CN212157928U

CN212157928U - Drying machine

Info

Publication number: CN212157928U
Application number: CN202022390918.5U
Authority: CN
Inventors: 郑永忠; 程广宇; 赖金辉; 李明
Original assignee: Guangdong Sanji Klangz Mechanical Technology Co ltd
Current assignee: Guangdong Sanji Klangz Mechanical Technology Co ltd
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2020-12-15
Anticipated expiration: 2030-10-26

Abstract

A dryer comprises an air outlet cavity, a lower air outlet cavity, an upper air outlet cavity, an air gate installation cavity and an air passing cavity, wherein the air outlet cavity is communicated with the air gate installation cavity; the upper air outlet chamber is provided with a plurality of groups of upper nozzles, and the lower air outlet chamber is provided with a plurality of groups of lower nozzles; the air brake installation cavity is provided with the air brake, and the air brake includes deep bead, deep bead pivot and sealed fishplate bar, and the pivot sets up in the center of deep bead, and the deep bead can revolute the rotation of axes, and when the deep bead contacted with sealed fishplate bar, air brake installation cavity did not communicate with lower floor's air-out cavity. The utility model discloses a closure of air brake control lower floor's air-out cavity to and the intake of lower floor's air-out cavity, improve stoving effect and energy-conserving effect.

Description

Drying machine

Technical Field

The utility model relates to a drying-machine technical field especially relates to a drying-machine.

Background

The fabric drying machine enables moisture or other volatile liquid components in the fabric to be vaporized and escaped through heating so as to obtain the fabric with specified moisture content, the existing fabric drying machine generally utilizes hot air to blow to the fabric for drying and heating to perform drying work, the existing fabric drying machine controls the hot air to blow to the fabric through an upper air outlet nozzle and a lower air outlet nozzle, but cannot control independent air outlet of the upper air outlet nozzle, intermittent output of the lower air outlet nozzle is achieved, and the effect similar to flapping is formed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a drying-machine to the defect in the background art, through the closure of air brake control lower floor's air-out cavity to and the intake of lower floor's air-out cavity.

To achieve the purpose, the utility model adopts the following technical proposal:

a dryer comprises an air outlet chamber, a lower air outlet chamber, an upper air outlet chamber, an air gate installation chamber and an air passing chamber, wherein the air outlet chamber is communicated with the air gate installation chamber;

the upper layer air outlet cavity is provided with a plurality of groups of upper nozzles, and the lower layer air outlet cavity is provided with a plurality of groups of lower nozzles;

the air brake installation cavity is provided with the air brake, the air brake includes deep bead, deep bead pivot and sealed fishplate bar, the deep bead pivot set up in the center of deep bead, the deep bead can wind the deep bead pivot rotates, works as the deep bead with during the contact of sealed fishplate bar, air brake installation cavity not with lower floor's air-out cavity intercommunication.

Preferably, the sealing joint plates are respectively arranged at the upper end and the lower end of the air brake installation chamber, each sealing joint plate comprises a left side plate and a right side plate, and the left side plate is connected with the right side plate;

the joint of the left side plate and the right side plate at the upper end of the air brake mounting chamber is arched upwards;

and the joint of the left side plate and the right side plate at the lower end of the air brake mounting chamber is sunken downwards.

Preferably, the dehumidifying device further comprises a dehumidifying chamber, wherein the dehumidifying chamber is provided with a plurality of groups of dehumidifying ports, and the dehumidifying ports are communicated with a dehumidifying fan through a dehumidifying pipeline;

the upper air outlet cavity is provided with a plurality of groups of dehumidifying pipes which are respectively communicated with the cloth walking channel and the dehumidifying cavity.

Preferably, the dehumidifying chamber is communicated with the air-passing chamber through the air-passing channel;

the dehumidifying chamber is provided with a closing gate, the closing gate comprises a gate plate, a gate plate rotating shaft and a gate plate stopper, the gate plate can rotate around the gate plate rotating shaft, and when the gate plate is contacted with the lower wall surface of the dehumidifying chamber, the dehumidifying chamber is not communicated with the air passing chamber;

the flashboard stoppers are arranged on two sides of the flashboard rotating shaft, and the axis of the flashboard stoppers and the axis of the flashboard rotating shaft are positioned on the same straight line.

Preferably, the dehumidifying fan is communicated with the air channel through an air return pipeline.

Preferably, a middle layer plate is arranged in the air-moving chamber and divides the air-moving chamber into an upper chamber and a lower chamber.

Has the advantages that:

1. the utility model forms a hot air circulation loop through a plurality of cavities, reduces hot air loss, and improves drying effect and energy-saving effect;

2. the utility model discloses a set up the air brake, control the closure of lower floor's air-out cavity to and the intake of lower floor's air-out cavity.

Drawings

Fig. 1 is a schematic structural view of a dryer according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an air brake according to an embodiment of the present invention;

fig. 3 is a structural diagram of a closing switch according to an embodiment of the present invention.

Wherein: the device comprises an air walking cavity 1, an exhaust fan 11, a middle layer plate 12, an air walking channel 13, an air brake installation cavity 2, an air brake 21, an air blocking plate 211, an air blocking plate rotating shaft 212, a sealing connecting plate 213, a left side plate 2131, a right side plate 2132, an air walking cavity 3, a lower layer air outlet cavity 4, a lower nozzle 41, an upper layer air outlet cavity 5, an upper nozzle 51, a cloth walking channel 6, a dehumidifying cavity 7, a dehumidifying pipe 71, a dehumidifying port 72, a dehumidifying pipeline 73, a dehumidifying fan 74, an air return pipeline 75, a closing switch 8, a gate plate 81, a gate plate rotating shaft 82 and a gate plate stopper 83.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The utility model discloses a dryer, as shown in fig. 1, including air-out cavity 1, lower floor's air-out cavity 4, upper strata air-out cavity 5, air brake installation cavity 2 and air-passing cavity 3, air-out cavity 1 communicates air brake installation cavity 2, air brake installation cavity 2 communicates respectively lower floor's air-out cavity 4 and air-passing cavity 3, air-passing cavity 3 communicates upper strata air-out cavity 5, upper strata air-out cavity 5 and lower floor's air-out cavity 4 communicate air-out cavity 1 through air-passing channel 13 respectively, be provided with between upper strata air-out cavity 5 and lower floor's air-out cavity 4 and walk cloth passageway 6;

the upper air outlet chamber 5 is provided with a plurality of groups of upper nozzles 51, and the lower air outlet chamber 4 is provided with a plurality of groups of lower nozzles 41;

the drying-machine is dried cloth through using hot-blastly, in this embodiment, it is provided with air exhauster 11 in the cavity 1 to walk the wind, air exhauster 11 is located 2 below of air brake installation cavity, walk the hot-blast process in the air brake installation cavity 1 after 11 twitches of air exhauster, deliver to air brake installation cavity 2, at this moment, hot-blast two strands of directions that divide into, one process 2 flow directions of air brake installation cavity 4 of lower floor, another one process 2 flow directions of air brake installation cavity 3 crosses wind cavity 3, pass through 3 flow directions of wind cavity of crossing upper strata air-out cavity 5, and upper strata air-out cavity 5 with be provided with between the air-out cavity 4 of lower floor and walk cloth passageway 6, it is hot-blast to go up nozzle 51 blowout downwards, nozzle 41 is hot-blast upwards to spout down, and is hot-blast right it dries to walk the cloth in the cloth passageway 6.

As shown in fig. 2, the air brake installation chamber 2 is provided with an air brake 21, the air brake 21 includes an air blocking plate 211, an air blocking plate rotating shaft 212 and a sealing connection plate 213, the air blocking plate rotating shaft 212 is disposed at the center of the air blocking plate 211, the air blocking plate 211 can rotate around the air blocking plate rotating shaft 212, and when the air blocking plate 211 contacts the sealing connection plate 213, the air brake installation chamber 2 is not communicated with the lower air outlet chamber 4.

In order to realize that the upper nozzle 51 can be independently controlled to independently exhaust air, in this embodiment, an air brake 21 is arranged in the air brake installation chamber 2 to control whether the lower nozzle 41 exhausts air, specifically, when the air damper 211 rotates around the air damper rotating shaft 212 to be in contact with the sealing connection plate 213, no gap exists between the air damper 211 and the sealing connection plate 213, hot air in the air brake installation chamber 2 is blocked and cannot be led to the lower-layer air outlet chamber 4, so that the lower-layer air outlet chamber 4 cannot exhaust air, when the air damper 211 rotates around the air damper rotating shaft 212 to be out of contact with the sealing connection plate 213, a gap remains between the air damper 211 and the sealing connection plate 213, and hot air flows to the lower-layer air outlet chamber 4 through the gap, so that the lower-layer air outlet chamber 4 can exhaust air;

furthermore, the wind deflector 211 can be rotated to adjust the distance between the wind deflector 211 and the sealing connection plate 213, so as to control the air flow rate of the hot air entering the lower air outlet chamber 4.

Preferably, the sealing joint plate 213 is respectively arranged at the upper end and the lower end of the damper installation chamber 2, the sealing joint plate 213 comprises a left side plate 2131 and a right side plate 2132, and the left side plate 2131 is connected with the right side plate 2132;

the joint of the left side plate 2131 and the right side plate 2132 at the upper end of the air brake installation chamber 2 is arched upwards;

the joint of the left side plate 2131 and the right side plate 2132 at the lower end of the air brake installation chamber 2 is concave downwards.

In this embodiment, two sets of the sealing joint plates 213 are provided, one set is located at the upper end of the air brake installation chamber 2, the other set is located at the lower end of the air brake installation chamber 2, each set of the sealing joint plates 213 is provided with a left side plate 2131 and a right side plate 2132, the joint of the left side plate 2131 and the right side plate 2132 of the sealing joint plate 213 of the upper end set is arched upwards to form an arched area, the joint of the left side plate 2131 and the right side plate 2132 of the sealing joint plate 213 of the lower end set is sunken downwards to form a recessed area, when one end of the wind deflector 211 is located in the arched area and the other end is located in the recessed area, the wind deflector 211 blocks the air brake installation chamber 2, so that hot air cannot enter the lower air outlet chamber 4 through the air brake installation chamber 2;

further, when the wind shield 211 is parallel to the upper and lower wall surfaces of the air brake installation chamber 2, the intake of hot air entering the lower air outlet chamber 4 reaches the maximum.

Preferably, the dehumidifying device further comprises a dehumidifying chamber 7, wherein a plurality of sets of dehumidifying ports 72 are formed in the dehumidifying chamber 7, and the dehumidifying ports 72 are communicated with a dehumidifying fan 74 through a dehumidifying pipeline 73;

the upper-layer air outlet cavity 5 is provided with a plurality of groups of dehumidifying pipes 71, and the dehumidifying pipes 71 are respectively communicated with the cloth walking channel 6 and the dehumidifying cavity 7.

In this embodiment, after the cloth is dried, water is analyzed, so that the hot air has moisture, the hot air with moisture in the cloth passage 6 is drawn away through the moisture-drawing pipe 71, and the hot air is drawn away through the moisture-drawing opening 72 of the moisture-drawing chamber 7 by the moisture-drawing fan 74, so that the hot air is no longer moist and the drying effect is affected.

Preferably, the dehumidifying chamber 7 is communicated with the air-moving chamber 1 through the air-moving channel 13;

as shown in fig. 3, the dehumidifying chamber 7 is provided with a closing switch 8, the closing switch 8 comprises a shutter 81, a shutter rotating shaft 82 and a shutter stopper 83, the shutter 81 can rotate around the shutter rotating shaft 82, and when the shutter 81 contacts with the lower wall surface of the dehumidifying chamber 7, the dehumidifying chamber 7 is not communicated with the air-moving chamber 1;

the shutter stoppers 83 are disposed on two sides of the shutter shaft 82, and the axial centers of the shutter stoppers and the shutter shaft 82 are located on the same line.

In order to reduce the possibility that the dehumidifying fan 74 pumps away excessive hot air during the dehumidifying process, in this embodiment, the dehumidifying chamber 7 is communicated with the air-moving chamber 1, so that hot air can be circulated back to the air-moving chamber 1 through the air-moving channel 13 during the dehumidifying process, thereby achieving the effect of saving energy;

however, once the moisture in the hot air in the dehumidifying chamber 7 is too heavy, it will be unfavorable for the subsequent drying to circulate to the air-passing chamber 1, so the present application solves this problem by providing a closing valve 8, specifically, the shutter 81 of the closing valve 8 can rotate around the shutter rotating shaft 82, when the shutter 81 rotates to the vertical state, i.e. contacts with the lower wall surface of the dehumidifying chamber 7, the dehumidifying chamber 7 is no longer communicated with the air-passing channel 13, so that the hot air with too much moisture cannot circulate back to the air-passing chamber 1;

further, the closing switch 8 is provided with a shutter stopper 83, when the shutter shaft 82 rotates the shutter 81 to a maximum angle, the shutter 81 will collide with the shutter stopper 83, so that the shutter 81 cannot rotate in the same direction any more, and the maximum amount of wind that can pass between the dehumidifying chamber 7 and the wind passage 13 is controlled by the shutter stopper 83.

Preferably, the dehumidifying fan 74 is connected to the air channel 13 through a return air duct 75.

When the moisture in the dryer is extracted by the dehumidifying fan 74, the hot air is taken away at the same time, and in order to realize energy saving, the dehumidifying fan 74 sends the hot air back to the air channel 13 through the air return pipeline 75, so that an energy saving effect of circulating air is realized.

Preferably, a middle plate 12 is arranged in the air cavity 1, and the air cavity 1 is divided into an upper cavity and a lower cavity by the middle plate 12.

In this embodiment, when the upper air outlet chamber 5 and the lower air outlet chamber 4 stop to discharge air, in order to ensure the effect of the next drying, the excessive moisture in the dryer needs to be firstly pumped away by the dehumidifying fan 74, but due to the structure of a circulating air-passing structure in the dryer, even if the upper air outlet chamber 5 and the lower air outlet chamber 4 do not discharge air any more, a large amount of hot air still exists in the air-passing chamber 1, and the temperature of the hot air in the chambers above the air-passing chamber 1 will continuously decrease as the dehumidifying continues, so as to avoid the temperature of the large amount of hot air in the air-passing chamber 1 also decreasing, the air-passing chamber 1 is divided into the upper chamber and the lower chamber by setting the middle plate 12, and the cold air, that is, the air after the temperature decreases, is left on the upper chamber.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims

1. A dryer characterized in that: the air conditioner comprises an air outlet cavity, a lower air outlet cavity, an upper air outlet cavity, an air brake installation cavity and an air passing cavity, wherein the air outlet cavity is communicated with the air brake installation cavity;

2. A dryer according to claim 1, wherein:

the upper end and the lower end of the air brake installation chamber are respectively provided with the sealing connection plate, the sealing connection plate comprises a left side plate and a right side plate, and the left side plate is connected with the right side plate;

3. A dryer according to claim 1, wherein:

the dehumidifying device is characterized by further comprising a dehumidifying cavity, wherein a plurality of groups of dehumidifying ports are formed in the dehumidifying cavity, and the dehumidifying ports are communicated with a dehumidifying fan through a dehumidifying pipeline;

4. A dryer according to claim 3, wherein:

the dehumidifying chamber is communicated with the air-passing chamber through the air-passing channel;

5. A dryer according to claim 3, wherein:

the dehumidifying fan is communicated with the air channel through an air return pipeline.

6. A dryer according to claim 1, wherein:

a middle layer plate is arranged in the air-passing cavity and divides the air-passing cavity into an upper cavity and a lower cavity.