CN210303084U - Micro-heating module suction dryer - Google Patents

Abstract

The utility model discloses a micro-heating module suction dryer, which comprises a frame and a power supply, wherein the power supply is arranged in the frame, the frame is provided with an air inlet module and an exhaust module through screw fixation, a drying module, a waste discharge module, a heating system and a cooling system are connected between the air inlet module and the exhaust module, the air inlet module comprises 2 groups of air inlet tower bodies, an air pump and an air inlet valve which are vertically arranged, two groups of adjacent air inlet tower bodies are connected through a first air pipe, the air pump is communicated with the air inlet valve through a second air pipe, and the air inlet module, the exhaust module, the drying module, the waste discharge module, the heating system and the cooling system realize high-efficiency air drying and have the function of air freshening, meanwhile, the structure adopting a steel ball shuttle valve does not need an electronic valve to control, and simultaneously reduces the size of the electronic valve and leads to the characteristic of overlarge equipment size, the energy consumption is reduced, and the use cost of customers is reduced.

Description

Micro-heating module suction dryer

Technical Field

The utility model belongs to the technical field of an air purification equipment and specifically relates to a little hot module suction machine is related to.

Background

At present, the common gas preparation method in the air manufacturing field must purify the compressed gas. Wherein, the adsorption type is inhaled futilely commonly used in air manufacturing enterprise and is carried out operations such as dewatering, deoiling to compressed air, and from operational environment to the restriction of equipment volume, many operational environment need use miniature absorption futilely the machine and carry out the operation of dewatering, deoiling. However, the conventional small-sized suction dryer needs a large valve to be arranged outside the suction dryer to realize the water and oil removing functions of the suction dryer; the complicated external valve structure increases the volume of the suction dryer, increases the failure rate of the suction dryer and is not beneficial to the use of the suction dryer; meanwhile, the suction dryer has low efficiency and no fresh air cleaning function, and can not meet the requirements of various customers.

Therefore, it is necessary to develop a micro-thermal module sucking and drying machine with small volume, low failure rate and fresh air cleaning function.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a little hot module suction machine to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the micro-heating module type drying machine comprises a machine base and a power supply, wherein the power supply is arranged in the machine base, an air inlet module and an air outlet module are fixedly arranged on the machine base through screws, a drying module, a waste discharge module, a heating system and a cooling system are connected between the air inlet module and the air outlet module, the air inlet module comprises 2 groups of air inlet tower bodies, air pumps and air inlet valves which are vertically arranged, the air pumps are communicated with the air inlet valves through second air pipes, the other sides of the air inlet valves are connected with the air inlet tower bodies, the air outlet module comprises 2 groups of air outlet tower bodies, air discharge pumps and air discharge valves which are vertically arranged, two adjacent air outlet tower bodies are connected through third air pipes, the air discharge pumps are communicated with the air discharge valves through fourth air pipes, and the other sides of the air discharge valves are connected with the air outlet tower bodies, the drying module is internally provided with a drying return pipe, the drying return pipe is connected with the air inlet valve through a fifth air pipe, the waste discharge module is internally provided with a purification box, the top of the purification box is connected with the drying return pipe through a sixth air pipe, the bottom of the purification box is communicated with the heating system through a seventh air pipe, the cooling system is arranged at the lower side of the heating system and is connected with the heating system through a condenser and an eighth air pipe, and the cooling system is communicated with the exhaust valve through a ninth air pipe.

As a further technical scheme of the utility model, purification box top-down include dust separation net, dust separation sponge, filter sponge, purification box top be equipped with the air inlet with sixth trachea be linked together, purification box bottom be equipped with the gas outlet with seventh trachea be linked together.

As a further technical proposal of the utility model, the heating system comprises a U-shaped heating return pipe.

As a further technical proposal of the utility model, the cooling system comprises a U-shaped condensation return pipe.

As a further technical scheme of the utility model, air inlet valve and air vent valve be the shuttle valve structure, this shuttle valve embeds has steel ball, hollow double-screw bolt set up at this shuttle valve both ends, the steel ball contradict in hollow double-screw bolt, shelve in the passageway of this shuttle valve.

As a further technical scheme of the utility model, the power all with admit air module, exhaust module, dry module, the module of wasting discharge, heating system and cooling system electric connection.

The utility model has the advantages that: through module, exhaust module, drying module, the module of wasting discharge, heating system and cooling system admit air, realize high-efficient air drying, and still have the air fresh effect, adopt the structure of steel ball shuttle valve to need not electronic valve to go control simultaneously, reduced electronic valve's volume and lead to the too big characteristics of equipment volume simultaneously, reduced the energy consumption, be favorable to reducing customer use cost.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the schematic view of the intake valve structure of the present invention.

Fig. 3 is a schematic view of the exhaust valve structure of the present invention.

Wherein: the device comprises a base 1, an air inlet tower body 2, an air suction pump 3, a power supply 4, an air inlet valve 5, a second air pipe 6, an air exhaust pump 7, an air exhaust valve 8, an air exhaust tower body 9, a third air pipe 10, a fourth air pipe 11, a drying return pipe 12, a fifth air pipe 13, a purification box 14, an air inlet 14-1, an air outlet 14-2, a sixth air pipe 15, a seventh air pipe 16, a condenser 17, an eighth air pipe 18, a ninth air pipe 19, a dust-proof sponge 20, a dust-proof net 21, a filtering sponge 22, a U-shaped heating return pipe 23, a U-shaped condensing return pipe 24, steel balls 25 and hollow studs 26.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings and preferred embodiments.

Referring to fig. 1, 2 and 3, the micro-heating module type dryer includes a base 1 and a power source 4, the power source 4 is disposed inside the base 1, an air intake module and an air exhaust module are fixed on the base 1 by screws, a drying module, an exhaust module, a heating system and a cooling system are connected between the air intake module and the exhaust module, the air intake module includes 2 sets of an air intake tower 2, an air pump 3 and an air intake valve 5, the air pump 3 is connected with the air intake valve 5 by a second air pipe 6, the other side of the air intake valve 5 is connected with the air intake tower 2, the air exhaust module includes 2 sets of an air exhaust tower 9, an air exhaust pump 7 and an air exhaust valve 8, two adjacent air exhaust towers 9 are connected by a third air pipe 10, the air exhaust pump 7 is connected with the air exhaust valve 8 by a fourth air pipe 11, the other side of the exhaust valve 8 is connected with the exhaust tower 9, a drying return pipe 12 is arranged in the drying module, the drying return pipe 12 is connected with the intake valve 5 through a fifth air pipe 13, a purifying box 14 is arranged in the waste discharging module, the top of the purifying box 14 is connected with the drying return pipe 12 through a sixth air pipe 15, the bottom of the purifying box 14 is communicated with the heating system through a seventh air pipe 16, the cooling system is arranged at the lower side of the heating system and is connected with the heating system through a condenser 17 and an eighth air pipe 18, the cooling system is communicated with the exhaust valve 8 through a ninth air pipe 19, the power supply 4 is electrically connected with the intake module, the exhaust module, the drying module, the waste discharging module, the heating system and the cooling system to start the power supply 4, the air intake module, the exhaust module, the drying module, the waste discharge module, the heating system and the cooling system start to work, after the air pump 3 is started, air enters the air intake tower body 2 after passing through the air intake valve 5 from the second air pipe 6, the air intake tower body 2 puts the air into the drying module, after passing through the drying return pipe 12, air moisture is removed, air drying treatment is carried out, then the waste discharge module is passed, the purifying box 14 removes dust of the air, after passing through the first air pipe 16, the air enters the heating system, the heating system comprises a U-shaped heating return pipe 23, the air is sterilized through the U-shaped heating return pipe 23, the cooling system comprises a U-shaped condensing return pipe 24, after passing through the cooling and heating return pipe 24, the air is cooled, and then the ninth air pipe 19 and the exhaust valve 8 are passed, and finally, the air enters the exhaust tower body 9, and the dry air is exhausted from the exhaust tower body 9 through the exhaust pump 7, so that the high-efficiency air drying is realized, the air freshening function is realized, an electronic valve is not needed for control, the energy consumption is reduced, and the use cost of a client is favorably reduced.

Further, the purification box 14 comprises a dust-proof net 21, a dust-proof sponge 20 and a filtering sponge 22 from top to bottom, the top of the purification box 14 is provided with an air inlet 14-1 communicated with the sixth air pipe 15, the bottom of the purification box 14 is provided with an air outlet 14-2 communicated with the seventh air pipe 16, primary filtration (filtration of air large particle dust) is performed through the dust-proof net 21, then the dust-proof sponge 20 is introduced, the tiny floating objects are further filtered, and finally the comprehensive filtration is realized through the filtering sponge 22.

The air inlet valve 5 and the air outlet valve 8 are both of shuttle valve structures, the shuttle valve is internally provided with steel balls 25 and hollow studs 26, the hollow studs 26 are arranged at two ends of the shuttle valve, the steel balls 25 are abutted against the hollow studs 26 and are placed in a channel of the shuttle valve, the steel balls 25 in the shuttle valve 6 are abutted against the hollow studs 26 under the condition of no external force, the valve is in a closed state, when compressed air in the air outlet 4 and the air inlet 5 is conveyed into an air inlet pipeline of the shuttle valve and reaches a certain pressure, the compressed air pushes the steel balls 25 open, the steel balls 25 move along with the change of the air pressure in the air inlet pipeline, the valve is opened, and the steel balls 25 are maintained in the valve opening state by utilizing the impulse force of the flowing of the compressed air; the shuttle valve can be used for opening and closing the valve by utilizing the air pressure and the impulsive force of the compressed gas, and compared with an electrically controlled valve, the shuttle valve is used for reducing the control parts of the valve, so that the size of the suction dryer is reduced, and the failure rate of the electric appliance element which is influenced by the shuttle valve and the external environment to generate faults when the valve needs to be controlled is reduced.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. Micro-heating module suction dryer, including frame (1) and power (4), power (4) arrange in frame (1) inside, frame (1) on be equipped with through the fix with screw and admit air module and exhaust module, its characterized in that, admit air module and exhaust module between be connected with dry module, exhaust module, heating system and cooling system, the module of admitting air include 2 vertical setting intake tower (2), aspiration pump (3) and air inlet valve (5), aspiration pump (3) pass through second trachea (6) and air inlet valve (5) be linked together, air inlet valve (5) opposite side with intake tower (2) be connected, exhaust module include 2 vertical setting exhaust tower (9), exhaust pump (7) and exhaust valve (8), two sets of adjacent exhaust tower (9) pass through third trachea (10) and connect, the exhaust pump (7) is communicated with the exhaust valve (8) through a fourth air pipe (11), the other side of the exhaust valve (8) is connected with the exhaust tower body (9), a drying return pipe (12) is arranged in the drying module, the drying return pipe (12) is connected with the air inlet valve (5) through a fifth air pipe (13), a purification box (14) is arranged in the waste discharge module, the top of the purification box (14) is connected with a drying return pipe (12) through a sixth air pipe (15), the bottom of the purifying box (14) is communicated with the heating system through a seventh air pipe (16), the cooling system is arranged at the lower side of the heating system, and is connected with the heating system through a condenser (17) and an eighth air pipe (18), the cooling system is communicated with the exhaust valve (8) through a ninth air pipe (19).

2. The micro-thermal module drying machine according to claim 1, wherein the purification box (14) comprises a dust-proof net (21), a dust-proof sponge (20) and a filtering sponge (22) from top to bottom, the top of the purification box (14) is provided with an air inlet (14-1) communicated with the sixth air pipe (15), and the bottom of the purification box (14) is provided with an air outlet (14-2) communicated with the seventh air pipe (16).

3. The micro thermal module blotter of claim 1 wherein the heating system comprises a U-shaped heating return tube (23).

4. The micro thermal module blotter of claim 1 wherein the cooling system comprises a U-shaped condensate return (24).

5. The micro-thermal module sucking dryer according to claim 1, wherein the air inlet valve (5) and the air outlet valve (8) are both of a shuttle valve structure, steel balls (25) and hollow studs (26) are arranged in the shuttle valve, the hollow studs (26) are arranged at two ends of the shuttle valve, and the steel balls (25) are abutted against the hollow studs (26) and are placed in a channel of the shuttle valve.

6. The micro thermal module dryer according to claim 1, wherein the power source (4) is electrically connected to the air intake module, the air exhaust module, the drying module, the waste discharge module, the heating system and the cooling system.

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