CN212813528U - Double-air-duct pet drying device - Google Patents

Abstract

The utility model discloses a double-air-channel pet drying device, which comprises a box body, a first air supply mechanism and a second air supply mechanism, wherein a drying cavity is arranged in the box body, an air return cavity is arranged above the drying cavity, an air distribution cavity is arranged below the drying cavity, and a first air channel and a second air channel are arranged at the rear side of the drying cavity; the air return cavity is internally provided with an air guide cavity which is communicated with the air distribution cavity through a first air channel, and the first air supply mechanism is arranged in the air guide cavity; the return air cavity is communicated with the air distribution cavity through a second air channel, and the second air supply mechanism is arranged in the second air channel. The drying device utilizes the double-circulation air duct to perform drying operation, ensures stable circulation air flow and improves drying efficiency; moreover, the first air supply mechanism and the second air supply mechanism are adjusted in a linkage mode, so that multiple air supply modes and air supply strength can be realized, and the drying device is more favorable for use. The utility model discloses compact structure can improve this drying device's drying efficiency, and the practicality is strong.

Description

Double-air-duct pet drying device

Technical Field

The utility model relates to a drying equipment field, in particular to two wind channel pet drying device.

Background

Pets such as dogs, cats and the like, after washing, often require drying of the hair to avoid colds. Only most pets have a lot of hair, and it usually takes tens of minutes or even two hours to dry the hair of a pet, which is a great physical burden for the pet. Therefore, the pet drying box is arranged on the market, a pet can be put into the drying box, the dryer is arranged above the box body, and the pet can be dried by blowing air into the box, so that on one hand, the pet can be cared for in a limited space, and the pet can be dried by receiving hot air without running; on the other hand, the labor can be saved, and the environmental pollution can be avoided.

However, the drying efficiency of the existing drying device is not high, the air flow circulation is unstable, and the practicability is low.

SUMMERY OF THE UTILITY MODEL

According to one aspect of the utility model, a double-air-channel pet drying device is provided, which comprises a box body, a first air supply mechanism and a second air supply mechanism, wherein a drying cavity is arranged inside the box body, an air return cavity is arranged above the drying cavity, an air distribution cavity is arranged below the drying cavity, and a first air channel and a second air channel are arranged at the rear side of the drying cavity; the air return cavity is internally provided with an air guide cavity which is communicated with the air distribution cavity through a first air channel, and the first air supply mechanism is arranged in the air guide cavity; the return air cavity is communicated with the air distribution cavity through a second air channel, and the second air supply mechanism is arranged in the second air channel.

The utility model provides a pet drying device of two wind channels. In the drying device, two mutually independent air channels which can be collected in the air dividing cavity and the drying cavity are arranged, one air channel consists of an air guide cavity and a first air channel, the other air channel consists of an air return cavity and a second air channel, and the two air channels are both provided with independent air supply mechanisms. In the working process of the utility model, the double air ducts are utilized to carry out the circulating operation, thereby ensuring the stable operation of the circulating air flow; and can realize multiple air supply mode, air supply intensity through carrying out the linkage regulation to first air supply mechanism, second air supply mechanism, more be favorable to this drying device's use. The utility model discloses compact structure can improve this drying device's drying efficiency, and the practicality is strong.

In some embodiments, a bottom plate, a top plate and a back plate are arranged in the box body, the top plate and the bottom plate are distributed up and down, the back plate is arranged between the bottom plate and the top plate, and the drying cavity is composed of the bottom plate, the top plate and the back plate; the rear end face of the back plate is provided with a partition plate, and a first air duct and a second air duct are formed on two sides of the partition plate.

From this, distribute stoving chamber, first wind channel and second wind channel through above structure, can realize two wind channels air supply function.

In some embodiments, a first ventilation screen is disposed on an end surface of the top plate and located in the air guide cavity, the drying cavity is communicated with the air guide cavity through the first ventilation screen, and the first air supply mechanism is engaged with the first ventilation screen.

From this, under the effect of first air supply mechanism, the partial air current of stoving intracavity gets into the wind-guiding intracavity through first ventilation screen panel, and during the rethread first wind channel input divides the wind chamber, gets into the stoving chamber in dividing the wind chamber at last, realizes drying.

In some embodiments, the end face of the top plate is provided with a plurality of second ventilation net covers, and the drying cavity is communicated with the return air cavity through the second ventilation net covers.

From this, under the effect of second air supply mechanism, the partly air current of stoving intracavity passes through second ventilation screen panel and gets into the return air intracavity, and the rethread second wind channel input divides the wind chamber in, gets into the stoving chamber in dividing the wind chamber at last, realizes drying.

In some embodiments, the bottom plate is a hollow structure, and the air distribution cavity is communicated with the drying cavity through the hollow structure; an inclined plate is arranged between the bottom plate and the back plate, and a plurality of first ventilation holes are formed in the end face of the inclined plate.

Therefore, air is distributed through the hollow structure of the bottom plate, and air flow can be uniformly input into the drying cavity; meanwhile, the first vent hole of the inclined plate is utilized, so that air flow can be stably input into the drying cavity, and the drying effect is improved.

In some embodiments, the end face of the back plate is provided with a plurality of third ventilation net covers, the third ventilation net covers are located at the upper end of the back plate, and the drying cavity is communicated with the second air duct through the third ventilation net covers.

Therefore, the third ventilation net cover can divide and dredge the air flow which circulates in the drying cavity, and the circulation effect of the air flow is improved.

In some embodiments, the dual-duct pet drying device further comprises a sliding door mechanism, an opening is formed in the front side of the drying cavity, the sliding door mechanism comprises two sliding rails and a sliding plate, the two sliding rails are provided with upper and lower edges of the opening, and the sliding plate is arranged between the two sliding rails.

From this, the front side in stoving chamber adopts the slidingtype structure of opening the door, conveniently opens and the pet is put into to the door body.

In some embodiments, the dual air duct pet drying device further comprises a heating mechanism disposed within the second air duct.

Therefore, the heating structure is arranged in the second air channel, and heating can be realized when air flow passes through the second air channel.

In some embodiments, the two side walls of the box body are provided with a plurality of second ventilation holes, and the drying cavity is communicated with the outside through the second ventilation holes.

From this, the stoving chamber passes through the second venthole external intercommunication, can regard as the air exchange passageway with the outside air, can realize making stoving intracavity gas pressure remain stable, also can realize oxygen supplementation simultaneously.

In some embodiments, the two side walls of the box body are respectively provided with a third ventilation hole and a fourth ventilation hole, the first air duct is communicated with the outside through the third ventilation hole, and the second air duct is communicated with the outside through the fourth ventilation hole.

Therefore, the first air channel is communicated with the outside through the third air vent, and the second air channel is communicated with the outside through the fourth air vent; the air flow exchange channel can be used as an air flow exchange channel with the outside air, and the air pressure in the first air channel and the second air channel can be kept stable; and also as a supplemental channel for oxygen.

The beneficial effects of the utility model are that: the drying device is provided with two mutually independent circulating air channels which can be collected in the air dividing cavity and the drying cavity, and the two air channels are provided with independent air supply mechanisms. The drying device utilizes the double-circulation air duct to perform drying operation, ensures stable circulation air flow and improves drying efficiency; moreover, the first air supply mechanism and the second air supply mechanism are adjusted in a linkage mode, so that multiple air supply modes and air supply strength can be realized, and the drying device is more favorable for use. The utility model discloses compact structure can improve this drying device's drying efficiency, and the practicality is strong.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of a dual-duct pet drying device according to an embodiment of the present invention.

Fig. 2 is a schematic perspective view of the dual duct pet drying device shown in fig. 1 from another perspective.

Fig. 3 is a schematic view of a half-section three-dimensional structure at a viewing angle of the dual duct pet drying device shown in fig. 1.

Fig. 4 is a schematic half-sectional perspective view of the dual duct pet drying device shown in fig. 1 from another perspective.

Fig. 5 is a schematic perspective view of the dual duct pet drying device shown in fig. 1 in a state of opening the door.

Reference numbers in the figures: 1-box body, 11-bottom plate, 12-top plate, 121-first ventilation screen, 122-second ventilation screen, 13-back plate, 131-third ventilation screen, 14-partition plate, 15-inclined plate, 151-first ventilation hole, 16-second ventilation hole, 17-third ventilation hole, 18-fourth ventilation hole, 2-first air supply mechanism, 3-second air supply mechanism, 4-sliding door mechanism, 41-sliding rail, 42-sliding plate, 5-heating mechanism, 6-grabbing plate, 7-control panel, 8-flow guide pipe, a-drying cavity, a 1-opening, b-air return cavity, c-air distribution cavity, d-first air duct, e-second air duct and f-air guide cavity.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 to 5 schematically show a dual-duct pet drying device according to an embodiment of the present invention, which includes a box body 1, a first air supply mechanism 2, and a second air supply mechanism 3. The inside of box 1 is equipped with stoving chamber a, and the top of stoving chamber a is equipped with return air chamber b, and the below of stoving chamber a is equipped with branch wind chamber c, and the rear side of stoving chamber a is equipped with first wind channel d and second wind channel e. The air guide cavity f is arranged in the air return cavity b, the air guide cavity f is in a volute shape, the air guide cavity f is communicated with the air distribution cavity c through a first air duct d, and the first air supply mechanism 2 is arranged in the air guide cavity f. The air return cavity b is communicated with the air distribution cavity c through a second air duct e, and the second air supply mechanism 3 is arranged in the second air duct e. In this embodiment, the first air supply mechanism 2 is a turbine centrifugal fan, and the second air supply mechanism 3 is a volute centrifugal fan.

The utility model provides a pet drying device of two wind channels. In the drying device, two mutually independent air channels which can be collected in an air dividing cavity c and a drying cavity a are arranged, one air channel consists of an air guide cavity f and a first air channel d, the other air channel consists of an air return cavity b and a second air channel e, and the two air channels are both provided with independent air supply mechanisms. In the working process of the utility model, the double air ducts are utilized to carry out the circulating operation, thereby ensuring the stable operation of the circulating air flow; and can realize multiple air supply mode, air supply intensity through carrying out the linkage regulation to first air supply mechanism 2, second air supply mechanism 3, more be favorable to this drying device's use. The utility model discloses compact structure can improve this drying device's drying efficiency, and the practicality is strong.

Referring to fig. 3-4, a bottom plate 11, a top plate 12 and a back plate 13 are arranged in the box body 1, the top plate 12 and the bottom plate 11 are distributed in parallel up and down, the back plate 13 is arranged between the bottom plate 11 and the top plate 12, and the cross sections of the bottom plate 11, the top plate 12 and the back plate 13 form a C shape. The drying cavity a is composed of a bottom plate 11, a top plate 12 and a back plate 13; the air return cavity b is formed by a top plate 12 and the upper inner wall of the box body 1; the air distributing cavity c is formed by the bottom plate 11 and the lower inner wall of the box body 1. A sealed cavity is formed by the back plate 13 and the inner wall of the rear side of the box body 1, and a partition plate 14 is arranged on the rear end face of the back plate 13; the two sides of the partition 14 form a first air duct d and a second air duct e, that is, the partition 14 divides the sealed cavity into the first air duct d and the second air duct e. The drying cavity a, the first air duct d and the second air duct e are distributed through the structure, and a double-air-duct air supply function can be achieved.

With reference to fig. 3-4, the end surface of the top plate 12 is provided with a first ventilation mesh enclosure 121 and is located in the air guiding cavity f, and the first ventilation mesh enclosure 121 is circular; the drying cavity a is communicated with the air guide cavity f through a first ventilation mesh enclosure 121, and the first air supply mechanism 2 is matched with the first ventilation mesh enclosure 121. Under the action of the first air supply mechanism 2, a part of air flow in the drying cavity a enters the air guide cavity f through the first ventilation mesh cover 121, then enters the air distribution cavity c through the first air duct d, and finally enters the drying cavity a in the air distribution cavity c to realize drying.

With reference to fig. 3-4, the end surface of the top plate 12 is provided with a plurality of second ventilation net covers 122, the first ventilation net cover 121 is rectangular, and the plurality of second ventilation net covers 122 are distributed around the first ventilation net cover 121; the drying cavity a is communicated with the return air cavity b through a second ventilation mesh cover 122. Under the action of the second air supply mechanism 3, a part of air flow in the drying cavity a enters the air return cavity b through the second ventilation mesh enclosure 122, then enters the air distribution cavity c through the second air duct e, and finally enters the drying cavity a in the air distribution cavity c to realize drying.

With reference to fig. 3-4, the bottom plate 11 is a hollow structure, i.e., a plurality of through holes are distributed on the bottom plate 11; the air distributing cavity c is communicated with the drying cavity a through the hollow structure. Be equipped with swash plate 15 between bottom plate 11 and the backplate 13, be equipped with a plurality of first ventilation holes 151 on the terminal surface of swash plate 15, first ventilation hole 151 is long circular hole form, and a plurality of first ventilation holes 151 are rectangular array and distribute. Air is distributed through the hollow structure of the bottom plate 11, so that air flow can be uniformly input into the drying cavity a; meanwhile, the first ventilation holes 151 of the inclined plate 15 can stably input air flow into the drying cavity a, thereby improving the drying effect.

Referring to fig. 3-4, a plurality of third ventilation net covers 131 are disposed on the end surface of the back plate 13, the third ventilation net covers 131 are located at the upper end of the back plate 13, and the drying cavity a is communicated with the second air duct e through the third ventilation net covers 131. The third ventilation net cover 131 can divide and dredge the air flow of the ascending circulation in the drying cavity a, and the circulation effect of the air flow is improved.

With reference to fig. 1 and 5, the dual-duct pet drying device further includes a sliding door mechanism 4, and an opening a1 is provided at the front side of the drying cavity a; the sliding door mechanism 4 includes two sliding rails 41 and a sliding plate 42, the middle of the sliding plate 42 is provided with transparent glass, the two sliding rails 41 are provided with upper and lower edges of an opening a1, and the sliding plate 42 is disposed between the two sliding rails 41. The front side of the drying cavity a adopts a sliding door opening structure, so that the door body can be conveniently opened and a pet can be conveniently put in.

With reference to fig. 3-4, the dual-duct pet drying device further includes a heating mechanism 5, and the heating mechanism 5 is disposed in the second duct e. The heating structure is arranged in the second air duct e, and heating can be realized when air flows pass through the second air duct e.

Referring to fig. 1-2, a plurality of second ventilation holes 16 are formed in two side walls of the box body 1, and the drying chamber a is communicated with the outside through the second ventilation holes 16. The drying cavity a is communicated with the outside through the second vent hole 16 and can be used as an airflow exchange channel with the outside air, so that the air pressure in the drying cavity a can be kept stable, and meanwhile, oxygen supplement can be realized.

Referring to fig. 1 to 4, a third ventilation hole 17 and a fourth ventilation hole 18 are respectively formed in two side walls of the box body 1, the first air duct d is communicated with the outside through the third ventilation hole 17, and the second air duct e is communicated with the outside through the fourth ventilation hole 18. The first air duct d is communicated with the outside through a third air vent 17, and the second air duct e is communicated with the outside through a fourth air vent 18; the air flow exchange channel can be used as an air flow exchange channel with the outside air, and the air pressure in the first air channel d and the second air channel e can be kept stable; and also as a supplemental channel for oxygen.

Referring to fig. 4, a flow guide pipe 8 is disposed on the lower end surface of the box body 1, a recessed portion is disposed on the bottom end surface of the air distribution chamber c, a liquid discharge hole is disposed on the bottom end surface of the recessed portion, and one end of the flow guide pipe 8 is communicated with the liquid discharge hole. Ponding of pet hair is arranged to the depressed part through the fretwork board, and the rethread honeycomb duct 8 is discharged convenient to use.

Referring to fig. 1 and 5, the drying chamber a is further provided at both inner sides thereof with grip plates 6 for pets. The drying device is also provided with a control panel 7, the control panel 7 is arranged on the front side surface of the box body 1, and the control panel 7 is electrically connected with the first air supply mechanism 2, the second air supply mechanism 3 and the heating mechanism 5.

With reference to fig. 3-4, the specific working process of the drying device is as follows:

the device is started through the control panel 7, the first air supply mechanism 2, the second air supply mechanism 3 and the heating mechanism 5 are started, air circulation is achieved in the box body 1, and the hair of the pet in the drying cavity a is dried. Under the drainage action of the first air supply mechanism 2, part of air flow in the drying cavity a enters the air guide cavity f through the first ventilation mesh cover 121, then enters the air distribution cavity c through the first air duct d, and finally enters the drying cavity a in the air distribution cavity c to realize drying; in addition, under the drainage action of the second air supply mechanism 3, the other part of the air flow in the drying cavity a enters the air return cavity b through the second ventilation mesh enclosure 122 and then is input into the air distribution cavity c through the second air duct e, the air flow is heated by the heating mechanism 5 in the second air duct e, and the heated air flow enters the drying cavity a in the air distribution cavity c to realize drying. And through the circulation of the air flow of the double air channels, the pet in the drying cavity a is dried.

This drying device is equipped with two mutually independent and can assemble in the circulation wind channel that divides wind chamber c, stoving chamber a, and two wind channels all are equipped with independent air supply mechanism. The drying device utilizes the double-circulation air duct to perform drying operation, ensures stable circulation air flow and improves drying efficiency; moreover, the first air supply mechanism 2 and the second air supply mechanism 3 are adjusted in a linkage mode, so that multiple air supply modes and air supply intensity can be realized, and the drying device is more favorable for use. The utility model discloses compact structure can improve this drying device's drying efficiency, and the practicality is strong.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. The double-air-channel pet drying device is characterized by comprising a box body (1), a first air supply mechanism (2) and a second air supply mechanism (3), wherein a drying cavity (a) is arranged inside the box body (1), an air return cavity (b) is arranged above the drying cavity (a), an air distribution cavity (c) is arranged below the drying cavity (a), and a first air channel (d) and a second air channel (e) are arranged on the rear side of the drying cavity (a); the air return cavity (b) is internally provided with an air guide cavity (f), the air guide cavity (f) is communicated with the air distribution cavity (c) through a first air duct (d), and the first air supply mechanism (2) is arranged in the air guide cavity (f); the air return cavity (b) is communicated with the air distribution cavity (c) through a second air duct (e), and the second air supply mechanism (3) is arranged in the second air duct (e).

2. The dual-air-channel pet drying device is characterized in that a bottom plate (11), a top plate (12) and a back plate (13) are arranged in the box body (1), the top plate (12) and the bottom plate (11) are distributed up and down, the back plate (13) is arranged between the bottom plate (11) and the top plate (12), and the drying cavity (a) is composed of the bottom plate (11), the top plate (12) and the back plate (13); a partition plate (14) is arranged on the rear end face of the back plate (13), and a first air duct (d) and a second air duct (e) are formed on two sides of the partition plate (14).

3. The dual-air-channel pet drying device as claimed in claim 2, wherein a first ventilation screen (121) is disposed on an end surface of the top plate (12) and located in the air guiding cavity (f), the drying cavity (a) is communicated with the air guiding cavity (f) through the first ventilation screen (121), and the first air supply mechanism (2) is matched with the first ventilation screen (121).

4. The drying device for the pet with the double air ducts as claimed in claim 2, wherein a plurality of second ventilation net covers (122) are arranged on the end face of the top plate (12), and the drying cavity (a) is communicated with the air return cavity (b) through the second ventilation net covers (122).

5. The dual-air-channel pet drying device is characterized in that the bottom plate (11) is of a hollow structure, and the air distribution cavity (c) is communicated with the drying cavity (a) through the hollow structure; an inclined plate (15) is arranged between the bottom plate (11) and the back plate (13), and a plurality of first ventilation holes (151) are formed in the end face of the inclined plate (15).

6. The dual-air-channel pet drying device as claimed in claim 2, wherein a plurality of third ventilation net covers (131) are disposed on the end surface of the back plate (13), the third ventilation net covers (131) are disposed at the upper end of the back plate (13), and the drying cavity (a) is communicated with the second air channel (e) through the third ventilation net covers (131).

7. The dual-air-channel pet drying device as claimed in any one of claims 2 to 6, further comprising a sliding door mechanism (4), wherein an opening (a1) is formed in the front side of the drying chamber (a), the sliding door mechanism (4) comprises two sliding rails (41) and a sliding plate (42), the two sliding rails (41) are provided with the upper and lower edges of the opening (a1), and the sliding plate (42) is arranged between the two sliding rails (41).

8. The dual-air-channel pet drying device as claimed in claim 7, further comprising a heating mechanism (5), wherein the heating mechanism (5) is arranged in the second air channel (e).

9. The dual-air-channel pet drying device as claimed in claim 7, wherein a plurality of second ventilation holes (16) are formed on two side walls of the box body (1), and the drying cavity (a) is communicated with the outside through the second ventilation holes (16).

10. The dual-air-channel pet drying device as claimed in claim 7, wherein a third ventilation hole (17) and a fourth ventilation hole (18) are respectively formed on two side walls of the box body (1), the first air channel (d) is communicated with the outside through the third ventilation hole (17), and the second air channel (e) is communicated with the outside through the fourth ventilation hole (18).

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