CN209840543U - Moisture-absorbing device for spunlace nonwoven coiled material - Google Patents

Abstract

The utility model relates to a moisture-absorbing device of spunlace nonwoven coiled material, which comprises a hollow moisture-absorbing base and a stand column which is detachably connected with the moisture-absorbing base and is internally communicated with the moisture-absorbing base, wherein the top of the stand column is sealed, dense moisture-absorbing holes are arranged on the column wall of the stand column, the moisture-absorbing base is communicated with a gas tank through a pipeline, the top of the gas tank is connected with a vacuum pump through a pipeline, and the bottom of the gas tank is connected with a self-priming pump through a pipeline; the utility model is provided with the hollow dehumidifying base and the upright post communicated with the hollow dehumidifying base, and the dehumidifying hole is arranged on the outer wall of the upright post, so that when the vacuum pump vacuumizes the air tank, air outside the upright post quickly passes through the water-punched non-woven material and enters the air tank through the dehumidifying hole, thereby achieving the purpose of pressure balance in the air tank, and in the process, a large amount of air continuously passes through the coiled material needing dehumidifying and drying, thereby taking away the moisture in the coiled material, and realizing the purposes of dehumidifying and drying; the utility model has the characteristics of simple structure takes out wet efficiently to the energy consumption is low, environmental protection more.

Description

Moisture-absorbing device for spunlace nonwoven coiled material

Technical Field

The utility model relates to a take out wet equipment technical field, specifically be a take out wet device of water thorn non-woven coiled material.

Background

The spunlace nonwoven fabric is formed by jetting high-pressure micro water flow onto one or more layers of fiber webs to enable the fibers to be mutually entangled, so that the fiber webs are reinforced and have certain strength, and the obtained fabric is the spunlace nonwoven fabric. The fiber raw materials are widely available, and can be terylene, chinlon, polypropylene fiber, viscose fiber, chitin fiber, superfine fiber, tencel, silk, bamboo fiber, wood pulp fiber, alginate fiber and the like.

Since spunlace nonwoven fabrics are formed by water jet, the hydroentangled material contains a large amount of water, and the water in the hydroentangled material needs to be dehumidified and dried to obtain a material that can be continuously produced or used directly.

The existing drying method for the spunlace material mostly adopts a heat exchange drying mode, and the mode has the problems of high cost, energy consumption, environmental protection and low dehumidifying and drying efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem lie in overcoming the defect among the prior art, provide a moisture extraction device of water thorn non-woven coiled material to solve at least one kind technical problem among the prior art.

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

the utility model provides a water thorn non-woven coiled material take out device of wetting, including hollow take out wet base and with take out the stand of the detachable connection of wet base and inside intercommunication, the stand top is sealed, sets up the hole of taking out of densely covered on the column wall, take out wet base and pass through pipeline and gas pitcher intercommunication, pipeline and vacuum pump connection are passed through at the gas pitcher top, and the gas pitcher bottom is passed through the pipeline and is connected with the self priming pump.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses a new dehumidification method is proposed on the whole, and this dehumidification method relies on the utility model discloses a structure is realized, particularly, when using, the cover of water thorn material lapping is put outside the stand, the utility model discloses a set up hollow dehumidification base and with the stand of hollow dehumidification base intercommunication, and through division dehumidification hole at the stand outer wall, make when the vacuum pump vacuumized the gas pitcher, the outside air money of stand is fast passed through the big book of water thorn non-woven materials and further enters into the gas pitcher through dehumidification hole, in order to reach the balanced purpose of gas pitcher internal pressure, in this process, constantly accompanies the air a large amount of coiled materials that need to dehumidify the drying, thereby takes away the moisture in the coiled material, realizes dehumidifying and drying purpose; the utility model has the characteristics of simple structure takes out wet efficiently to the energy consumption is low, environmental protection more.

Drawings

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

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.

Referring to the attached figure 1, the dehumidifying device for the spunlace nonwoven coiled material comprises a hollow dehumidifying base 1 and a vertical column 2 which is detachably connected with the dehumidifying base 1 and is internally communicated, the top of the vertical column 2 is sealed, dense dehumidifying holes 3 are formed in the wall of the vertical column 2, the dehumidifying base 1 is communicated with a gas tank 4 through a pipeline, the top of the gas tank 4 is connected with a vacuum pump 5 through a pipeline, and the bottom of the gas tank 4 is connected with a self-sucking pump 6 through a pipeline; and valves 7 are arranged between the vacuum pump 5 and the gas tank 4 and between the self-priming pump 6 and the gas tank 4.

Above-mentioned scheme has proposed a new dehumidification method on the whole, and this dehumidification method relies on the utility model discloses a structure realizes, particularly, when using, the cover of water thorn material lapping is put outside the stand, the utility model discloses a set up hollow dehumidification base and with the stand of hollow dehumidification base intercommunication, and through division dehumidification hole in the stand outer wall, make when the vacuum pump vacuumized the gas pitcher, the outside air money of stand is fast to pass through the big book of water thorn non-woven materials and further enters into the gas pitcher through dehumidification hole, in order to reach the balanced purpose of gas pitcher internal pressure, and in this process, constantly along with the air a large amount of coiled materials that need to dehumidify the drying, thereby take away the moisture in the coiled material, realize dehumidifying and dry purpose; the utility model has the characteristics of simple structure and high dehumidifying efficiency, and has low energy consumption and more environmental protection; for reaching better dehumidification drying effect, can also with the utility model discloses an it prevents under high temperature environment to take out the wet unit, perhaps improves the temperature of taking out air in the wet unit environment to can also make air and water thorn material at the in-process formation heat exchange of continuous contact, further improve and take out wet efficiency.

Among the above-mentioned scheme, vacuum pump 5's purpose is that the evacuation makes and produces the negative pressure in the gas pitcher 4, and then forces the air to pass the water thorn material and get into gas pitcher 4, and self priming pump 6 is in order to get rid of the water that the gas pitcher 4 bottom was catched, and the purpose of setting up valve 7 is the backward flow of convenient control air or water, and the control of also being convenient for simultaneously is from starting stopping of inhaling 6 pumps.

Preferably, the dehumidifying base 1 is connected with the three fifths of the height of the gas tank 4 through a pipeline, and due to the action of the vacuum pump 5, the water-gas mixed fluid entering the gas tank 4 from the pipeline has upward moving speed, and the gravity of water drops can be utilized to ensure that the water drops are all converged at the bottom of the gas tank 4 by controlling the connecting height of the pipeline and the gas tank 4, so that the vacuum pump 5 can be protected, and water can be prevented from entering the vacuum pump.

Preferably, take out wet base 1 with 2 threaded connection on the stand, threaded connection back not only can be more convenient when needing to be followed and trade stand 2, can also reach accurate sealed cooperation simultaneously, guarantees that the air can only get into the gas pitcher from taking out wet hole 3, guarantees to take out wet effect.

Preferably, the gas tank 4 is made of stainless steel, and since water is collected at the bottom of the gas tank 4 for a long time and a large amount of air continuously enters the gas tank 4, the gas tank 4 is easily corroded, and the service life of the gas tank 4 can be prolonged by adopting the stainless steel.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (5)

1. A moisture extraction device for a spunlace nonwoven web, comprising: including hollow dehumidifying base and with dehumidifying the detachable connection of base and the stand of inside intercommunication, the stand top is sealed, set up the hole of dehumidifying of densely covered on the column wall of stand, dehumidifying the base and passing through pipeline and gas pitcher intercommunication, pipeline and vacuum pump connection are passed through at the gas pitcher top, and the gas pitcher bottom is passed through the pipeline and is connected with the self priming pump.

2. A moisture wicking device as claimed in claim 1 in a hydroentangled nonwoven web, wherein: and valves are arranged between the vacuum pump and the gas tank and between the self-priming pump and the gas tank.

3. A moisture wicking device as claimed in claim 1 in a hydroentangled nonwoven web, wherein: the dehumidifying base is connected with three fifths of the height of the gas tank through a pipeline.

4. A moisture wicking device as claimed in claim 1 in a hydroentangled nonwoven web, wherein: the dehumidifying base is in threaded connection with the upright post.

5. A moisture wicking device as claimed in claim 1 in a hydroentangled nonwoven web, wherein: the gas tank is made of stainless steel material.