CN108731446B - Automatic change fabrics processing drying device - Google Patents

Abstract

The invention discloses an automatic textile processing and drying device which structurally comprises a top box, a handle, a box door, a drying main machine, supporting legs and a hinge, wherein the lower end of the top box is fixedly arranged at the upper end of the drying main machine; the reinforcing blocks on the chain move along with the chain, so that the frame moves to drive the connecting rod to move, and the drying lamps move along with the frame, so that all parts of the textile can be irradiated by the drying lamps, and the textile is comprehensively dried; through the inside orbit of orbit cylinder for the swinging arms begins the swing, and arc pinion rack begins the swing at this moment, moves about also with the rack of arc pinion rack looks meshing, and the area fabrics moves about, prevents like this that the drying lamp from shining same position for a long time and making the fabrics damage.

Description

Automatic change fabrics processing drying device

Technical Field

The invention discloses an automatic textile processing and drying device, and belongs to the field of automatic textile processing and drying devices.

Background

The dryer can be divided into an industrial dryer and a civil dryer, the industrial dryer is also called as a drying device or a dryer, the civil dryer is one of washing machines and is generally used for removing moisture in clothes and other textiles after washing and dewatering, and the dryer has a belt type drying mode, a roller type drying mode, a box type drying mode, a tower type drying mode and other modes; the heat source is coal, electricity, gas and the like; the materials are dried in a hot air flow mode, a radiation mode and the like, the hot air roller drying is that hot air flows forwards from the tail part and is fully contacted with the materials, and the heat transfer quantity is fully utilized through heat conduction, convection and radiation.

However, when the drying device in the prior art is used for drying textiles, the textiles are difficult to dry when being in a strip shape, so that the local drying effect of the textiles is poor; and fixing a certain part for long time for drying can cause local damage of textiles.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an automatic textile processing and drying device, which aims to solve the problem that when the conventional drying device is used for drying textiles, the textiles are in a long strip shape and are difficult to dry, so that the local drying effect of the textiles is poor; and the problem of local damage of textiles can be caused by fixing a certain part for long time for drying.

In order to achieve the purpose, the invention is realized by the following technical scheme: an automatic textile processing and drying device structurally comprises a top box, a handle, a box door, a drying host, supporting legs and hinges, wherein the lower end of the top box is fixedly arranged at the upper end of the drying host, the handle is arranged on the front surface of the box door, the box door is arranged on the front surface of the drying host through the hinges, the supporting legs are provided with four supporting legs and are fixedly arranged at four corners of the drying host, the drying host comprises a shell, a power mechanism, a main transmission mechanism, a left pushing mechanism, a blowing mechanism, an upward pushing mechanism, a drying lamp mechanism and a placing mechanism, the upper end of the shell is welded with the lower end of the top box, the power mechanism is fixedly arranged on the bottom surface in the shell and is movably connected with the main transmission mechanism, the left end of the main transmission mechanism is movably connected with the right end of the left pushing mechanism, the left end of the left pushing mechanism is movably connected with the lower end of the blowing mechanism, the lower end of the push-up mechanism is fixedly arranged at the upper end of the main transmission mechanism and is movably connected with the main transmission mechanism, the upper end of the push-up mechanism is meshed with the drying lamp mechanism, the upper end of the drying lamp mechanism is meshed with the placing mechanism, and the placing mechanism is positioned right above the blowing mechanism.

Further, power unit include two-way motor, motor shaft, axle bed, drive assembly, drive belt, rotary disk, two-way motor fixed mounting in the inside bottom surface of shell, motor shaft one end install inside and mechanical connection at two-way motor through the embedding mode, the motor shaft other end install inside and clearance fit at the axle bed through the embedding mode, axle bed lower extreme fixed mounting in the inside bottom surface of shell, the motor shaft be connected with drive assembly machinery, drive assembly pass through drive belt and rotary disk swing joint.

Further, main drive mechanism include rotatory quarter butt, moving frame, reinforcement pivot, movable plate, removal axle, traction plate, axle rail, rotatory quarter butt fixed mounting on the rotary disk and mechanical connection, rotatory quarter butt one end fixed mounting inside and swing joint moving frame, the reinforcement pivot install on the rotary disk, movable plate and moving frame weld and swing joint mutually, reinforcement pivot and movable plate clearance fit, movable plate upper end be equipped with the removal axle, removal axle fixed mounting at the traction plate both ends, the removal axle install inside and clearance fit at the axle rail, traction plate left end and left side push mechanism swing joint, traction plate upper end and push up mechanism lower extreme fixed connection.

Further, the left pushing mechanism comprises a moving disc, a first fixed round block, a rotating plate, a fixed rotating shaft, a second fixed round block, a sliding block, a fixed sliding plate, a linkage rod and a rotating disc, the moving disc is movably connected with the left end of the traction plate, the first fixed round block is arranged in the middle of the moving disc, the first fixed round block is arranged inside the upper end of the rotating plate, the fixed rotating shaft is arranged in the middle of the rotating plate, the second fixed round block is arranged inside the lower end of the rotating plate, the second fixed round block is fixedly arranged at the right end of the sliding block, the sliding block is arranged inside the fixed sliding plate and in clearance fit, the lower end of the linkage rod is fixedly arranged at the left end of the sliding block and is movably connected with the sliding disc, and the upper end of the linkage rod is fixedly arranged on the rotating disc and is movably connected with the sliding block.

Further, blow mechanism include belt, sawtooth disc, hob, pivot, linkage belt, linkage pivot, flabellum, the sawtooth disc pass through belt and carousel swing joint, sawtooth disc and hob lower extreme mesh mutually, hob upper end install inside and mechanical connection in the pivot through the embedding mode, the pivot through linkage belt and linkage pivot lower extreme swing joint, linkage pivot upper end outside and flabellum weld and mechanical connection mutually.

Further, the push-up mechanism comprises a fixed rod, a pushing rod, a sliding block, a fixed pipe sleeve, a linkage rod and a linkage gear, wherein the fixed rod is fixedly arranged at the upper end of the traction plate and is movably connected with the upper end of the traction plate, the upper end of the fixed rod is welded with the lower end of the pushing rod and is movably connected with the lower end of the pushing rod, the upper end of the pushing rod is welded with the lower end of the sliding block, the sliding block is arranged inside the fixed pipe sleeve and is in clearance fit with the fixed pipe sleeve, the upper end of the sliding block is movably connected with the lower end of the linkage rod, and the upper end of the linkage rod is fixedly arranged on the linkage gear and is movably connected with the linkage gear.

Further, the drying lamp mechanism comprises a chain, a reinforcing block, a frame, a connecting rod, a drying lamp and a fixed gear, wherein the chain is meshed with the linkage gear, the chain is provided with the reinforcing block, the reinforcing block is fixedly installed inside the frame, the right side surface of the frame is welded with the left side surface of the connecting rod, the right side surface of the connecting rod is welded with the left end of the drying lamp and is movably connected with the left end of the drying lamp, the drying lamp is installed inside the shell, the fixed gear is installed inside the chain and is in clearance fit, and the upper end of the chain is meshed with the driving gear.

Further, the placing mechanism comprises a driving gear, a linkage plate, a connecting block, a driving rod, a roller shaft, a rotating rod, a track roller, a swinging rod, an arc-shaped toothed plate, a rack and a placing rack, the driving gear is meshed with the upper end of the chain, the driving gear is fixedly connected with the lower end of the linkage plate, the upper end of the linkage plate is installed inside the connecting block, the lower end of the driving rod is installed inside the connecting block, the upper end of the driving rod is fixedly installed on the left side surface of the roller shaft and movably connected with the upper end of the driving rod, the left end of the rotating rod is installed inside the roller shaft and mechanically connected with the left end of the rotating rod in an embedding mode, the right end of the rotating rod is installed inside the track roller and mechanically connected with the right end of the swinging rod in a clearance fit mode, the lower end of the swinging rod is fixedly connected with the upper end of the arc-shaped toothed plate, and the lower end of the arc-shaped toothed plate is meshed with the rack, the lower surface of the rack is welded with the upper end of the placing rack and is movably connected with the upper end of the placing rack.

Advantageous effects

The invention relates to an automatic textile processing and drying device, when in use, textiles are hung on a placing rack, a bidirectional motor is started to enable a motor shaft to rotate, a driving assembly starts to operate, a rotating disc rotates through the transmission of a driving belt, the rotating disc rotates to drive a rotating short rod to rotate, a moving frame starts to move, a moving plate moves up and down through the action of a reinforcing rotating shaft, the upper end of the moving plate pulls a moving shaft down to enable the moving shaft to operate in a shaft rail, the moving track of the moving shaft is ensured, the left end of a traction plate moves right, the upper end of the traction plate moves up, the left end of the traction plate moves right to drive the moving plate to move left, the upper end of the rotating plate moves right through a first fixed circular block, the lower end of the rotating plate moves left through the action of a fixed rotating shaft, a sliding block moves left in a fixed sliding plate, and the moving track of the sliding block is ensured, the linkage rod is enabled to run, the turntable is enabled to rotate through the linkage function of the linkage rod, the blowing mechanism starts to work, and the linkage rotating shaft on the blowing mechanism rotates, so that the fan blades rotate, wind energy is produced, and the textile is primarily blown and dried; the upper end of the traction plate moves upwards to drive the push-up mechanism to run, the linkage gear on the push-up mechanism rotates to drive the chain to run, the chain moves along with the reinforcement block on the chain, the frame moves, the connecting rod moves, and the drying lamp moves along with the chain, so that all parts of the textile can be irradiated by the drying lamp, and the textile is comprehensively dried; the chain still drives drive gear rotatory during operation, at this moment through the linkage function of linkage board to through the effect of linking up the piece, make the actuating lever drive the roller and rotate, driven the rotation of rotary rod, at this moment the orbit cylinder begins to rotate, through the inside orbit of orbit cylinder, make the swinging arms begin to swing, at this moment the arc pinion rack begins to swing, and the rack that meshes with the arc pinion rack also removes, controls the removal with the fabrics, prevents like this that the stoving lamp from shining same position for a long time and making the fabrics damage.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of an automated textile processing and drying apparatus of the present invention;

FIG. 2 is a cross-sectional view of an automated textile processing and drying apparatus of the present invention;

FIG. 3 is a schematic structural diagram of the working state of the automatic textile processing and drying device of the present invention;

FIG. 4 is a schematic structural diagram of a working state of the automatic textile processing and drying device of the present invention;

fig. 5 is a schematic structural diagram of the internal overall working state of the automatic textile processing and drying device of the invention.

In the figure: a top box-1, a handle-2, a box door-3, a drying main machine-4, supporting feet-5, a hinge-6, a shell-401, a power mechanism-402, a main transmission mechanism-403, a left push mechanism-404, a blowing mechanism-405, a push mechanism-406, a drying lamp mechanism-407, a placing mechanism-408, a bidirectional motor-4021, a motor shaft-4022, a shaft seat-4023, a driving component-4024, a driving belt-4025, a rotating disk-4026, a rotating short rod-4031, a moving frame-4032, a reinforcing rotating shaft-4033, a moving plate-4034, a moving shaft-4035, a traction plate-4036, a shaft rail-4037, a moving disk-4041, a first fixed round block-4042, a rotating plate-4043, a fixed rotating shaft-4044, a fixed round block-4034, a rotating shaft-4035, a movable plate-4035, a traction plate-4036, a shaft rail-4037, a moving disk-4041, a first fixed round block-4042, a rotating plate-4043, a fixed rotating shaft-4032, a fixed round block 4033, a fixed round block 4034, a fixed round block 4034, a fixed round block 4031, a fixed round block, a support, a, Second fixed round block-4045, sliding block-4046, fixed sliding plate-4047, linkage rod-4048, rotary table-4049, belt-4051, sawtooth disk-4052, spiral rod-4053, rotating shaft-4054, linkage belt-4055, linkage rotating shaft-4056, fan blade-4057, fixed rod-4061, push rod-4062, sliding block-4063, fixed sleeve-4064, linkage rod-4065, linkage gear-4066, chain-4071, reinforcing block-4072, frame-4073, connecting rod-4074, drying lamp-4075, fixed gear-4076, driving gear-4081, linkage plate-4082, linkage block-4083, driving rod-4084, roller-4085, rotating rod-4086, track roller-4087, swinging rod-4088, Arc toothed plate-4089, rack-40810 and placing rack-40811.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-5, the present invention provides a technical solution of an automatic textile processing and drying device: the structure of the drying oven comprises a top box 1, a handle 2, a box door 3, a drying main machine 4, supporting legs 5 and hinges 6, wherein the lower end of the top box 1 is fixedly arranged at the upper end of the drying main machine 4, the handle 2 is arranged on the front surface of the box door 3, the box door 3 is arranged on the front surface of the drying main machine 4 through the hinges 6, the supporting legs 5 are totally four and fixedly arranged at four corners of the drying main machine 4, the drying main machine 4 comprises a shell 401, a power mechanism 402, a main transmission mechanism 403, a left pushing mechanism 404, a blowing mechanism 405, an upward pushing mechanism 406, a drying lamp mechanism 407 and a placing mechanism 408, the upper end of the shell 401 is welded with the lower end of the top box 1, the power mechanism 402 is fixedly arranged at the inner bottom surface of the shell 401, the power mechanism 402 is movably connected with the main transmission mechanism 403, the left end of the main transmission mechanism 403 is movably connected with the right end of the left pushing mechanism 404, the left end of the left pushing mechanism 404 is movably connected with the lower end of the blowing mechanism 405, the lower end of the pushing mechanism 406 is fixedly installed at the upper end of the main transmission mechanism 403 and is movably connected, the upper end of the pushing mechanism 406 is meshed with the drying lamp mechanism 407, the upper end of the drying lamp mechanism 407 is meshed with the placing mechanism 408, and the placing mechanism 408 is located right above the blowing mechanism 405.

Further, the power mechanism 402 includes a bidirectional motor 4021, a motor shaft 4022, a shaft seat 4023, a driving assembly 4024, a driving belt 4025 and a rotating disc 4026, the bidirectional motor 4021 is fixedly installed on the bottom surface inside the housing 401, one end of the motor shaft 4022 is installed inside the bidirectional motor 4021 in an embedded manner and is mechanically connected, the other end of the motor shaft 4022 is installed inside the shaft seat 4023 in an embedded manner and is in clearance fit, the lower end of the shaft seat 4023 is fixedly installed on the bottom surface inside the housing 401, the motor shaft 4022 is mechanically connected with the driving assembly 4024, and the driving assembly 4024 is movably connected with the rotating disc 4026 through the driving belt 4025.

Further, the main transmission mechanism 403 includes a short rotating bar 4031, a moving frame 4032, a reinforcing rotating shaft 4033, a moving plate 4034, a moving shaft 4035, a traction plate 4036 and a shaft rail 4037, the rotating stub 4031 is fixedly mounted on the rotating disk 4026 and mechanically connected, one end of the rotating short bar 4031 is fixedly arranged inside the movable frame 4032 and is movably connected, the reinforcing rotating shaft 4033 is arranged on the rotating disc 4026, the moving plate 4034 is welded with the moving frame 4032 and is movably connected with the moving frame 4032, the reinforcing rotating shaft 4033 is in clearance fit with the moving plate 4034, the upper end of the moving plate 4034 is provided with a moving shaft 4035, the moving shaft 4035 is fixedly arranged at two ends of the traction plate 4036, the moving shaft 4035 is arranged inside the shaft rail 4037 and is in clearance fit, the left end of the traction plate 4036 is movably connected with the left pushing mechanism 404, and the upper end of the traction plate 4036 is fixedly connected with the lower end of the pushing mechanism 406.

Further, the left pushing mechanism 404 includes a moving disk 4041, a first fixed round block 4042, a rotating plate 4043, a fixed rotating shaft 4044, a second fixed round block 4045, a sliding block 4046, a fixed sliding plate 4047, a linkage rod 4048, and a rotating disk 4049, the movable disk 4041 is movably connected with the left end of the traction plate 4036, the middle part of the movable disk 4041 is provided with a first fixed round block 4042, the first fixed round block 4042 is installed inside the upper end of the rotating plate 4043, the middle part of the rotating plate 4043 is provided with a fixed rotating shaft 4044, the second fixed round block 4045 is arranged inside the lower end of the rotating plate 4043, the second fixed round block 4045 is fixedly arranged at the right end of the sliding block 4046, the sliding block 4046 is arranged inside the fixed sliding plate 4047 and is in clearance fit with the fixed sliding plate 4047, the lower end of the linkage rod 4048 is fixedly arranged at the left end of the sliding block 4046 and is movably connected with the sliding block 4046, the upper end of the linkage rod 4048 is fixedly arranged on the turntable 4049 and movably connected with the turntable 4049.

Further, the blowing mechanism 405 includes a belt 4051, a serrated disk 4052, a spiral rod 4053, a rotating shaft 4054, a linkage belt 4055, a linkage rotating shaft 4056, and a fan blade 4057, the serrated disk 4052 is movably connected to the rotating disk 4049 through the belt 4051, the serrated disk 4052 is engaged with the lower end of the spiral rod 4053, the upper end of the spiral rod 4053 is installed inside the rotating shaft 4054 and mechanically connected through an embedded manner, the rotating shaft 4054 is movably connected to the lower end of the linkage rotating shaft 4056 through the linkage belt 4055, and the outer portion of the upper end of the linkage rotating shaft 4056 is welded and mechanically connected to the fan blade 4057.

Further, the push-up mechanism 406 includes a fixing rod 4061, a pushing rod 4062, a sliding block 4063, a fixing pipe sleeve 4064, a linkage 4065, and a linkage gear 4066, the fixing rod 4061 is fixedly installed at the upper end of the traction plate 4036 and movably connected, the upper end of the fixing rod 4061 is welded and movably connected with the lower end of the pushing rod 4062, the upper end of the pushing rod 4062 is welded with the lower end of the sliding block 4063, the sliding block 4063 is installed inside the fixing pipe sleeve 4064 and is in clearance fit, the upper end of the sliding block 4063 is movably connected with the lower end of the linkage 4065, and the upper end of the linkage 4065 is fixedly installed on the linkage gear 4066 and is movably connected.

Further, the drying lamp mechanism 407 includes a chain 4071, a reinforcing block 4072, a frame 4073, a connecting rod 4074, a drying lamp 4075 and a fixed gear 4076, the chain 4071 is engaged with the linkage gear 4066, the chain 4071 is provided with the reinforcing block 4072, the reinforcing block 4072 is fixedly installed inside the frame 4073, a right side surface of the frame 4073 is welded to a left side surface of the connecting rod 4074, a right side surface of the connecting rod 4074 is welded to and movably connected with a left end of the drying lamp 4075, the drying lamp 4075 is installed inside the housing 401, the fixed gear 4076 is installed inside the chain 4071 and is in clearance fit, and an upper end of the chain 4071 is engaged with the driving gear 4081.

Further, the placing mechanism 408 includes a driving gear 4081, a linkage plate 4082, a linking block 4083, a driving rod 4084, a roller shaft 4085, a rotating rod 4086, a track roller 4087, a swinging rod 4088, an arc-shaped toothed plate 4089, a rack 40810 and a placing rack 40811, the driving gear 4081 is meshed with the upper end of the chain 4071, the driving gear 4081 is fixedly connected with the lower end of the linkage plate 4082, the upper end of the linkage plate 4082 is installed inside the linking block 4083, the lower end of the driving rod 4084 is installed inside the linking block 4083, the upper end of the driving rod 4084 is fixedly installed on the left side surface of the roller shaft 4085 and movably connected, the left end of the rotating rod 4086 is installed inside the roller shaft 4085 and mechanically connected in an embedding manner, the right end of the rotating rod 4086 is installed inside the track roller 4087 and mechanically connected in an embedding manner, the track roller 4087 is in a clearance fit with the upper end of the swinging rod 4088, swinging rod 4088 lower extreme and arc pinion rack 4089 upper end fixed connection, arc pinion rack 4089 lower extreme and rack 40810 mesh mutually, rack 40810 lower surface and rack 40811 upper end weld and swing joint mutually.

The handle is a mechanical accessory, is convenient for workers to operate machinery, mainly comprises two materials, namely plastic and steel parts in the mechanical accessory industry, the steel parts are machined by a machine tool and distinguished from castings, and the plastic handle is divided into thermosetting plastic and thermoplastic plastic.

The rack is a special gear with teeth distributed on a strip-shaped body, and the rack is also divided into a straight-tooth rack and a helical-tooth rack which are respectively matched with a straight-tooth cylindrical gear and a helical-tooth cylindrical gear; the tooth profile of the rack is a straight line rather than an involute (plane for the tooth surface), which is equivalent to a cylindrical gear with an infinite reference circle radius.

When the textile product is used, the textile product is hung on the placing rack 40811, the bidirectional motor 4021 is started to enable the motor shaft 4022 to rotate, the driving assembly 4024 starts to operate, the rotating disc 4026 rotates through the transmission of the driving belt 4025, the rotating disc 4026 rotates to drive the rotating short bar 4031 to rotate, the moving frame 4032 starts to move, the moving plate 4034 moves up and down through the action of the reinforcing rotating shaft 4033, the upper end of the moving plate 4034 pulls the moving shaft 4035 down, the moving shaft 4035 operates inside the shaft rail 4037, the moving track of the moving shaft 4035 is ensured, the left end of the drawing plate 4036 moves right, the upper end of the drawing plate 6 moves up, the left end of the drawing plate 4036 moves right to drive the moving plate 4041 to move left, the upper end of the rotating plate 4043 moves right through the first fixed circle 4042, the lower end of the rotating plate 4043 moves left through the action of the fixed rotating shaft 4044, and the sliding block 4046 moves left inside the fixed sliding plate 4047, the motion track of the sliding block 4046 is ensured, the linkage rod 4048 is driven, the turntable 4049 is driven to rotate through the linkage function of the linkage rod 4048, the blowing mechanism 405 starts to work at this time, the linkage rotating shaft 4056 on the blowing mechanism 405 rotates, the fan blades 4057 rotate, wind energy is produced, and the textile is primarily dried; the upper end of the traction plate 4036 moves upwards to drive the push-up mechanism 406 to operate, the linkage gear 4066 on the push-up mechanism 406 rotates to drive the chain 4071 to operate, and the reinforcing block 4072 on the chain 4071 moves along with the chain 4071, so that the frame 4073 moves and drives the connecting rod 4074 to move, and at the moment, the drying lamp 4075 moves along with the chain 4071, all parts of the textile can be irradiated by the drying lamp 4075, and the textile is comprehensively dried; chain 4071 has still driven drive gear 4081 rotatory during the operation, at this moment through linkage function of linkage board 4082, and through the effect of linking piece 4083, make actuating lever 4084 drive roller 4085 and rotated, the rotation of rotary rod 4086 has been driven, at this moment orbit cylinder 4087 begins to rotate, through the inside orbit of orbit cylinder 4087, make swinging arms 4088 begin to swing, at this moment arc-shaped toothed plate 4089 begins to swing, rack 40810 who meshes with arc-shaped toothed plate 4089 also moves about, take the fabrics to move about, prevent like this that drying lamp 4075 from shining same position for a long time and make the fabrics damage.

The drying device solves the problem that when the drying device dries the textile, the textile is difficult to dry when being in a strip shape, so that the local drying effect of the textile is poor; the invention has the advantages that through the mutual combination of the components, the blowing mechanism starts to work, the linkage rotating shaft on the blowing mechanism rotates, so that the fan blades rotate to produce wind energy, and the textile is primarily dried; the reinforcing blocks on the chain move along with the chain, so that the frame moves to drive the connecting rod to move, and the drying lamps move along with the frame, so that all parts of the textile can be irradiated by the drying lamps, and the textile is comprehensively dried; through the inside orbit of orbit cylinder for the swinging arms begins the swing, and arc pinion rack begins the swing at this moment, moves about also with the rack of arc pinion rack looks meshing, and the area fabrics moves about, prevents like this that the drying lamp from shining same position for a long time and making the fabrics damage.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides an automatic change fabrics processing drying device, its structure includes top case (1), handle (2), chamber door (3), stoving host computer (4), supporting legs (5), hinge (6), top case (1) lower extreme fixed mounting in stoving host computer (4) upper end, handle (2) install at chamber door (3) front surface, chamber door (3) install at stoving host computer (4) front surface through hinge (6), supporting legs (5) be equipped with four altogether and fixed mounting in stoving host computer (4) four corners, its characterized in that:

the drying host (4) comprises a shell (401), a power mechanism (402), a main transmission mechanism (403), a left push mechanism (404), a blowing mechanism (405), a push-up mechanism (406), a drying lamp mechanism (407) and a placing mechanism (408), wherein the upper end of the shell (401) is welded with the lower end of the top box (1), the power mechanism (402) is fixedly installed on the bottom surface inside the shell (401), the power mechanism (402) is movably connected with the main transmission mechanism (403), the left end of the main transmission mechanism (403) is movably connected with the right end of the left push mechanism (404), the left end of the left push mechanism (404) is movably connected with the lower end of the blowing mechanism (405), the lower end of the push-up mechanism (406) is fixedly installed at the upper end of the main transmission mechanism (403) and is movably connected with the upper end of the push-up mechanism (406) and is meshed with the drying lamp mechanism (407), the upper end of the drying lamp mechanism (407) is meshed with the placing mechanism (408), and the placing mechanism (408) is positioned right above the blowing mechanism (405).

2. The automated textile processing and drying apparatus of claim 1, wherein: the power mechanism (402) comprises a bidirectional motor (4021), a motor shaft (4022), a shaft seat (4023), a driving assembly (4024), a driving belt (4025) and a rotating disc (4026), wherein the bidirectional motor (4021) is fixedly installed on the bottom surface inside the shell (401), one end of the motor shaft (4022) is installed inside the bidirectional motor (4021) in an embedding mode and is mechanically connected, the other end of the motor shaft (4022) is installed inside the shaft seat (4023) in an embedding mode and is in clearance fit, the lower end of the shaft seat (4023) is fixedly installed on the bottom surface inside the shell (401), the motor shaft (4022) is mechanically connected with the driving assembly (4024), and the driving assembly (4024) is movably connected with the rotating disc (4026) through the driving belt (4025).

3. The automated textile processing and drying apparatus of claim 1, wherein: the main transmission mechanism (403) comprises a short rotating rod (4031), a moving frame (4032), a reinforcing rotating shaft (4033), a moving plate (4034), a moving shaft (4035), a traction plate (4036) and a shaft rail (4037), wherein the short rotating rod (4031) is fixedly arranged on the rotating plate (4026) and is mechanically connected, one end of the short rotating rod (4031) is fixedly arranged inside the moving frame (4032) and is movably connected, the reinforcing rotating shaft (4033) is arranged on the rotating plate (4026), the moving plate (4034) is welded with the moving frame (4032) and is movably connected, the reinforcing rotating shaft (4033) is in clearance fit with the moving plate (4034), the moving shaft (4035) is arranged at the upper end of the moving plate (4034), the moving shaft (4035) is fixedly arranged at two ends of the traction plate (4036), and the moving shaft (4035) is arranged inside the shaft rail (4037) and is in clearance fit, the left end of the traction plate (4036) is movably connected with the left pushing mechanism (404), and the upper end of the traction plate (4036) is fixedly connected with the lower end of the pushing mechanism (406).

4. The automated textile processing and drying apparatus of claim 1 or 3, wherein: left side push mechanism (404) including removal dish (4041), first fixed circle piece (4042), rotor plate (4043), fixed rotation axis (4044), the fixed circle piece of second (4045), slider (4046), fixed slide (4047), gangbar (4048), carousel (4049), removal dish (4041) and traction plate (4036) left end swing joint, removal dish (4041) middle part be equipped with first fixed circle piece (4042), first fixed circle piece (4042) install inside rotor plate (4043) upper end, rotor plate (4043) middle part be equipped with fixed rotation axis (4044), the fixed circle piece of second (4045) install inside rotor plate (4043) lower extreme, the fixed circle piece of second (4045) fixed mounting at slider (4046) right-hand member, slider (4046) install inside fixed slide (4047) and clearance fit, gangbar (4048) lower extreme fixed mounting in slider (4046) and left end swing joint, the upper end of the linkage rod (4048) is fixedly arranged on the turntable (4049) and movably connected with the turntable.

5. The automated textile processing and drying apparatus of claim 1, wherein: blow mechanism (405) including belt (4051), sawtooth disc (4052), hob (4053), pivot (4054), linkage belt (4055), linkage pivot (4056), flabellum (4057), sawtooth disc (4052) pass through belt (4051) and carousel (4049) swing joint, sawtooth disc (4052) and hob (4053) lower extreme mesh mutually, hob (4053) upper end install inside and mechanical connection in pivot (4054) through the embedding mode, pivot (4054) through linkage belt (4055) and linkage pivot (4056) lower extreme swing joint, linkage pivot (4056) upper end outside and flabellum (4057) weld and mechanical connection mutually.

6. The automated textile processing and drying apparatus of claim 1 or 3, wherein: the push-up mechanism (406) comprises a fixed rod (4061), a pushing rod (4062), a sliding block (4063), a fixed pipe sleeve (4064), a linkage rod (4065) and a linkage gear (4066), wherein the fixed rod (4061) is fixedly arranged at the upper end of a traction plate (4036) and movably connected with the upper end of the pushing rod (4062), the upper end of the pushing rod (4061) is welded with the lower end of the pushing rod (4062) and movably connected with the lower end of the sliding block (4063), the sliding block (4063) is arranged inside the fixed pipe sleeve (4064) and in clearance fit with the lower end of the sliding block (4063), the upper end of the sliding block (4063) is movably connected with the lower end of the linkage rod (4065), and the upper end of the linkage rod (4065) is fixedly arranged on the linkage gear (4066) and movably connected with the linkage gear.

7. The automated textile processing and drying apparatus of claim 1, wherein: the drying lamp mechanism (407) comprises a chain (4071), a reinforcing block (4072), a frame (4073), a connecting rod (4074), a drying lamp (4075) and a fixed gear (4076), wherein the chain (4071) is meshed with a linkage gear (4066), the chain (4071) is provided with the reinforcing block (4072), the reinforcing block (4072) is fixedly installed inside the frame (4073), the right side surface of the frame (4073) is welded with the left side surface of the connecting rod (4074), the right side surface of the connecting rod (4074) is welded with the left end of the drying lamp (4075) and movably connected with the left end of the drying lamp (4075), the drying lamp (4075) is installed inside the shell (401), the fixed gear (4076) is installed inside the chain (4071) and in clearance fit, and the upper end of the chain (4071) is meshed with the driving gear (4081).

8. The automated textile processing and drying apparatus of claim 1, wherein: the placing mechanism (408) comprises a driving gear (4081), a linkage plate (4082), a linking block (4083), a driving rod (4084), a roller shaft (4085), a rotating rod (4086), a track roller (4087), a swinging rod (4088), an arc toothed plate (4089), a rack (40810) and a placing rack (40811), wherein the driving gear (4081) is meshed with the upper end of a chain (4071), the driving gear (4081) is fixedly connected with the lower end of the linkage plate (4082), the upper end of the linkage plate (4082) is installed inside the linking block (4083), the lower end of the driving rod (4084) is installed inside the linking block (4083), the upper end of the driving rod (4084) is fixedly installed on the left side surface of the roller shaft (4085) and movably connected with the left end of the driving rod (4086), the left end of the rotating rod (4086) is installed inside the track roller (4085) and mechanically connected with the rotating rod through an embedding manner, the right end of the rotating rod (4086) is installed inside the track roller (4087) and mechanically connected with the track roller through an embedding manner, orbit cylinder (4087) and swinging arms (4088) upper end clearance fit, swinging arms (4088) lower extreme and arc pinion rack (4089) upper end fixed connection, arc pinion rack (4089) lower extreme and rack (40810) mesh mutually, rack (40810) lower surface and rack (40811) upper end weld mutually and swing joint.

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