CN211526966U

CN211526966U - Dynamic dehumidifier

Info

Publication number: CN211526966U
Application number: CN201922317595.4U
Authority: CN
Inventors: 彭华
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-22
Filing date: 2019-12-22
Publication date: 2020-09-18
Anticipated expiration: 2029-12-22

Abstract

The utility model discloses a dynamic dehumidifier, including refrigerating system, dehumidification system and drying system, refrigerating system is linked together with dehumidification system, dehumidification system is linked together with drying system, dehumidification system includes seal box, honeycomb formula runner and regeneration heating chamber, the seal box is connected with refrigerating system, honeycomb formula runner lower extreme is equipped with the air intake, the air intake sets up in the seal box, honeycomb formula runner is linked together with the regeneration heating chamber, and this honeycomb formula runner is connected with drying system, drying system includes dynamic drying hopper, dynamic drying hopper upper end one side is equipped with the feed inlet, and the lower extreme is equipped with the discharge gate, and this dynamic drying hopper side is equipped with dry heating chamber, dry heating chamber is linked together with honeycomb formula runner; the utility model aims at providing a dry even, the fast developments dehumidifier of drying time.

Description

Dynamic dehumidifier

Technical Field

The utility model relates to a dehumidification equipment, specific theory, especially, dynamic dehumidifier.

Background

The plastic materials usually need dehumidification equipment to dehumidify after production, such as PET, TPU, PMMA, PLA, SGP, PS, ABS and other plastic materials, and when drying these plastic materials, its drying time is longer now, and the material drying process is static in addition, leads to drying inhomogeneous for some material drying time overlength, some material drying is not enough.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a dry even, the fast developments dehumidifier of drying time to solve the problem that proposes in the above-mentioned background art.

The technical scheme of the utility model is realized like this: the utility model provides a dynamic dehumidifier, includes refrigerating system, dehumidification system and drying system, refrigerating system is linked together with dehumidification system, dehumidification system is linked together with drying system, dehumidification system includes seal box, honeycomb formula runner and regeneration heating chamber, the seal box is connected with refrigerating system, honeycomb formula runner lower extreme is equipped with the air intake, the air intake sets up in the seal box, honeycomb formula runner is linked together with the regeneration heating chamber, and this honeycomb formula runner is connected with drying system, drying system includes dynamic drying hopper, dynamic drying hopper upper end one side is equipped with the feed inlet, and the lower extreme is equipped with the discharge gate, and this dynamic drying hopper side is equipped with dry heating chamber, dry heating chamber is linked together with honeycomb formula runner.

In the above dynamic dehumidifier, the refrigeration system includes a refrigeration device, the refrigeration device is connected to the seal box through a refrigerant inlet pipe and a refrigerant outlet pipe, and an expansion valve is installed on the refrigerant outlet pipe.

In the above dynamic dehumidifier, an evaporator is provided in the seal box, an air inlet is provided below the seal box, the evaporator is connected to the refrigerating device through a refrigerant inlet pipe and a refrigerant outlet pipe, and an air filter plate is provided below the evaporator, the air filter plate being provided at the air inlet.

In the above dynamic dehumidifier, the honeycomb-type rotating wheel includes a dehumidification region, a circulation region and a regeneration exhaust region separated by a partition plate, the dehumidification region is communicated with the air inlet, the dehumidification region is communicated with the drying heating chamber through the drying pipe, the drying pipe is provided with the drying fan, the upper end of the circulation region is communicated with the drying pipe through the first circulation pipe, the lower end of the circulation region is communicated with the lower end of the regeneration heating chamber through the second circulation pipe, the upper end of the regeneration heating chamber is communicated with the lower end of the regeneration exhaust region through the regeneration pipe, and the upper end of the regeneration exhaust region is provided with the regeneration exhaust pipe.

In the above dynamic dehumidifier, the first circulation pipe is provided with the regulating valve, and a position where the first circulation pipe is communicated with the drying pipe is arranged at an air outlet position of the drying fan.

In the above dynamic dehumidifier, the lower ends of the dehumidification region, the circulation region and the regeneration exhaust region are all arranged in the sealed box.

In the dynamic dehumidifier, the upper end of the dynamic drying hopper is provided with the speed reducer, the dynamic drying hopper is internally provided with the stirring blades in a penetrating way, and the upper ends of the stirring blades are connected with the speed reducer and driven to rotate by the speed reducer.

In the dynamic dehumidifier, one side of the upper end of the dynamic drying hopper is provided with the cyclone separator, the cyclone separator is arranged on one side of the speed reducer, the cyclone separator is internally provided with the filter element, and the middle position of the upper end of the filter element is provided with the air outlet.

In the above dynamic dehumidifier, the refrigerating device is provided with a water inlet and a water outlet respectively.

In the above dynamic dehumidifier, the honeycomb type rotating wheel is a honeycomb type silica gel rotating wheel.

The beneficial effects of the utility model reside in that: the evaporator in the seal box is cooled through the refrigerating device, so that sucked air in the seal box firstly passes through the evaporator, cooling and dehumidifying are completed, secondary dehumidifying is completed through the honeycomb type rotating wheel, the air enters the drying and heating chamber to complete three-time dehumidifying, and after the air is introduced into the dynamic drying hopper, the material is stirred through stirring blades in the dynamic drying hopper, so that the material is continuously stirred, the drying time is shortened, and drying is uniform.

Drawings

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

In the figure: the device comprises a refrigerating device 1, a refrigerant inlet pipe 2, a refrigerant outlet pipe 3, an expansion valve 4, an air filter plate 5, an evaporator 6, a seal box 7, a drying fan 8, a drying heating chamber 9, a dynamic drying hopper 10, a stirring blade 11, a speed reducer 12, a cyclone separator 13, a filter element 14, a regulating valve 15, a honeycomb type rotating wheel 16, a dehumidification region 161, a circulation region 162, a regeneration exhaust region 163, a regeneration heating chamber 17, an air inlet 18, a regeneration exhaust pipe 19, a refrigerating system 20, a dehumidification system 21 and a drying system 22.

Detailed Description

The claimed technical solution of the present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, a dynamic dehumidifier includes a refrigeration system, a dehumidification system and a drying system, the refrigeration system is communicated with the dehumidification system, the dehumidification system is communicated with the drying system, the dehumidification system includes a seal box 7, a honeycomb wheel 16 and a regeneration heating chamber 17, the seal box 7 is connected with the refrigeration system, the lower end of the honeycomb wheel 16 is provided with an air inlet 18, the air inlet 18 is arranged in the seal box 7, the honeycomb wheel 16 is communicated with the regeneration heating chamber 17, the honeycomb wheel 16 is connected with the drying system, the drying system includes a dynamic drying hopper 10, one side of the upper end of the dynamic drying hopper 10 is provided with a feeding port, the lower end is provided with a discharging port, one side of the dynamic drying hopper 10 is provided with a drying heating chamber 9, the drying heating chamber 9 is communicated with the honeycomb wheel 16, the evaporator 6 in the seal box 7 is cooled by the refrigeration device, the air sucked in the sealed box firstly passes through the evaporator to finish cooling and dehumidifying, then passes through the honeycomb type rotating wheel 16 to finish secondary dehumidifying, and finally enters the drying and heating chamber 9 to finish tertiary dehumidifying of the gas.

The refrigerating system comprises a refrigerating device 1, the refrigerating device 1 is connected with a seal box 7 through a refrigerant inlet pipe 2 and a refrigerant outlet pipe 3, an expansion valve 4 is installed on the refrigerant outlet pipe 3, a water inlet and a water outlet are respectively formed in the refrigerating device 1, an evaporator 6 is arranged in the seal box 7, an air inlet is formed below the seal box 7, the evaporator 6 is connected with the refrigerating device 1 through the refrigerant inlet pipe 2 and the refrigerant outlet pipe 3, an air filter plate 5 is arranged below the evaporator 6, the air filter plate 5 is arranged at the air inlet and is used for refrigerating through the evaporator 6 to condense moisture in the air into moisture, moisture in the air is reduced, and water cooling and heat dissipation are performed on the refrigerating device 1 through the water inlet and the water outlet.

The honeycomb type rotating wheel 16 is a honeycomb type silica gel rotating wheel, the honeycomb type rotating wheel 16 comprises a dehumidifying area 161, a circulating area 162 and a regenerating exhaust area 163 which are separated by a partition board, the dehumidifying area 161 is communicated with an air inlet 18, the dehumidifying area 161 is communicated with a drying heating chamber 9 through a drying pipe, the drying pipe is provided with a drying fan 8, the upper end of the circulating area 162 is communicated with the drying pipe through a first circulating pipe, the lower end of the circulating area is communicated with the lower end of a regenerating heating chamber 17 through a second circulating pipe, the upper end of the regenerating heating chamber 17 is communicated with the lower end of the regenerating exhaust area 163 through a regenerating pipe, the upper end of the regenerating exhaust area 163 is provided with a regenerating exhaust pipe 19, the regenerating exhaust pipe 19 can also be communicated with a dynamic drying hopper 10 to provide a drying environment for the dynamic drying hopper 10, the regenerating heating chamber 17 is communicated with the lower end of the regenerating exhaust area 163 through a regenerating pipe, the upper, this portion of the heated air also passes through the honeycomb wheel 16 and may carry moisture away from the honeycomb wheel 16 to extend the life of the honeycomb wheel 16.

The first circulation pipe is provided with a regulating valve 15, the part of the first circulation pipe communicated with the drying pipe is arranged at the air outlet of the drying fan 8, the lower ends of the dehumidification region 161, the circulation region 162 and the regeneration exhaust region 163 are all arranged in the seal box 7, so that air firstly enters from the air filter plate 5 and then enters the dehumidification region 161, the process is that firstly primary dehumidification is carried out through the evaporator 6, then secondary dehumidification is carried out through the honeycomb silica gel runner, when the air subjected to secondary dehumidification enters the drying heating chamber again, the air can be subjected to tertiary dehumidification and finally enters the dynamic drying hopper 10, the air is dry and has a certain temperature, and a good environment is provided for material drying in the dynamic drying hopper 10.

Dynamic drying hopper 10 upper end is equipped with speed reducer 12, wear to be equipped with stirring leaf 11 in the dynamic drying hopper 10, this stirring leaf 11 upper end is connected with speed reducer 12 and is rotatory through speed reducer 12 drive, 10 upper end one side of dynamic drying hopper is equipped with cyclone 13, and this cyclone 13 sets up in 12 one sides of speed reducer, is equipped with filter core 14 in this cyclone 13, and this filter core 14 upper end intermediate position is equipped with the air outlet, stir the material through stirring leaf 11 in the dynamic drying hopper 10 for the material constantly overturns, thereby accelerates drying time, and is dry even moreover, prevents that the phenomenon of dry inequality, drying time length from appearing in the material quiescent condition.

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

1. The dynamic dehumidifier is characterized by comprising a refrigerating system (20), a dehumidifying system (21) and a drying system (22), wherein the refrigerating system (20) is communicated with the dehumidifying system (21), the dehumidifying system (21) is communicated with the drying system (22), the dehumidifying system (21) comprises a seal box (7), a honeycomb type rotating wheel (16) and a regeneration heating chamber (17), the seal box (7) is connected with the refrigerating system (20), an air inlet (18) is formed in the lower end of the honeycomb type rotating wheel (16), the air inlet (18) is formed in the seal box (7), the honeycomb type rotating wheel (16) is communicated with the regeneration heating chamber (17), the honeycomb type rotating wheel (16) is connected with the drying system (22), the drying system (22) comprises a dynamic drying hopper (10), a feeding hole is formed in one side of the upper end of the dynamic drying hopper (10), the lower end of the drying hopper is provided with a discharge hole, one side surface of the dynamic drying hopper (10) is provided with a drying heating chamber (9), and the drying heating chamber (9) is communicated with the honeycomb type rotating wheel (16).

2. The dynamic dehumidifier of claim 1, wherein the refrigeration system (20) comprises a refrigeration device (1), the refrigeration device (1) is connected with the sealed box (7) through a refrigerant inlet pipe (2) and a refrigerant outlet pipe (3), and an expansion valve (4) is installed on the refrigerant outlet pipe (3).

3. The dynamic dehumidifier according to claim 1 or 2, wherein an evaporator (6) is arranged in the sealed box (7), an air inlet is arranged below the sealed box (7), the evaporator (6) is connected with the refrigerating device (1) through a refrigerant inlet pipe (2) and a refrigerant outlet pipe (3), an air filter plate (5) is arranged below the evaporator (6), and the air filter plate (5) is arranged at the air inlet.

4. The dynamic dehumidifier of claim 1, wherein the honeycomb rotor (16) comprises a dehumidification section (161), a circulation section (162) and a regeneration exhaust section (163) which are separated by a partition, the dehumidification section (161) is communicated with the air inlet (18), the dehumidification section (161) is communicated with the drying and heating chamber (9) through a drying pipe, the drying pipe is provided with a drying fan (8), the circulation section (162) is communicated with the drying pipe at the upper end through a first circulation pipe and is communicated with the regeneration heating chamber (17) at the lower end through a second circulation pipe, the regeneration heating chamber (17) is communicated with the regeneration exhaust section (163) at the upper end through a regeneration pipe, and the regeneration exhaust section (163) is provided with a regeneration exhaust pipe (19) at the upper end.

5. The dynamic dehumidifier according to claim 4, wherein said first circulation pipe is provided with a control valve (15), and the place where said first circulation pipe is communicated with said drying pipe is arranged at the air outlet of said drying fan (8).

6. The dynamic dehumidifier of claim 4 wherein the lower ends of the dehumidification zone (161), the circulation zone (162) and the regeneration drain zone (163) are all disposed within a sealed box (7).

7. The dynamic dehumidifier of claim 1, wherein the upper end of the dynamic drying hopper (10) is provided with a speed reducer (12), the dynamic drying hopper (10) is internally provided with a stirring blade (11), and the upper end of the stirring blade (11) is connected with the speed reducer (12) and is driven to rotate by the speed reducer (12).

8. The dynamic dehumidifier of claim 1, wherein a cyclone separator (13) is arranged on one side of the upper end of the dynamic drying hopper (10), the cyclone separator (13) is arranged on one side of the speed reducer (12), a filter element (14) is arranged in the cyclone separator (13), and an air outlet is arranged in the middle position of the upper end of the filter element (14).

9. Dynamic dehumidifier according to claim 2 wherein said refrigeration device (1) is provided with a water inlet and a water outlet, respectively.

10. The dynamic dehumidifier of claim 1 wherein the honeycomb rotor (16) is a honeycomb silica gel rotor.