CN111409390A - Paper sorting device for art design - Google Patents

Abstract

The invention discloses a paper sorting device for art design, which comprises: the device comprises a conveying assembly, a drying assembly, a plurality of classification assemblies, a collection assembly and a lifting assembly; the sorting component is connected with one side of the conveying component in a sliding manner so as to limit the conveying positions of the paper sheets with different specifications on the conveying component and form a plurality of conveying channels with different specifications; the collection assembly includes: the two ends of the first shell are provided with openings, a plurality of lower partition plates and a plurality of bottom plates; the lower partition plates are connected with the inner surface of the first shell to form a plurality of collecting chambers; the position of the collection chamber and the position of the conveying channel correspond to each other. The paper classifying device can convey, classify and collect the drawing paper, and is convenient for sorting and storing the drawing paper; simultaneously, can carry out drying process to the drawing paper for the speed that the drawing paper was collected improves the efficiency and the quality that the drawing paper was preserved.

Description

Paper sorting device for art design

Technical Field

The invention relates to the technical field of art design, in particular to a paper classifying device for art design.

Background

In art teaching, the student will carry out a large amount of drawing exercises usually, and according to the unnecessary of exercise theme and content, the specification of the drawing paper that adopts also differs in size during the drawing, and after the student drawing was accomplished, the mr generally can need to collect the drawing paper arrangement.

The prior drawing paper is generally placed in a common box, no facility or mechanism is arranged in the box, and the paper is directly placed into the box through an opening of the box to achieve the purpose of storing the paper; because the box volume is fixed for it is also relatively more fixed to collect the paper type, can not carry out the classified collection to the paper of big size width inconsistent promptly, causes the mixed and disorderly nothing of paper, is difficult to reach the effect of level and smooth collection. Simultaneously, because the pigment on the drawing that just draws is not dry, if directly put into the case with the paper this moment, lead to drawing content to be tinged easily, consequently need dry the pigment and collect after the back again, but the sunning paper will occupy certain space and time, causes certain influence to the student draws.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides a paper sorting device for art design, which can convey, sort and collect the drawing paper, and is convenient for sorting and storing the drawing paper; simultaneously, can carry out drying process to the drawing paper for the speed that the drawing paper was collected improves the efficiency and the quality that the drawing paper was preserved.

A paper sorting apparatus for art design according to an embodiment of the present invention includes: the paper color sorting machine comprises a conveying assembly for conveying paper, a drying assembly for drying color on the paper, a plurality of sorting assemblies, a collecting assembly and a lifting assembly; the sorting component is connected with one side of the conveying component in a sliding mode so as to limit the conveying positions of the paper sheets with different specifications on the conveying component and form a plurality of conveying channels with different specifications; the collection assembly includes: the paper collecting device comprises a first shell, a plurality of lower partition plates and a plurality of bottom plates, wherein openings are formed in two ends of the first shell; the lower partition plate is connected with the inner surface of the first shell to form a plurality of collecting chambers; the position of the collection chamber and the position of the conveying channel correspond to each other; the bottom plate is respectively connected with the inner surface of the first shell and the lower partition plate in a sliding manner; the lifting assembly can be detachably connected with the bottom plate so as to drive the bottom plate to lift; the first shell is arranged on the other side of the conveying assembly, and the drying assembly is connected with the conveying assembly.

The paper sorting device for art design provided by the embodiment of the invention has at least the following beneficial effects: under the action of the classification component, a plurality of conveying channels are formed on the conveying component to limit the conveying positions of the paper sheets with different specifications on the conveying component, so that the conveying component can convey the paper sheets with different specifications at the same time, the paper sheet conveying efficiency is improved, and the paper sheets are classified; under the action of the drying component, the paper can be dried in the conveying process, so that the drying speed of the pigment on the paper is increased, and the paper storage efficiency and quality are improved; under the action of the lifting assembly, the bottom plate is driven to lift, so that the height of the bottom plate can be conveniently set according to the number of paper, the paper is prevented from shifting in position in the descending process, and the paper sorting quality is improved; the position of collecting the room and transfer passage's position correspond mutually for the collection of the paper of different specifications can be realized to the collecting room, and the arrangement and the save of the drawing paper of being convenient for.

According to some embodiments of the invention, the transfer assembly comprises: the device comprises an upper frame body, a lower frame body, a conveying belt, a first transmission rod, a second transmission rod, a first gear, a second gear, a chain wheel and a motor; go up the support body with lower support body coupling, the internal surface of conveyer belt with the sprocket is connected, first transfer line respectively with first gear with the motor is connected, the second transfer line with the second gear is connected, the sprocket respectively with first gear with the meshing of second gear is connected, go up the support body with the motor is connected, go up the support body respectively with first transfer line with the second transfer line rotates to be connected, categorised subassembly with go up support body sliding connection.

According to some embodiments of the invention, the drying assembly comprises: a plurality of infrared drying lamps; the infrared drying lamp is connected with the inner top surface of the upper frame body.

According to some embodiments of the invention, the classification component comprises: the device comprises a plurality of guide plates, a plurality of fixing pieces for fixing the guide plates and a first dial for recording the positions of the guide plates; the upper frame body is provided with a third guide groove for guiding the fixing piece to slide; the mounting with third guide way sliding connection, the deflector passes through the mounting with go up the support body and connect, go up the support body with first calibrated scale is connected, the deflector set up in the top of conveyer belt.

According to some embodiments of the present invention, a first guide block is disposed at a left side of the lower partition plate, and a second guide block is disposed at a right side of the lower partition plate; the first shell is provided with a first guide groove for guiding the first guide block to move, a second guide groove for guiding the second guide block to move, a first lead-in opening for guiding the first guide block to be led in and a second lead-in opening for guiding the second guide block to be led in; the first guide block is respectively connected with the first guide groove and the first guide-in opening in a sliding mode, and the second guide block is respectively connected with the second guide groove and the second guide-in opening in a sliding mode.

According to some embodiments of the invention, the collection assembly further comprises: a second dial for recording the position of the lower diaphragm; the second dial is connected with the first housing.

According to some embodiments of the invention, the lift assembly comprises: the device comprises a substrate, a plurality of cylinders and a plurality of weight sensors; the surface of the substrate is inwards sunken to form a sunken position, and the air cylinder is connected with the sunken position; the weight sensor is connected with the air cylinder, the top surface of the weight sensor can be detachably connected with the bottom surface of the bottom plate, and the substrate can be detachably connected with the bottom surface of the first shell.

According to some embodiments of the invention, the collection assembly further comprises: a cover for sealing the first housing, a drying unit for drying the paper, and a guide unit for guiding the paper to descend; the bottom of the first shell can be detachably connected with the drying unit, and the top of the first shell can be detachably connected with the cover body and the guide unit respectively.

According to some embodiments of the invention, the drying unit comprises: the second shell, the dust screen and the drawer for storing the drying agent are arranged on the second shell; the bottom plate is provided with a plurality of through holes, and the second shell is provided with heat dissipation holes and long grooves for the drawer to pass through; the dust screen is connected with the heat dissipation holes, the drawer is respectively connected with the long groove and the inner surface of the second shell in a sliding mode, and the top surface of the second shell is connected with the bottom surface of the first shell, so that the drying agent can dry the paper through the through holes.

According to some embodiments of the invention, the guide unit comprises: a third shell and an upper baffle plate; a paper feeding port for receiving paper on the conveying assembly is formed in the side surface of the third shell; the upper partition board is connected with the inner side surface of the third shell to form a plurality of guide chambers, and the guide chambers and the collection chambers are mutually corresponding in position; the paper feeding port is connected with the upper partition plate so as to form a plurality of communicating ports on the paper feeding port; the third shell is connected with the first shell in a buckling mode.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a structural view of a paper sorting apparatus for art design according to an embodiment of the present invention;

fig. 2 is another structural view of a paper sorting apparatus for art design according to an embodiment of the present invention;

FIG. 3 is a block diagram of a transfer assembly according to an embodiment of the present invention;

fig. 4 is a structural view of a drying assembly according to an embodiment of the present invention;

FIG. 5 is a block diagram of a collection assembly according to an embodiment of the present invention;

FIG. 6 is a cross-sectional view of a collection assembly according to an embodiment of the present invention;

FIG. 7 is a cross-sectional view of a first housing according to an embodiment of the invention;

FIG. 8 is a structural view of a lower partition according to an embodiment of the present invention;

FIG. 9 is an enlarged view of portion B of FIG. 7 according to an embodiment of the present invention;

FIG. 10 is an enlarged view of portion A of FIG. 1 according to an embodiment of the present invention;

FIG. 11 is a cross-sectional view of a sorting assembly according to an embodiment of the invention;

FIG. 12 is a block diagram of a lift assembly according to an embodiment of the present invention;

FIG. 13 is a combination view of a lift assembly and collection assembly according to an embodiment of the present invention;

FIG. 14 is a combination view of a cover, drying unit and collection assembly according to an embodiment of the present invention;

FIG. 15 is a block diagram of a drying unit according to an embodiment of the present invention;

FIG. 16 is a cross-sectional view of a drying unit according to an embodiment of the present invention;

fig. 17 is a structural view of a guide unit according to an embodiment of the present invention.

Reference numerals:

the paper feeding device comprises a conveying assembly 100, an upper frame body 110, a third guide groove 111, a lower frame body 120, a conveying belt 130, a first transmission rod 140, a second transmission rod 150, a first gear 160, a second gear 170, a chain wheel 180, a motor 190, a drying assembly 200, a sorting assembly 300, a guide plate 310, a fixing member 320, an inverted T-shaped screw 321, a nut 322, a first dial 330, a collecting assembly 400, a first housing 410, a first guide groove 411, a second guide groove 412, a first introducing port 413, a second introducing port 414, a lower partition plate 420, a first guide block 421, a second guide block 422, a bottom plate 430, a through hole 431, a collecting chamber 440, a second dial 450, a cover 460, a drying unit 470, a second housing 471, a heat dissipation hole 4711, a long groove 4712, a dust screen 472, a drawer 473, a guide unit 480, a third housing 481, a paper feeding port 4811, a fourth guide groove 4812, a third introducing port 4813, a fourth introducing port 48482, an upper partition plate 14, a drying unit, Guide chamber 483, communication port 484, third dial 485, lift assembly 500, base plate 510, recess 511, air cylinder 520, weight sensor 530.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to, for example, the upper, lower, etc., is indicated based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

In the description of the present invention, if there are first, second, third, fourth, fifth, etc. described, only for the purpose of distinguishing technical features, it is not to be understood as indicating or implying relative importance or implicitly indicating the number of indicated technical features or implicitly indicating the precedence of the indicated technical features.

In the description of the present invention, unless otherwise explicitly defined, terms such as arrangement, connection and the like should be broadly construed, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the detailed contents of the technical solutions.

As shown in fig. 1, 5 and 6, the paper sorting apparatus for art design according to the embodiment of the present invention includes: a conveying assembly 100 for conveying paper, a drying assembly 200 for drying pigment on the paper, a plurality of sorting assemblies 300, a collecting assembly 400 and a lifting assembly 500; the sorting component 300 is connected with one side of the conveying component 100 in a sliding way so as to limit the conveying positions of the paper sheets with different specifications on the conveying component 100 and form a plurality of conveying channels with different specifications; the collection assembly 400 includes: a first housing 410 with openings at both ends, a plurality of lower partitions 420, and a plurality of bottom plates 430 for collecting paper; the lower barrier 420 is connected to the inner surface of the first case 410 to form a plurality of collecting chambers 440; the position of the collection chamber 440 corresponds to the position of the transfer passage; the bottom plate 430 is slidably coupled to the inner surface of the first housing 410 and the lower barrier 420, respectively; the lifting assembly 500 can be detachably connected with the bottom plate 430 to drive the bottom plate 430 to lift; the first housing 410 is disposed at the other side of the conveying assembly 100, and the drying assembly 200 is connected to the conveying assembly 100.

For example, as shown in fig. 1, 5 and 6, the conveying assembly 100 is used to convey paper, and the specification of the conveying assembly 100 can be set according to actual needs so that the conveying assembly 100 can convey several paper sheets at the same time. That is, the width of the conveying assembly 100 is large so that several sheets can be placed at the same width position.

The sorting assembly 300 slides on the conveying assembly 100, so that the position of the sorting assembly 300 on the conveying assembly 100 is adjusted, a plurality of conveying channels are formed on the conveying assembly 100, the positions of the paper sheets with different specifications conveyed on the conveying assembly 100 are limited, the conveying assembly 100 can convey the paper sheets with different specifications at the same time, the paper sheet conveying efficiency is improved, and the paper sheets are sorted. Further, a conveying path is formed between the two sorting assemblies 300, so that the sheet is conveyed between the two sorting assemblies 300; meanwhile, sheets of different sizes have fixed lengths and widths, and the conveying path sorts the sheets by limiting the widths of the sheets. Further, the sorting assembly 300 is disposed at a start position in the conveying direction of the conveying assembly 100, so that a user can select a paper sheet of a corresponding width according to the width of the conveying path, and the paper sheet is conveyed while being fixed in the direction of the corresponding conventional path.

Under the action of the drying component 200, the paper can be dried in the conveying process, so that the drying speed of the pigment on the paper is increased, and the paper storage efficiency and quality are improved; further, in order to ensure that the paper can be completely dried, the paper is slowly conveyed by setting the conveying speed of the conveying assembly 100, and the drying time of the paper is increased; meanwhile, the conveying speed is low, so that the conveying of the paper on the conveying assembly 100 is more stable, the paper is prevented from being shifted in position in the conveying process, namely, the paper is prevented from deviating from the conveying channel, and the accuracy of the collection chamber 440 in collecting the paper is improved.

The paper passes through the sorting assembly 300 and the drying assembly 200 in sequence under the action of the conveying assembly 100 and is conveyed to the corresponding collecting chamber 440, and the paper descends from the upper part of the collecting chamber 440 to the bottom plate 430 under the action of gravity; further, the position of the collection chamber 440 corresponds to the position of the conveying passage, so that the collection chamber 440 can collect paper sheets of different specifications, and the paper sheets can be conveniently sorted and stored. And the lifting assembly 500 can drive the bottom plate 430 to lift, so that the height of the bottom plate 430 is set conveniently according to the number, thickness or weight of paper on the bottom plate 430, the paper is prevented from causing position deviation in the descending process, and the paper sorting quality is improved.

Specifically, when there is no paper on the bottom plate 430, the lifting assembly 500 drives the bottom plate 430 to ascend to the upper part of the collection chamber 440, so that the height difference between the height of the bottom plate 430 and the conveying height of the conveying assembly 100 is maintained in a certain range, namely, the range is the relative height of the descending of the paper and is referred to as a descending height range, and the paper descends more smoothly by setting the descending height range; further, the smaller the height difference, the more stable the sheet descent, for example, the height difference may be set to 5cm, and the descent height may be set to 2 cm to 10 cm.

As the number of the paper sheets on the bottom plate 430 increases, the total height of the bottom plate 430 and the paper sheets increases gradually, and the relative height of the paper sheet at the highest position on the bottom plate 430 and the conveying height of the conveying assembly 100 are smaller and smaller, and the descending height of the paper sheets is smaller and smaller. When the number of the paper sheets on the bottom plate 430 reaches a certain number, or the relative height of the paper sheet at the highest position on the bottom plate 430 reaches a certain height, in order to prevent the relative height of the paper sheet at the highest position on the bottom plate 430 from being higher than the conveying height of the conveying assembly 100, the paper sheet can be smoothly lowered, that is, the lifting assembly 500 drives the bottom plate 430 to be lowered, so that the relative height of the paper sheet at the highest position on the bottom plate 430 is kept within the range of the lowered height.

Further, when adjusting the position of the sorting assembly 300, it is necessary to ensure that the conveying channel is arranged corresponding to the collecting chamber 440, that is, the position of the sorting assembly 300 needs to be arranged within the width range of the collecting chamber 440, so that the width of the conveying channel is not greater than the width of the collecting chamber 440, and the collecting chamber 440 can collect the paper sheets with the width.

In some embodiments of the present invention, a paper sorting apparatus for art design, the conveying assembly 100 includes: the rack comprises an upper rack body 110, a lower rack body 120, a conveyor belt 130, a first transmission rod 140, a second transmission rod 150, a first gear 160, a second gear 170, a chain wheel 180 and a motor 190.

For example, as shown in fig. 3, the upper frame 110 is connected to the lower frame 120 such that an accommodating space is formed between the upper frame 110 and the lower frame 120 to facilitate the placement of the conveyor belt 130. The first transmission rod 140 is respectively connected with the first gear 160 and the motor 190, so that the motor 190 can drive the first transmission rod 140 to rotate, and the first transmission rod 140 drives the first gear 160 to rotate; the inner surface of the conveyor belt 130 is connected with a chain wheel 180, and the chain wheel 180 is respectively meshed with the first gear 160 and the second gear 170, so that the first gear 160 drives the chain wheel 180 to move, the chain wheel 180 drives the conveyor belt 130 to move, and the chain wheel 180 drives the second gear 170 to rotate; the second transmission rod 150 is connected with the second gear 170, so that the second gear 170 drives the second transmission rod 150 to rotate; the upper frame body 110 is connected to the motor 190, and the upper frame body 110 is rotatably connected to the first driving lever 140 and the second driving lever 150, respectively, such that the first driving lever 140 and the second driving lever 150 can stably rotate on the upper frame body 110, thereby enabling the conveyor belt 130 to stably perform a conveying motion.

Further, by setting the relative position of the conveyor belt 130 and the upper frame 110, the upper frame 110 does not cover the initial portion of the conveyor belt 130; since the sorting assembly 300 is slidably connected to the upper frame 110, the sorting assembly 300 can be disposed above the initial portion of the conveyor belt 130 by positioning the sorting assembly 300 on the upper frame 110, so as to effectively sort and guide the paper.

In some embodiments of the present invention, the drying assembly 200 includes: several infrared drying lamps.

For example, as shown in fig. 4, the infrared drying lamp is a heating source consisting of a tungsten filament outer jacket and a quartz tube, which is activated by using a high power source, and has a wavelength range of 0.76 to 5 μm and a peak wavelength of 4 μm, and can emit short, fast and medium waves. The short wave has higher power and strong penetrating power, and the radiation can be concentrated on a target and provide heat energy; the fast medium wave is relatively stable, and the on-off reaction is rapid; the medium wave can heat the surface and thin layer of the object rapidly, and has the characteristic of being absorbed by the water film rapidly.

The infrared drying lamp is connected with the interior top surface of last support body 110, and the infrared drying lamp setting is in the top of paper promptly for the infrared drying lamp can be effectual dries the pigment on the paper, is that the paper keeps dry state, improves the storage quality of paper. Furthermore, the infrared drying lamp can select an appropriate model according to actual needs, so that the infrared drying lamp can send an appropriate waveform, and the drying efficiency and effect of the paper are improved.

In some embodiments of the invention, the classification component 300 comprises: a plurality of guide plates 310, a plurality of fixing members 320 for fixing the plurality of guide plates 310, and a first scale 330 for recording the positions of the guide plates 310; the upper frame body 110 is provided with a third guide groove 111 for guiding the fixing member 320 to slide.

For example, as shown in fig. 1, 10 and 11, the fixing member 320 is slidably coupled to the third guide groove 111, and the guide plate 310 is coupled to the upper frame 110 by the fixing member 320, so that the guide plate 310 can be fixed at a desired position on the upper frame 110. The guide plate 310 is arranged above the conveyor belt 130, so that a user can conveniently place paper according to the position of the guide plate 310, and the effect of the guide plate 310 on guiding the paper is improved; specifically, the distance between the guide plate 310 and the conveyor belt 130 may be set to 0.5cm so that the guide plate 310 approaches the conveyor belt 130 without contacting the conveyor belt 130 to generate friction; further, the distance may be set according to actual needs, and is not particularly limited.

The upper frame body 110 is coupled with the first scale 330 so that a user can register the position of the guide plate 310 through the first scale 330, more accurately limit the width of paper transfer, and adjust the positional relationship between the collection chambers 440 and the guide plate 310 so that paper can be accurately transferred into the corresponding collection chambers 440. Further, the first scale 330 is disposed at a position close to the guide plate 310, so as to determine the position of the guide plate 310.

Further, the fixing member 320 may include: the reverse T-shaped screw 321 is in threaded connection with the nut 322; the guide plate 310 is provided with a coupling hole such that the inverted T-shaped screw 321 is slidably coupled to the third guide groove 111 and the inverted T-shaped screw 321 is coupled to the coupling hole. The position of the inverted T-shaped screw 321 is adjusted by sliding the inverted T-shaped screw 321 on the third guide groove 111, the guide plate 310 is connected to the inverted T-shaped screw 321 through the connection hole, and the guide plate 310 can be fixed by adjusting the degree of screw connection between the nut 322 and the inverted T-shaped screw 321. Further, the shape of the third guide groove 111 and the shape of the inverted T-shaped screw 321 match each other.

In some embodiments of the present invention, the left side of the lower partition 420 is provided with a first guide block 421, and the right side of the lower partition 420 is provided with a second guide block 422; the first housing 410 is provided with a first guide slot 411 for guiding the movement of the first guide block 421, a second guide slot 412 for guiding the movement of the second guide block 422, a first introduction port 413 for guiding the introduction of the first guide block 421, and a second introduction port 414 for guiding the introduction of the second guide block 422.

For example, as shown in fig. 7, 8 and 9, the first guide block 421 is slidably connected to the first guide slot 411 and the first introduction port 413, and the second guide block 422 is slidably connected to the second guide slot 412 and the second introduction port 414, respectively, so that the first guide block 421 can drive the left side of the lower partition plate 420 to slide in the first guide slot 411, and the second guide block 422 can drive the right side of the lower partition plate 420 to slide in the second guide slot 412, so that the lower partition plate 420 can move to any position in the first housing 410, and the collection chamber 440 with any width and specification can be adjusted, thereby collecting paper sheets with various specifications more conveniently.

Further, the lower partition plate 420 can slide in or out of the first housing 410 through the first introduction port 413 and the second introduction port 414, so that the number of the lower partition plates 420 in the first housing 410 is changed, that is, a user can set the number of the lower partition plates 420 according to actual needs, and further set the number of the collection chambers 440 with different specifications, thereby improving the use efficiency of the first housing 410.

In some embodiments of the invention, the collection assembly 400 further comprises: a second dial 450 for noting the position of the spacer 420.

For example, as shown in fig. 9, the second dial 450 is coupled to the first housing 410 such that the second dial 450 can register the position of the partition 420, thereby allowing a user to more conveniently adjust the position of the lower partition 420 and thus the width of the collection chamber 440 as desired. In order to make the position of the collection chamber 440 correspond to the position of the transfer path, the sorting and collection of the sheets are preferably performed by adjusting the position of the guide plate 310 with respect to the first dial 330.

Further, the second dial 450 may be disposed above the lower barrier 420 with a distance between the second dial 450 and the lower barrier 420 being short. Further, the first scale 330 and the second scale 450 have the same accuracy, and it is ensured that the position of the collection chamber 440 and the position of the transfer passage can correspond to each other.

In some embodiments of the invention, the lift assembly 500 comprises: a base plate 510, a plurality of air cylinders 520, and a plurality of weight sensors 530; the surface of the substrate 510 is recessed inward to form recessed sites 511.

For example, as shown in fig. 12 and 13, the base plate 510 is detachably connected to the bottom surface of the first housing 410, so that the lifting assembly 500 can be separated from the collecting assembly 400, and when the collecting assembly 400 collects paper sheets, the base plate 510 is connected to the bottom surface of the first housing 410, that is, the lifting assembly 500 is connected to the collecting assembly 400, so that the lifting assembly can be lifted and lowered from the bottom plate 430 by the air cylinder 520 and the weight sensor 530; when the collection assembly 400 finishes collecting the paper, the connection between the base plate 510 and the bottom surface of the first housing 410 is released, that is, the connection between the lifting assembly 500 and the collection assembly 400 is released, so that the collection assembly 400 can be moved conveniently and placed in other places for storing the paper; meanwhile, the lifting assembly 500 can be reconnected with another collecting assembly 400, so that the air cylinder 520 and the weight sensor 530 drive another bottom plate 430 to lift, thereby improving the use efficiency of the air cylinder 520 and the weight sensor 530.

The weight sensor 530 is connected to the air cylinder 520, and the top surface of the weight sensor 530 is detachably connected to the bottom surface of the bottom plate 430, so that the weight sensor 530 can measure the weight of the paper on the bottom plate 430, and when the total weight of the paper increases by a certain increment, the weight sensor 530 transmits a trigger signal to the air cylinder 520, and the air cylinder 520 descends by a certain height according to the trigger signal.

Specifically, since the sizes of the collection chambers 440 are not uniform, the sizes of the bottom plates 430 are also not uniform, and thus the weights of the bottom plates 430 are also not uniform; when the base plate 430 is placed on the weight sensor 530, the weight sensor 530 measures the weight of the base plate 430 and sets the weight value of the base plate 430 to an initial value; as the number of sheets collected on the base plate 430 increases, the measurement value of the weight sensor 530 increases, and when the measurement value reaches a threshold value, the weight sensor 530 transmits a trigger signal to the air cylinder 520, and the air cylinder 520 is lowered by a fixed height according to the trigger signal; then, the weight sensor 530 initializes the measurement value at this time, and repeats the measurement of the weight of the sheet being lowered.

Further, the threshold value may be set to 500 g, and the height of the air cylinder 520 lowered each time is set to 3 cm, that is, the air cylinder 520 drives the bottom plate 430 to be lowered 3 cm for each 500 g of paper on the weight sensor 530.

Further, the cylinder 520 is connected to the recess 511, so that the bottom plate 430 can be connected to the bottom surface of the first housing 410 when the collection chamber 440 completes the collection of the paper sheets by driving the cylinder 520 to descend to a fully contracted state; if the bottom plate 430 is not connected to the bottom surface of the first casing 410, when a user needs to lift the first casing 410 and move the first casing 410 to another place for storage, the bottom plate 430 is separated from the cylinder 520 at the moment of lifting the first casing 410, so that the bottom plate 430 rapidly descends, the position of the bottom plate 430 is easily deviated, and the position of the paper is easily deviated, which results in a failure in collecting the paper.

In some embodiments of the invention, the collection assembly 400 further comprises: a cover 460 for sealing the first case 410, a drying unit 470 for drying the paper, and a guide unit 480 for guiding the paper to descend.

For example, as shown in fig. 1 and 14, the bottom of the first casing 410 can be detachably connected to the drying unit 470, the top of the first casing 410 can be detachably connected to the cover 460 and the guide unit 480, respectively, when the first casing 410 finishes collecting the paper sheets, the top of the first casing 410 is disconnected from the guide unit 480, the first casing 410 is moved to connect the bottom of the first casing 410 to the drying unit 470, and the top of the first casing 410 is connected to the cover 460, so that the first casing 410 is kept in a sealed state, and the paper sheets are kept in a dry state, thereby better protecting the paper sheets. When the first casing 410 needs to continue collecting the paper, the paper can be collected again by releasing the connection between the bottom of the first casing 410 and the drying unit 470, releasing the connection between the top of the first casing 410 and the cover 460, and connecting the top of the first casing 410 to the guide unit 480.

Further, the top of the first housing 410, the cover 460 and the guiding unit 480 may be connected in a snap-fit manner; meanwhile, the bottom of the first housing 410 can be connected to the drying unit 470 in a snap-fit manner.

In some embodiments of the present invention, the drying unit 470 includes: a second case 471, a dust screen 472, and a drawer 473 for storing a desiccant; the bottom plate 430 is provided with a plurality of through holes 431, and the second housing 471 is provided with a heat dissipation hole 4711 and a long groove 4712 for the drawer 473 to pass through.

For example, as shown in fig. 15 and 16, the drawer 473 is slidably coupled to the elongated slot 4712 and the inner surface of the second housing 471, respectively, to facilitate a user to store desiccant in the drawer 473 or to replace the desiccant; the top surface of the second casing 471 is connected to the bottom surface of the first casing 410, so that the drying agent dries the paper through the through hole 431, and the paper is kept in a dry state. The dust screen 472 is connected with the heat dissipation hole 4711, so that the paper effectively avoids external dust from entering the second casing 471 on the premise of realizing drying and ventilation with the outside through the heat dissipation hole 4711.

Further, be provided with a plurality of ventilative holes on baffle 420 down for can keep the effect of heat dissipation and ventilation through ventilative hole between each collection chamber 440, simultaneously, make the drier can carry out even drying to the paper in each collection chamber 440, improve dry effect.

In some embodiments of the invention, the guiding unit 480 comprises: a third case 481 and an upper spacer 482; a side surface of the third housing 481 is provided with a paper feed port 4811 for receiving paper on the conveying assembly 100; the upper partition 482 is connected to the inner side of the third case 481 to form a plurality of guide chambers 483; the paper feed port 4811 is connected to an upper partition 482 so that the paper feed port 4811 forms several communication ports 484.

For example, as shown in fig. 2 and 17, the upper partition 482 is connected to the inner side surface of the third housing 481, and the paper feed port 4811 is connected to the upper partition 482 such that the width of the communication hole 431 coincides with the width of the guide chamber 483, enabling collection of paper sheets of a corresponding width on the conveying assembly 100 such that the paper sheets are conveyed into the guide chamber 483 through the communication port 484; since the height of the upper partition 482 is higher than the height of the communication port 484, the upper partition 482 can effectively guide the lowering of the sheet and prevent the sheet position from being displaced.

The guide chamber 483 and the collection chamber 440 are positioned to correspond to each other so that the sheet guided through the guide chamber 483 can be smoothly lowered into the collection chamber 440 to accurately collect the sheet. The third casing 481 is connected with the first casing 410 in a buckling manner, and the connection manner is simple, so that the position between the third casing 481 and the first casing 410 is kept relatively stable, the guide chamber 483 and the collection chamber 440 are kept at corresponding positions, and the paper collection effect is improved.

Other constructions and operations of the paper sorting apparatus for artistic design according to the embodiment of the present invention are known to those skilled in the art and will not be described in detail herein.

The paper sorting apparatus for art design according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 17 as a specific embodiment, it being understood that the following description is illustrative only and not a specific limitation of the invention.

As shown in fig. 1 to 17, the paper sorting apparatus for art design includes: the drying machine comprises an upper frame body 110, a lower frame body 120, a conveyor belt 130, a first transmission rod 140, a second transmission rod 150, a first gear 160, a second gear 170, a chain wheel 180, a motor 190, a plurality of infrared drying lamps, a plurality of guide plates 310, a plurality of fixing pieces 320 for fixing the plurality of guide plates 310, a first dial 330 for recording the positions of the guide plates 310, a first shell 410 with openings at two ends, a plurality of lower partition plates 420, a plurality of bottom plates 430, a second dial 450 for recording the positions of the partition plates 420, a cover 460 for sealing the first shell 410, a second shell 471, a dust screen 472, a drawer 473 for storing drying agents, a third shell 481, an upper partition plate 482, a base plate 510, a plurality of air cylinders 520 and a plurality of weight sensors 530.

The upper frame body 110 is provided with a third guide groove 111 for guiding the fixing member 320 to slide; a first guide block 421 is arranged on the left side of the lower partition plate 420, and a second guide block 422 is arranged on the right side of the lower partition plate 420; the first shell 410 is provided with a first guide groove 411 for guiding the movement of the first guide block 421, a second guide groove 412 for guiding the movement of the second guide block 422, a first lead-in opening 413 for guiding the lead-in of the first guide block 421 and a second lead-in opening 414 for guiding the lead-in of the second guide block 422; the surface of the substrate 510 is recessed inward to form recessed locations 511; the bottom plate 430 is provided with a plurality of through holes 431, and the second housing 471 is provided with a heat dissipation hole 4711 and a long groove 4712 for the drawer 473 to pass through. A side surface of the third housing 481 is provided with a paper feed port 4811 for receiving paper on the conveying assembly 100.

The upper frame body 110 is connected with the lower frame body 120, the inner surface of the conveyor belt 130 is connected with the chain wheel 180, the first transmission rod 140 is respectively connected with the first gear 160 and the motor 190, the second transmission rod 150 is connected with the second gear 170, the chain wheel 180 is respectively meshed with the first gear 160 and the second gear 170, the upper frame body 110 is connected with the motor 190, and the upper frame body 110 is respectively rotatably connected with the first transmission rod 140 and the second transmission rod 150; the infrared drying lamp is connected to the inner top surface of the upper frame body 110. The fixing member 320 is slidably connected with the third guide groove 111, and the guide plate 310 is connected with the upper frame body 110 through the fixing member 320 to limit the positions where the paper sheets with different specifications are conveyed on the conveying assembly 100, so as to form a plurality of conveying channels with different specifications; the upper frame 110 is connected to the first scale plate 330, and the guide plate 310 is disposed above the conveyor belt 130.

The first guide block 421 is slidably coupled to the first guide groove 411 and the first introduction port 413, respectively, and the second guide block 422 is slidably coupled to the second guide groove 412 and the second introduction port 414, respectively, so that the lower partition 420 is slidably coupled to the inner surface of the first housing 410 to form a plurality of collecting chambers 440; the position of the collection chamber 440 corresponds to the position of the transfer passage; the bottom plate 430 is slidably coupled to the inner surface of the first housing 410 and the lower spacer 420.

The second dial 450 is connected with the first housing 410; the cylinder 520 is slidably coupled to the recess 511, the weight sensor 530 is coupled to the cylinder 520, a top surface of the weight sensor 530 is detachably coupled to a bottom surface of the bottom plate 430, and the substrate 510 is detachably coupled to a bottom surface of the first housing 410.

The top of the first shell 410 is connected with the cover 460 in a buckling manner; the dust screen 472 is connected to the heat dissipation hole 4711, the drawer 473 is slidably connected to the elongated slot 4712 and the inner surface of the second housing 471, and the top surface of the second housing 471 can be detachably connected to the bottom surface of the first housing 410, so that the desiccant dries the paper through the through hole 431. The upper partition 482 is slidably coupled to the inner side surface of the third housing 481 to form a plurality of guide chambers 483, the guide chambers 483 corresponding to the collection chamber 440 in position; the paper feed port 4811 is connected to the upper partition 482 so that the paper feed port 4811 forms a plurality of communication ports 484; the third housing 481 is snap-fit connected to the first housing 410.

According to the paper sorting device for artistic design of the embodiment of the invention, at least the following effects can be achieved by the arrangement, the adjustment of the number and the position of the lower partition plates 420 is realized through the first guide groove 411, the second guide groove 412, the first introducing port 413 and the second introducing port 414, and the position adjustment of the lower partition plates 420 can be more accurate through the second dial 450, so that a plurality of required collecting chambers 440 with different specifications are formed, and the paper with different specifications is collected.

The position of the lower spacer 420 is compared by the second scale 450, and the setting of the position of the guide plate 310 is guided by the first scale 330. The position of the guide plates 310 on the upper frame body 110 is adjusted by adjusting the position of the fixing member 320 on the third guide groove 111 such that the width of the transfer passage formed between the guide plates 310 corresponds to the width of the collection chamber 440 and the position of the transfer passage corresponds to the position of the collection chamber 440. The conveying channels with different specifications can limit the conveying positions of the paper sheets with different specifications on the conveying belt 130, so that the conveying belt 130 can convey the paper sheets with different specifications at the same time, the paper sheet conveying efficiency is improved, and the paper sheets are classified.

Under the effect of infrared drying lamp for the paper can be dried at the in-process of conveying, has accelerated the drying rate of pigment on the paper, improves the efficiency and the quality that the paper was preserved.

The upper partition 482 is slidably coupled to the inner side surface of the third housing 481, and the paper feed port 4811 is coupled to the upper partition 482 so that a user can adjust the position of the upper partition 482 in the third housing 481 as required to form a plurality of guide chambers 483 of a desired specification, and a plurality of communication ports 484 of a desired specification, i.e., the width of the communication holes 431 is identical to the width of the guide chambers 483, so that paper of a corresponding width on the feeding assembly 100 can be collected so that the paper is fed into the guide chambers 483 through the communication ports 484. Since the height of the upper partition 482 is higher than the height of the communication port 484, the upper partition 482 can effectively guide the lowering of the sheet and prevent the sheet position from being displaced. Then, the widths of the conveying passage, the communication port 484, the introducing chamber 483, and the collecting chamber 440 are all equal, and the positions between the conveying passage, the communication port 484, the introducing chamber 483, and the collecting chamber 440 correspond to each other.

Further, a third guide block may be provided at the left side of the upper partition 482, and a fourth guide block may be provided at the right side of the upper partition 482; a fourth guide groove 4812 for guiding the movement of the third guide block, a fifth guide groove for guiding the movement of the fourth guide block, a third introduction port 4813 for guiding the introduction of the third guide block, a fourth introduction port 4814 for guiding the introduction of the fourth guide block, and a third scale 485 for recording the position of the upper barrier 482 are provided on the inner surface of the third housing 481; the third guide block is slidably connected to the fourth guide groove 4812 and the third inlet 4813, the fourth guide block is slidably connected to the fifth guide groove and the fourth inlet 4814, and the third dial 485 is connected to the third housing 481.

The cylinder 520 is slidably connected with the recess 511, so that a user can adjust the position of the cylinder 520 according to the position of the actual collection chamber 440, and the cylinder 520 drives the bottom plate 430 to perform more stable lifting movement; meanwhile, the weight sensor 530 can transmit a trigger signal to the air cylinder 520 according to the total weight of the paper on the bottom plate 430, so that the air cylinder 520 descends by a certain height according to the trigger signal, the relative height between the paper at the highest position on the bottom plate 430 and the conveyor belt 130 is ensured to be kept within a certain range, the paper is prevented from causing position deviation in the descending process, and the paper descending and sorting quality is improved.

When the first casing 410 finishes collecting the paper, the engagement connection between the top of the first casing 410 and the third casing 481 is released, and the first casing 410 is moved, so that the bottom of the first casing 410 is connected with the top surface of the second casing 471, and the top of the first casing 410 is engaged with the cover 460, so that the first casing 410 is kept in a sealed state, and the paper is kept in a dry and ventilated state under the action of the heat dissipation holes 4711 and the drying agent in the drawer 473, thereby better preserving the paper. Further, a plurality of first housings 410 can be stacked, that is, between two adjacent first housings 410, the top of one first housing 410 is connected to the bottom of the other first housing 410; in addition, the top surface of the highest first casing 410 is connected with the cover 460 in a buckling manner, and the bottom surface of the lowest first casing 410 is connected with the top surface of the second casing 471, so that the utilization efficiency of the space is greatly saved.

When there is a storage space in the first casing 410 and it is necessary to continue collecting paper, the connection between the bottom of the first casing 410 and the top surface of the second casing 471 is released, the connection between the top of the first casing 410 and the cover 460 is released, and the top of the first casing 410 and the third casing 481 are engaged and connected, so that the paper can be collected again.

Further, a movable door may be disposed on a side surface of the first housing 410, so that the movable door is rotatably connected to the first housing 410, and a user can take out or arrange paper conveniently through the movable door. Further, for commercially available drawing sheets, the specification is fixed, i.e. the width is fixed; meanwhile, the length of the collecting chamber 440 is fixed and unchangeable, so the length of the bottom plate 430 is also fixed and unchangeable, and the collecting chamber 440 with different widths is adapted by arranging the bottom plates 430 with different fixed widths, thereby improving the efficiency of collecting the paper.

In the description herein, references to the description of "one embodiment," "some embodiments," or "the embodiment" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A paper sorting apparatus for artistic designing, comprising:

a conveying assembly for conveying the paper;

the drying assembly is used for drying the pigment on the paper and is connected with the conveying assembly;

the sorting assemblies are connected with one side of the conveying assembly in a sliding mode so as to limit the conveying positions of the paper sheets with different specifications on the conveying assembly, and a plurality of conveying channels with different specifications are formed;

the collection subassembly, set up in the opposite side of conveying subassembly includes: the paper collecting device comprises a first shell, a plurality of lower partition plates and a plurality of bottom plates, wherein openings are formed in two ends of the first shell; the lower partition plate is connected with the inner surface of the first shell to form a plurality of collecting chambers; the position of the collection chamber and the position of the conveying channel correspond to each other; the bottom plate is respectively connected with the inner surface of the first shell and the lower partition plate in a sliding manner;

and the lifting assembly is used for driving the bottom plate to lift and can be detachably connected with the bottom plate.

2. A paper sorting device for art design according to claim 1, characterized in that: the transfer assembly includes: the device comprises an upper frame body, a lower frame body, a conveying belt, a first transmission rod, a second transmission rod, a first gear, a second gear, a chain wheel and a motor; go up the support body with lower support body coupling, the internal surface of conveyer belt with the sprocket is connected, first transfer line respectively with first gear with the motor is connected, the second transfer line with the second gear is connected, the sprocket respectively with first gear with the meshing of second gear is connected, go up the support body with the motor is connected, go up the support body respectively with first transfer line with the second transfer line rotates to be connected, categorised subassembly with go up support body sliding connection.

3. A paper sorting device for art design according to claim 2, characterized in that: the drying assembly comprises: a plurality of infrared drying lamps; the infrared drying lamp is connected with the inner top surface of the upper frame body.

4. A paper sorting device for art design according to claim 2, characterized in that: the classification component includes: the device comprises a plurality of guide plates, a plurality of fixing pieces for fixing the guide plates and a first dial for recording the positions of the guide plates; the upper frame body is provided with a third guide groove for guiding the fixing piece to slide; the mounting with third guide way sliding connection, the deflector passes through the mounting with go up the support body and connect, go up the support body with first calibrated scale is connected, the deflector set up in the top of conveyer belt.

5. The paper sorting device for art design according to claim 4, wherein: a first guide block is arranged on the left side of the lower partition plate, and a second guide block is arranged on the right side of the lower partition plate; the first shell is provided with a first guide groove for guiding the first guide block to move, a second guide groove for guiding the second guide block to move, a first lead-in opening for guiding the first guide block to be led in and a second lead-in opening for guiding the second guide block to be led in; the first guide block is respectively connected with the first guide groove and the first guide-in opening in a sliding mode, and the second guide block is respectively connected with the second guide groove and the second guide-in opening in a sliding mode.

6. The paper sorting device for art design according to claim 5, wherein: the collection assembly further comprises: a second dial for recording the position of the lower diaphragm; the second dial is connected with the first housing.

7. A paper sorting device for art design according to claim 1, characterized in that: the lifting assembly comprises: the device comprises a substrate, a plurality of cylinders and a plurality of weight sensors; the surface of the substrate is inwards sunken to form a sunken position, and the air cylinder is connected with the sunken position; the weight sensor is connected with the air cylinder, the top surface of the weight sensor can be detachably connected with the bottom surface of the bottom plate, and the substrate can be detachably connected with the bottom surface of the first shell.

8. A paper sorting device for art design according to claim 1, characterized in that: the collection assembly further comprises: a cover for sealing the first housing, a drying unit for drying the paper, and a guide unit for guiding the paper to descend; the bottom of the first shell can be detachably connected with the drying unit, and the top of the first shell can be detachably connected with the cover body and the guide unit respectively.

9. A paper sorting device for art design according to claim 8, wherein: the drying unit includes: the second shell, the dust screen and the drawer for storing the drying agent are arranged on the second shell; the bottom plate is provided with a plurality of through holes, and the second shell is provided with heat dissipation holes and long grooves for the drawer to pass through; the dust screen is connected with the heat dissipation holes, the drawer is respectively connected with the long groove and the inner surface of the second shell in a sliding mode, and the top surface of the second shell is connected with the bottom surface of the first shell, so that the drying agent can dry the paper through the through holes.

10. A paper sorting device for art design according to claim 8, wherein: the guide unit includes: a third shell and an upper baffle plate; a paper feeding port for receiving paper on the conveying assembly is formed in the side surface of the third shell; the upper partition board is connected with the inner side surface of the third shell to form a plurality of guide chambers, and the guide chambers and the collection chambers are mutually corresponding in position; the paper feeding port is connected with the upper partition plate so as to form a plurality of communicating ports on the paper feeding port; the third shell is connected with the first shell in a buckling mode.

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