CN112902320A - Differential sliding dehumidification device - Google Patents

Abstract

The invention discloses a differential sliding dehumidification device, which comprises: the integral box body is internally partitioned into a first cavity and a second cavity which are mutually independent through a wind shield; the dehumidifying air supply channel is arranged between the first cavity and the second cavity and is used for introducing the humid air entering the first cavity into the second cavity for dehumidification; the regeneration drying air channel is arranged between the first cavity and the second cavity and used for introducing fresh air entering the second cavity into the first cavity and heating the fresh air into high-temperature and extremely-low-dew-point dry air; the dehumidifying medium alternately moves between the dehumidifying air supply channel and the regenerating dry air channel to realize the function conversion of moisture absorption and regeneration; the invention provides a brand new differential slip dehumidification technology, which solves the problem of high air leakage rate of a moisture absorption area and a regeneration area in the current solid adsorption dehumidification field.

Description

Differential sliding dehumidification device

Technical Field

The invention relates to the technical field of air conditioners, in particular to a differential sliding dehumidification device.

Background

At present, energy-conservation, the environmental protection, high efficiency, standardization has been the thread of air conditioner trade development, the general rotation dehumidification technique of air conditioner dehumidifies the operation, the core part and a honeycomb runner of rotation dehumidification technique, the runner both sides divide into two regions, moisture absorption district and regeneration area, when the supermarket air that needs the dehumidification passes through the processing area of runner, the vapor of humid air is adsorbed by the runner, dry air is delivered to the space that needs to handle by the processing fan, and the constantly slow pivoted runner is carrying the vapor that tends to saturation and is got into the regeneration area, the high temperature air of reverse insufflating in the regeneration area makes adsorbed moisture in the runner by the desorption, it is outdoor by the fan discharge, thereby make the rotation resume hygroscopic function and accomplish the regeneration.

The defect of the rotating wheel dehumidification technology structure lies in that the air leakage rate of the moisture absorption area and the regeneration area is large, the rotating frame of the rotating wheel core body is too large in the matching position of the rotating wheel frame body, the precision machining is not easy, the matching is rough, the swinging of the rotating shaft which is transmitted to the edge of the rotating wheel in a clearance mode is large, the moisture absorption area and the regeneration area are three-dimensionally sealed, two 1/4 circular arcs are added to two sealed radiuses, the sealing distance is long, the sealing difficulty is large, the current machine is mainly sealed by thickening tetrachloro silica gel composite adhesive tapes and sealing glue, the air leakage rate of a new machine is generally larger than 5%, after the new machine runs for a long time, the air leakage rate can be far.

Disclosure of Invention

The invention aims to provide a differential sliding dehumidification device to solve the technical problem that the air leakage rate of a moisture absorption area and a regeneration area is high in the prior art.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

a differential skid dehumidification device comprising:

the integral box body is internally partitioned into a first cavity and a second cavity which are mutually independent through a wind shield;

the dehumidifying air supply channel is arranged between the first cavity and the second cavity and is used for introducing the humid air entering the first cavity into the second cavity for dehumidification;

the regeneration drying air channel is arranged between the first cavity and the second cavity and used for introducing fresh air entering the second cavity into the first cavity and heating the fresh air into high-temperature and extremely-low-dew-point dry air;

and the dehumidifying medium alternately moves between the dehumidifying air supply channel and the regenerating dry air channel to realize the function conversion of moisture absorption and regeneration.

As a preferable scheme of the present invention, the dehumidifying medium includes at least one set of differential slipping dehumidifying cores, each set of differential slipping dehumidifying cores is provided with two and the two differential slipping dehumidifying cores alternately move between the dehumidifying air supply channel and the regenerating dry air channel so that the air passing areas of the dehumidifying air supply channel and the regenerating dry air channel are dynamically equal.

As a preferable scheme of the present invention, a differential sliding dehumidification box body for the differential sliding dehumidification core body to slide is arranged in the second cavity, one end of the differential sliding dehumidification box body is opposite to the dehumidification air supply channel, the other end of the differential sliding dehumidification box body is opposite to the regeneration dry air channel, a plurality of sets of sliding guide rails are arranged in the differential sliding dehumidification box body from top to bottom, two sliding guide rails are arranged in each set, the differential sliding dehumidification cores are assembled in the sliding guide rails one by one, and a differential sliding transmission mechanism for driving the differential sliding dehumidification core bodies on the two vertically adjacent sliding guide rails to move in the opposite direction or in the opposite direction is arranged on the differential sliding dehumidification box body.

As a preferable scheme of the invention, the differential slip dehumidification core comprises a closed square box body at two ends and a honeycomb square box body in the middle, and the differential slip transmission mechanism is installed on the closed square box body at one end to realize the reciprocating movement of the honeycomb square box body in the dehumidification air supply area and the regeneration drying area.

As a preferable scheme of the present invention, the differential slippage transmission mechanism includes a motor and a speed-adjusting commutator connected to the motor, the speed-adjusting commutator is connected to a transmission chain, a gear shaft is disposed between two differential slippage dehumidification cores in the same group, the transmission chain is connected to a sprocket connected to the gear shaft in a transmission manner, a transmission rack engaged with the gear shaft is disposed on a closed square box body in the two differential slippage dehumidification cores located above and below the gear shaft, and the two differential slippage dehumidification cores move in the opposite direction or in the opposite direction by the rotation of the gear shaft.

As a preferable scheme of the invention, the clearance between the bottom of the closed square box body and the sliding guide rail is less than 1mm, and a layer of lubricating oil film is arranged on the sliding guide rail.

As a preferable scheme of the invention, the integral box body comprises an underframe and a frame built on the underframe, a panel is mounted on each surface of the frame, the wind shield is arranged in the frame, and each edge of the wind shield is connected with one of the panels.

As a preferred scheme of the present invention, an air supply air valve and an air supply filter are installed on a panel of the integrated box body on a side close to the air inlet of the dehumidification air supply passage, and an air supply fan and an air supply flange are installed on a panel of the integrated box body on a side close to the air outlet of the dehumidification air supply passage.

As a preferred scheme of the present invention, the regenerative drying air channel includes a regenerative return air channel disposed in the second cavity and a regenerative outlet air channel disposed in the first cavity, the wind guard is provided with an air port through which the regenerative return air channel and the regenerative outlet air channel are communicated, a panel of the integrated box body on a side close to the air inlet of the regenerative drying air channel is provided with a regenerative air valve and a regenerative filter, a panel of the integrated box body on a side close to the air outlet of the regenerative drying air channel is provided with a regenerative fan motor, and a regenerative heating device for heating introduced fresh air is disposed between the regenerative filter and the regenerative return air channel.

As a preferred scheme of the invention, one end of the differential slip dehumidification box body is clamped between the regeneration return air duct and the wind shield, and a sealing layer is arranged at a connecting gap between the differential slip dehumidification box body and the regeneration return air duct and the wind shield.

Compared with the prior art, the invention has the following beneficial effects:

the invention is different from the traditional rotating wheel dehumidification mode, and provides a brand new differential slip dehumidification technology.A dehumidification medium alternately moves between a dehumidification air supply channel and a regeneration drying air channel to realize the functions of moisture absorption and regeneration, and can reduce the air leakage rate between the dehumidification air supply channel and the regeneration drying air channel by controlling the movement gap of the dehumidification medium between the dehumidification air supply channel and the regeneration drying air channel, thereby solving the problem of high air leakage rate of a moisture absorption area and a regeneration area in the current solid adsorption dehumidification field.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

FIG. 1 is a schematic structural diagram of a differential slip dehumidifier according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a differential slip transmission mechanism according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of the complete machine box provided by the embodiment of the invention.

The reference numerals in the drawings denote the following, respectively:

1. a differential slip dehumidification core; 2. a differential slip dehumidification box body; 3. a differential slip transmission mechanism; 4. a dehumidification air supply channel; 5. a regenerative drying air channel; 6. a whole machine box body;

1-1, sealing a square box body; 1-2, a honeycomb square box body; 1-3, a transmission rack;

3-1, a motor; 3-2, arranging a speed-regulating commutator; 3-3, a chain wheel; 3-4, conveying chains; 3-5, gear shaft; 3-6, a chain adjusting piece;

4-1, an air supply air valve; 4-2, an air supply filter; 4-3, an air supply fan motor; 4-4, an air supply flange;

5-1, a regeneration air valve; 5-2, regenerating a filter; 5-3, a regenerative heating device; 5-4, a regenerative return air duct; 5-5, regenerating an air outlet duct; 5-6, regenerating a fan motor;

6-1, a bottom frame; 6-2, a frame; 6-3, a panel; 6-4 and a wind shield.

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.

As shown in fig. 1, the present invention provides a differential slip dehumidification device, comprising:

the refrigerator comprises an integral box body 6, wherein the interior of the integral box body 6 is partitioned into a first cavity and a second cavity which are independent of each other through a wind shield 6-4;

the dehumidifying air supply channel 4 is arranged between the first cavity and the second cavity and is used for introducing the humid air entering the first cavity into the second cavity for dehumidification;

the regeneration drying air channel 5 is arranged between the first cavity and the second cavity, and is used for introducing fresh air entering the second cavity into the first cavity and heating the fresh air into high-temperature and extremely-low-dew-point dry air;

and the dehumidifying medium alternately moves between the dehumidifying air supply channel 4 and the regenerating dry air channel 5 to realize the function conversion of moisture absorption and regeneration.

The dehumidifying medium comprises at least one group of differential slippage dehumidifying cores 1, and each group of the differential slippage dehumidifying cores 1 is provided with two and two differential slippage dehumidifying cores 1 which move alternately between the dehumidifying air supply channel 4 and the regenerating dry air channel 5.

Each group has two differential slip dehumidification cores 1 the dehumidification air supply channel 4 and the regeneration dry air channel 5, one differential slip dehumidification core 1 moves to the regeneration dry air channel 5 from the dehumidification air supply channel 4, and simultaneously, the corresponding other differential slip dehumidification core 1 moves to the dehumidification air supply channel 4 from the regeneration dry air channel 5 synchronously, and multiunit synchronous reciprocating motion, dehumidification air supply channel 4 and regeneration dry air channel 5 cross the wind area developments and are equal.

Wherein, 2 standard sizes are generally done to the differential dehumidification core that slides, different amount of wind, different dehumidification degree of depth, through the increase and decrease of standard core quantity in three dimensions improve the standardization level of series products to greatly reduced product's operation and manufacturing cost.

Be provided with the confession in the second cavity differential slip dehumidification box 2 that differential slip dehumidification core 1 is gliding, differential slip dehumidification box 2's one end with dehumidification air supply channel 4 leads to relatively, differential slip dehumidification box 2's the other end with regeneration dry air passageway 5 leads to relatively, the inside of differential slip dehumidification box 2 installs multiunit glide guide from top to bottom, each group glide guide is provided with two, the assembly that differential slip dehumidification core 1 is one to one is in the glide guide, just install on the differential slip dehumidification box 2 and be used for driving upper and lower adjacent two on the glide guide differential slip dehumidification core 1 makes the differential transmission that slides of motion in opposite directions or back of the body mutually 3.

The differential slip dehumidification core 1 comprises a closed square box body 1-1 at two ends and a middle honeycomb square box body 1-2 which are connected, the honeycomb square box body 1-2 is formed by compounding ceramic fibers and active silica gel, ageing is not easy to occur, performance is stable, and the differential slip transmission mechanism 3 is installed at one end of the closed square box body 1-1 to achieve that the honeycomb square box body 1-2 is in the dehumidification air supply area and the regeneration drying area to move back and forth.

Based on the above, the operation principle of the embodiment of the invention is as follows:

and (3) starting an air supply fan 4-3, sucking wet air by an air valve 4-1 and a primary filter 4-2, absorbing moisture by a differential sliding dehumidification core 1, and sending dry air to a workplace. And (3) starting a regeneration fan 5-6, heating the fresh air into high-temperature and extremely-low dew point dry air at a high temperature by a regeneration heating device 5-3, and absorbing the moisture of the differential slip dehumidification core body 1 slipped from the dehumidification air supply channel 4 to achieve the aim of drying and regenerating the slip dehumidification core body 1. The opened differential slip transmission system 3 moves the regenerated differential slip dehumidification core 1 back to the dehumidification air supply channel 4, and simultaneously moves the slip dehumidification core 1 after moisture absorption to the regeneration dry air channel 5.

As shown in fig. 2, the differential slip transmission mechanism 3 comprises a motor 3-1 and a speed-regulating commutator 3-2 connected with the motor 3-1, the speed-regulating commutator 3-2 is connected with a transmission chain 3-4, a gear shaft 3-5 is arranged between the two differential slippage dehumidification cores 1 in the same group, the transmission chain 3-4 is in transmission connection with a chain wheel 3-3 connected with the gear shaft 3-5, a transmission rack 1-3 meshed with the gear shaft 3-5 is arranged on a closed square box body 1-1 in the two differential slippage dehumidification cores 1 above and below the gear shaft 3-5, the upper and lower differential slip dehumidifying cores 1 move towards or away from each other through the rotation of the gear shafts 3-5.

The motor 3-1 is used for outputting kinetic energy, and the speed regulating and reversing device 3-2 is used for regulating the direction and the speed, and can be understood as a speed reducer and other devices in the prior art, and all gear shafts 3-5 are driven to synchronously rotate by a chain wheel 3-3 and a transmission chain 3-4.

In order to ensure the effective transmission of the conveying chain 3-4, a chain adjusting device 3-6 is arranged on the conveying chain 3-4; the chain adjusting device 3-6 comprises a pressing part which is arranged at one side of the conveying chain 3-4 and presses the conveying chain 3-4 so that the conveying chain 3-4 is tightly meshed with the chain wheel 3-3, and a mounting part which is connected with the pressing part and fixed on the mounting box body of the differential slippage dehumidification core body 1.

The teeth of the conveying chain 3-4 are meshed with the gears of the chain wheel 3-3 through the chain adjusting device 3-6 without separation so as to ensure that the transmission of the conveying chain 3-4 and the chain wheel 3-3 is tight and effective.

The clearance between the bottom of the closed square box body 1-1 and the sliding guide rail is smaller than 1mm, and a layer of lubricating oil film is arranged on the sliding guide rail to ensure the effective sealing of the sliding guide rail.

As shown in fig. 3, the integral box 6 comprises an underframe 6-1 and a frame 6-2 built on the underframe 6-1, wherein each side of the frame 6-2 is provided with a panel 6-3, the wind deflector 6-4 is arranged inside the frame 6-2, and each side of the wind deflector 6-4 is connected with one of the panels 6-3.

An air supply air valve 4-1 and an air supply filter 4-2 are arranged on a panel 6-3 of the integral box body 6, which is close to one side of an air inlet of the dehumidifying air supply channel 4, and an air supply fan 4-3 and an air supply flange 4-4 are arranged on a panel 6-3 of the integral box body 6, which is close to one side of an air outlet of the dehumidifying air supply channel 4.

The regeneration drying air channel 5 comprises a regeneration return air channel 5-4 arranged in the second cavity and a regeneration outlet air channel 5-5 arranged in the first cavity, the wind shield 6-4 is provided with a wind port for communicating the regeneration air return duct 5-4 and the regeneration air outlet duct 5-5, a regeneration air valve 5-1 and a regeneration filter 5-2 are arranged on a panel 6-3 of the integral box body 6 close to one side of an air inlet of the regeneration drying air channel 5, a regenerative fan motor 5-6 is arranged on a panel 6-3 of the integral box body 6 close to one side of the air outlet of the regenerative drying air channel 5, and a regenerative heating device 5-3 for heating introduced fresh air is arranged between the regenerative filter 5-2 and the regenerative return air duct 5-4.

One end of the differential slip dehumidification box body 2 is clamped between the regeneration return air duct 5-4 and the wind shield 6-4, and a sealing layer is arranged at a connecting gap between the differential slip dehumidification box body 2 and the regeneration return air duct 5-4 and the wind shield 6-4.

The sealing layer material can adopt a tetrachloro silica gel composite tape or any one of other sealing materials which are high temperature resistant, difficult to age, good in elasticity and wear resistant.

In addition, the closed square box body 1-1 is made of any one of aluminum alloy, steel structure and plastic steel structure.

The transmission chain 3-4 in the differential slip transmission system 3 can be any one of a chain and a belt.

The driving chain wheel 3-3 in the differential slip driving system is any one of a chain wheel and a belt pulley.

The differential slip dehumidification box body 2 is any one of aluminum alloy, steel structure and plastic steel structure.

The regenerative heating device of the regenerative drying air system 5 is any one or combination of electric heating, hot water heating and steam heating.

The whole machine box body frame 6-2 is any one of an aluminum alloy broken cold bridge frame, a steel-structured broken cold bridge frame and a plastic steel broken cold bridge frame.

The panel 6-3 of the whole machine box body is made of a material which is arranged between an inner metal plate and an outer metal plate and polyurethane foam, and the thickness of the panel is any one of 30mm, 40mm and 50 mm.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (10)

1. A differential skid dehumidification device, comprising:

the air conditioner comprises an integral box body (6), wherein the interior of the integral box body (6) is partitioned into a first cavity and a second cavity which are independent of each other through a wind shield (6-4);

the dehumidifying air supply channel (4) is arranged between the first cavity and the second cavity and is used for introducing the humid air entering the first cavity into the second cavity for dehumidification;

the regeneration drying air channel (5) is arranged between the first cavity and the second cavity and used for introducing fresh air entering the second cavity into the first cavity and heating the fresh air into high-temperature and extremely-low-dew-point dry air;

and the dehumidifying medium alternately moves between the dehumidifying air supply channel (4) and the regenerating dry air channel (5) to realize the function conversion of moisture absorption and regeneration.

2. A differential slip dehumidification device according to claim 1, characterized in that said dehumidification medium comprises at least one set of differential slip dehumidification cores (1), each set of said differential slip dehumidification cores (1) being provided with two and two of said differential slip dehumidification cores (1) moving alternately between said dehumidification blowing channel (4) and said regeneration drying wind channel (5) so as to dynamically equalize the wind passing areas of said dehumidification blowing channel (4) and said regeneration drying wind channel (5).

3. A differential sliding dehumidification device according to claim 2, characterized in that a differential sliding dehumidification box (2) for sliding the differential sliding dehumidification core (1) is arranged in the second cavity, one end of the differential slip dehumidification box body (2) is communicated with the dehumidification air supply channel (4) oppositely, the other end of the differential slip dehumidification box body (2) is communicated with the regeneration dry air channel (5) oppositely, a plurality of groups of sliding guide rails are arranged in the differential sliding dehumidification box body (2) from top to bottom, each group of sliding guide rails is provided with two sliding guide rails, the differential slip dehumidification cores (1) are assembled in the sliding guide rail one by one, and the differential slip dehumidification box body (2) is provided with a differential slip transmission mechanism (3) which is used for driving the differential slip dehumidification cores (1) on the two sliding guide rails which are adjacent up and down to move in the opposite direction or in the opposite direction.

4. A differential sliding dehumidification device according to claim 3, characterized in that, the differential sliding dehumidification core (1) comprises a closed square box body (1-1) at two ends and a honeycomb square box body (1-2) in the middle, the differential sliding transmission mechanism (3) is installed on the closed square box body (1-1) at one end to realize the movement of the honeycomb square box body (1-2) in the dehumidification blowing zone and the regeneration drying zone.

5. The differential slip dehumidification device according to claim 4, wherein the differential slip transmission mechanism (3) comprises a motor (3-1) and a speed-regulating commutator (3-2) connected with the motor (3-1), the speed-regulating commutator (3-2) is connected with a transmission chain (3-4), a gear shaft (3-5) is arranged between two differential slip dehumidification cores (1) in the same group, the transmission chain (3-4) is in transmission connection with a chain wheel (3-3) connected with the gear shaft (3-5), a transmission rack (1-3) meshed with the gear shaft (3-5) is arranged on a closed square box body (1-1) in the two differential slip dehumidification cores (1) above and below the gear shaft (3-5), the upper differential slip dehumidifying core body and the lower differential slip dehumidifying core body (1) move towards or away from each other through the rotation of the gear shafts (3-5).

6. A differential sliding dehumidification device as claimed in claim 5, wherein the clearance between the bottom of the closed square box (1-1) and the sliding guide is less than 1mm, and a layer of lubricating oil film is arranged on the sliding guide.

7. A differential slip dehumidifier device according to claim 3 wherein said unitary box (6) comprises a chassis (6-1) and a frame (6-2) built on said chassis (6-1), a panel (6-3) is mounted on each side of said frame (6-2), said wind deflector (6-4) is positioned inside said frame (6-2), and each side of said wind deflector (6-4) is connected to one of said panels (6-3).

8. A differential slip dehumidifier according to claim 7 wherein said integrated box (6) is mounted with an air supply damper (4-1) and an air supply filter (4-2) on the panel (6-3) on the side close to the air inlet of said dehumidification air supply duct (4), and said integrated box (6) is mounted with an air supply fan (4-3) and an air supply flange (4-4) on the panel (6-3) on the side close to the air outlet of said dehumidification air supply duct (4).

9. The differential slip dehumidification device according to claim 8, wherein the regenerative dry air channel (5) comprises a regenerative return air duct (5-4) disposed in the second cavity and a regenerative outlet air duct (5-5) disposed in the first cavity, the wind guard (6-4) is provided with an air port for communicating the regenerative return air duct (5-4) and the regenerative outlet air duct (5-5), a regenerative air valve (5-1) and a regenerative filter (5-2) are disposed on a panel (6-3) of the integrated box (6) on a side close to an air inlet of the regenerative dry air channel (5), and a regenerative fan motor (5-6) is disposed on a panel (6-3) of the integrated box (6) on a side close to an air outlet of the regenerative dry air channel (5), and a regenerative heating device (5-3) for heating introduced fresh air is arranged between the regenerative filter (5-2) and the regenerative return air duct (5-4).

10. A differential slip dehumidifier according to claim 9 wherein one end of the differential slip dehumidifier body (2) is sandwiched between the regenerative return air duct (5-4) and the wind screen (6-4), and a sealing layer is provided at the joint gap between the differential slip dehumidifier body (2) and the regenerative return air duct (5-4) and the wind screen (6-4).

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