CN112284103A - Can carry out multistage while air-dried silk with unloading drying device from loading and unloading - Google Patents

Abstract

The invention relates to the field of textile drying equipment, and discloses a silk self-loading and unloading drying device capable of performing multi-section simultaneous air drying, which comprises a working box body, wherein an annular cavity is arranged in the working box body, a water dripping cavity is communicated and arranged at the lower side of the annular cavity, a water storage cavity is communicated and arranged at the lower side of the water dripping cavity, a discharging cavity is communicated and arranged at the right side of the annular cavity, a feeding box body is fixedly connected with the left end surface of the working box body, a conveying belt cavity with an upward opening is arranged in the feeding box body, the right side of the conveying belt cavity is communicated with the annular cavity, aiming at the characteristic that silk can not be dried by hot air, each silk is fixed by six circumferentially arranged fixing mechanisms under the condition of not damaging the organization structure of the silk, continuous output ventilation is performed, the silk drying is realized, whether the silk is dried by continuous dripping of silk, the fixing device is reset after the silk is dried, the automatic silk discharging device achieves the effect of drying silk under the condition that the silk is not damaged.

Description

Can carry out multistage while air-dried silk with unloading drying device from loading and unloading

Technical Field

The invention relates to the field related to textile drying equipment, in particular to a self-loading and unloading drying device for silk, which can carry out multi-section simultaneous air drying.

Background

One kind of silk belongs to vulnerable textile, and is unsuitable to be exposed to the sun and heated by a dryer after washing, and twisting water can also damage the hand feeling and color of the silk, and generally should be put in a shade place for ventilation, and the market adopts manual treatment temporarily and dries after the manual treatment because the vulnerable and higher treatment requirements are high, and meanwhile, a common drying device needs to manually put articles to be dried in and needs to be manually taken out after the drying is completed, and the silk is also damaged due to the increase of the friction times.

Disclosure of Invention

The invention aims to provide a self-loading and unloading drying device for silk, which can carry out multi-section simultaneous air drying, and can overcome the defects in the prior art, thereby improving the practicability of equipment.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention discloses a self-loading and unloading drying device for silk capable of multi-section simultaneous air drying, which comprises a working box body 10, wherein an annular cavity 11 is arranged in the working box body 10, a water dripping cavity 19 is communicated and arranged on the lower side of the annular cavity 11, a water storage cavity 20 is communicated and arranged on the lower side of the water dripping cavity 19, a material discharging cavity 21 is communicated and arranged on the right side of the annular cavity 11, a feeding box body 12 is fixedly connected to the left end surface of the working box body 10, a conveying belt cavity 13 with an upward opening is arranged in the feeding box body 12, the right side of the conveying belt cavity 13 is communicated with the annular cavity 11, a gear cavity 32 is arranged on the rear side of the annular cavity 11, a fan transmission cavity 35 is arranged on the front side of the annular cavity 11, a magnetic block sensing cavity 77 is communicated and arranged on the rear end wall of the annular cavity 11 close to the material discharging cavity 21, a sensing magnetic block cavity 76 is communicated and arranged on the left side of the magnetic block sensing cavity 77 The spline shaft 26 is connected with a clutch straight gear shaft 27 which extends forwards into the gear cavity 32 in a rotating fit manner, the clutch straight gear shaft 27 is fixedly connected with a clutch straight gear 25, the front end of the clutch straight gear shaft 27 is connected with a turning block 93 in a rotating fit manner, the front end face of the turning block 93 is fixedly connected with a turning block spring 92 between the front end wall of the gear cavity 32, the front end wall of the gear cavity 32 is positioned at the right side of the clutch straight gear shaft 27 in a rotating fit manner, and the fixed straight gear shaft 30 extends backwards into the gear cavity 32 and forwards into the annular cavity 11, the front end of the fixed straight gear shaft 30 is fixedly connected with a rotating box body 34 in a rotating manner, a straight gear cavity 37 is arranged in the rotating box body 34, and the fixed straight gear shaft 30 in a rotating fit manner is connected with a half gear shaft 29 which extends backwards into the gear cavity 32 and forwards into the straight gear cavity 37, the fixed straight gear shaft 30 is fixedly connected with a fixed straight gear 31 which can be meshed with the clutch straight gear 25, the half gear shaft 29 is fixedly connected with a half gear 28, and the tail end of the front side of the half gear shaft 29 is fixedly connected with a driving bevel gear 33.

On the basis of the technical scheme, the front end wall of the conveyor belt cavity 13 is connected with a driven pulley shaft 15 which extends backwards to the rear end wall of the conveyor belt cavity 13 in a rotating fit manner, the front end wall of the conveyor belt cavity 13 is positioned at the right side of the driven pulley shaft 15 and is connected with a driving pulley shaft 18 which extends backwards to the inside of the working box body 10 in a rotating fit manner, the driven pulley shaft 15 is fixedly connected with a driven pulley 14, the driving pulley shaft 18 is fixedly connected with a driving pulley 17, a conveyor belt 16 is connected between the driven pulley 14 and the driving pulley 17 in a power fit manner, the rear end of the driving pulley shaft 18 is fixedly connected with a pulley stepping motor 24, the right side of the dripping cavity 19 is communicated with a fiber sliding cavity 95, the right side of the fiber sliding cavity 95 is communicated with a connecting block sliding cavity 69, and the connecting block sliding cavity 69 is connected with a fiber connecting block 70 in a, the left end face of the fiber connecting block 70 and the left end wall of the connecting block sliding cavity 69 are fixedly connected with a connecting block left spring 71, the left end face of the fiber connecting block 70 is fixedly connected with a synthetic fiber 68 which extends leftwards and penetrates through the fiber sliding cavity 95, the right end face of the fiber connecting block 70 and the right end wall of the connecting block sliding cavity 69 are fixedly connected with a connecting block right spring 49, an induction magnetic block 75 is connected with the induction magnetic block cavity 76 in a sliding fit mode, and an induction magnetic block spring 74 is fixedly connected between the left end face of the induction magnetic block 75 and the left end wall of the induction magnetic block cavity 76.

On the basis of the technical scheme, two fixed box bodies 64 which are symmetrical relative to the rotating box body 34 are fixedly connected to the left end face and the right end face of the rotating box body 34, a straight gear cavity 65 is arranged in each fixed box body 64, a placing block cavity 83 with an upward opening is arranged on one side, away from the rotating box body 34, of each straight gear cavity 65, a sliding block cavity 87 is communicated with the lower side of each placing block cavity 83, two fixed plate rotating cavities 47 which are symmetrical relative to the placing block cavity 83 are arranged in the front of and behind the placing block cavity 83, a clutch magnet cavity 56 which is provided with a backward opening and can correspond to the magnetic block sensing cavity 77 is arranged in each fixed box body 64, a magnet through cavity 42 with a backward opening is arranged on one side, away from the rotating box body 34, of each fixed plate rotating cavity 47, and a movable magnet cavity 52 is communicated with the right side of each magnet through cavity 42, the left and right end wall normal running fit of straight gear chamber 37 is connected with two about half gear shaft 29 is symmetrical and to being close to one side of half gear shaft 29 extends to in the straight gear chamber 37, to keeping away from one side of half gear shaft 29 extends to sliding straight gear shaft 61 in straight gear chamber 65, being close to of sliding straight gear shaft 61 the terminal fixedly connected with in one side of half gear shaft 29 can with the driven bevel gear 62 of drive bevel gear 33 meshing, just be located on the sliding straight gear shaft 61 spline fit connection has axle sleeve 63 in straight gear chamber 65, fixedly connected with sliding straight gear 67 on the axle sleeve 63, axle sleeve 63 keeps away from the terminal normal running fit in one side of half gear shaft 29 is connected with axle bed 60.

On the basis of the technical scheme, the axle seat 60 is far away from the end surface of the half gear shaft 29 and the straight gear cavity 65 is far away from fixedly connected with axle seat spring 66 between the end walls of the half gear shaft 29, the straight gear cavity 65 is far away from the end wall rotating fit of one side of the half gear shaft 29 is connected with one side which is close to the straight gear cavity 37 and extends to the rotating shaft 58 in the straight gear cavity 65 and extends to the opposite direction in the fixed plate rotating cavity 47, the rotating shaft 58 is close to the tail end fixedly connected with one side of the straight gear cavity 37 and the reset straight gear 59 meshed with the sliding straight gear 67, the rotating shaft 58 is far away from the tail end fixedly connected with fixed plate 46 on one side of the straight gear cavity 37, the fixed plate 46 is far away from the end surface of the straight gear cavity 37 and the fixed plate rotating cavity 47 is far away from the torsion spring 45 fixedly connected between, a moving magnet 43 is connected in the moving magnet cavity 52 in a sliding fit manner, a moving magnet spring 44 is fixedly connected between the end face of the moving magnet cavity 37 close to the end wall of the straight gear cavity 37 of the moving magnet 43 and the end wall of the moving magnet cavity 52 close to the straight gear cavity 37, a clutch magnet 55 is connected in the clutch magnet cavity 56 in a sliding fit manner, a clutch magnet spring 57 is fixedly connected between the rear end face of the clutch magnet 55 and the end wall of the clutch magnet cavity 56, a button cavity 41 corresponding to the magnet through cavity 42 is arranged in the rear end wall of the annular cavity 11 in a communicating manner, a sliding magnet 48 is connected in the button cavity 41 in a sliding fit manner, a sliding magnet spring 50 is fixedly connected between the rear end face of the sliding magnet 48 and the rear end wall of the button cavity 41, a conveyor belt button 51 capable of abutting against the sliding magnet 48 is fixedly connected to the end wall of, a fixed friction plate 40 capable of abutting against the sliding magnet 48 is fixedly connected to an end wall of the button cavity 41 away from the spur gear cavity 37.

On the basis of the technical scheme, it is connected with and places piece 85 to place sliding fit in piece chamber 83, place lower terminal surface fixedly connected with sliding block 86 of piece 85, sliding block 86 with sliding block chamber 87 sliding fit is connected, sliding block 86's lower terminal surface with spring 84 under the fixedly connected with sliding block between the lower terminal wall in sliding block chamber 87, sliding block 86's up end with two fixedly connected with about between the upper end wall of sliding block chamber 87 place spring 22 on the sliding block of piece 85 longitudinal symmetry, be equipped with the decurrent spacing chamber 79 of opening in the fixed plate 46, sliding fit is connected with spacing fixture block 80 in the spacing chamber 79, the lower terminal surface of spacing fixture block 80 with the fixed plate rotates spacing fixture block spring 81 of fixedly connected with between the lower terminal wall in chamber 47.

On the basis of the technical scheme, the rear end wall of the fan transmission cavity 35 is connected with the fan shaft 36 which extends backwards in the annular cavity 11 and extends forwards in the fan transmission cavity 35 in a matched manner, the rear side fixedly connected with fan blades 39 of the fan shaft 36, the front end of the fan shaft 36 is fixedly connected with the fan shaft gear 38, the front end wall of the fan transmission cavity 35 is located on the left side of the fan shaft 36, the left side of the fan shaft is connected with the fan shaft gear 89 which extends backwards in the gear cavity 32 and extends forwards in the working box body 10, the fan shaft gear 89 is meshed with the fan shaft gear 38, the rear end of the fan shaft 89 is fixedly connected with the fan gear 88, the front end of the fan shaft 89 is fixedly connected with the motor 91, the fan gear 88 can be meshed with the clutch straight gear 25, the lower end face of the sliding block 86 is close to the movable magnet 43 and the end face of the fixed plate rotation cavity 47 is connected with the movable magnet 43 A movable magnet pull rope 53 is fixedly connected between the two ends, a shaft sleeve pull rope 72 is fixedly connected between the front end face of the clutch magnet 55 and the end face support of the shaft seat 60 far away from the driven bevel gear 62, a connecting block left pull rope 73 is fixedly connected between the left end face of the induction magnet block 75 and the left end face of the fiber connecting block 70, a connecting block right pull rope 82 is fixedly connected between the right end face of the fiber connecting block 70 and the front end face of the rotating block 93, and a sliding block upper pull rope 23 is fixedly connected between the upper end face of the sliding block 86 and the lower end face of the limiting clamping block 80.

The invention has the beneficial effects that: aiming at the characteristic that silk can not be dried by hot air, each piece of silk is fixed under the condition of not damaging the organizational structure of the silk by the fixing mechanism arranged in six circumferential directions, and continuous output ventilation is performed, so that the silk is dried, whether drying is completed or not is judged by continuous dripping of the silk, the fixing device is reset after the drying is completed, and when the fixing box body moves to the discharge opening, the silk is automatically discharged from the device, so that the effect of drying under the condition that the silk is not damaged is achieved.

Drawings

In order to more clearly illustrate the embodiments of the 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, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view showing the overall structure of a self-loading and unloading drying apparatus for silk capable of multi-stage simultaneous air drying according to the present invention.

Fig. 2 is a schematic sectional view of a-a in fig. 1.

FIG. 3 is a schematic cross-sectional view of B-B in FIG. 1.

Fig. 4 is an enlarged schematic view of the structure at D in fig. 2.

Fig. 5 is a schematic sectional structure view of E-E in fig. 4.

Fig. 6 is a schematic sectional structure view of C-C in fig. 2.

Fig. 7 is a schematic sectional structure view of F-F in fig. 2.

Fig. 8 is a schematic sectional structure view of G-G in fig. 7.

Fig. 9 is an enlarged schematic view of fig. 1 at H.

Detailed Description

The invention will now be described in detail with reference to fig. 1-9, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The self-loading and unloading drying device for silk capable of multi-section simultaneous air drying comprises a working box body 10, wherein an annular cavity 11 is arranged in the working box body 10, a water dripping cavity 19 is communicated with the lower side of the annular cavity 11, a water storage cavity 20 is communicated with the lower side of the water dripping cavity 19, a discharging cavity 21 is communicated with the right side of the annular cavity 11, a feeding box body 12 is fixedly connected with the left end face of the working box body 10, a conveying belt cavity 13 with an upward opening is arranged in the feeding box body 12, the right side of the conveying belt cavity 13 is communicated with the annular cavity 11, a gear cavity 32 is arranged at the rear side of the annular cavity 11, a fan transmission cavity 35 is arranged at the front side of the annular cavity 11, a magnetic block sensing cavity 77 is communicated with the rear end wall of the annular cavity 11 close to the discharging cavity 21, and a sensing magnetic block cavity 76 is communicated with the left side of the magnetic block sensing cavity, the rear end wall normal running fit of gear chamber 32 is connected with and extends to spline shaft 26 in the gear chamber 32 forward, spline shaft 26 internal running fit is connected with and extends to forward clutch straight gear shaft 27 in the gear chamber 32, fixed connection clutch straight gear 25 on the clutch straight gear shaft 27, the terminal normal running fit of front side of clutch straight gear shaft 27 is connected with turning block 93, the front end face of turning block 93 with fixedly connected with turning block spring 92 between the front end wall of gear chamber 32, the front end wall of gear chamber 32 just is located the right side normal running fit of clutch straight gear shaft 27 is connected with and extends to backward in the gear chamber 32 and extends to forward fixed straight gear shaft 30 in the annular chamber 11, the terminal fixedly connected with of front side of fixed straight gear shaft 30 rotates box 34, be equipped with straight gear chamber 37 in the rotation box 34, fixed straight gear axle 30 internal rotation fit is connected and extends to backward in the gear chamber 32 and extend to forward half gear axle 29 in the straight gear chamber 37, fixed straight gear axle 30 go up fixedly connected with can with the fixed straight-gear 31 of separation and reunion straight-gear 25 meshing, fixedly connected with half gear 28 on the half gear axle 29, the terminal fixedly connected with initiative bevel gear 33 of front side of half gear axle 29.

In addition, in one embodiment, a driven pulley shaft 15 extending backwards to the rear end wall of the conveyor belt cavity 13 is rotatably and cooperatively connected to the front end wall of the conveyor belt cavity 13, a driving pulley shaft 18 extending backwards to the inside of the work box 10 is rotatably and cooperatively connected to the front end wall of the conveyor belt cavity 13 and positioned at the right side of the driven pulley shaft 15, a driven pulley 14 is fixedly connected to the driven pulley shaft 15, a driving pulley 17 is fixedly connected to the driving pulley shaft 18, a conveyor belt 16 is movably and cooperatively connected between the driven pulley 14 and the driving pulley 17, a pulley stepping motor 24 is fixedly connected to the rear end of the driving pulley shaft 18, a fiber sliding cavity 95 is communicated with the right side of the dripping cavity 19, a connecting block sliding cavity 69 is communicated with the right side of the fiber sliding cavity 95, and a fiber connecting block 70 is slidably and cooperatively connected in the connecting block sliding cavity 69, the left end face of the fiber connecting block 70 and the left end wall of the connecting block sliding cavity 69 are fixedly connected with a connecting block left spring 71, the left end face of the fiber connecting block 70 is fixedly connected with a synthetic fiber 68 which extends leftwards and penetrates through the fiber sliding cavity 95, the right end face of the fiber connecting block 70 and the right end wall of the connecting block sliding cavity 69 are fixedly connected with a connecting block right spring 49, an induction magnetic block 75 is connected with the induction magnetic block cavity 76 in a sliding fit mode, and an induction magnetic block spring 74 is fixedly connected between the left end face of the induction magnetic block 75 and the left end wall of the induction magnetic block cavity 76.

In addition, in one embodiment, two fixed boxes 64 symmetrical with respect to the rotating box 34 are fixedly connected to the left and right end faces of the rotating box 34, a straight gear cavity 65 is arranged in the fixed box 64, a placing block cavity 83 with an upward opening is arranged in the fixed box 64 and on one side of the straight gear cavity 65 away from the rotating box 34, a sliding block cavity 87 is communicated with the lower side of the placing block cavity 83, two fixed plate rotating cavities 47 symmetrical with respect to the placing block cavity 83 are arranged in the front and at the back of the placing block cavity 83, a clutch magnet cavity 56 with a backward opening and capable of corresponding to the magnetic block sensing cavity 77 is arranged in the fixed box 64, a magnet through cavity 42 with a backward opening is arranged in one side of the fixed plate rotating cavity 47 away from the rotating box 34, and a moving magnet cavity 52 is communicated with the right side of the magnet through cavity 42, the left and right end wall normal running fit of straight gear chamber 37 is connected with two about half gear shaft 29 is symmetrical and to being close to one side of half gear shaft 29 extends to in the straight gear chamber 37, to keeping away from one side of half gear shaft 29 extends to sliding straight gear shaft 61 in straight gear chamber 65, being close to of sliding straight gear shaft 61 the terminal fixedly connected with in one side of half gear shaft 29 can with the driven bevel gear 62 of drive bevel gear 33 meshing, just be located on the sliding straight gear shaft 61 spline fit connection has axle sleeve 63 in straight gear chamber 65, fixedly connected with sliding straight gear 67 on the axle sleeve 63, axle sleeve 63 keeps away from the terminal normal running fit in one side of half gear shaft 29 is connected with axle bed 60.

In addition, in an embodiment, the shaft seat 60 is far from the end surface of the half gear shaft 29 and the end wall of the straight gear cavity 65 far from the half gear shaft 29, the end wall of the straight gear cavity 65 far from one side of the half gear shaft 29 is connected with a shaft seat spring 66 which is fixedly connected between the end wall and the end wall, in a rotating manner, one side of the straight gear cavity 37 is extended into the straight gear cavity 65 and is extended into the fixed plate rotating cavity 47 in the opposite direction, the tail end of the rotating shaft 58 near to one side of the straight gear cavity 37 is fixedly connected with a reset straight gear 59 meshed with the sliding straight gear 67, the tail end of the rotating shaft 58 far from one side of the straight gear cavity 37 is fixedly connected with a fixed plate 46, the end surface of the straight gear cavity 37 is far from the fixed plate 46 and the end wall of the straight gear cavity 37 is fixedly connected with a torsion spring 45, a moving magnet 43 is connected in the moving magnet cavity 52 in a sliding fit manner, a moving magnet spring 44 is fixedly connected between the end face of the moving magnet cavity 37 close to the end wall of the straight gear cavity 37 of the moving magnet 43 and the end wall of the moving magnet cavity 52 close to the straight gear cavity 37, a clutch magnet 55 is connected in the clutch magnet cavity 56 in a sliding fit manner, a clutch magnet spring 57 is fixedly connected between the rear end face of the clutch magnet 55 and the end wall of the clutch magnet cavity 56, a button cavity 41 corresponding to the magnet through cavity 42 is arranged in the rear end wall of the annular cavity 11 in a communicating manner, a sliding magnet 48 is connected in the button cavity 41 in a sliding fit manner, a sliding magnet spring 50 is fixedly connected between the rear end face of the sliding magnet 48 and the rear end wall of the button cavity 41, a conveyor belt button 51 capable of abutting against the sliding magnet 48 is fixedly connected to the end wall of, a fixed friction plate 40 capable of abutting against the sliding magnet 48 is fixedly connected to an end wall of the button cavity 41 away from the spur gear cavity 37.

In addition, in an embodiment, it places piece 85 to place sliding fit in piece chamber 83 to place, the lower terminal surface fixedly connected with sliding block 86 of placing piece 85, sliding block 86 with sliding block chamber 87 sliding fit is connected, the lower terminal surface of sliding block 86 with fixedly connected with sliding block lower spring 84 between the lower terminal wall in sliding block chamber 87, the up end of sliding block 86 with fixedly connected with two between the upper end wall of sliding block chamber 87 about place piece 85 longitudinal symmetry's sliding block upper spring 22, be equipped with the decurrent spacing chamber 79 of opening in the fixed plate 46, sliding fit is connected with spacing fixture block 80 in spacing chamber 79, the lower terminal surface of spacing fixture block 80 with fixedly connected with spacing fixture block spring 81 between the lower terminal wall in fixed plate rotation chamber 47.

In addition, in one embodiment, the rear end wall of the fan transmission cavity 35 is rotatably and cooperatively connected with a fan shaft 36 extending backwards into the annular cavity 11 and forwards into the fan transmission cavity 35, the rear side of the fan shaft 36 is fixedly connected with fan blades 39, the front end of the fan shaft 36 is fixedly connected with a fan shaft gear 38, the front end wall of the fan transmission cavity 35 and the left side of the fan shaft 36 are rotatably and cooperatively connected with a fan gear shaft 89 extending backwards into the gear cavity 32 and forwards into the work box 10, the fan gear shaft 89 is engaged with the fan shaft gear 38, the rear end of the fan gear shaft 89 is fixedly connected with a fan gear 88, the front end of the fan gear shaft 89 is fixedly connected with a motor 91, the fan gear 88 can be engaged with the clutch spur gear 25, and the lower end surface of the sliding block 86 is engaged with the end surface of the moving magnet 43 close to the fixed plate rotation cavity 47 A movable magnet pull rope 53 is fixedly connected between the two ends, a shaft sleeve pull rope 72 is fixedly connected between the front end face of the clutch magnet 55 and the end face support of the shaft seat 60 far away from the driven bevel gear 62, a connecting block left pull rope 73 is fixedly connected between the left end face of the induction magnet block 75 and the left end face of the fiber connecting block 70, a connecting block right pull rope 82 is fixedly connected between the right end face of the fiber connecting block 70 and the front end face of the rotating block 93, and a sliding block upper pull rope 23 is fixedly connected between the upper end face of the sliding block 86 and the lower end face of the limiting clamping block 80.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

As shown in fig. 1 to 9, when the apparatus of the present invention is in the initial state, the synthetic fiber 68 is in the dry state, the left spring 71 of the connection block and the right pull rope 82 of the connection block are in the relaxed state, the moving magnet 43 is in the moving magnet cavity 52, the moving magnet spring 44 is in the compressed state, the sliding magnet 48 is in the abutting state with the belt button 51, the sliding magnet spring 50 is in the compressed state, the clutch magnet spring 57 is in the relaxed state, the shaft seat spring 66 is in the compressed state, the torsion spring 45 is in the accumulated force state, the limit latch 80 is in the state of being latched in the limit cavity 79, the placing block 85 and the sliding block 86 are in the pop-up state, the spring 84 under the sliding block is in the relaxed;

sequence of mechanical actions of the whole device:

when the silk weaving machine starts to work, the sliding magnet 48 abuts against the conveyor belt button 51, the conveyor belt button 51 is pressed, the belt wheel stepping motor 24 is started to drive the driving belt wheel shaft 18 to rotate, the driving belt wheel shaft 18 rotates to drive the driving belt wheel 17 to rotate, the driving belt wheel 17 rotates to drive the driven belt wheel 14 to start to rotate through the conveyor belt 16, when wet silk is placed on the conveyor belt 16, the silk moves rightwards to the annular cavity 11, when the silk moves to the placing block 85, the weight of the silk drives the placing block 85 and the sliding block 86 to move downwards, at the moment, the moving magnet 43 moves leftwards to the magnet through cavity 42 under the action of the pushing force of the moving magnet pull rope 53 and the elastic force of the moving magnet spring 44, the sliding magnet 48 slowly moves forwards under the action of the attraction force of the moving magnet 43 and the friction force of the fixed friction plate 40, and the limiting clamping block 80 moves downwards, meanwhile, the rotating shaft 58 drives the fixing plate 46 to rotate around the rotating shaft 58 to the direction of the placing block 85 to compress silk under the action of the accumulated force of the torsion spring 45, at the moment, the silk can continuously drip water and is gathered in the water storage cavity 20 after passing through the water dripping cavity 19 along the annular cavity 11, when the water drops fall into the water dripping cavity 19, the synthetic fibers 68 can absorb water and expand to drive the fiber connecting block 70 to overcome the spring elasticity of the connecting block left spring 71 to move rightwards, and at the moment, the induction magnet block 75 moves leftwards to the induction magnet block cavity 76 under the action of the connecting block left pull rope 73 overcoming the elasticity of the induction magnet block spring 74 under the thrust;

at this time, the motor 91 is started to drive the sector gear shaft 89 to rotate, the sector gear shaft 89 rotates to drive the bevel gear 90 and the sector gear 88 to start rotating, the bevel gear 90 rotates to drive the fan shaft gear 38 to start rotating so as to drive the fan shaft 36 to start rotating, the fan shaft 36 rotates so as to drive the fan blades 39 to start rotating around the fan shaft 36, and at this time, the fan starts to work;

the sector gear 88 rotates to drive the clutch straight gear 25 to start intermittent rotation, the clutch straight gear 25 rotates to drive the clutch straight gear shaft 27 to rotate, the clutch straight gear shaft 27 rotates to drive the fixed straight gear 31 to start rotation, the fixed straight gear 31 rotates to drive the fixed straight gear shaft 30 to start rotation, the fixed straight gear shaft 30 rotates to drive the rotating box body 34 to start rotating around the fixed straight gear shaft 30, the amplitude of each rotation is sixty degrees, silk needing air drying is fixed on the placing blocks 85 on the six rotating box bodies 34 in sequence, at the moment, the sliding magnet 48 moves to be separated from the contact with the conveyor belt button 51, the belt wheel stepping motor 24 is turned off, and the conveyor belt 16 stops moving;

the fan continuously works, when all silks are air-dried, no water drips any more, at the moment, the synthetic fiber 68 begins to shrink, the fiber connecting block 70 moves leftwards to reset under the action of the elastic force of a connecting block left spring 71, at the moment, the rotating block 93 moves upwards slowly under the action of the thrust of a connecting block right pull rope 82, the elastic force of a rotating block spring 92 and the friction force of a rotating friction block 94, the rotating block 93 moves to drive the clutch spur gear 25 and the clutch spur gear shaft 27 to move upwards slowly, at the moment, the clutch spur gear 25, the half gear 28 and the fixed spur gear 31 are meshed simultaneously, and at the same time, the induction magnet block 75 moves rightwards to the magnet induction cavity 77 under the action of the thrust of a connecting block left pull rope 73 and the elastic force of an induction magnet block spring;

when the fixed box 64 moves to the position corresponding to the clutch magnet 55 and the inductive magnet 75 on the fixed box 64, the clutch magnet 55 moves forward under the repulsive force of the inductive magnet 75, at the same time, the shaft seat 60 drives the shaft sleeve 63 and the sliding spur gear 67 to move to the direction close to the driven bevel gear 62 to be meshed with the reset spur gear 59 under the pulling force of the shaft sleeve pulling rope 72 and the elastic force of the shaft seat spring 66, the clutch spur gear 25 rotates to drive the half gear 28 to start rotating, the half gear 28 rotates to drive the half gear shaft 29 to start rotating, the half gear shaft 29 rotates to drive the driving bevel gear 33 to start rotating, the driving bevel gear 33 rotates to drive the driven bevel gear 62 to start rotating, the driven bevel gear 62 rotates to drive the sliding spur gear 67 to rotate through the sliding spur gear shaft 61, the sliding spur gear 67 rotates to drive the reset spur gear 59 to start rotating, the reset spur gear, when the fixing plate 46 rotates to the position where the limiting cavity 79 corresponds to the position of the limiting fixture block 80, the limiting fixture block 80 moves upwards to be clamped into the limiting cavity 79, at the moment, the torsion spring 45 stores power again, the fixing plate 46 is opened, the placing block 85 and the sliding block 86 bounce again to reset, meanwhile, the moving magnet 43 overcomes the elasticity of the moving magnet pull rope 53 to move to the direction close to the fixing plate 46 to the moving magnet cavity 52 under the action of the pulling force of the moving magnet pull rope 53, at the moment, the dried silk is discharged out of the working box body 10 from the discharge cavity 21, and when the clutch magnet 55 on each fixing box body 64 moves to correspond to the position of the induction magnet block 75, the operation is repeated;

when silk is not placed on the placing block 85, the sliding magnet 48 loses the attraction force of the moving magnet 43 and then slowly moves backwards to abut against the conveyor belt button 51, and after the conveyor belt button 51 is contacted, the belt wheel stepping motor 24 starts again, and the conveyor belt 16 starts to drive again.

The invention has the beneficial effects that: aiming at the characteristic that silk can not be dried by hot air, each piece of silk is fixed under the condition of not damaging the organizational structure of the silk by the fixing mechanism arranged in six circumferential directions, and continuous output ventilation is performed, so that the silk is dried, whether drying is completed or not is judged by continuous dripping of the silk, the fixing device is reset after the drying is completed, and when the fixing box body moves to the discharge opening, the silk is automatically discharged from the device, so that the effect of drying under the condition that the silk is not damaged is achieved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a can carry out air-dried silk of multistage simultaneously with unloading drying device from loading and unloading, includes the work box, its characterized in that: the working box is internally provided with an annular cavity, the lower side of the annular cavity is communicated with a water dripping cavity, the lower side of the water dripping cavity is communicated with a water storage cavity, the right side of the annular cavity is communicated with a material discharging cavity, the left end face of the working box is fixedly connected with a feeding box body, the feeding box body is internally provided with a conveyer belt cavity with an upward opening, the right side of the conveyer belt cavity is communicated with the annular cavity, the rear side of the annular cavity is provided with a gear cavity, the front side of the annular cavity is provided with a fan transmission cavity, the rear end wall of the annular cavity, which is close to the material discharging cavity, is communicated with a magnetic block induction cavity, the left side of the magnetic block induction cavity is communicated with an induction magnetic block cavity, the rear end wall of the gear cavity is connected with a spline shaft which extends forwards into the gear cavity in a rotating and matching, the clutch straight gear is fixedly connected to the clutch straight gear shaft, the front end of the clutch straight gear shaft is connected with a rotating block in a rotating fit mode, a rotating block spring is fixedly connected between the front end face of the rotating block and the front end wall of the gear cavity, the front end wall of the gear cavity is located, the right side of the clutch straight gear shaft is connected with a fixed straight gear shaft which extends backwards into the gear cavity and forwards into the annular cavity, the front end of the fixed straight gear shaft is fixedly connected with a rotating box body, a straight gear cavity is arranged in the rotating box body, the fixed straight gear shaft is connected with a half gear shaft which extends backwards into the gear cavity and forwards into the straight gear cavity in a rotating fit mode, the fixed straight gear shaft is fixedly connected with a fixed straight gear which can be meshed with the clutch straight gear, and the half gear shaft is fixedly connected with a half gear, the tail end of the front side of the half gear shaft is fixedly connected with a driving bevel gear.

2. The self-loading and unloading drying device for silk capable of multi-stage simultaneous air drying according to claim 1, characterized in that: the front end wall of the conveying belt cavity is connected with a driven pulley shaft which extends backwards to the rear end wall of the conveying belt cavity in a rotating fit manner, the front end wall of the conveying belt cavity is positioned on the right side of the driven pulley shaft and is connected with a driving pulley shaft which extends backwards to the inside of the working box in a rotating fit manner, the driven pulley shaft is fixedly connected with a driven pulley, the driving pulley shaft is fixedly connected with a driving pulley, a conveying belt is connected between the driven pulley and the driving pulley in a power fit manner, the rear end of the driving pulley shaft is fixedly connected with a pulley stepping motor, the right side of the water dripping cavity is communicated with a fiber sliding cavity, the right side of the fiber sliding cavity is communicated with a connecting block sliding cavity, a fiber connecting block is connected in the connecting block sliding cavity in a sliding fit manner, and a connecting block left spring is fixedly connected between the left end wall of the fiber connecting, the fiber connecting block comprises a fiber connecting block and is characterized in that a left end face of the fiber connecting block is fixedly connected with a synthetic fiber which extends leftwards and penetrates through a fiber sliding cavity, a connecting block right spring is fixedly connected between a right end face of the fiber connecting block and a right end wall of the connecting block sliding cavity, an induction magnet is connected in the induction magnet cavity in a sliding fit mode, and an induction magnet spring is fixedly connected between a left end face of the induction magnet and a left end wall of the induction magnet cavity.

3. The self-loading and unloading drying device for silk capable of multi-stage simultaneous air drying according to claim 1, characterized in that: terminal surface fixedly connected with about the rotation box two about rotate the fixed box of box symmetry, be equipped with the spur gear chamber in the fixed box, just be located in the fixed box the spur gear chamber is kept away from one side of rotating the box is equipped with the ascending piece chamber of placing of opening, the downside intercommunication of placing the piece chamber is equipped with the sliding block chamber, it is equipped with two about around placing the piece chamber the fixed plate of placing the piece chamber symmetry rotates the chamber, be equipped with the opening backward in the fixed box and can with the separation and reunion magnet chamber that the magnetic path response chamber corresponds, just be located in the fixed box the fixed plate rotates the chamber and keeps away from one side of rotating the box is equipped with the logical chamber of magnet that the opening is backward, the right side intercommunication that the logical chamber of magnet is equipped with removes the magnet chamber, the end wall normal running fit about the spur gear chamber is connected with two about half gear axial symmetry and to being close to one side of half gear shaft extends, To keeping away from one side of half gear shaft extends to the straight-teeth gear intracavity slip straight gear shaft, being close to of slip straight gear shaft the terminal fixedly connected with in one side of half gear shaft can with the driven bevel gear of drive bevel gear meshing, the epaxial just being located of slip straight gear shaft straight-teeth gear intracavity spline fit is connected with the axle sleeve, fixedly connected with slip straight-teeth gear on the axle sleeve, the axle sleeve is kept away from the terminal normal running fit in one side of half gear shaft is connected with the axle bed.

4. The self-loading and unloading drying device for silk capable of multi-stage simultaneous air drying according to claim 3, characterized in that: the axle bed is kept away from the terminal surface of half gear shaft with the straight-teeth gear chamber is kept away from fixedly connected with axle bed spring between the end wall of half gear shaft, the straight-teeth gear chamber is kept away from the end wall normal running fit of half gear shaft one side is connected to being close to one side in straight-teeth gear chamber extends to the straight-teeth gear intracavity and extends to opposite direction the axis of rotation in fixed plate rotation intracavity, the axis of rotation is close to the terminal fixedly connected with of straight-teeth gear chamber one side with the straight-teeth gear that resets of slip straight-teeth gear meshing, the axis of rotation is kept away from the terminal fixedly connected with fixed plate of straight-teeth gear chamber one side, the fixed plate is kept away from the terminal surface in straight-teeth gear chamber with the fixed plate rotates the chamber and keeps away from fixedly connected with torsional spring between the end wall in straight-teeth gear chamber, it is connected with removal magnet to remove magnet intracavity sliding Be connected with the removal magnet spring, separation and reunion magnet intracavity sliding fit is connected with separation and reunion magnet, separation and reunion magnet's rear end face with fixedly connected with separation and reunion magnet spring between the end wall in separation and reunion magnet chamber, the rear end wall intercommunication of annular chamber be equipped with the button chamber that magnet leads to the chamber and corresponds, button intracavity sliding fit is connected with slip magnet, the rear end face of slip magnet with fixedly connected with slip magnet spring between the rear end wall in button chamber, the button chamber is close to the end wall fixedly connected with in straight gear chamber can with the conveyer belt button of slip magnet butt, the button chamber is kept away from the end wall fixedly connected with in straight gear chamber can with the fixed friction plate of slip magnet butt.

5. The self-loading and unloading drying device for silk capable of multi-stage simultaneous air drying according to claim 1, characterized in that: it is connected with and places the piece to place a intracavity sliding fit, the lower terminal surface fixedly connected with sliding block of placing the piece, the sliding block with sliding block chamber sliding fit connects, the lower terminal surface of sliding block with fixedly connected with sliding block lower spring between the lower terminal wall in sliding block chamber, the up end of sliding block with fixedly connected with two between the upper end wall in sliding block chamber about placing the sliding block spring of piece longitudinal symmetry, be equipped with the spacing chamber that the opening is decurrent in the fixed plate, spacing intracavity sliding fit is connected with spacing fixture block, the lower terminal surface of spacing fixture block with the spacing fixture block spring of fixedly connected with between the lower terminal wall in fixed plate rotation chamber.

6. The self-loading and unloading drying device for silk capable of multi-stage simultaneous air drying according to claim 1, characterized in that: the rear end wall normal running fit in fan transmission chamber is connected and extends to backward in the ring chamber and extends to forward the fan axle in the fan transmission chamber, the rear side fixedly connected with fan blade of fan axle, the terminal fixedly connected with fan shaft gear of front side of fan axle, the front end wall in fan transmission chamber just is located the left side normal running fit of fan axle is connected and extends to backward in the gear chamber and extends to the fan gear axle in the working box forward, fan gear axle with fan shaft gear engagement, the terminal fixedly connected with sector gear of rear side of sector gear axle, the terminal fixedly connected with motor of front side of sector gear axle, sector gear can with separation and reunion straight-teeth gear engagement, the lower terminal surface of sliding block with the removal magnet is close to fixedly connected with removal magnet stay cord between the terminal surface in fixed plate rotation chamber, the front end face of the clutch magnet and the end face support of the shaft seat far away from the driven bevel gear are fixedly connected with shaft sleeve pull ropes, the left end face of the induction magnetic block and the left end face of the fiber connecting block are fixedly connected with a connecting block left pull rope, the right end face of the fiber connecting block and the front end face of the rotating block are fixedly connected with a connecting block right pull rope, and the upper end face of the sliding block and the lower end face of the limiting clamping block are fixedly connected with a sliding block upper pull rope.

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