CN114798455B - Semi-automatic paper selecting mechanism for coated white board paper - Google Patents

Abstract

The utility model discloses a semi-automatic paper selecting mechanism for coated white board paper, which comprises a conveying belt main body, a transmission box main body, a first motor, a supporting block, an auxiliary hand selecting device and a sweeping device. According to the utility model, the sweeping device is arranged at the left end of the top of the conveying belt main body, and can intermittently break up the coated white board conveyed in the top of the conveying belt main body, so that the phenomenon that the coated white board is difficult to sort manually due to stacking of the coated white board is avoided, the processing efficiency is influenced, and the sorting effect is easy to influence; and be provided with supplementary manual selection device at conveyer belt main part front end, be provided with the station that supplies the secondary to select separately in the supplementary manual selection device, improve the effect of selecting separately, avoid the conforming article to discharge along with the non-conforming article, prevent the waste of resource.

Description

Semi-automatic paper selecting mechanism for coated white board paper

Technical Field

The utility model relates to the field related to the production of coated white board paper, in particular to a semi-automatic paper selecting mechanism of coated white board paper.

Background

The white board is a white and smooth board with grey bottom on the front surface and grey bottom on the back surface, and is mainly used for making paper boxes for packaging after single-sided color printing, or used for designing and hand-made products.

The semi-automatic paper selecting device comprises a supporting table, a conveying belt and a suction system, wherein two rows of paper discarding hole groups are arranged in the horizontal middle of the supporting table, the conveying belt is erected on the supporting table, the conveying belt is positioned between the two paper discarding hole groups, the suction system comprises a suction machine, two suction pipelines and a plurality of suction heads, the suction machine is arranged on one side of the supporting table and is respectively connected with the two suction pipelines, the two suction pipelines are respectively arranged under the two paper discarding hole groups, the upper ends of the suction heads are respectively embedded in the paper discarding holes, and the lower ends of the suction heads are communicated with one suction pipeline. The utility model has the beneficial effects that: the coated white board paper is conveyed to the upper part of the supporting table through the conveying belt, so that a worker can conveniently pick out unqualified coated white board paper, and the unqualified coated white board paper is sucked and recovered through the suction system, so that unqualified coated white board paper is prevented from being mixed into qualified coated white board paper again, and the paper selecting efficiency of the worker is improved.

In the prior art and the above patents, there are the following problems during use:

because the coated white board paper is continuously conveyed and enters the conveying belt, the coated white board paper is easy to stack, and manual dispersion is needed, so that the sorting efficiency is influenced, and the labor is wasted; in the sorting process, the unqualified or qualified white board paper is mixed into the collection bin along with unqualified defective products by manpower, and the secondary sorting is lacked for determining, so that the resource waste is easily caused.

Disclosure of Invention

Accordingly, in order to solve the above-mentioned shortcomings, the present utility model provides a semiautomatic paper selecting mechanism for coated white board paper.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a semi-automatic paper selection mechanism of coating white board paper, includes the conveyer belt main part, conveyer belt main part back-mounted has the transmission case main part, and first motor is installed to transmission case main part back lower extreme, conveyer belt main part bottom is provided with the supporting shoe that is used for supporting, still including locating the supplementary hand selection device that conveyer belt main part front end can realize the secondary and select separately and locate the conveyer belt main part top left end and can dial the device of sweeping of scattering to coating white board paper.

Preferably, the auxiliary manual selection device comprises a fixed plate, a through groove formed in the inner rear end of the fixed plate, a bearing plate arranged in the through groove, a connecting piece fixedly arranged on the back of the fixed plate, an introduction hole formed in the inner front end of the fixed plate, a collection bin arranged at the bottom of the fixed plate, a connecting pipe arranged at the lower end of the right side of the collection bin, a first air channel formed in the inner front end of the collection bin and a second air channel formed in the inner rear end of the collection bin, the back of the connecting piece is connected with the front end of the conveying belt main body, the through groove is communicated with the second air channel, and the inner part of the first air channel is communicated with the introduction hole.

Preferably, at least two hundred groups of through holes are formed in the bearing plate for screening out scraps.

Preferably, the spring is laminated at carriage bottom middle part, spring bottom connection backup pad top, the backup pad is located the second wind channel inboard, the drive case is installed respectively to left and right sides upper end in the second wind channel, and the inboard contact carriage both sides of drive case, and the second motor is installed to the inside outer end of leaning on of drive case, and the inboard output shaft of second motor meets with the driving pulley middle part, and the driving pulley outside carries out synchronous rotation through the driven pulley of hold-in range with the upper end, driven pulley middle part connection transmission shaft, the transmission shaft left side runs through the drive case and is connected to the carriage side.

Preferably, the upper end and the lower end in the spring are provided with limit posts, the limit posts are tightly embedded into the spring, the limit posts can be stably limited, the top of the upper end limit post is in a convex shape, the convex part is made of rubber, stable buffering can be provided for the bearing plate, and the bottom of the lower end limit post is fixed at the top of the supporting plate.

Preferably, the sweeping device comprises two groups of supporting boxes arranged at the front and rear positions of the top of the conveying belt main body, a third motor arranged on the outer side of the supporting boxes, a rotating frame arranged on the inner side of the supporting boxes and six groups of connecting ropes arranged on the inner sides of the two groups of rotating frames.

Preferably, the four ends in the rotating frame are hollow, the middle part is cross-shaped, and a convex rod is fixed in the middle of the cross-shaped position.

Preferably, the inner side of the box body is provided with a circular groove, and the convex rod can be movably embedded into the circular groove to slide along the circular groove.

Preferably, the supporting box comprises a box body, a poking wheel arranged at the upper end in the box body, a poking piece arranged at the left end in the poking wheel, an intermittent wheel arranged at the bottom of the poking wheel and a driving shaft arranged in the middle of the intermittent wheel, and the inner side of the driving shaft rotates the inner side of the box body to be connected with the rotating frame.

Preferably, six groups of equiangular bar grooves are formed in the intermittent wheel, the inner width of each bar groove is matched with the outer diameter of the poking round rod, the six ends of the outer side of the intermittent wheel are separated by the bar grooves to form concave arc shapes, and the concave positions are attached to the outer side of the poking wheel.

The utility model has the beneficial effects that:

according to the utility model, the sweeping device is arranged at the left end of the top of the conveying belt main body, and can intermittently break up the coated white board conveyed in the top of the conveying belt main body, so that the phenomenon that the coated white board is difficult to sort manually due to stacking of the coated white board is avoided, the processing efficiency is influenced, and the sorting effect is easy to influence; and be provided with supplementary manual selection device at conveyer belt main part front end, be provided with the station that supplies the secondary to select separately in the supplementary manual selection device, improve the effect of selecting separately, avoid the conforming article to discharge along with the non-conforming article, prevent the waste of resource.

Further, the through groove is arranged, wherein a bearing plate is arranged in the through groove and can swing in the through groove to realize the opening and closing of the through groove, and after the through groove can realize secondary separation, the coated white board paper is quickly led into the air duct for quick collection;

further, through holes are formed in the bearing plate, so that the bearing plate can be conveniently shaken off in cooperation with the driving of the spring and the driving box inner assembly during secondary sorting, and can stably swing, and a large amount of coated white board paper can be conveniently guided out at one time during secondary sorting;

furthermore, the rotating frames are arranged, the two groups of rotating frames are driven by independent driving mechanisms, connecting ropes are connected between the two groups of rotating frames, and coating white board paper can be scattered through the connecting ropes in the stable rotation process;

further, the supporting box is driven by the independent motor, the internal intermittent assembly is driven to drive, the intermittent assembly can realize intermittent rotation of six-direction plane angles, stable rotation of the rotating frame and the connecting rope is realized, rapid rotation is avoided, and the coated white board is lifted and falls.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the auxiliary manual selecting device of the present utility model;

FIG. 3 is a schematic top view of the auxiliary manual selection device of the present utility model;

FIG. 4 is a schematic view of a cross-sectional structure of the present utility model;

FIG. 5 is a schematic view of the structure of section B-B of the present utility model;

FIG. 6 is a schematic view of the internal structure of the drive housing of the present utility model;

FIG. 7 is a schematic view of a sweeping device according to the present utility model;

fig. 8 is a schematic view of the internal structure of the supporting case of the present utility model.

Wherein: the conveyer belt main body-1, the transmission case main body-2, the first motor-3, the supporting block-4, the auxiliary manual selecting device-5, the sweeping device-6, the fixed plate-51, the through groove-52, the bearing plate-53, the connecting piece-54, the leading-in hole-55, the collecting bin-56, the connecting pipe-57, the first air duct-58, the second air duct-59, the spring-53 a, the supporting plate-53 b, the driving case-53 c, the second motor-53 d, the driving belt pulley-53 e, the synchronous belt-53 f, the driven belt pulley-53 g, the transmission shaft-53 h, the supporting case-61, the third motor-62, the rotating frame-63, the connecting rope-64, the case-611, the poking wheel-612, the poking piece-613, the intermittent wheel-614 and the driving shaft-615.

Detailed Description

In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.

Referring to fig. 1, the utility model provides a semiautomatic paper selecting mechanism for coating white board paper, which comprises a conveying belt main body 1 for coating white board paper, a transmission box main body 2 is arranged on the back of the conveying belt main body 1, the transmission box main body 2 is a gear set transmission box, a first motor 3 is arranged on the back of the transmission box main body 2, the transmission box main body 2 is driven by the first motor 3 to enable the conveying belt main body 1 to start conveying work, a supporting block 4 is fixed at the rear end of the bottom of the conveying belt main body 1, the supporting block 4 provides support for the supporting block, an auxiliary hand selecting device 5 for manually carrying out semiautomatic hand selection is connected to the front end of the conveying belt main body 1, a sweeping device 6 is arranged at the left end of the top of the conveying belt main body 1 and used for conveying white board paper into a white board paper position, and the sweeping device 6 can sweep white board paper entering a conveying position.

Referring to fig. 2-6, the utility model provides a semiautomatic paper selecting mechanism for coating white board paper, the auxiliary manual paper selecting device 5 comprises a fixing plate 51, a square through groove 52 is formed at the inner rear end of the fixing plate 51, a protection frame with a chamfer shape is welded at the inner side at the top edge of the through groove 52, a bearing plate 53 capable of swinging is arranged in the through groove 52, the bearing plate 53 is used for bearing white board paper which is selected by the hand but not easy to be identified, at least two hundred groups of through holes are formed in the bearing plate 53 for screening out scraps, the back surface of the fixing plate 51 is connected with a connecting piece 54 through a welding process, the top end of the connecting piece 54 is inclined forwards, the back surface of the connecting piece 54 is fixed at the front end of a conveying belt main body 1, the top of the connecting piece 54 and the front end of the top of the conveying belt main body 1 are at the same horizontal position, four groups of leading-in holes 55 for obviously screening out the white board paper are formed in the inner front end of the fixed plate 51, a collecting bin 56 is fixed at the bottom of the fixed plate 51, the collecting bin 56 can collect the white board paper which is discharged into the screened-out holes from the through groove 52 and the leading-in holes 55, the collecting bin 56 is communicated with the inside of the collecting bin 56, a connecting pipe 57 is integrally formed at the lower end of the right side of the collecting bin 56, the connecting pipe 57 can be connected with external extraction equipment to realize rapid collection and leading-out of the white board paper screened out of the inside of the collecting bin 56, a first air duct 58 and a second air duct 59 are respectively formed in the front end and the inner rear end of the collecting bin 56, the top of the first air duct 58 is communicated with the leading-in hole 55, the top of the second air duct 59 is communicated with the inside of the through groove 52, and the first air duct 58 and the second air duct 59 are communicated with the connecting pipe 57;

the middle part laminating spring 53a in the bottom of loading board 53, the upper and lower both ends are equipped with spacing post in the spring 53a, spacing post closely imbeds to the inside of spring 53a, can carry out stable spacing to it, upper end spacing post top is the protrusion form, the bulge is the rubber material, can provide stable buffering for loading board 53, the spacing post bottom of lower extreme is fixed at the backup pad 53b top, backup pad 53b then welds in the second wind channel 59 inboard, install drive case 53c respectively in the second wind channel 59 left and right sides upper end, the inboard contact loading board 53 both sides of drive case 53c, the second motor 53d is installed to the inside outer end of drive case 53c, the inboard output shaft of second motor 53d inserts to driving pulley 53e middle part, the synchronous rotation is carried out with the driven pulley 53g of upper end in the outside of driving pulley 53e, driven pulley 53g middle part is connected transmission shaft 53h, the left side of transmission shaft 53h runs through drive case 53c and is connected to the loading board 53 side, by the drive of second motor 53d, realize that transmission shaft 53h carries loading board 53's swing through the band pulley group transmission.

Referring to fig. 7-8, the utility model provides a semi-automatic paper selecting mechanism for coated white board paper, a sweeping device 6 comprises two groups of supporting boxes 61, wherein the two groups of supporting boxes 61 are oppositely welded at the feeding position of the white board paper at the left end of the top of a conveying belt main body 1, the upper ends of the outer sides of the two groups of supporting boxes 61 are respectively provided with a third motor 62, the inner sides of the supporting boxes 61 are attached with rotating frames 63, and the two groups of rotating frames 63 are connected through six groups of connecting ropes 64;

the supporting box 61 comprises a box body 611, a stirring wheel 612 is installed at the upper end inside the box body 611, the middle part of the stirring wheel 612 is connected with the output shaft of the third motor 62, the stirring wheel 612 rotates along with the stirring wheel, one end of the stirring wheel 612 is locked by two groups of bolts, the stirring piece 613 follows the stirring wheel 612 to rotate, a stirring round rod is fixed at the inner side of the other end of the stirring piece 613, the bottom of the stirring wheel 612 is attached to an intermittent wheel 614, six groups of equal angle strip grooves are formed inside the intermittent wheel 614, the inner width of the strip grooves is matched with the outer diameter of the stirring round rod, the stirring round rod can extend into the strip grooves under the driving of the stirring piece 613, so that the intermittent wheel 614 is stirred, six ends of the intermittent wheel 614 are separated by the strip grooves to form an inner concave arc shape, the inner concave position is attached to the outer side of the stirring wheel 612, limiting in the rotating process of the intermittent wheel 614 is realized, a driving shaft 615 is arranged in the middle part of the intermittent wheel 614, the inner side of the driving shaft 615 penetrates through the middle part of the box body 611, the middle part of the rotating frame 63 can be carried out to rotate intermittently, thirty-degree rotation is realized once each time the intermittent wheel 614 is stirred, the inner side of the intermittent wheel 614 is carried out, the synchronous rotating is carried out by the rotating member 63, the rotating frame 63 is synchronously, the inner side of the rotating frame 63 is synchronously rotates, and the inner side of the hollow cross 63 is provided with the hollow cross 63, and the hollow groove is embedded into the hollow groove shape, and the middle part is embedded into the hollow groove in the middle groove, and the middle of the hollow groove is in the middle of the hollow groove is.

When the whole equipment is used, firstly, the coated white boards to be sorted are guided into the top of the conveyor belt main body 1 by an external guiding mechanism, then the first motor 3 is started to start to work, the conveyor belt main body 1 is started to work through the transmission box main body 2, the coated white boards are conveyed, and when the coated white boards are conveyed to a manual sorting station, the stacked coated white boards need to be swept and scattered;

at this time, the third motor 62 is started to start to work, the third motor 62 drives the poking wheel 612 to rotate, the poking piece 613 on the poking wheel 612 pokes the intermittent wheel 614, the intermittent wheel 614 starts to intermittently rotate, then the driving shaft 615 in the middle of the intermittent wheel 614 enables the rotating frames 63 to rotate, the connecting ropes 64 between the two groups of rotating frames 63 can start to rotate, and the coated white board paper on the conveying belt main body 1 starts to be scattered;

then, manually standing on the auxiliary manual selecting device 5 to start the sorting, placing the unobvious coated white board on the bearing plate 53 to perform the subsequent secondary sorting, directly inserting the unobvious coated white board into the guide hole 55 to enable the unobvious coated white board to enter the first air duct 58 to be collected, starting the second motor 53d to start working when the secondary sorting is started, enabling the second motor 53d to rotate with the driving belt wheel 53e, enabling the driven belt wheel 53g to start rotating outside the driving belt wheel 53e through the synchronous belt 53f, enabling the transmission shaft 53h in the middle of the driven belt wheel 53g to swing with the bearing plate 53, enabling the second motor 53d to reciprocate to realize the reciprocating swing of the bearing plate 53, and matching the spring 53a at the bottom to vibrate, the coated white board paper at the top of the bearing plate 53 is also convenient to disperse, the impurities in the coated white board paper are also convenient to shake off, the swinging angle is not more than 5 degrees, the coated white board paper is prevented from falling from a gap between the bearing plate 53 and the through groove 52 due to overlarge angle, the coated white board paper is guided into the second air duct 59 by the through hole in the bearing plate 53 to be collected, then a user starts to conduct secondary sorting, qualified products are placed on the conveying belt main body 1 again to be conveyed, the unqualified products are left on the bearing plate 53, at the moment, the second motor 53d is started to continuously work, the bearing plate 53 is inclined towards the rear lower side, the springs are compressed, the unqualified coated white board paper can fall into a large number of second air ducts 59, and finally the coated white board paper in the two air ducts is extracted by external extraction equipment through the connecting pipes 57.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. The semi-automatic paper selecting mechanism for the coated white board paper comprises a conveying belt main body, wherein a transmission box main body is arranged on the back surface of the conveying belt main body, a first motor is arranged at the lower end of the back surface of the transmission box main body, and a supporting block for supporting is arranged at the bottom of the conveying belt main body;

the method is characterized in that: the device comprises a fixed plate, a through groove arranged at the inner rear end of the fixed plate, a bearing plate arranged in the through groove, a connecting piece fixedly arranged at the back of the fixed plate, an introduction hole arranged at the inner front end of the fixed plate, a collecting bin arranged at the bottom of the fixed plate, a connecting pipe arranged at the right lower end of the collecting bin, a first air channel arranged at the inner front end of the collecting bin and a second air channel arranged at the inner rear end of the collecting bin, wherein the back of the connecting piece is connected with the front end of the conveyor belt, the through groove is communicated with the second air channel, the inner part of the first air channel is communicated with the introduction hole, the middle part of the bottom of the bearing plate is jointed with a spring, the bottom of the spring is connected with the top of the supporting plate, the supporting plate is arranged on the inner side of the second air duct, the upper ends of the left side and the right side in the second air duct are respectively provided with a driving box, the inner side of the driving box contacts with the two sides of the bearing plate, the inner side of the driving box is provided with a second motor near the outer end, the output shaft of the inner side of the second motor is connected with the middle part of the driving belt pulley, the outer side of the driving belt pulley synchronously rotates with the driven belt pulley at the upper end through a synchronous belt, the middle part of the driven belt pulley is connected with a transmission shaft, the transmission shaft left side runs through the drive case and is connected to the loading board side, both ends are equipped with spacing post about in the spring, and spacing post closely imbeds to the spring is inside, can carry out stable spacing to it, and upper end spacing post top is the bulge form, and the bulge is the rubber material, can provide stable buffering for the loading board, and the spacing post bottom of lower extreme is fixed at the backup pad top, the device of sweeping includes two sets of supporting boxes that set up in the front and back position at conveyer belt main part top, sweeping device, the three motors are arranged on the outer side of the supporting box, the rotating frame is arranged on the inner side of the supporting box, and six groups of connecting ropes are arranged on the inner sides of the two groups of rotating frames.

2. A semiautomatic paper selection mechanism for coated white board paper as claimed in claim 1, wherein: at least two hundred groups of through holes are formed in the bearing plate for screening out scraps.

3. A semiautomatic paper selection mechanism for coated white board paper as claimed in claim 1, wherein: the four ends in the rotating frame are hollow, the middle part is cross-shaped, and a convex rod is fixed in the middle of the cross-shaped position.

4. A semiautomatic paper selection mechanism for coated white board paper according to claim 3, characterized in that: the supporting box comprises a box body, a poking wheel arranged at the upper end in the box body, a poking piece arranged at the left end in the poking wheel, an intermittent wheel arranged at the bottom of the poking wheel and a driving shaft arranged in the middle of the intermittent wheel, wherein the inner side of the driving shaft rotates the inner side of the box body to be connected with the rotating frame, a circular groove is formed in the inner side of the box body, and the protruding rod is movably embedded into the circular groove and slides along the circular groove.

5. A semiautomatic paper selection mechanism for coated white board paper as claimed in claim 4, wherein: six groups of equiangular bar grooves are formed in the intermittent wheel, the inner width of each bar groove is matched with the outer diameter of the poking round rod, the six ends of the outer side of the intermittent wheel are separated by the bar grooves to form concave arc shapes, and the concave positions are attached to the outer side of the poking wheel.