to enter during replacement, and the use convenience is poor, and the use convenience and the energy-saving and environment-friendly effects of the utility model are improved.
Description
Technical Field
The utility model relates to the technical field of air compressors, in particular to an automatic water delivery device of an instrument air compressor dryer.
Background
An air compressor is a device for compressing gas. The air compressor is constructed similarly to a water pump. Most air compressors are reciprocating piston type, rotating vane or rotating screw. Centrifugal compressors are very large applications, and in the chemical or analytical industry, gas components need to be dried, and generally, regenerable desiccants such as silica gel, molecular sieves and the like are used for adsorbing moisture in sample gas, and the regenerable desiccants are ineffective after adsorbing a large amount of moisture.
The existing drying device takes out the renewable drying agent from the container, independently heats and regenerates the renewable drying agent, the container cannot be used during the regeneration of the renewable drying agent, the production efficiency is reduced, the process of repeatedly taking out and placing is needed, air is easy to enter during replacement, the use convenience is poor, and therefore the automatic water delivery device of the dryer of the instrument air compressor is provided.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an automatic water delivery device of an instrument air compressor dryer, which has the advantage of convenience in use and solves the problems that the existing device mostly takes out a renewable drying agent from a container, independently heats and regenerates the renewable drying agent, the container cannot be used during the regeneration of the renewable drying agent, the production efficiency is reduced, the process of taking out and placing is required to be repeated, air is easy to enter during replacement, and the use convenience is poor.
In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an automatic water delivery device of instrument air compressor desicator, includes air compressor, adsorber A and adsorber B, wherein air compressor one side intermediate position department is connected with adsorber A through intake pipe B, intake pipe B surface intermediate position department is connected with adsorber B through intake pipe A, adsorber B top intermediate position department installs outlet duct B, outlet duct B surface intermediate position department connects in adsorber A top position department through outlet duct A.
Preferably, the filter is installed at the middle position of the air inlet pipe B, and a filter screen is installed at the middle position inside the filter.
Preferably, the heating box is installed in air compressor top intermediate position department, the heater strip is installed in the inside intermediate position department of heating box.
Preferably, the air compressor top is located heating cabinet one side position department and installs the air exhauster, the air exhauster front surface is close to bottom position department and connects in air compressor through the exhaust tube, air exhauster one side intermediate position department connects in the heating cabinet through the connecting pipe.
Preferably, the heating box is connected to the position of one side of the bottom end of the adsorber A through a drying pipe B at the middle position of one side, which is away from the connecting pipe, of the heating box, and the middle position of the outer surface of the drying pipe B is connected to the position of one side of the bottom end of the adsorber B through the drying pipe A.
Preferably, the top end of the adsorber B is provided with an exhaust pipe B near the outer surface, and the middle position of the outer surface of the exhaust pipe B is connected to the adsorber A through an exhaust pipe A.
Preferably, the air inlet pipe A, the air inlet pipe B, the air outlet pipe A, the air outlet pipe B, the drying pipe A, the drying pipe B, the exhaust pipe A and the exhaust pipe B are all provided with valves at the middle positions.
Preferably, the molecular sieve is installed at the middle position inside the absorber A and the absorber B through a partition plate, diathermic coils are installed at the positions, corresponding to the molecular sieve, of the inner surfaces of the absorber A and the absorber B, and the bottom ends of the diathermic coils at the two sides are connected to the tail end positions of the drying pipe A and the drying pipe B respectively.
Compared with the prior art, the utility model has the following beneficial effects:
1. the utility model achieves the effect of mutually switching to carry out drying and regeneration by arranging the adsorber A and the adsorber B, the adsorber A in Shenzhen city is arranged at the middle position of one side of the air compressor through the air inlet pipe B, and the adsorber B is arranged at the middle position of the outer surface of the air inlet pipe B through the air inlet pipe A, so as to solve the problems that the renewable drying agent is mostly taken out from the container, the renewable drying agent is independently heated and regenerated, the container cannot be used during the regeneration of the renewable drying agent, and the production efficiency is reduced, and the production efficiency of the utility model is improved.
2. According to the utility model, the effect of regenerating the drying agent by utilizing the operation heat of the air compressor is achieved by arranging the exhaust fan, the exhaust pipe and the connecting pipe, the exhaust fan is arranged at the position, located on one side of the heating box, of the top end of the air compressor, the exhaust pipe is arranged at the position, close to the bottom end, of the front surface of the exhaust fan and connected to the air compressor, and the middle position, located on one side of the exhaust fan, is connected to the heating box through the connecting pipe, so that the problems that the heat of the air compressor cannot be reasonably utilized for heat dissipation, the resource waste is large, the energy-saving and environment-friendly effects are poor are solved, and the energy-saving and environment-friendly effects of the utility model are improved.
3. According to the utility model, the filter is arranged at the middle position of the air inlet pipe B, so that the effect of filtering the compressed air is achieved, the filter screen is arranged at the middle position inside the filter, so that the problem that the production quality is influenced because the compressed air contains more impurities and dust and is directly used without being filtered is solved, and the production quality of the air compressor is improved.
Drawings
FIG. 1 is a schematic front view of the present invention;
FIG. 2 is a schematic cross-sectional view of the heating box and air compressor of the present invention;
FIG. 3 is a schematic cross-sectional view of a filter according to the present invention;
FIG. 4 is a schematic cross-sectional view of adsorber A of the present invention.
In the figure: 1. an air compressor; 2. a filter; 3. an air inlet pipe A; 4. an air inlet pipe B; 5. adsorber A; 6. a valve; 7. adsorber B; 8. a drying pipe A; 9. an exhaust pipe A; 10. an air outlet pipe A; 11. an air outlet pipe B; 12. an exhaust pipe B; 13. a drying pipe B; 14. a heating box; 15. heating wires; 16. an air exhaust pipe; 17. an exhaust fan; 18. a connecting pipe; 19. a filter screen; 20. a diathermic coil; 21. a molecular sieve; 22. a separator.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, the technical solution of the automatic water delivery device for an instrument air compressor dryer provided by the present invention is: an automatic water delivery device of an instrument air compressor dryer comprises an air compressor 1, an adsorber A5 and an adsorber B7, wherein the middle position of one side of the air compressor 1 is connected with an adsorber A5 through an air inlet pipe B4, the middle position of the outer surface of the air inlet pipe B4 is connected with an adsorber B7 through an air inlet pipe A3, an air outlet pipe B11 is installed at the middle position of the top end of the adsorber B7, the middle position of the outer surface of the air outlet pipe B11 is connected with the top end position of the adsorber A5 through an air outlet pipe A10, the middle position of one side of a heating box 14, which is far away from a connecting pipe 18, is connected with the position of one side of the bottom end of the adsorber A5 through a drying pipe B13, the middle position of the outer surface of the drying pipe B13 is connected with the position of one side of the bottom end of the adsorber B7 through a drying pipe A8, an exhaust pipe B12 is installed at the position, the middle position of the outer surface of the top end of the exhaust pipe B465 is connected with the adsorber A9, valves 6 are respectively arranged at the middle positions of the air inlet pipe A3, the air inlet pipe B4, the air outlet pipe A10, the air outlet pipe B11, the drying pipe A8, the drying pipe B13, the exhaust pipe A9 and the exhaust pipe B12, and the effect of accurately controlling air outlet and drying is achieved.
Referring to fig. 2, the technical solution of the automatic water delivery device for an instrument air compressor dryer provided by the present invention is: an automatic water delivery device of an instrument air compressor dryer comprises an air compressor 1, an adsorber A5 and an adsorber B7, wherein the middle position of one side of the air compressor 1 is connected with an adsorber A5 through an air inlet pipe B4, the middle position of the outer surface of the air inlet pipe B4 is connected with an adsorber B7 through an air inlet pipe A3, an air outlet pipe B11 is installed at the middle position of the top end of the adsorber B7, the middle position of the outer surface of an air outlet pipe B11 is connected with the top end position of the adsorber A5 through an air outlet pipe A10, a heating box 14 is installed at the middle position of the top end of the air compressor 1, a heating wire 15 is installed at the middle position inside the heating box 14 and used for heating and drying air, an exhaust fan 17 is installed at the position of the top end of the air compressor 1 at one side of the heating box 14, the position, the front surface of the exhaust fan 17 is connected with the air compressor 1 through an exhaust pipe 16 at the position close to the bottom end, so as to facilitate the operation and heat dissipation of the air compressor 1, the molecular sieve 21 is dried, and the middle position of one side of the exhaust fan 17 is connected to the heating box 14 through a connecting pipe 18.
Referring to fig. 3 and 4, the technical solution of the automatic water delivery device for the dryer of the air compressor of the instrument according to the present invention is as follows: an automatic water delivery device of an instrument air compressor dryer comprises an air compressor 1, an adsorber A5 and an adsorber B7, wherein the middle position of one side of the air compressor 1 is connected with the adsorber A5 through an air inlet pipe B4, the middle position of the outer surface of the air inlet pipe B4 is connected with the adsorber B7 through an air inlet pipe A3, an air outlet pipe B11 is installed at the middle position of the top end of the adsorber B7, the middle position of the outer surface of the air outlet pipe B11 is connected with the top end of the adsorber A5 through an air outlet pipe A10, a filter 2 is installed at the middle position of the air inlet pipe B4, a filter screen 19 is installed at the middle position inside the filter 2 and used for filtering compressed air, a molecular sieve 21 is installed at the middle position inside the adsorber A5 and the adsorber B7 through a partition plate 22, heat-permeable coils 20 are installed at positions, corresponding to the molecular sieve 21, on the inner surfaces of the adsorber A5 and the adsorber B7 and used for drying the molecular sieve 21, the bottom ends of the two side diathermy coils 20 are respectively connected with the tail ends of the drying tube A8 and the drying tube B13.
The working principle is as follows: after the utility model is installed, during normal operation, compressed air is generated by the air compressor 1, the compressed air is conveyed to the filter 2 through the air inlet pipe B4, is conveyed to the adsorber A5 after being filtered by the filter screen 19 in the filter 2, is dried by the molecular sieve 21 in the adsorber A5 and is conveyed to a use place through the air outlet pipe A10, when the adsorption force of the molecular sieve 21 in the adsorber A5 is weakened, the valve 6 on the air inlet pipe B4 and the air outlet pipe A10 is closed, the valve 6 on the air inlet pipe A3 and the air outlet pipe B11 is opened, the compressed air is switched to the adsorber B7, the air is dried through the adsorber B7 and the internal molecular sieve 21, the exhaust fan 17 is started at the same time, the hot air in the air compressor 1 is extracted through the exhaust pipe 16 by the exhaust fan 17, is conveyed to the heating box 14 through the connecting pipe 18, is heated by the heating wire 15 in the heating box 14 and is conveyed to the diathermanous coil 20 in the adsorber A5 through the drying pipe B13, the inside of the adsorber A5 is heated through the diathermy coil pipe 20 to evaporate the moisture in the molecular sieve 21, the moisture is discharged through the exhaust pipe A9, the adsorber A5 is convenient to recycle next time, when the adsorption force of the molecular sieve 21 in the adsorber B7 is weakened, the air inlet pipeline is switched again through the valve 6, the adsorber A5 is used for drying the compressed air, and the moisture in the molecular sieve 21 in the adsorber B7 is evaporated through the drying pipe A8, so that the working flow of the equipment is completed.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (8)
1. The utility model provides an automatic water delivery device of instrument air compressor desicator, includes air compressor (1), adsorber A (5) and adsorber B (7), its characterized in that: air compressor (1) one side intermediate position department is connected with adsorber A (5) through intake pipe B (4), intake pipe B (4) surface intermediate position department is connected with adsorber B (7) through intake pipe A (3), adsorber B (7) top intermediate position department installs outlet duct B (11), outlet duct B (11) surface intermediate position department is connected in adsorber A (5) top position department through outlet duct A (10).
2. The automatic water delivery device of an instrument air compressor dryer of claim 1, wherein: filter (2) are installed to intake pipe B (4) intermediate position department, filter (2) inside intermediate position department installs filter screen (19).
3. The automatic water delivery device of an instrument air compressor dryer of claim 1, wherein: air compressor (1) top intermediate position department installs heating cabinet (14), heating wire (15) are installed to inside intermediate position department of heating cabinet (14).
4. The automatic water delivery device of an instrument air compressor dryer of claim 1, wherein: air compressor (1) top is located heating cabinet (14) one side position department and installs air exhauster (17), air exhauster (17) front surface is close to bottom position department and connects in air compressor (1) through exhaust tube (16), air exhauster (17) one side intermediate position department connects in heating cabinet (14) through connecting pipe (18).
5. The automatic water delivery device of an instrument air compressor dryer of claim 4, wherein: the heating box (14) deviates from the middle position of one side of the connecting pipe (18) and is connected to the position of one side of the bottom end of the adsorber A (5) through the drying pipe B (13), and the middle position of the outer surface of the drying pipe B (13) is connected to the position of one side of the bottom end of the adsorber B (7) through the drying pipe A (8).
6. The automatic water delivery device of an instrument air compressor dryer of claim 1, wherein: exhaust pipe B (12) are installed near surface position department on adsorber B (7) top, exhaust pipe B (12) surface intermediate position department is connected in adsorber A (5) through exhaust pipe A (9).
7. The automatic water delivery device of an instrument air compressor dryer of claim 1, wherein: and valves (6) are arranged at the middle positions of the air inlet pipe A (3), the air inlet pipe B (4), the air outlet pipe A (10), the air outlet pipe B (11), the drying pipe A (8), the drying pipe B (13), the exhaust pipe A (9) and the exhaust pipe B (12).
8. The automatic water delivery device of an instrument air compressor dryer of claim 1, wherein: molecular sieve (21) are installed through baffle (22) in adsorber A (5) and the inside intermediate position department of adsorber B (7), adsorber A (5) and adsorber B (7) internal surface are located the corresponding position department of molecular sieve (21) and all install diathermanous coil pipe (20), both sides diathermanous coil pipe (20) bottom is connected respectively in drying duct A (8) and drying duct B (13) terminal position department.
Priority Applications (1)
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CN202121930186.2U CN215996161U (en) | 2021-08-18 | 2021-08-18 | Automatic water delivery device of instrument air compressor desicator |
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CN202121930186.2U CN215996161U (en) | 2021-08-18 | 2021-08-18 | Automatic water delivery device of instrument air compressor desicator |
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CN215996161U true CN215996161U (en) | 2022-03-11 |
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