CN115198464A - Weaving sunning frame - Google Patents

Abstract

The invention relates to the field of textile airing, in particular to a textile airing rack. The side support comprises two side supports, an adjusting device, two drying plates and a fixing device, wherein the two drying plates are clamped on the side supports through the adjusting device, two ends of a textile are fixed on the two drying plates through the fixing device, and the adjusting device is provided with a rotating block, a handle and a transmission mechanism. When the drying device is used, the squeezing, dewatering, drying and turning-over of textiles can be realized only by operating the handle and the rotating block, the structure is compact, the operation is convenient and fast, and the drying efficiency is high; furthermore, the drying rack is also provided with a first baffle and a second baffle, when the drying rack meets thunderstorm weather, the first baffle and the second baffle shield a gap at the junction of the two drying plates, and the textile is prevented from being wetted by rain, so that the time waste caused by large-area recovery of the textile is avoided.

Description

Weaving sunning frame

Technical Field

The invention relates to the field of textile airing, in particular to a textile airing rack.

Background

After the textile is dyed, the liquid needs to be removed for the subsequent process. In a family workshop, the liquid is removed by adopting a drying and evaporating mode, the textile needs to be properly wrung before drying, then the textile is hung for drying, and after drying for a period of time, the textile is turned over and then dried again, so that the drying efficiency is improved. However, the textile is usually large in size, time-consuming and labor-consuming in manual operation, large in workload and not beneficial to improvement of airing efficiency, and some of the prior art adopts an airing device for airing.

For example, chinese patent document No. CN 109355842B discloses a rotary drying device for textiles, which can control the corresponding components to operate by operating a second rocking handle, and further fix the textiles by using fixing devices on the upper and lower sides; the pull ring is pulled to enable the pull rope to act on the guide rod, so that the supporting plate can be rotated to adjust the position of the textile; when the textile needs to be turned over, the second rocking handle is operated to control the corresponding component to act so as to release the fixation of the support, and then the support is rotated to turn the textile 180 degrees; the fifth screw is operated to control the corresponding components to act, so that the first extrusion wheel and the second extrusion wheel can extrude and remove water for the textile when the textile is installed. Although the drying device can realize proper dehydration, supporting drying and turning over of textiles, the scheme needs to perform feeding operation on a plurality of components when in use, and has the disadvantages of complicated structure, inconvenient operation and low drying efficiency. Meanwhile, if the fabric is exposed to rain in the airing process, the scheme cannot realize rain shielding, and a large amount of time can be wasted by directly taking back the fabric.

Disclosure of Invention

According to the defects of the prior art, the invention aims to provide the textile drying rack which is compact in structure, convenient to operate and high in drying efficiency.

Another object of the present invention is to provide a textile drying rack capable of keeping out rain.

In order to achieve at least one of the above purposes, the invention provides a textile drying rack, which adopts the following technical scheme: comprises a side bracket, an adjusting device, a drying plate and a fixing device; the two side supports are arranged in parallel at intervals along the front-back direction, the two adjusting devices are respectively arranged on one side support, and the two adjusting devices are symmetrical front and back; the fixing device is arranged on the airing surface of the airing plate and can slide left and right along the cambered surface of the airing plate, the fixing device is respectively provided with a clamping position at the left end and the right end of the airing plate, and the fixing device is used for fixing the two ends of the textile to one airing plate respectively;

the adjusting device is used for controlling the two airing plates to synchronously move and comprises a rotating block, a handle and a transmission mechanism; the rotating block is rotatably embedded in the side bracket, and the rotating block and the side bracket are provided with locking positions in the vertical direction so as to be mutually locked; the handle can slide up and down and is arranged on the rotating block in a back-and-forth moving mode, and one end, close to the drying plates, of the handle is connected with the two drying plates; the handle is provided with a first working position and a second working position in the front-back direction, the drying plates are driven to synchronously move and be separated from the transmission mechanism when the handle is positioned at the first working position, the handle slides relative to the drying plates and can be combined with the transmission mechanism when the handle is positioned at the second working position, and the transmission mechanism is used for driving the two drying plates to synchronously and reversely rotate around the axis of the transmission mechanism;

the two initial drying plates are positioned on the same cambered surface, the openings of the two initial drying plates are upward, the drying surfaces of the two initial drying plates are downward, the fixing device is positioned at one end of the two drying plates close to each other, the textile is suspended at the junction of the two drying plates after being clamped, and the handle is positioned at the limit position of the lower end; when the fabric drying device is used, the handle is arranged at a first working position, the handle is moved upwards, the handle drives the junction of the two drying plates to move upwards to a preset position, the back surfaces of the two drying plates face outwards, the drying surfaces face downwards and are opened towards two sides, and at the moment, the fabric is still suspended at the junction of the two drying plates; secondly, enabling the handle to be in a second operation position, rotating the handle, driving the two airing plates to synchronously and reversely rotate upwards around the circle center of the handle through the transmission mechanism so as to extrude and dewater the textile until the back surfaces of the two airing plates face outwards and the airing surfaces face upwards and open towards two sides, wherein two ends of the textile are spread at the moment, and the middle of the textile is clamped at the junction of the two airing plates; then, returning the handle to the first working position, pushing the handle upwards, driving the middle parts of the two airing plates to move upwards by the handle until the handle is positioned at the upper end limit position, arranging the two airing plates on the same cambered surface, enabling the openings to face downwards, enabling the airing surfaces to face upwards, and laying the textile on the airing surfaces of the two airing plates for airing; after the sunning time of predetermineeing, reverse operation handle makes the sunning board reach initial position, removes fixing device to the other end of corresponding sunning board simultaneously, and the fabrics is propped open, and then rotatory turning block for two sunning boards are whole upwards to rotate to the opening down, and the sunning face is up, accomplishes the turn-over.

Optionally, the fixing device comprises a first pressing plate, a second pressing plate and a connecting slide block; the airing surface of the airing plate is provided with two connecting sliding grooves and two placing grooves, the two connecting sliding grooves extend along the left and right sides of the cambered surface of the airing plate and are arranged at intervals in the length direction of the airing plate, the two placing grooves extend along the length direction of the airing plate, the two placing grooves are respectively arranged at two ends of the connecting sliding grooves, and each placing groove is communicated with the two connecting sliding grooves;

the first pressing plate, the second pressing plate and the connecting sliding block are sequentially stacked, the first pressing plate and the second pressing plate extend forwards and backwards, two ends of the first pressing plate and the second pressing plate are connected through a connecting column, the connecting column is telescopic and is sleeved with a first connecting spring, and the first connecting spring enables the first pressing plate and the second pressing plate to be close to each other; the two connecting sliding blocks are respectively arranged at two ends of the second pressing plate, a second connecting spring is arranged between the connecting sliding blocks and the second pressing plate, and the second connecting spring enables the second pressing plate and the connecting sliding blocks to be close to each other; the connecting sliding block is arranged in the connecting sliding groove in a sliding mode, when the connecting sliding block is located at one end limit position, the first pressing plate and the second pressing plate are located in the placing groove, and the outer surface of the first pressing plate does not exceed the airing surface of the airing plate.

Optionally, a stepped mounting hole is formed in the side bracket, a large hole of the mounting hole is close to the drying plate, and the rotating block is rotatably arranged in the large hole of the mounting hole; both ends all are provided with the anti-rotation groove about the week wall of the aperture of mounting hole, and both ends all are provided with the anti-rotation hole about the side that the drying plate was kept away from to the turning block, and the locking piece has been gone into to cartridge in anti-rotation groove and the anti-rotation hole.

Optionally, the side bracket is provided with two positioning holes, the two positioning holes are respectively arranged at the upper side and the lower side of the mounting hole, the handle of the handle can slide along the front-back direction, the handle of the handle corresponds to the positioning hole at the upper side when the handle is at the upper end limit position, and the handle of the handle corresponds to the positioning hole at the lower side when the handle is at the lower end limit position.

Optionally, a guide sliding groove is formed in the center of the rotating block, a guide sliding block capable of sliding up and down is arranged in the guide sliding groove, and two communicating holes are formed in the guide sliding block; two connecting rods horizontally extending in the front-back direction are arranged at one end, close to the airing plate, of the handle, the connecting rods correspond to the communication holes one by one, arc-shaped guide grooves with the same radian as the connecting rods are arranged on the front end face and the back end face of the airing plate, and the connecting rods penetrate through the guide sliding blocks in a sliding mode through the communication holes and are connected with the arc-shaped guide grooves in a sliding mode at one end, close to the airing plate, of the connecting rods; the left end and the right end of the arc-shaped guide groove are provided with limiting holes on the groove bottom wall, and the connecting rod is inserted into the limiting holes when the handle is positioned at the first working position, so that the handle can drive the airing plate to move synchronously; when the handle is at the second working position, the connecting rod is separated from the limiting hole, so that the handle slides relative to the airing plate when rotating.

Optionally, the transmission mechanism comprises a first rotating shaft and a second rotating shaft, the axes of which extend forwards and backwards, and the first rotating shaft and the second rotating shaft are rotatably arranged in the middle of the rotating block and symmetrically arranged at the left side and the right side of the guide sliding chute;

a first gear is fixedly sleeved on the first rotating shaft, a second gear is fixedly arranged on the handle, when the handle is positioned at a first working position, the second gear is positioned at one side of the first gear, which is close to the rotating block, and further is staggered with the first gear in the front-back direction, and when the handle is positioned at a second working position, the second gear corresponds to the first gear in the front-back direction and can be meshed with the first gear; third gears are arranged on the first rotating shaft and the second rotating shaft, and the third gears are positioned on one side of the rotating block close to the drying plate;

the front end and the rear end of each airing plate are respectively provided with a first arc-shaped toothed plate and a second arc-shaped toothed plate, the first arc-shaped toothed plates are arranged on the airing surfaces of the airing plates, the second arc-shaped toothed plates are arranged on the back surfaces of the airing plates, the first rotating shaft is in relative rotating connection with one of the airing plates, the second rotating shaft is in relative rotating connection with the other airing plate, the third gear is meshed with the second arc-shaped toothed plates, and the first arc-shaped toothed plates on the two airing plates are meshed when the airing surfaces of the two airing plates are opposite.

Optionally, all rotationally the cover is equipped with limit slider in first pivot and the second pivot, and the back of sunning board is provided with limit chute, and limit chute extends along the width direction of sunning board, and limit slider slides and sets up in limit chute, and the notch of limit chute hinders limit slider and deviates from limit chute.

Optionally, a first baffle is installed on the first rotating shaft, a second baffle is installed on the second rotating shaft, the first baffle and the second baffle extend along the length direction of the drying plates, the first baffle and the first rotating shaft and the second baffle and the second rotating shaft are connected through torsion springs, the first baffle and the second baffle are initially located above the drying plates, and the torsion springs enable the first baffle and the second baffle to be mutually buckled, so that a gap at a junction of the two drying plates is shielded.

Optionally, the front end and the rear end of the first baffle are both provided with first sleeves, the two first sleeves are respectively sleeved at one end, close to each other, of the two first rotating shafts corresponding to the front end and the rear end, one end of each corresponding torsion spring is connected with the first sleeve, and the other end of each corresponding torsion spring is connected with the first rotating shaft; the front end and the rear end of the second baffle are respectively provided with a second sleeve, the two second sleeves are respectively sleeved at one end, close to each other, of the two corresponding second rotating shafts in the front and the rear, one end of the corresponding torsion spring is connected with the second sleeve, and the other end of the corresponding torsion spring is connected with the second rotating shaft.

The beneficial effects of the invention are: the textile drying rack is provided with the two drying plates, the two drying plates are clamped on the side support through the adjusting device, and two ends of a textile are fixed on the two drying plates through the fixing devices. The adjusting device is provided with the rotating block, the handle and the transmission mechanism, when in use, the textile can be extruded, dewatered, aired and turned over only by operating the handle and the rotating block, the structure is compact, the operation is simple and convenient, and the airing efficiency is high. Meanwhile, when the self-adaptive air-drying device is used, a user can self-adapt to the working state of the self-adaptive air-drying device according to the air-drying requirement, and the self-adaptive air-drying device is flexible to use and high in practicability.

Furthermore, the drying rack is further provided with a first baffle and a second baffle, when thunderstorm weather is met, such as gust rain weather in summer, the drying rack can be switched from a drying state to a rain shielding state, the drying surfaces of the drying plates are opposite and downward in the rain shielding state, the two drying plates are in a shape like a Chinese character 'ba', the textile is suspended at the junction of the two drying plates, the first baffle and the second baffle shield a gap at the junction of the two drying plates, and rainwater is guided to the two sides by the drying plates to prevent the textile from being wetted by rain, so that time waste caused by large-area recovery of the textile is avoided.

Drawings

In order to illustrate embodiments of the invention or prior art solutions more clearly, the drawings that are needed in the description of embodiments or prior art will be briefly described below, it being apparent that the drawings in the description below are only some embodiments of the invention and that other drawings may be derived by those skilled in the art without inventive effort, and it will be understood that the drawings are not necessarily drawn to scale.

FIG. 1 is a schematic overall structure diagram of a textile drying rack according to the present invention;

FIG. 2 is a schematic view of a part of the structure of the textile drying rack according to the present invention (drying state);

FIG. 3 is an exploded view of a portion of a fabric drying rack according to the present invention;

FIG. 4 is a side view of the fastening device of the present invention;

FIG. 5 is a schematic view of a part of the structure of a textile drying rack according to the present invention (squeezing water removal state);

FIG. 6 is a schematic view of a partial structure of a fabric drying rack according to the present invention (rain-sheltered state);

fig. 7 is a partial structural view (initial state) of a fabric drying rack according to the present invention.

In the figure: 100. a side bracket; 101. mounting holes; 102. positioning holes; 200. drying the plate; 210. connecting the sliding chute; 220. a first arc toothed plate; 230. a second arc toothed plate; 240. a limiting chute; 250. a placement groove; 260. an arc-shaped guide groove; 300. an adjustment device; 310. rotating the block; 311. a guide chute; 312. a rotation stopping hole; 320. a second rotating shaft; 330. a first rotating shaft; 331. a first gear; 332. a third gear; 340. a locking block; 350. a handle; 360. a second gear; 370. a guide slider; 380. a connecting rod; 390. a limiting slide block; 3100. a first baffle plate; 3101. a first sleeve; 3110. a second baffle; 3111. a second sleeve; 400. a fixing device; 410. a first platen; 420. a second platen; 430. connecting the sliding block; 440. connecting columns.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1 to 7, a textile drying rack of the present invention includes side brackets 100, a drying plate 200, an adjusting means 300, and a fixing means 400.

The side supports 100 are two, the two side supports 100 are arranged in parallel at intervals along the front-back direction, the two adjusting devices 300 are respectively arranged on one side support 100, and the two adjusting devices 300 are symmetrical front and back.

The number of the sun-curing plates 200 is two, one side of the sun-curing plate 200 having an arc shape and a large radius is defined as a sun-curing side, and the other side is defined as a back side, the sun-curing plate 200 extends forward and backward (that is, the length direction of the sun-curing plate 200 is the forward and backward direction) and is clamped between the two side brackets 100 through the adjusting device 300, the fixing device 400 is disposed on the sun-curing side of the sun-curing plate 200 and can slide left and right along the arc surface of the sun-curing plate 200, the fixing device 400 has a clamping position at each of the left and right ends of the sun-curing plate 200, and the fixing device 400 is used for fixing both ends of a textile (which may be a cloth or other) to one of the sun-curing plates 200.

The adjusting device 300 is used for controlling the two airing plates 200 to move synchronously, and the adjusting device 300 comprises a rotating block 310, a handle 350 and a transmission mechanism; the rotating block 310 is cylindrical, the rotating block 310 is rotatably embedded in the side bracket 100, and the rotating block 310 and the side bracket 100 have locking positions in the vertical direction so as to be locked with each other; the handle 350 is arranged on the rotating block 310 in a manner of sliding up and down and moving back and forth, and one end of the handle 350 close to the sun-curing plates 200 is connected with both the sun-curing plates 200; the handle 350 has a first working position and a second working position in the front-rear direction, the handle 350 drives the sun-drying plate 200 to move synchronously and separate from the transmission mechanism when in the first working position, the handle 350 slides relative to the sun-drying plate 200 and can be combined with the transmission mechanism when in the second working position, and the transmission mechanism is used for driving the two sun-drying plates 200 to rotate synchronously and reversely around the axes of the two sun-drying plates 200.

The initial two sun-drying plates 200 are positioned on the same cambered surface, the openings of the two sun-drying plates are upward, the sun-drying surfaces are downward, the fixing device 400 is positioned at one end of the two sun-drying plates 200, which are close to each other, the textile is suspended at the junction of the two sun-drying plates 200 after being clamped, and the handle 350 is positioned at the limit position of the lower end; when the drying rack is used, firstly, the handle 350 is arranged at the first working position, the handle 350 is moved upwards, the handle 350 drives the junction of the two drying plates 200 to move upwards to the preset position, the back surfaces of the two drying plates 200 face outwards, and the drying surfaces face downwards and are opened towards two sides, and at the moment, the textile is still suspended at the junction of the two drying plates 200; secondly, the handle 350 is positioned at a second operation position, the handle 350 is rotated, the handle 350 drives the two airing plates 200 to synchronously rotate upwards and reversely around the circle center of the handle 350 through the transmission mechanism, so that the textile is extruded and dewatered until the back surfaces of the two airing plates 200 face outwards and the airing surfaces face upwards and open towards two sides, at the moment, two ends of the textile are spread, and the middle of the textile is clamped at the junction of the two airing plates 200; then, returning the handle 350 to the first working position, pushing the handle 350 upwards, driving the middle parts of the two airing plates 200 to move upwards by the handle 350 until the handle 350 is at the upper end limit position, the two airing plates 200 are positioned at the same arc surface with the openings facing downwards and the airing surfaces facing upwards, and at the moment, laying the textile on the airing surfaces of the two airing plates 200 for airing; after the preset airing time, the handle 350 is operated reversely to enable the sun-curing plates 200 to reach the initial position, meanwhile, the fixing device 400 is moved to the other end of the corresponding sun-curing plate 200, the textile is spread, then the rotating block 310 is rotated, so that the two sun-curing plates 200 are integrally rotated upwards until the openings face downwards, the airing faces upwards, and the turning is completed. The invention can realize squeezing, dewatering, airing and turning-over of textiles only by operating the handle 350 and the rotating block 310, and has compact structure, simple and convenient operation and high airing efficiency. Further, when the drying rack is used, a user can adaptively adjust the working state of the device according to drying needs, for example, when the textile does not need to be squeezed to remove water, the fixing device 400 can be slid towards the left side and the right side on the basis of the initial state to further unfold the textile, then the rotating block 310 is rotated to enable the drying plate 200 to rotate to the opening downwards, and drying can be started, so that the drying rack is flexible to use and high in practicability.

In a further embodiment, as shown in fig. 3 and 4, the fixture 400 includes a first press plate 410, a second press plate 420, and a connecting slide 430; the airing surface of the airing plate 200 is provided with two connecting sliding grooves 210 and two placing grooves 250, the connecting sliding grooves 210 extend along the left and right sides of the cambered surface (width) of the airing plate 200 and are arranged at intervals in the length direction of the airing plate 200, the two placing grooves 250 extend along the length direction of the airing plate 200, the two placing grooves 250 are respectively arranged at the two ends of the connecting sliding grooves 210, and each placing groove 250 is communicated with the two connecting sliding grooves 210.

The first pressing plate 410, the second pressing plate 420 and the connecting sliding block 430 are sequentially stacked, the first pressing plate 410 and the second pressing plate 420 extend back and forth, two ends of the first pressing plate 410 and the second pressing plate 420 are connected through a connecting column 440, the connecting column 440 is telescopic and sleeved with a first connecting spring (not shown in the figure), and the first connecting spring enables the first pressing plate 410 and the second pressing plate 420 to approach each other; the link blocks 430 are provided with two link springs (not shown) respectively arranged at both ends of the second press plate 420, and a second link spring (not shown) is provided between the link blocks 430 and the second press plate 420, and urges the second press plate 420 and the link blocks 430 to approach each other; the connecting sliding block 430 is slidably disposed on the connecting sliding groove 210, and when the connecting sliding block 430 is at one end limit position, the first pressing plate 410 and the second pressing plate 420 are located in the placing groove 250, and the outer surface of the first pressing plate 410 does not exceed the airing surface of the airing plate 200.

When the textile needs to be aired, the end part of the textile is clamped between the first pressing plate 410 and the second pressing plate 420, the textile is clamped by the first pressing plate 410 and the second pressing plate 420 under the action of the first connecting spring, and the two ends of the textile are respectively arranged on the two airing plates 200 and are respectively fixed by the fixing devices 400 of the corresponding airing plates 200. When the clamping position of the textiles needs to be adjusted, the first pressing plate 410 and the second pressing plate 420 are lifted in the direction away from the airing plate 200, after the second pressing plate 420 is separated from the placing groove 250, the connecting sliding block 430 can slide to another limit position in the connecting sliding groove 210, then the first pressing plate 410 and the second pressing plate 420 are loosened, and the first pressing plate 410 and the second pressing plate 420 are clamped into the placing groove 250 under the action of the second connecting spring.

In a further embodiment, as shown in fig. 1, the side bracket 100 is provided with a stepped mounting hole 101, a large hole of the mounting hole 101 is close to the sun-curing plate 200, and the rotating block 310 is rotatably arranged in the large hole of the mounting hole 101; the upper end and the lower end of the peripheral wall surface of the small hole of the mounting hole 101 are provided with rotation stopping grooves, the upper end and the lower end of the side surface of the rotating block 310 far away from the airing plate 200 are provided with rotation stopping holes 312, locking blocks 340 are inserted in the rotation stopping grooves and the rotation stopping holes 312, and the locking blocks 340 are used for locking the rotating block 310 and the side bracket 100 relatively. When the textile needs to be turned over, the locking block 340 is taken off, the rotating block 310 is rotated by 180 degrees, and the locking block 340 is inserted again to complete locking.

Further, as shown in fig. 1, the side bracket 100 is provided with two positioning holes 102, the two positioning holes 102 are respectively arranged at the upper and lower sides of the mounting hole 101, the handle of the handle 350 can slide along the front-back direction, the handle of the handle 350 corresponds to the upper positioning hole 102 when the handle 350 is at the upper extreme position, and the handle of the handle 350 corresponds to the lower positioning hole 102 when the handle 350 is at the lower extreme position. The handle 350 is moved forward and backward by inserting the handle into the positioning hole 102, so that the handle 350 is locked with the rotating block 310.

In a further embodiment, as shown in fig. 3, a guide sliding groove 311 is provided at the center of the rotating block 310, a guide slider 370 capable of sliding up and down is provided in the guide sliding groove 311, and the cross-sectional shapes of the guide sliding groove 311 and the guide slider 370 are both rectangular, thereby ensuring that the guide slider 370 can only slide up and down.

Two connecting rods 380 horizontally extending in the front-back direction are arranged at one end, close to the sun-drying plate 200, of the handle 350, the arc-shaped guide grooves 260 with the same radian as the sun-drying plate 200 are arranged on the front end face and the back end face of the sun-drying plate 200, two communicating holes are formed in the guide sliding block 370, the communicating holes correspond to the connecting rods 380 one by one, and the connecting rods 380 penetrate through the guide sliding block 370 in a sliding manner through the communicating holes and are connected with the arc-shaped guide grooves 260 at one end, close to the sun-drying plate 200, of the connecting rods 380 in a sliding manner; limiting holes (not shown in the figure) are formed in the bottom wall of the arc-shaped guide groove 260 at the left end and the right end, and the connecting rod 380 is inserted into the limiting holes when the handle 350 is located at the first working position, so that the handle 350 can drive the drying plate 200 to move synchronously; when the handle 350 is in the second working position, the connecting rod 380 is disengaged from the limiting hole, so that the handle 350 slides relative to the sun visor 200 when rotating.

In a further embodiment, as shown in fig. 3, the transmission mechanism includes a first rotating shaft 330 and a second rotating shaft 320, the axes of which extend back and forth, the first rotating shaft 330 and the second rotating shaft 320 are rotatably disposed in the middle of the rotating block 310 and symmetrically disposed on the left and right sides of the guide sliding slot 311, a first gear 331 is fixedly secured on the first rotating shaft 330, and a second gear 360 is fixedly secured on the handle 350. When the handle 350 is in the first working position, the second gear 360 is located on one side of the first gear 331 close to the rotating block 310 and further staggered with the first gear 331 in the front-back direction, and when the handle 350 is in the second working position, the second gear 360 corresponds to the first gear 331 in the front-back direction and can be meshed with the first gear 331; the first rotating shaft 330 and the second rotating shaft 320 are both provided with a third gear 332, and the third gear 332 is positioned at one side of the rotating block 310 close to the sun-drying plate 200.

The front end and the rear end of the sun-curing plate 200 are respectively provided with a first arc-shaped toothed plate 220 and a second arc-shaped toothed plate 230, the first arc-shaped toothed plate 220 is arranged on the sun-curing surface of the sun-curing plate 200, the second arc-shaped toothed plate 230 is arranged on the back surface of the sun-curing plate 200, the first rotating shaft 330 is connected with one of the sun-curing plates 200 in a relatively rotating manner, the second rotating shaft 320 is connected with the other sun-curing plate 200 in a relatively rotating manner, the third gear 332 is meshed with the second arc-shaped toothed plate 230, and the first arc-shaped toothed plate 220 on the two sun-curing plates 200 is meshed when the sun-curing surfaces are opposite.

Further, as shown in fig. 3, fig. 6 and fig. 7, a limiting slide block 390 is rotatably sleeved on each of the first rotating shaft 330 and the second rotating shaft 320, a limiting slide groove 240 is disposed on the back surface of the sun-curing plate 200, the limiting slide groove 240 extends along the width direction of the sun-curing plate 200, the limiting slide block 390 is slidably disposed on the limiting slide groove 240, and the notch of the limiting slide groove 240 prevents the limiting slide block 390 from coming out of the limiting slide groove 240. The limiting slider 390 is provided to rotatably connect the first rotating shaft 330 and the second rotating shaft 320 with the sun plate 200, and ensure that the third gear 332 is reliably engaged with the second arc-shaped toothed plate 230.

As shown in fig. 7, the initial state is that the two sun-curing plates 200 are located on the same arc surface with the openings facing upward and the sun-curing surfaces facing downward, the fixing device 400 is located at one end of the two sun-curing plates 200 close to each other, the textile is suspended at the junction of the two sun-curing plates 200 after being clamped, and the handle 350 is located at the lower end limit position of the guide sliding slot 311. When the drying rack is used, firstly, the handle 350 is pushed towards the direction close to the drying plates 200 to ensure that the handle 350 is located at the first working position, the handle 350 is moved upwards, the handle 350 drives the junction of the two drying plates 200 to move upwards, the drying plates 200 rotate around the third gear 332 when moving upwards until the handle 350 is collinear with the first rotating shaft 330 and the second rotating shaft 320 (corresponding to the preset positions), the back surfaces of the two drying plates 200 face outwards, and the drying surfaces face downwards and are opened towards two sides to form a shape of a Chinese character 'zheng', and at the moment, the textile is still suspended between the two drying plates 200, as shown in fig. 6. The reason why the handle 350 cannot move upwards after moving to be collinear with the first rotating shaft 330 and the second rotating shaft 320 is that the handle 350 and the sun-curing plates 200 are connected in such a way that the two sun-curing plates 200 cannot rotate around the third gear 332 and move upwards, so that the handle 350 cannot move continuously under the obstruction of the sun-curing plates 200, and the time for stopping moving the handle 350 does not need to be judged manually. Secondly, pulling the handle 350 in a direction away from the airing plates 200 to enable the handle 350 to be located at a second operation position, engaging the second gear 360 with the first gear 331, rotating the handle 350, driving the first rotating shaft 330 to rotate by the handle 350 through the second gear 360 and the first gear 331, driving the corresponding airing plate 200 to rotate around its axis by the third gear 332 on the first rotating shaft 330, driving the other airing plate 200 to rotate by the airing plate 200 corresponding to the first rotating shaft 330 through the first arc-shaped toothed plate 220, so that the two airing plates 200 synchronously and reversely rotate upwards around their centers of circles to squeeze and dewater the textiles until the backs of the two airing plates 200 are outward, the airing faces are upward and open to both sides to form a reverse splay, and at this time, both ends of the textiles are spread, and the middle of the textiles are clamped between the two airing plates 200 (in a dewatering state as shown in fig. 5). Then, the handle 350 is pushed towards the direction close to the sun-curing plates 200, the handle 350 returns to the first working position, the handle 350 is pushed upwards, the handle 350 drives the junction of the two sun-curing plates 200 to move upwards until the handle 350 moves to the upper end limit position, the two sun-curing plates 200 are located on the same arc surface, the openings of the two sun-curing plates 200 face downwards, and the airing surfaces of the two sun-curing plates 200 are upward, at this time, the textiles are laid on the airing surfaces of the two sun-curing plates 200 for airing (in the airing state shown in fig. 2), and during airing, the handle on the handle 350 can be pressed into the positioning hole 102 on the rotating block 310 to complete fixing.

If the drying needs to be turned over after the preset time, the handle 350 is operated reversely, so that the drying plates 200 reach the initial positions, the fixing device 400 is moved to the other ends of the corresponding drying plates 200, the textile is spread, and then the rotating block 310 is rotated, so that the two drying plates 200 are integrally rotated upwards until the openings face downwards and the drying surfaces face upwards, and the turning is completed. Naturally, the airing procedure can be adjusted as required, for example, if the textile is not required to be squeezed to remove water, the state of fig. 7 can be directly changed into the state of fig. 2, specifically, the fixing device 400 is fixed at one end of the two sun-drying plates 200, the textile is laid on the airing surface of the sun-drying plates 200, the rotating block 310 is rotated to turn the sun-drying plates 200 to the state of fig. 2, and the airing can be started by fixing the rotating block 310.

In a further embodiment, a first baffle 3100 is installed on the first rotating shaft 330, a second baffle 3110 is installed on the second rotating shaft 320, the first baffle 3100 and the second baffle 3110 both extend along the length direction of the airing plate 200, the first baffle 3100 and the first rotating shaft 330 and the second baffle 3110 and the second rotating shaft 320 are connected through torsion springs, the first baffle 3100 and the second baffle 3110 are initially located above the airing plate 200, and the torsion springs enable the first baffle 3100 and the second baffle 3110 to be mutually buckled to further shield a gap at the junction of the two airing plates 200. As shown in fig. 3 and 7, in order to facilitate the installation of the first blocking plate 3100 and the second blocking plate 3110, first sleeves 3101 are respectively disposed at front and rear ends of the first blocking plate 3100, the two first sleeves 3101 are respectively sleeved at one ends of the two first rotating shafts 330 which are close to each other and correspond to the front and rear ends, one end of each corresponding torsion spring is connected to the first sleeve 3101, and the other end is connected to the first rotating shaft 330; both ends all are provided with second sleeve 3111 around the second baffle 3110, and two second sleeves 3111 overlap respectively and establish in the front and back two second pivot 320 that correspond one end that is close to each other, and second sleeve 3111, the second pivot 320 is connected to the other end to corresponding torsional spring one end connection.

When the fabric is aired, if thunderstorm weather, such as gust rain weather in summer, is met, the fabric can be switched from the airing state to the rain shielding state, the rain shielding state is that the airing surfaces of the two airing plates 200 are opposite and downward, and the two airing plates 200 are in the shape of the Chinese character 'zheng' (as shown in fig. 6), so that the time waste caused by large-area retraction of the fabric is avoided. When rain shielding is needed, if the device is in the state shown in fig. 1, the handle 350 can be operated reversely, so that the device moves from fig. 1 to fig. 5 to the state shown in fig. 6, the airing surfaces of the two airing plates 200 are opposite and downward, the textile is suspended at the junction of the two airing plates 200, the first baffle 3100 and the second baffle 3110 shield the gap at the junction of the two airing plates 200, and rainwater is guided to flow to two sides under the guidance of the airing plates 200, so that the textile is prevented from being wetted by rain. After the rain shower, the device can be restored to the airing state to continue airing. At the same time, when the device is in the state of fig. 1, the rotating block 310 may also be rotated 180 degrees, and then the fixing device 400 is pushed to the junction of the two sun-curing plates 200 to reach the state of fig. 7, and then the handle 350 is made to be in the first working position and the handle 350 is pushed upward to reach the rain-shielding state of fig. 6. Naturally, the mode of state change can be selected by the user as desired.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. The utility model provides a weaving sunning frame which characterized in that: comprises a side bracket, an adjusting device, a drying plate and a fixing device; the two side supports are arranged in parallel at intervals along the front-back direction, the two adjusting devices are respectively arranged on one side support, and the two adjusting devices are symmetrical front and back; the fixing device is arranged on the airing surface of the airing plate and can slide left and right along the cambered surface of the airing plate, the fixing device is respectively provided with a clamping position at the left end and the right end of the airing plate, and the fixing device is used for fixing the two ends of the textile to one airing plate respectively;

the adjusting device is used for controlling the two airing plates to move synchronously and comprises a rotating block, a handle and a transmission mechanism; the rotating block is rotatably embedded in the side bracket, and the rotating block and the side bracket are provided with locking positions in the vertical direction so as to be locked with each other; the handle can slide up and down and is arranged on the rotating block in a back-and-forth moving mode, and one end, close to the drying plates, of the handle is connected with the two drying plates; the handle is provided with a first working position and a second working position in the front-back direction, the handle drives the airing plates to synchronously move and be separated from the transmission mechanism when in the first working position, the handle relatively slides with the airing plates and can be combined with the transmission mechanism when in the second working position, and the transmission mechanism is used for driving the two airing plates to synchronously and reversely rotate around the axes of the transmission mechanism;

the two initial drying plates are positioned on the same cambered surface, the openings of the two initial drying plates are upward, the drying surfaces of the two initial drying plates are downward, the fixing device is positioned at one end of the two drying plates close to each other, the textile is suspended at the junction of the two drying plates after being clamped, and the handle is positioned at the limit position of the lower end; when the fabric drying device is used, the handle is arranged at a first working position, the handle is moved upwards, the handle drives the junction of the two drying plates to move upwards to a preset position, the back surfaces of the two drying plates face outwards, the drying surfaces face downwards and are opened towards two sides, and at the moment, the fabric is still suspended at the junction of the two drying plates; secondly, the handle is positioned at a second operation position, the handle is rotated, the handle drives the two airing plates to synchronously rotate upwards and reversely around the circle center of the handle through the transmission mechanism so as to extrude and dewater the textile until the back surfaces of the two airing plates face outwards and the airing surfaces face upwards and open towards two sides, at the moment, two ends of the textile are spread, and the middle of the textile is clamped at the junction of the two airing plates; then, returning the handle to the first working position, pushing the handle upwards, driving the middle parts of the two airing plates to move upwards by the handle until the handle is positioned at the upper end limit position, arranging the two airing plates on the same cambered surface, enabling the openings to face downwards, enabling the airing surfaces to face upwards, and laying the textile on the airing surfaces of the two airing plates for airing; after the sunning time of predetermineeing, reverse operation handle makes the sunning board reach initial position, removes fixing device to the other end of corresponding sunning board simultaneously, and the fabrics is propped open, and then rotatory turning block for two sunning boards are whole upwards to rotate to the opening down, and the sunning face is up, accomplishes the turn-over.

2. The textile drying rack of claim 1, wherein: the fixing device comprises a first pressing plate, a second pressing plate and a connecting sliding block; the airing surface of the airing plate is provided with two connecting sliding grooves and two placing grooves, the two connecting sliding grooves extend along the left and right sides of the cambered surface of the airing plate and are arranged at intervals in the length direction of the airing plate, the two placing grooves extend along the length direction of the airing plate, the two placing grooves are respectively arranged at two ends of the connecting sliding grooves, and each placing groove is communicated with the two connecting sliding grooves;

the first pressing plate, the second pressing plate and the connecting sliding block are sequentially stacked, the first pressing plate and the second pressing plate extend forwards and backwards, two ends of the first pressing plate and the second pressing plate are connected through a connecting column, the connecting column is telescopic and is sleeved with a first connecting spring, and the first connecting spring enables the first pressing plate and the second pressing plate to approach to each other; the two connecting sliding blocks are respectively arranged at two ends of the second pressing plate, a second connecting spring is arranged between the connecting sliding blocks and the second pressing plate, and the second connecting spring enables the second pressing plate and the connecting sliding blocks to be close to each other; the connecting sliding block is arranged in the connecting sliding groove in a sliding mode, when the connecting sliding block is located at one end limit position, the first pressing plate and the second pressing plate are located in the placing groove, and the outer surface of the first pressing plate does not exceed the airing surface of the airing plate.

3. The textile drying rack of claim 1, wherein: the side bracket is provided with a step-shaped mounting hole, the large hole of the mounting hole is close to the drying plate, and the rotating block is rotatably arranged in the large hole of the mounting hole; both ends all are provided with the anti-rotation groove about the week wall of the aperture of mounting hole, and both ends all are provided with the anti-rotation hole about the side that the drying plate was kept away from to the turning block, and the locking piece has been gone into to cartridge in anti-rotation groove and the anti-rotation hole.

4. The textile drying rack according to claim 3, characterized in that: the side support is provided with two positioning holes which are respectively arranged at the upper side and the lower side of the mounting hole, the handle of the handle can slide along the front-back direction, the handle of the handle corresponds to the positioning hole at the upper part when the handle is at the upper end limit position, and the handle of the handle corresponds to the positioning hole at the lower part when the handle is at the lower end limit position.

5. The textile drying rack of claim 1, wherein: a guide sliding groove is formed in the center of the rotating block, a guide sliding block capable of sliding up and down is arranged in the guide sliding groove, and two communicating holes are formed in the guide sliding block; two connecting rods horizontally extending in the front-back direction are arranged at one end, close to the airing plate, of the handle, the connecting rods correspond to the communication holes one by one, arc-shaped guide grooves with the same radian as the connecting rods are arranged on the front end face and the back end face of the airing plate, and the connecting rods penetrate through the guide sliding blocks in a sliding mode through the communication holes and are connected with the arc-shaped guide grooves in a sliding mode at one end, close to the airing plate, of the connecting rods; the left end and the right end of the arc-shaped guide groove are provided with limiting holes on the groove bottom wall, and the connecting rod is inserted into the limiting holes when the handle is positioned at the first working position, so that the handle can drive the airing plate to move synchronously; when the handle is at the second working position, the connecting rod is separated from the limiting hole, so that the handle slides relative to the airing plate when rotating.

6. The textile drying rack according to claim 5, characterized in that: the transmission mechanism comprises a first rotating shaft and a second rotating shaft, the axes of the first rotating shaft and the second rotating shaft extend forwards and backwards, and the first rotating shaft and the second rotating shaft are rotatably arranged in the middle of the rotating block and symmetrically arranged at the left side and the right side of the guide sliding chute;

the first rotating shaft is fixedly sleeved with a first gear, the handle is fixedly provided with a second gear, when the handle is positioned at a first working position, the second gear is positioned at one side of the first gear, which is close to the rotating block, and further is staggered with the first gear in the front-back direction, and when the handle is positioned at a second working position, the second gear corresponds to the first gear in the front-back direction and can be meshed with the first gear; third gears are arranged on the first rotating shaft and the second rotating shaft, and the third gears are positioned on one side of the rotating block close to the drying plate;

the front end and the rear end of each airing plate are respectively provided with a first arc-shaped toothed plate and a second arc-shaped toothed plate, the first arc-shaped toothed plates are arranged on the airing surfaces of the airing plates, the second arc-shaped toothed plates are arranged on the back surfaces of the airing plates, the first rotating shaft is in relative rotating connection with one of the airing plates, the second rotating shaft is in relative rotating connection with the other airing plate, the third gear is meshed with the second arc-shaped toothed plates, and the first arc-shaped toothed plates on the two airing plates are meshed when the airing surfaces of the two airing plates are opposite.

7. The textile drying rack of claim 6, wherein: all rotationally the cover is equipped with limit slide in first pivot and the second pivot, and the back of sunning board is provided with spacing spout, and spacing spout extends along the width direction of sunning board, and limit slide slides and sets up in spacing spout, and limit slide's notch hinders limit slide and deviates from spacing spout.

8. The textile drying rack of claim 6, wherein: install first baffle in the first pivot, install the second baffle in the second pivot, first baffle and second baffle all extend along the length direction of sunning board, all through torsional spring connection between first baffle and the first pivot and between second baffle and the second pivot, and initial first baffle and second baffle are located the top of sunning board and torsional spring impels first baffle and second baffle to mutually lock and then shelter from the gap of two sunning board junctions.

9. The textile drying rack according to claim 8, characterized in that: the front end and the rear end of the first baffle are respectively provided with a first sleeve, the two first sleeves are respectively sleeved at the ends, close to each other, of the two first rotating shafts corresponding to the front end and the rear end, one end of each corresponding torsion spring is connected with the corresponding first sleeve, and the other end of each corresponding torsion spring is connected with the corresponding first rotating shaft; the front end and the rear end of the second baffle are respectively provided with a second sleeve, the two second sleeves are respectively sleeved at one end, close to each other, of the two corresponding second rotating shafts in the front and the rear, one end of the corresponding torsion spring is connected with the second sleeve, and the other end of the corresponding torsion spring is connected with the second rotating shaft.

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