CN209934429U - Silica gel runner - Google Patents

Abstract

The utility model belongs to the technical field of the runner, a silica gel runner is disclosed, include: the central drum is axially and sequentially provided with a first dehumidification layer, a second dehumidification layer, a third dehumidification layer and a fourth dehumidification layer; the first dehumidification layer is a honeycomb dehumidification layer; a second dehumidification layer comprising a plurality of first dehumidification plates circumferentially arranged on a central drum, the plurality of first dehumidification plates being spirally inclined on the central drum; the third dehumidification layer is a honeycomb dehumidification layer; and a fourth dehumidification layer comprising a plurality of second dehumidification plates circumferentially arranged on the central drum, the plurality of second dehumidification plates being spirally inclined on the central drum. This silica gel runner can improve the regeneration adsorption effect of silica gel runner, and the silica gel runner that improves adsorption effect can carry out regeneration adsorption dehumidification to the moisture in the air better and handle, has reduced the processing degree of difficulty of handling fan and regeneration fan intangibly.

Description

Silica gel runner

Technical Field

The utility model belongs to the technical field of the runner, concretely relates to silica gel runner.

Background

Air humidity is an important environmental parameter that is closely related to people's life and production. The human body is attacked by 'wet', and the human health is influenced by the heat balance being destroyed. Air humidity has great negative influence on the yield, quality, strength, appearance and the like of products, is a crucial factor in the production, processing and storage processes of industrial products, and the production of a plurality of products has high requirements on environmental humidity. In particular, the requirements of high-tech products on humidity are stricter. Neither production under high humidity nor storage in a humid environment is possible.

Museums, libraries and the like have to create good preservation environment to prevent the collected articles from going bad and deforming. These do not depart from dehumidification technology.

A rotary dehumidifier belongs to an important branch of the air conditioning field, a rotary is a core component of the rotary dehumidifier, and a moisture absorbent is a key material of the rotary. Currently, the widely adopted moisture absorbents are silica gel, halide silicate silica gel, composite materials of halide acid salts, molecular sieves and the like.

The existing rotating wheel is mostly of a single honeycomb structure, air inlet and air outlet are achieved through a honeycomb structure on the rotating wheel in air ports of the processing fan and the regeneration fan, air can circulate, the rotating wheel can be regenerated to absorb and dehumidify, but the honeycomb structure increases the surface area of a dehumidifying medium for absorbing moisture, the processing difficulty of the processing fan and the regeneration fan is improved invisibly, the regeneration absorption effect of the rotating wheel is reduced, and therefore the silica gel rotating wheel is provided.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model aims to provide a silica gel runner.

The utility model discloses the technical scheme who adopts does:

a silica gel wheel, comprising:

the central drum is axially and sequentially provided with a first dehumidification layer, a second dehumidification layer, a third dehumidification layer and a fourth dehumidification layer;

the first dehumidification layer is a honeycomb dehumidification layer;

a second dehumidification layer comprising a plurality of first dehumidification plates circumferentially arranged on a central drum, the plurality of first dehumidification plates being spirally inclined on the central drum;

the third dehumidification layer is a honeycomb dehumidification layer; and

a fourth dehumidification layer comprising a plurality of second dehumidification plates circumferentially arranged on the central drum, the plurality of second dehumidification plates being helically inclined on the central drum.

Further, the first dehumidification layer and the third dehumidification layer are both inorganic glass fiber layers.

Further, the first dehumidifying plate and the second dehumidifying plate are both inorganic glass fiber plates.

Furthermore, the first dehumidification layer and the third dehumidification layer comprise a plurality of fan-shaped dehumidification layers, the fan-shaped dehumidification layers are circumferentially arranged on the rotary drum, and included angles of two adjacent fan-shaped dehumidification layers are equal; the fan-shaped dehumidification layers of the first dehumidification layer and the third dehumidification layer are arranged in a staggered mode.

Further, the included angle of two adjacent fan-shaped dehumidification layers of first dehumidification layer is 10 degrees, the included angle of two adjacent fan-shaped dehumidification layers of third dehumidification layer is 10 degrees.

Further, the central angle of the fan-shaped dehumidification layer is 30 degrees.

The utility model has the advantages that:

when the silica gel runner is used, the air with moisture sequentially passes through the first dehumidification layer, the second dehumidification layer, the third dehumidification layer and the fourth dehumidification layer, and the first dehumidification layer and the third dehumidification layer are honeycomb dehumidification layers, so that the surface areas of dehumidification treatment of the first dehumidification layer and the third dehumidification layer can be increased, and the dehumidification capacity of the first dehumidification layer and the third dehumidification layer is improved; in addition, the air entering the second dehumidification layer and the fourth dehumidification layer is driven to rotate to form a rightward rotating airflow, a rotating and centrifugal effect is formed, a water separation core in the air is driven to be thrown out, the dehumidification treatment effect is improved, the air is further dehumidified by the third dehumidification layer and finally enters the fourth dehumidification layer, the water separation core in the air is driven to be thrown out, the thrown-out water is treated by the treatment fan 41 or the heater, the regeneration adsorption effect of the silica gel rotating wheel is improved, the silica gel rotating wheel with the improved adsorption effect can better perform regeneration adsorption dehumidification treatment on the water in the air, the treatment difficulty of the treatment fan and the regeneration fan is invisibly reduced, and the dehumidification efficiency is improved.

Drawings

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

Fig. 2 is a schematic distribution diagram of a plurality of first dehumidifying plates according to the present invention.

Fig. 3 is a partial cross-sectional view of fig. 1.

Fig. 4 is a schematic structural view of the silica gel rotary wheel and the dehumidifier rotary wheel box of the present invention.

FIG. 5 is a schematic structural view of a first dehumidification layer.

FIG. 6 is a schematic structural view of a third dehumidification layer.

In the figure: 11-a first desiccant layer; 12-a third dehumidification layer; 21-a second desiccant layer; 22-a fourth desiccant layer; 23-a first dehumidification plate; 3-a central drum; 41-a treatment fan; 42-a regenerative fan; 5-a heater; 6-fan-shaped dehumidification layer.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

Example 1:

as shown in fig. 1, the silica gel rotor of the present embodiment includes a central drum 3, a first dehumidification layer 11, a second dehumidification layer 21, a third dehumidification layer 12 and a fourth dehumidification layer 22, and the first dehumidification layer 11, the second dehumidification layer 21, the third dehumidification layer 12 and the fourth dehumidification layer 22 are axially and sequentially disposed on the central drum 3. The first dehumidification layer 11 and the third dehumidification layer 12 are both honeycomb type dehumidification layers, a schematic partial section view of the first dehumidification layer 11 is shown in fig. 3, the honeycomb type dehumidification layers are made of inorganic glass fibers, a massive honeycomb material imported from the united states is selected, glass fiber base materials account for 16% and silica gel content is 82% in the material, the material has a high-temperature-resistant dehumidification effect, the material is certified by the association of american sanitation workers, the material conforms to the american occupational safety and sanitation regulations and is detected by the american NREL (american national renewable energy laboratory), and all technical indexes reach the same leading level in the industry. Because the first dehumidification layer and the third dehumidification layer are both honeycomb type dehumidification layers, the surface area of dehumidification treatment of the first dehumidification layer and the third dehumidification layer can be increased, and therefore the dehumidification capacity of the first dehumidification layer 11 and the third dehumidification layer 12 is improved.

As shown in fig. 2, the second dehumidification layer 21 comprises a plurality of first dehumidification plates 23 circumferentially arranged on a central drum on which a plurality of first dehumidification plates are spirally inclined; the arrangement mode of a plurality of first dehumidification boards is similar to the arrangement mode of whirl board blade of whirl board, and wherein, inorganic glass fiber is also chooseed for use to the material of first dehumidification board, and the hygroscopicity is better.

The fourth dehumidification layer includes that a plurality of second dehumidification boards that are the circumference and arrange on central rotary drum, and a plurality of second dehumidification boards are the spiral slope and are in on the central rotary drum, the arrangement mode of a plurality of second dehumidification boards is similar to the arrangement mode of the whirl board blade of whirl board, and wherein, inorganic glass fiber is also chooseed for use to the material of second dehumidification board, and the hygroscopicity is better.

As shown in fig. 4, the silica gel runner combines dehumidifier runner case to use together, includes casing, heater 5, processing fan 41 and regeneration fan 42 with dehumidifier runner case, and heater 5, processing fan 41 and regeneration fan 42 all establish in the casing, the utility model discloses a silica gel runner sets up in the casing with rotating, adopts the absorption formula dehumidification of regeneration heating to circulate the dehumidification, through the utility model discloses a moisture in the silica gel runner process air, moisture in the process air is adsorbed by the hygroscopic material in the silica gel runner, then is desorbed by regeneration heating air again. The two air flows act on the silica gel rotating wheel simultaneously, and along with the rotation of the silica gel rotating wheel, the moisture in the processing air is continuously adsorbed and desorbed by the regeneration air to be discharged, so that the dry air is generated in cycles. When the silica gel rotary wheel of the utility model is used (when in installation, the spiral directions of the first dehumidification plates and the second dehumidification plates face the processing fan 41), the air with moisture sequentially passes through the first dehumidification layer, the second dehumidification layer, the third dehumidification layer and the fourth dehumidification layer, the dehumidification processing is firstly carried out by the first dehumidification layer, along with the suction of the processing fan and the rotation of the silica gel rotary wheel, the air enters the second dehumidification layer again, because the first dehumidification plates are spirally inclined on the central rotary drum, the air entering the second dehumidification layer is driven to rotate to form a rightward rotating air flow, a rotating and centrifugal effect is formed, the water separation core in the air is driven to be thrown out, the dehumidification processing effect is improved, the air is further dehumidified by the third dehumidification layer, and finally the fourth dehumidification layer is driven to be thrown out, the water separation core in the air can also be driven to be thrown out, the thrown out moisture is processed by the processing fan 41 or the heater, the regeneration adsorption effect of the silica gel rotating wheel is improved, and the silica gel rotating wheel with the improved adsorption effect can better perform regeneration adsorption dehumidification treatment on moisture in the air

Because of the equal slope setting of a plurality of second dehumidification boards and a plurality of first dehumidification boards, the dehumidification board that the slope set up is crisscross the setting with honeycomb's dehumidification layer, can make the orbit that passes through the air on first dehumidification layer, second dehumidification layer, third dehumidification layer and fourth dehumidification layer in proper order like this be the type s, has prolonged the dwell time of air in the silica gel runner, has improved the dehumidification treatment effect of silica gel runner.

Example 2:

as shown in fig. 1, the silica gel rotor of the present embodiment includes a central drum 3, a first dehumidification layer 11, a second dehumidification layer 21, a third dehumidification layer 12 and a fourth dehumidification layer 22, and the first dehumidification layer 11, the second dehumidification layer 21, the third dehumidification layer 12 and the fourth dehumidification layer 22 are axially and sequentially disposed on the central drum 3. The first dehumidification layer 11 and the third dehumidification layer 12 are both honeycomb type dehumidification layers, a schematic partial section view of the first dehumidification layer 11 is shown in fig. 3, the honeycomb type dehumidification layers are made of inorganic glass fibers, a massive honeycomb material imported from the united states is selected, glass fiber base materials account for 16% and silica gel content is 82% in the material, the material has a high-temperature-resistant dehumidification effect, the material is certified by the association of american sanitation workers, the material conforms to the american occupational safety and sanitation regulations and is detected by the american NREL (american national renewable energy laboratory), and all technical indexes reach the same leading level in the industry. Because the first dehumidification layer and the third dehumidification layer are both honeycomb type dehumidification layers, the surface area of dehumidification treatment of the first dehumidification layer and the third dehumidification layer can be increased, and therefore the dehumidification capacity of the first dehumidification layer 11 and the third dehumidification layer 12 is improved.

As shown in fig. 2, the second dehumidification layer 21 comprises a plurality of first dehumidification plates 23 circumferentially arranged on a central drum on which a plurality of first dehumidification plates are spirally inclined; the arrangement mode of a plurality of first dehumidification boards is similar to the arrangement mode of whirl board blade of whirl board, and wherein, inorganic glass fiber is also chooseed for use to the material of first dehumidification board, and the hygroscopicity is better.

The fourth dehumidification layer includes that a plurality of second dehumidification boards that are the circumference and arrange on central rotary drum, and a plurality of second dehumidification boards are the spiral slope and are in on the central rotary drum, the arrangement mode of a plurality of second dehumidification boards is similar to the arrangement mode of the whirl board blade of whirl board, and wherein, inorganic glass fiber is also chooseed for use to the material of second dehumidification board, and the hygroscopicity is better.

As shown in fig. 4, the silica gel runner combines dehumidifier runner case to use together, includes casing, heater 5, processing fan 41 and regeneration fan 42 with dehumidifier runner case, and heater 5, processing fan 41 and regeneration fan 42 all establish in the casing, the utility model discloses a silica gel runner sets up in the casing with rotating, adopts the absorption formula dehumidification of regeneration heating to circulate the dehumidification, through the utility model discloses a moisture in the silica gel runner process air, moisture in the process air is adsorbed by the hygroscopic material in the silica gel runner, then is desorbed by regeneration heating air again. The two air flows act on the silica gel rotating wheel simultaneously, and along with the rotation of the silica gel rotating wheel, the moisture in the processing air is continuously adsorbed and desorbed by the regeneration air to be discharged, so that the dry air is generated in cycles. When the silica gel rotary wheel of the utility model is used (when in installation, the spiral directions of the first dehumidification plates and the second dehumidification plates face the processing fan 41), the air with moisture sequentially passes through the first dehumidification layer, the second dehumidification layer, the third dehumidification layer and the fourth dehumidification layer, the dehumidification processing is firstly carried out by the first dehumidification layer, along with the suction of the processing fan and the rotation of the silica gel rotary wheel, the air enters the second dehumidification layer again, because the first dehumidification plates are spirally inclined on the central rotary drum, the air entering the second dehumidification layer is driven to rotate to form a rightward rotating air flow, a rotating and centrifugal effect is formed, the water separation core in the air is driven to be thrown out, the dehumidification processing effect is improved, the air is further dehumidified by the third dehumidification layer, and finally the fourth dehumidification layer is driven to be thrown out, the water separation core in the air can also be driven to be thrown out, the thrown out moisture is processed by the processing fan 41 or the heater, the regeneration adsorption effect of the silica gel rotating wheel is improved, and the silica gel rotating wheel with the improved adsorption effect can better perform regeneration adsorption dehumidification treatment on moisture in the air.

Because of the equal slope setting of a plurality of second dehumidification boards and a plurality of first dehumidification boards, the dehumidification board that the slope set up is crisscross the setting with honeycomb's dehumidification layer, can make the orbit that passes through the air on first dehumidification layer, second dehumidification layer, third dehumidification layer and fourth dehumidification layer in proper order like this be the type s, has prolonged the dwell time of air in the silica gel runner, has improved the dehumidification treatment effect of silica gel runner.

In this embodiment, as shown in fig. 5 and 6, the first dehumidification layer and the third dehumidification layer include a plurality of fan-shaped dehumidification layers 6, and the fan-shaped dehumidification layers have a honeycomb structure, so that the dehumidification capacities of the first dehumidification layer 11 and the third dehumidification layer 12 can be improved.

A plurality of fan-shaped dehumidification layers 6 are circumferentially arranged on the rotary drum 3, and the included angles of two adjacent fan-shaped dehumidification layers are equal; when in installation, the plurality of fan-shaped dehumidification layers of the first dehumidification layer and the third dehumidification layer are arranged in a staggered way, preferably, the fan-shaped dehumidification layer of the first dehumidification layer correspondingly shields the included angle area of two adjacent fan-shaped dehumidification layers of the third dehumidification layer, the fan-shaped dehumidification layer of the third dehumidification layer correspondingly shields the included angle area of two adjacent fan-shaped dehumidification layers of the first dehumidification layer, like this both can make the orbit of the air through first dehumidification layer and third dehumidification layer be the s type, can make the fan-shaped dehumidification layer of first dehumidification layer and third dehumidification layer carry out dehumidification with covering totally to the moisture of air again, the purpose of crisscross setting still is favorable to handling fan 41 and heater and carries out dehumidification processing to the moisture that adsorbs on first dehumidification layer and the third dehumidification layer, is favorable to the re-absorption on first dehumidification layer and third dehumidification layer, further improves the regeneration adsorption performance on first dehumidification layer and third dehumidification layer.

Wherein, the contained angle on two adjacent fan-shaped dehumidification layers on first dehumidification layer is 10 degrees, the contained angle on two adjacent fan-shaped dehumidification layers on third dehumidification layer is 10 degrees, and the first dehumidification layer of being convenient for and third dehumidification layer staggered arrangement.

The central angle of the fan-shaped dehumidification layer is 30 degrees, and moisture in the air can be adsorbed through the fan-shaped dehumidification layers, so that the dehumidification capacity of the first dehumidification layer and the second dehumidification layer is guaranteed.

In a word, when the silica gel runner of the utility model is used, the air with moisture sequentially passes through the first dehumidification layer, the second dehumidification layer, the third dehumidification layer and the fourth dehumidification layer, and the first dehumidification layer and the third dehumidification layer are both honeycomb type dehumidification layers, so that the surface area of dehumidification treatment of the first dehumidification layer and the third dehumidification layer can be increased, and the dehumidification capacity of the first dehumidification layer and the third dehumidification layer is improved; in addition, the air entering the second dehumidification layer and the fourth dehumidification layer is driven to rotate to form a rightward rotating air flow, a rotating and centrifugal effect is formed, a water separation core in the air is driven to be thrown out, the dehumidification treatment effect is improved, the air is further dehumidified through the third dehumidification layer and finally enters the fourth dehumidification layer, the water separation core in the air is driven to be thrown out, the thrown-out water is treated through the treatment fan 41 or the heater, the regeneration adsorption effect of the silica gel runner is improved, and the silica gel runner with the improved adsorption effect can better perform regeneration adsorption dehumidification treatment on the water in the air.

The present invention is not limited to the above-mentioned optional embodiments, and any other products in various forms can be obtained by anyone under the teaching of the present invention, and any changes in the shape or structure thereof, all the technical solutions falling within the scope of the present invention, are within the protection scope of the present invention.

Claims (6)

1. A silica gel runner which is characterized in that: the method comprises the following steps:

the central drum is axially and sequentially provided with a first dehumidification layer, a second dehumidification layer, a third dehumidification layer and a fourth dehumidification layer;

the first dehumidification layer is a honeycomb dehumidification layer;

a second dehumidification layer comprising a plurality of first dehumidification plates circumferentially arranged on a central drum, the plurality of first dehumidification plates being spirally inclined on the central drum;

the third dehumidification layer is a honeycomb dehumidification layer; and

a fourth dehumidification layer comprising a plurality of second dehumidification plates circumferentially arranged on the central drum, the plurality of second dehumidification plates being helically inclined on the central drum.

2. The silica gel wheel of claim 1, wherein: the first dehumidification layer and the third dehumidification layer are both inorganic glass fiber layers.

3. The silica gel wheel of claim 2, wherein: the first dehumidifying plate and the second dehumidifying plate are both inorganic glass fiber plates.

4. A silica gel wheel according to any one of claims 1-3, wherein: the first dehumidification layer and the third dehumidification layer comprise a plurality of fan-shaped dehumidification layers, the fan-shaped dehumidification layers are circumferentially arranged on the rotary drum, and included angles of two adjacent fan-shaped dehumidification layers are equal; the fan-shaped dehumidification layers of the first dehumidification layer and the third dehumidification layer are arranged in a staggered mode.

5. The silica gel wheel of claim 4, wherein: the contained angle on two adjacent fan-shaped dehumidification layers on first dehumidification layer is 10 degrees, the contained angle on two adjacent fan-shaped dehumidification layers on third dehumidification layer is 10 degrees.

6. The silica gel wheel of claim 5, wherein: the central angle of the fan-shaped dehumidification layer is 30 degrees.

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