CN210340527U - Seawater water-cooling heatless drying equipment - Google Patents

Abstract

The utility model discloses a no heat drying equipment of sea water-cooling, including cooling chamber and air inlet, first connecting pipe is installed to the top of air inlet, and all installs the second valve in the left and right sides at first connecting pipe middle part, the second connecting pipe is installed to the top of first connecting pipe, and all installs first valve in the left and right sides at second connecting pipe middle part, the adsorption tower is all installed to the left and right sides of second connecting pipe, the fifth connecting pipe is installed to the top at second connecting pipe middle part, and installs the heating chamber in the top of fifth connecting pipe, the air-blower is installed to the top of heating chamber, and the third connecting pipe is installed to the top of air-blower. This sea water-cooling does not have hot drying equipment and is provided with the rubber pad, can effectually separate the inside temperature of cooling chamber and outside air through the rubber pad, can effectually provide the heat preservation effect for the cooling chamber, can effectually alleviate the influence of outside temperature change to the inside temperature of cooling chamber.

Description

Seawater water-cooling heatless drying equipment

Technical Field

The utility model relates to a do not have hot drying equipment technical field, specifically be a sea water-cooling does not have hot drying equipment.

Background

The dryer is a mechanical device for reducing moisture of materials by using heat energy, and is used for drying objects. The dryer vaporizes moisture (typically moisture or other volatile liquid components) in the material by heating to escape to obtain a solid material of specified moisture content, and the early 20 th century, dairy production began to employ spray dryers, providing a powerful tool for large-scale drying of liquid materials. Beginning in the 40 s, high intensity, high productivity ebullated beds and air flow dryers continued to emerge with the development of fluidization technology. The freeze sublimation, radiation and dielectric dryers provide new means for meeting specific requirements. Far infrared and microwave dryers began to be developed in the 60 s. The types of mechanical equipment used for carrying out the drying operation are numerous and can be divided into atmospheric pressure and reduced pressure (reduced pressure dryers are also called vacuum dryers) depending on the operating pressure. The method can be divided into a batch method and a continuous method according to the operation method. Air, flue gas or other drying media may be classified according to the drying media. Depending on the mode of movement (material movement and drying medium flow) there can be a division into cocurrent, countercurrent and crossflow.

The sea water treatment device has the advantages that the sea water treatment device is required to be independently arranged when the sea water is utilized, more water sources are required to be wasted, impurities in the sea water cannot be well filtered and efficiently removed in the using process of the heatless drying device, the using requirements of people cannot be well met, and technical innovation is performed on the basis of the conventional heatless drying device according to the conditions.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a no heat drying equipment of sea water-cooling to the reserve volume of proposing general sea water in solving above-mentioned background art is abundant, the cost is lower, and the utilization ratio of sea water is lower, and when utilizing the sea water, need set up the sea water treatment facility alone, consume more, and in no heat drying equipment's use, need extravagant more water source, and the impurity in the sea water is got rid of to filtration and high efficiency that can not be fine, the not fine user demand problem that satisfies people.

In order to achieve the above object, the utility model provides a following technical scheme: a seawater water-cooling heatless drying device comprises a cooling chamber and an air inlet, wherein a first connecting pipe is installed above the air inlet, second valves are installed on the left side and the right side of the middle part of the first connecting pipe, a second connecting pipe is installed above the first connecting pipe, first valves are installed on the left side and the right side of the middle part of the second connecting pipe, adsorption towers are installed on the left side and the right side of the second connecting pipe, a fifth connecting pipe is installed above the middle part of the second connecting pipe, a heating chamber is installed above the fifth connecting pipe, an air blower is installed above the heating chamber, a third connecting pipe is installed above the air blower, a rubber pad is arranged inside the cooling chamber, the cooling chamber is located above the third connecting pipe, a copper pipe is arranged inside the rubber pad, a temperature and humidity sensor is installed at the front end of the cooling chamber, and a water pump is installed on one, and one side of water pump installs the eighth connecting pipe, reverse osmosis membrane is installed to one side of eighth connecting pipe, and reverse osmosis membrane's one side installs the water storage tank, the inside of water storage tank is provided with the activated carbon plate, and the inside of activated carbon plate is provided with the filtration pore, the stainless steel filter screen is all installed to the upper and lower both sides of activated carbon plate, the seventh connecting pipe is installed to the top of cooling chamber, and the top of seventh connecting pipe installs the sixth connecting pipe, the third valve is all installed to the left and right sides at sixth connecting pipe middle part, the gas vent is installed from top to bottom at sixth connecting pipe middle part, and installs the fourth connecting pipe in the top of gas vent, the fourth valve is all installed to the left and right sides at fourth connecting pipe middle part.

Preferably, a communicating structure is formed between the adsorption towers through the cooperation between the first connecting pipe and the first valve, and a communicating structure is formed between the adsorption towers through the cooperation between the fourth connecting pipe and the fourth valve.

Preferably, the cooling chamber is wrapped by the rubber pad, and the rubber pad is adhered to the cooling chamber.

Preferably, the water storage tank forms a communicating structure through the eighth connecting pipe and the reverse osmosis film, and the reverse osmosis film forms a communicating structure through the cooperation between the eighth connecting pipe and the water pump and the copper pipe.

Preferably, the filter holes are uniformly distributed along the inside of the activated carbon plate, and the inside of the filter holes is in a round table-shaped structure.

Preferably, the stainless steel filter screens are of a mesh structure, and are symmetrically distributed around the horizontal center line of the activated carbon plate, and are parallel to each other.

Preferably, the inside of the copper pipe is of a hollow spiral structure, and the vertical center line of the copper pipe and the vertical center line of the cooling chamber are overlapped.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model is provided with the rubber pad, the temperature inside the cooling chamber can be effectively separated from the outside air through the rubber pad, the heat preservation effect can be effectively provided for the cooling chamber, and the influence of the external temperature change on the temperature inside the cooling chamber can be effectively reduced;

2. the utility model discloses be provided with the reverse osmosis membrane, the sea water obtains efficient filtration under reverse osmosis membrane's effect, can effectually avoid the production of sea water crystallization, block up the pipeline easily, thereby can the effectual fluency that improves the circulation of sea water, and the reserves of sea water are abundant, and the utilization ratio of sea water is lower, and when utilizing the sea water, need set up the sea water treatment facility alone, consume more, be provided with the stainless steel filter screen, can the effectual position of restriction active carbon plate through the stainless steel filter screen, and the stainless steel filter screen then can be the effectual great granule that filters in the sea water;

3. the utility model discloses be provided with the copper pipe, the copper pipe has good heat conductivity, and the helical structure of copper pipe can effectual sea water and the area of contact between the copper pipe, thereby it is gaseous to make the copper pipe can the efficient cooling, thereby can effectual gaseous temperature that reduces, be provided with activated carbon plate and filtration pore, impurity in can effectual absorption sea water through activated carbon plate, reduce the suspended solid in the sea water, thereby can effectual improvement sea water limpidity, and the evenly distributed of filtration pore, can effectual improvement activated carbon plate be to the absorptive high efficiency of sea water, and the round platform column structure of filtration pore can effectual improvement activated carbon plate to the filtration efficiency still, and can the effectual flow velocity who changes the sea water.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the water storage tank of the present invention;

FIG. 3 is a schematic cross-sectional view of the activated carbon plate of the present invention;

fig. 4 is a schematic view of the internal structure of the cooling chamber of the present invention.

In the figure: 1. a first connecting pipe; 2. a second connecting pipe; 3. an adsorption tower; 4. a third connecting pipe; 5. a cooling chamber; 6. a fourth connecting pipe; 7. a first valve; 8. a second valve; 9. an air inlet; 10. a fifth connecting pipe; 11. a heating chamber; 12. a blower; 13. a water storage tank; 14. a reverse osmosis membrane; 15. a sixth connecting pipe; 16. a third valve; 17. a water pump; 18. a seventh connecting pipe; 19. an exhaust port; 20. a fourth valve; 21. filtering holes; 22. an activated carbon plate; 23. a stainless steel filter screen; 24. an eighth connecting pipe; 25. a rubber pad; 26. a copper pipe; 27. temperature and humidity sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a seawater water-cooling heatless drying device comprises a cooling chamber 5 and an air inlet 9, wherein a first connecting pipe 1 is arranged above the air inlet 9, second valves 8 are arranged on the left side and the right side of the middle part of the first connecting pipe 1, a second connecting pipe 2 is arranged above the first connecting pipe 1, first valves 7 are arranged on the left side and the right side of the middle part of the second connecting pipe 2, adsorption towers 3 are arranged on the left side and the right side of the second connecting pipe 2, a fifth connecting pipe 10 is arranged above the middle part of the second connecting pipe 2, a heating chamber 11 is arranged above the fifth connecting pipe 10, an air blower 12 is arranged above the heating chamber 11, a third connecting pipe 4 is arranged above the air blower 12, a rubber pad 25 is arranged inside the cooling chamber 5, the cooling chamber 5 is positioned above the third connecting pipe 4, the cooling chamber 5 is wrapped by the rubber pad 25, and the rubber pad 25 and the cooling chamber, the temperature inside the cooling chamber 5 can be effectively separated from the outside air through the rubber pad 25, a heat preservation effect can be effectively provided for the cooling chamber 5, the influence of external temperature change on the temperature inside the cooling chamber 5 can be effectively reduced, the copper pipe 26 is arranged inside the rubber pad 25, the water storage tank 13 forms a communication structure with the reverse osmosis membrane 14 through the eighth connecting pipe 24, the reverse osmosis membrane 14 forms a communication structure with the copper pipe 26 through the matching between the eighth connecting pipe 24 and the water pump 17, water inside the water storage tank 13 is guided into the reverse osmosis membrane 14 under the action of the water pump 17, so that seawater is efficiently filtered under the action of the reverse osmosis membrane 14, the generation of seawater crystallization can be effectively avoided, pipelines are easily blocked, and the smoothness of seawater circulation can be effectively improved;

the inside of the copper pipe 26 is a hollow spiral structure, and the vertical central line of the copper pipe 26 and the vertical central line of the cooling chamber 5 coincide with each other, gas can circulate along the vertical central line direction of the copper pipe 26, the copper pipe 26 has good thermal conductivity, the spiral structure of the copper pipe 26 can effectively reduce the contact area between seawater and the copper pipe 26, so that the copper pipe 26 can efficiently cool the gas, thereby effectively reducing the temperature of the gas, the front end of the cooling chamber 5 is provided with a temperature and humidity sensor 27, one side of the cooling chamber 5 is provided with a water pump 17, one side of the water pump 17 is provided with an eighth connecting pipe 24, one side of the eighth connecting pipe 24 is provided with a reverse osmosis membrane 14, one side of the reverse osmosis membrane 14 is provided with a water storage tank 13, the inside of the water storage tank 13 is provided with an activated carbon plate 22, the inside of the activated carbon plate 22 is provided with filter holes 21, the filtering holes 21 are in a round table structure, impurities in seawater can be effectively adsorbed through the activated carbon plate 22, suspended matters in seawater are reduced, thereby effectively improving the clarity of the seawater, effectively improving the high efficiency of the activated carbon plate 22 for absorbing the seawater due to the uniform distribution of the filter holes 21, the truncated cone-shaped structure of the filtering holes 21 can effectively improve the filtering efficiency of the activated carbon plates 22, and can effectively change the flow speed of seawater, the upper and lower sides of the activated carbon plate 22 are both provided with stainless steel filter screens 23, the interior of the stainless steel filter screens 23 is in a net-shaped body structure, and the stainless steel filter screens 23 are symmetrically distributed about the horizontal center line of the activated carbon plate 22, the stainless steel filter screens 23 are parallel to each other, the position of the activated carbon plate 22 can be effectively limited through the stainless steel filter screens 23, and the stainless steel filter screens 23 can effectively filter larger particles in seawater;

a seventh connecting pipe 18 is installed above the cooling chamber 5, a sixth connecting pipe 15 is installed above the seventh connecting pipe 18, third valves 16 are installed on the left and right sides of the middle part of the sixth connecting pipe 15, exhaust ports 19 are installed above and below the middle part of the sixth connecting pipe 15, and a fourth connecting pipe 6 is installed above the exhaust port 19, fourth valves 20 are installed on the left and right sides of the middle part of the fourth connecting pipe 6, the adsorption towers 3 form a communicating structure through the cooperation between the first connecting pipe 1 and the first valve 7, and the adsorption towers 3 form a communication structure through the cooperation between the fourth connecting pipe 6 and the fourth valve 20, so that a user can open the first valve 7, and at this time, the moist gas can be introduced into the interior of the adsorption column 3 along the first connection pipe 1, the adsorbent activated alumina being present in the interior of the adsorption column 3, the activated alumina drying the moist gas.

The working principle is as follows: when the seawater water-cooling heatless drying equipment is used, firstly, a user can open the first valve 7, at the moment, moist gas can be introduced into the adsorption tower 3 along the first connecting pipe 1, adsorbent activated alumina is arranged in the adsorption tower 3, and the moist gas is dried by the activated alumina;

secondly, the user can open the third valve 16 and the fourth valve 20, at this time, most of the dried gas can be discharged through the exhaust port 19 along the inside of the sixth connection pipe 15, a small portion of the dried gas is introduced into the inside of the adsorption tower 3 on the other side, so that the adsorption tower 3 is regenerated, and secondly, the user can start the blower 12 and the heating chamber 11, whereupon the first valve 7 is opened so that the blower 12 introduces the hot gas generated inside the heating chamber 11 into the inside of the adsorption tower 3 along the inside of the second connection pipe 2, the inside of the heating chamber 11 is a heating wire, then, the blower 12 is closed, the third valve 16 is opened so that the moisture and the gas carried by the hot gas are discharged through the exhaust port 19 along the inside of the sixth connection pipe 15, and then, the fourth valve 20 and the second valve 8 are opened so that the heating chamber 11 can sufficiently heat the inside of the adsorption tower 3, wherein the model of the blower 12 is XGB type, the models of the first valve (7), the second valve (8), the third valve (16) and the fourth valve (20) are Z41W-16P type;

and finally, starting the water pump 17 to lead water flow into the reverse osmosis membrane 14 of the water in the water storage tank 13 under the action of the water pump 17, so that the seawater is efficiently filtered under the action of the reverse osmosis membrane 14, then leading the seawater into the copper pipe 26 to cool the gas, detecting the inside of the cooling chamber 5 by the temperature and humidity sensor 27, then starting the blower 12, sequentially opening the first valve 7 and the third valve 16, and circularly cooling the cooled gas in the adsorption tower 3 along the insides of the second connecting pipe 2 and the third valve 16 respectively, wherein the type of the water pump 17 is an IGR type, the type of the temperature and humidity sensor 27 is an OHR-WS20 type, and the type of the reverse osmosis membrane 14 is an HT-001 type, which is the working principle of the seawater water-cooling heatless drying equipment.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A seawater water-cooling does not have hot drying equipment, includes cooling chamber (5) and air inlet (9), its characterized in that: the air purifier is characterized in that a first connecting pipe (1) is installed above the air inlet (9), second valves (8) are installed on the left side and the right side of the middle part of the first connecting pipe (1), a second connecting pipe (2) is installed above the first connecting pipe (1), first valves (7) are installed on the left side and the right side of the middle part of the second connecting pipe (2), adsorption towers (3) are installed on the left side and the right side of the second connecting pipe (2), a fifth connecting pipe (10) is installed above the middle part of the second connecting pipe (2), a heating chamber (11) is installed above the fifth connecting pipe (10), an air blower (12) is installed above the heating chamber (11), a third connecting pipe (4) is installed above the air blower (12), a rubber pad (25) is arranged inside the cooling chamber (5), and the cooling chamber (5) is located above the third connecting pipe (4), the solar water heater is characterized in that a copper pipe (26) is arranged inside the rubber pad (25), a temperature and humidity sensor (27) is installed at the front end of the cooling chamber (5), a water pump (17) is installed on one side of the cooling chamber (5), an eighth connecting pipe (24) is installed on one side of the water pump (17), a reverse osmosis film (14) is installed on one side of the eighth connecting pipe (24), a water storage tank (13) is installed on one side of the reverse osmosis film (14), an activated carbon plate (22) is arranged inside the water storage tank (13), a filter hole (21) is formed inside the activated carbon plate (22), stainless steel filter screens (23) are installed on the upper side and the lower side of the activated carbon plate (22), a seventh connecting pipe (18) is installed above the cooling chamber (5), a sixth connecting pipe (15) is installed above the seventh connecting pipe (18), and third valves (16) are installed on the left side and the right side of the middle part, exhaust port (19) are installed from top to bottom at sixth connecting pipe (15) middle part, and fourth connecting pipe (6) is installed to the top of exhaust port (19), fourth valve (20) are all installed to the left and right sides at fourth connecting pipe (6) middle part.

2. The seawater water-cooled heatless drying apparatus of claim 1, wherein: constitute the communicating structure through the cooperation between first connecting pipe (1) and first valve (7) between adsorption tower (3), and constitute the communicating structure through the cooperation between fourth connecting pipe (6) and fourth valve (20) between adsorption tower (3).

3. The seawater water-cooled heatless drying apparatus of claim 1, wherein: the cooling chamber (5) is wrapped on the rubber pad (25), and the rubber pad (25) is bonded with the cooling chamber (5).

4. The seawater water-cooled heatless drying apparatus of claim 1, wherein: the water storage tank (13) and the reverse osmosis membrane (14) form a communicating structure through the eighth connecting pipe (24), and the reverse osmosis membrane (14) and the copper pipe (26) form a communicating structure through the matching between the eighth connecting pipe (24) and the water pump (17).

5. The seawater water-cooled heatless drying apparatus of claim 1, wherein: the filter holes (21) are uniformly distributed along the interior of the activated carbon plate (22), and the interior of the filter holes (21) is in a circular truncated cone-shaped structure.

6. The seawater water-cooled heatless drying apparatus of claim 1, wherein: the stainless steel filter screens (23) are of a net-shaped body structure, the stainless steel filter screens (23) are symmetrically distributed around the horizontal center line of the activated carbon plate (22), and the stainless steel filter screens (23) are parallel to each other.

7. The seawater water-cooled heatless drying apparatus of claim 1, wherein: the inside of the copper pipe (26) is of a hollow spiral structure, and the vertical center line of the copper pipe (26) and the vertical center line of the cooling chamber (5) are overlapped.

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