CN217309333U - Full-automatic efficient energy-saving dryer - Google Patents

Abstract

The utility model belongs to the technical field of shoes, in particular to a full-automatic high-efficiency energy-saving dryer, which aims at the problems of non-energy conservation and large water content of hot air in the prior art, and provides a proposal that the dryer comprises a drying box, an opening at the top of the drying box is communicated with a fan, an air outlet of the fan is communicated with an air duct, one end of the air duct far away from the fan is communicated with the opening at the bottom of the drying box, a telescopic cylinder can drive a hinged rod to rotate through a sliding sleeve, the hinged rod can drive a rack to move through a sliding block, the rack can drive a dehydration mechanism to rotate for dehydration, the dehydration mechanism can condense water and finally fall into a connecting frame, the air then enters absorbent cotton to be absorbed again, the rack can drive an extrusion frame to extrude and dehydrate the absorbent cotton through a rotating frame, the absorbent cotton is convenient for multiple use, and the fan can drive the up-down circulation of the air in the drying box by utilizing the air duct, reducing heat loss, saving energy and protecting environment.

Description

Full-automatic efficient energy-saving dryer

Technical Field

The utility model relates to a shoes technical field especially relates to a full-automatic energy-efficient drying-machine.

Background

In the production process of shoes, a plurality of processes are needed, wherein because the shoes become wet in the production process, a drying device is needed, and the drying device generally uses an internal electric heating wire or an electric heating plate or a ceramic heater for heating and drying.

But inside present drying device is direct import device behind the air heating for the reinforcing stoving effect is many, need expend a large amount of energy to the continuous heating of air, and is not energy-conserving, and the inside hot-air of device often mingles with a large amount of steam moreover, and these steam can't in time drive off, influence the stoving effect.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems existing in the prior art, the utility model provides a full-automatic high-efficient energy-saving dryer.

In order to realize the purpose, the utility model adopts the technical proposal that.

The utility model provides a full-automatic energy-efficient drying-machine, includes the stoving case, the opening intercommunication at stoving roof portion has the fan, the air outlet intercommunication of fan has the air duct, the one end that the fan was kept away from to the air duct communicates with the opening of stoving bottom of the case portion, the bottom intercommunication of air duct has the connecting frame, the opening fixed mounting on connecting frame right side has the telescoping cylinder, the output of telescoping cylinder articulates there is the sliding sleeve, the inside sliding connection of sliding sleeve has the hinge bar, the top of hinge bar articulates there is the slider, the side sliding connection of slider has the rack, the right side meshing at rack top has the revolving rack, the axle center department of revolving rack is connected with the internal rotation of connecting frame, the lug sliding connection on revolving rack surface has the extrusion frame, the surperficial cover of extrusion frame is equipped with the cotton that absorbs water, the left side meshing at rack top has dewatering mechanism.

As preferred, dewatering mechanism includes gear train, ratch, dwang and congeals the water net, the flank of tooth of gear train and the left side meshing at toothholder top, the axle center department of gear train is connected with the inside rotation of connection frame, the left flank of tooth meshing of gear train has the ratch, the surface of ratch rotates with the hole of air duct bottom and cup joints, the top of ratch runs through the hole of the inside bottom of air duct and meshes with the flank of tooth of dwang, it is two to congeal the quantity of water net, the both ends of dwang are respectively with two fixed cup joints of axle center department of congealing the water net, it cup joints with the inside rotation of air duct to congeal the surface of water net.

Preferably, the top end of the hinge rod is inclined to the right, and the bottom end of the hinge rod is hinged with the bottom end inside the connecting frame.

Preferably, the surface of the tooth rack is connected with a limiting sleeve in a sliding mode, and the rear side of the limiting sleeve is welded with the inside of the connecting frame.

Preferably, the extrusion frame comprises a hole ring at the bottom, a connecting rod at the top of the hole ring and an extrusion plate at the top end of the connecting rod, the top end of the connecting rod extends into the air guide tube, the hole of the water-absorbing cotton is sleeved on the surface of the connecting rod, the top of the water-absorbing cotton is connected with the bottom of the extrusion plate, and the bottom of the water-absorbing cotton is connected with the inside of the air guide tube.

Preferably, the gear train includes the pinion of front side and the helical gear of pinion rear side, the ratch comprises the action wheel of bottom, the pivot of action wheel axle center department and the driven wheel on pivot top, the action wheel is the skewed tooth gear, the pivot rotates with the air duct and cup joints, the ring gear of driven wheel is located the top, the surface of dwang is gear structure.

The utility model has the advantages that: the telescopic cylinder can drive the hinge rod to rotate through the sliding sleeve, the hinge rod can drive the rack to move through the sliding block, the rack can drive the rack to rotate through the gear set, the rack can drive the water condensing net to rotate through the rotating rod, the water condensing net can be in contact with water in the air when the air passes through, thereby the water is condensed on the surface of the water condensing net, the water condensed on the surface of the water condensing net can be thrown away through the rotating water condensing net, finally, the water falls into the connecting frame, the air then enters the water absorbing cotton, the water is absorbed again, the rack can drive the extrusion frame to extrude and dewater the water absorbing cotton through the rotating frame, the cotton multi-time use of the water absorbing is convenient, and the fan utilizes the air duct to drive the upper and lower circulation of the air inside the drying box, the heat loss is reduced, energy conservation and environmental protection.

Drawings

Fig. 1 is a schematic view of a front view structure of a full-automatic high-efficiency energy-saving dryer provided by the utility model;

FIG. 2 is a schematic structural view of a dewatering mechanism of the fully automatic high-efficiency energy-saving dryer provided by the present invention;

fig. 3 is a schematic view of a rack structure of the full-automatic efficient energy-saving dryer provided by the present invention;

fig. 4 is a three-dimensional schematic view of the hinge rod of the full-automatic energy-efficient dryer provided by the utility model.

In the figure: 1. a drying box; 2. a dewatering mechanism; 21. a gear set; 22. a rack bar; 23. rotating the rod; 24. a water condensation net; 3. a fan; 4. an air duct; 5. a connecting frame; 6. a telescopic cylinder; 7. a sliding sleeve; 8. a hinged lever; 9. a slider; 10. a rack; 11. rotating the frame; 12. an extrusion frame; 13. absorbent cotton.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Referring to fig. 1-4, a full-automatic efficient energy-saving dryer comprises a drying box 1, a heating device is arranged in the drying box 1, the heating device can select an electric heating wire, an electric heating plate and a ceramic heater, an opening at the top of the drying box 1 is communicated with a fan 3, the fan 3 can guide air upwards, an air outlet of the fan 3 is communicated with an air duct 4, the fan 3 drives air upwards to enter the air duct 4, one end of the air duct 4, far away from the fan 3, is communicated with the opening at the bottom of the drying box 1, hot air enters the bottom of the drying box 1 through the air duct 4, the bottom of the air duct 4 is communicated with a connecting frame 5, a screen plate is arranged at the opening at the bottom of the air duct 4, water enters the inside of the connecting frame 5 through the screen plate, a telescopic cylinder 6 is fixedly arranged at the opening at the right side of the connecting frame 5, the telescopic cylinder 6 adopts an electric push rod, and can be connected with a power supply to start the telescopic cylinder 6, the output end of the telescopic cylinder 6 is hinged with a sliding sleeve 7, the inside of the sliding sleeve 7 is connected with a hinged rod 8 in a sliding manner, when the telescopic cylinder 6 can drive the sliding sleeve 7 to move, the sliding sleeve 7 slides on the surface of the hinged rod 8 and drives the hinged rod 8 to move, the top end of the hinged rod 8 inclines rightwards, the bottom end of the hinged rod 8 is hinged with the bottom end inside the connecting frame 5, the inclined structure of the hinged rod 8 is convenient for the telescopic cylinder 6 to drive the hinged rod 8 to rotate through the sliding sleeve 7, the hinged rod 8 is convenient for driving other structures to rotate, the bottom end of the hinged rod 8 is limited by the connecting frame 5 in a rotating manner, the top end of the hinged rod 8 is hinged with a sliding block 9, the side surface of the sliding block 9 is connected with a toothed frame 10 in a sliding manner, the hinged rod 8 can drive the sliding block 9 to move, the sliding block 9 slides in a sliding groove of the toothed frame 10 and drives the toothed frame 10 to move, the surface of the toothed frame 10 is connected with a limiting sleeve in a sliding manner, the rear side of the limiting sleeve is welded with the inside of the connecting frame 5, the tooth rack 10 is limited in the limiting sleeve in a sliding manner, the tooth rack 10 can move stably, the middle end of the bottom of the tooth rack 10 is inwards concave, the middle end of the tooth rack 10 is in a U-shaped structure, the sliding block 9 can slide in the U-shaped structure of the tooth rack 10, the right side of the top of the tooth rack 10 is meshed with the rotating frame 11, the rotating frame 11 consists of a connecting wheel and a rotating rod on the surface of the connecting wheel, the connecting wheel is meshed with the tooth rack 10, the rotating rod is connected with the extrusion frame 12, the axis of the rotating frame 11 is rotatably connected with the inside of the connecting frame 5, a bump on the surface of the rotating frame 11 is slidably connected with the extrusion frame 12, the surface of the extrusion frame 12 is sleeved with absorbent cotton 13, the rotating frame 11 can slide in a sliding hole of the extrusion frame 12 and drive the extrusion frame 12 to move up and down, the extrusion frame 12 can extrude the absorbent cotton 13 to extrude the moisture in the absorbent cotton 13, the extrusion frame 12 comprises a hole ring at the bottom, a connecting rod at the top of the hole ring and an extrusion plate at the top of the connecting rod, the top end of the connecting rod extends into the air duct 4, the surface of the connecting rod is arranged with the hole of the air duct 4 in a sliding manner, the connecting rod can move up and down stably, the hole of the absorbent cotton 13 is sleeved on the surface of the connecting rod, the top of the absorbent cotton 13 is connected with the bottom of the extrusion plate, the top of the absorbent cotton 13 is bonded with the extrusion plate, the extrusion plate drives the absorbent cotton 13 to move, the bottom of the absorbent cotton 13 is connected with the inner part of the air duct 4, the bottom of the absorbent cotton 13 is bonded with the air duct 4, the absorbent cotton 13 can be stretched up and down conveniently, the absorbent cotton 13 is extruded conveniently, the left side of the top of the gear rack 10 is meshed with the dewatering mechanism 2, the dewatering mechanism 2 is rotatably sleeved with the air duct 4, the gear rack 10 can drive the dewatering mechanism 2 to rotate, the dewatering mechanism 2 comprises a gear set 21, a gear lever 22, a rotating lever 23 and a water condensing net 24, the tooth surface of the gear set 21 is meshed with the left side of the top of the gear rack 10, the gear set 10 can drive the gear set 21 to rotate, the axis of the gear set 21 is rotatably connected with the inside of the connecting frame 5, the tooth surface on the left side of the gear set 21 is engaged with a rack 22, the gear set 21 can drive the rack 22 to rotate, the surface of the rack 22 is rotatably sleeved with the hole at the bottom of the air duct 4, the top end of the rack 22 penetrates through the hole at the bottom inside the air duct 4 and is engaged with the tooth surface of the rotating rod 23, the rack 22 can drive the rotating rod 23 to rotate, the number of the water condensation nets 24 is two, two ends of the rotating rod 23 are respectively fixedly sleeved with the axes of the two water condensation nets 24, the rotating rod 23 can drive the water condensation nets 24 to rotate, the water condensation nets 24 throw out the water condensed on the surface by using the rotating centrifugal force, the surface of each water condensation net 24 is rotatably sleeved with the inside of the air duct 4, hot air passes through the water condensation nets 24 in the moving process of the hot air duct 4, the water in the hot air comes into contact with the water condensation nets 24 and then begins to condense, the gear set 21 comprises a pinion on the front side and a helical gear on the rear side of the pinion, the pinion is meshed with the rack 10, the rack 10 is convenient to drive the pinion to rotate, the pinion is driven to drive the helical gear to rotate, the helical gear is a helical gear, the rack 22 is composed of a driving wheel at the bottom, a rotating shaft at the axis of the driving wheel and a driven wheel at the top end of the rotating shaft, the driving wheel is a helical gear, the helical gear is meshed with the driving wheel, the helical gear is convenient to drive the driving wheel to rotate, the driving wheel can drive the rotating shaft to rotate, the rotating shaft is rotatably sleeved with the air guide tube 4, a gear ring of the driven wheel is positioned at the top, the surface of the rotating rod 23 is of a gear structure, the rotating shaft can drive the driven wheel to rotate, the gear ring at the top of the driven wheel is meshed with the gear structure on the surface of the rotating rod 23, the driven wheel can drive the rotating rod 23 to rotate, the telescopic cylinder 6 can drive the hinge rod 8 to rotate through the sliding sleeve 7, the hinge rod 8 can drive the rack 10 to move through the sliding block 9, and the rack 10 can drive the dehydration mechanism 2 to rotate to dehydrate, dewatering mechanism 2 can let moisture condense, finally falls into the connection frame 5 in, the air gets into the cotton 13 that absorbs water after that, is absorbed water once more, and the tooth frame 10 can drive extrusion frame 12 through revolving rack 11 and carry out the extrusion dehydration to the cotton 13 that absorbs water, conveniently absorbs water cotton 13's repetitious usage, and fan 3 utilizes air duct 4 can drive the upper and lower circulation of the 1 inside air of stoving case in addition, reduces heat loss, and is energy-concerving and environment-protective.

The working principle is as follows: the power supply of the drying box 1 is connected, the heating device in the drying box 1 is used for drying, air in the drying box 1 is heated in the drying process, the power supply of the fan 3 is connected, the fan 3 upwards absorbs hot air in the drying box 1 to lead the hot air to the bottom of the drying box 1 through the air guide pipe 4, the hot air passes through the water condensation net 24 in the moving process of the hot air in the air guide pipe 4, water vapor in the hot air is condensed after contacting with the water condensation net 24, the hot water enters the absorbent cotton 13 after being dehydrated through the two water condensation nets 24, the absorbent cotton 13 absorbs water in the hot air, the telescopic cylinder 6 adopts an electric push rod to connect the power supply of the telescopic cylinder 6, the telescopic cylinder 6 firstly moves leftwards and then moves rightwards, when the telescopic cylinder 6 drives the sliding sleeve 7 to move leftwards, the sliding sleeve 7 slides on the surface of the hinged rod 8 and drives the hinged rod 8 to move leftwards, the hinged rod 8 can drive the sliding block 9 to move leftwards, the slider 9 slides in the spout of rack 10 and drives rack 10 and remove left, rack 10 slides spacingly in the inside of connection frame 5, let rack 10 can be steady and remove left, rack 10 can drive gear train 21 clockwise turning, gear train 21 can drive ratch 22 and rotate, ratch 22 can drive dwang 23 and rotate, dwang 23 can drive condensation net 24 and rotate, condensation net 24 utilizes pivoted centrifugal force to throw away the water that condenses on the surface, water finally falls into the inside of connection frame 5, rack 10 can drive revolving rack 11 clockwise turning, the lug of revolving rack 11 slides and drives extrusion frame 12 and move down in the aperture circle of extrusion frame 12, let extrusion frame 12 can extrude cotton 13 that absorbs water, extrude the moisture in the cotton 13 that absorbs water.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a full-automatic energy-efficient drying-machine, includes stoving case (1), its characterized in that, the opening intercommunication at stoving case (1) top has fan (3), the air outlet intercommunication of fan (3) has air duct (4), the one end that fan (3) were kept away from in air duct (4) communicates with the opening of stoving case (1) bottom, the bottom intercommunication of air duct (4) has connecting frame (5), opening fixed mounting on connecting frame (5) right side has telescopic cylinder (6), the output of telescopic cylinder (6) articulates there is sliding sleeve (7), the inside sliding connection of sliding sleeve (7) has articulated rod (8), the top of articulated rod (8) articulates there is slider (9), the side sliding connection of slider (9) has tooth frame (10), the right side meshing at tooth frame (10) top has revolving rack (11), the axis of revolving rack (11) is located and is connected with the inside rotation of connection frame (5), the lug sliding connection on revolving rack (11) surface has extrusion frame (12), the surface cover of extrusion frame (12) is equipped with cotton (13) that absorb water, the left side meshing at tooth frame (10) top has dewatering mechanism (2).

2. The full-automatic high-efficiency energy-saving dryer as claimed in claim 1, the dehydration mechanism (2) comprises a gear set (21), a toothed bar (22), a rotating bar (23) and a water condensation net (24), the tooth surface of the gear set (21) is meshed with the left side of the top of the gear rack (10), the axle center of the gear set (21) is rotationally connected with the inside of the connecting frame (5), the tooth surface at the left side of the gear set (21) is meshed with a toothed bar (22), the surface of the toothed bar (22) is rotatably sleeved with a hole at the bottom of the air duct (4), the top end of the toothed bar (22) penetrates through a hole at the bottom end inside the air duct (4) and is meshed with the tooth surface of the rotating bar (23), the number of the condensed water nets (24) is two, two ends of the rotating rod (23) are respectively fixedly sleeved with the axle centers of the two condensed water nets (24), the surface of the water condensation net (24) is rotatably sleeved with the inside of the air duct (4).

3. The automatic high-efficiency energy-saving dryer as claimed in claim 1, wherein the top end of the hinged rod (8) is inclined to the right, and the bottom end of the hinged rod (8) is hinged with the bottom end inside the connecting frame (5).

4. The full-automatic high-efficiency energy-saving dryer according to claim 1, wherein a limiting sleeve is connected to the surface of the rack (10) in a sliding manner, and the rear side of the limiting sleeve is welded with the inside of the connecting frame (5).

5. The full-automatic efficient energy-saving dryer according to claim 1, wherein the extrusion frame (12) comprises a hole ring at the bottom, a connecting rod at the top of the hole ring and an extrusion plate at the top end of the connecting rod, the top end of the connecting rod extends to the inside of the air guide tube (4), the hole of the water absorption cotton (13) is sleeved on the surface of the connecting rod, the top of the water absorption cotton (13) is connected with the bottom of the extrusion plate, and the bottom of the water absorption cotton (13) is connected with the inside of the air guide tube (4).

6. The full-automatic energy-efficient drying-machine of claim 2, characterized in that, gear train (21) includes the pinion of front side and the helical gear of pinion rear side, ratch (22) comprises the action wheel of bottom, the pivot of action wheel axle center department and the follower at pivot top, the action wheel is the skewed tooth gear, the pivot is rotated with air duct (4) and is cup jointed, the ring gear of follower is located the top, the surface of dwang (23) is gear structure.

Images