CN113335614B - Automatic iron gun string sorting device - Google Patents

Abstract

The invention belongs to the technical field of automatic production, and particularly relates to an automatic iron cannon string sorting device. According to the automatic iron cannon string sorting device, the technical effect of automatic iron cannon string directional arrangement is achieved through the conveying plate unit arranged below the blanking pipe and used for receiving and conveying iron cannon strings, the inclined plate unit arranged on the conveying plate unit and used for sorting iron cannon strings through the gravity center position difference, and the backflow belt unit arranged below the inclined plate unit and used for receiving and conveying the iron cannon strings and returning the iron cannon strings to the conveying plate unit. The method has the advantages that manual operation is not needed in the whole sorting process, time and labor are saved, the sorting success rate is high due to the fact that the inclined plate direction and the inclination of the sorted iron cannon string can be adjusted, the direction and angle adjusting structure is simple and easy to install, and meanwhile the plurality of direction adjusting devices are arranged in the iron cannon string backflow sorting process to prevent the re-sorted iron cannon string from sliding off again.

Description

Automatic change iron cannon string sorting unit

Technical Field

The invention belongs to the technical field of automatic production, and particularly relates to an automatic iron cannon string sorting device.

Background

The automatic production refers to the production performed by adopting an automatic technology and can be divided into semi-automatic production and full-automatic production, wherein the former is that the automatic technology is partially adopted in the production process and partially operated by manpower, and the latter is all processes of the whole production process, does not need people to directly participate in the operation and only indirectly supervises the work of a machine. Iron cannon cluster is a sharp-pointed and other end and has certain width handle of gripping and is used for eating the product that material carried out the cross-under, nevertheless the iron cannon cluster that falls out naturally from the discharge gate after general production arranges irregularly, need align in proper order with its most advanced and handle end in order to guarantee subsequent packing operation, but the automation line of traditional production iron cannon cluster does not possess categorised function like this, only can lean on manual classification operation, consuming time and wasting power, so the device of arranging iron cannon cluster is selected separately to automation urgently need one kind on the market.

Patent publication is CN208233453U, and the china utility model that the publication date is 2018.12.14 discloses a barbeque strip reason machine, relates to bamboo article processing field, including the base, the vibrating mass sets up on the base, and fore-stock and after-poppet rigid coupling are on the vibrating mass, and the collecting plate is buckled into convex rectangle metal sheet for the bottom, and its rear side rigid coupling is on the after-poppet, and the grid is for opening the metal sheet that has square mesh, its one end and collecting plate rigid coupling, other end and fore-stock rigid coupling, the rear side of collecting plate, the front side of grid and collecting plate both sides all vertically are provided with the baffle, the diagonal length of mesh is less than the width of the thick handle of barbeque strip.

Although the utility model discloses a solve the artifical reason in the same direction as indisputable big gun cluster of supplementary packing staff, avoided the problem that efficiency is lower and make mistakes easily. However, in the utility model, the shortcoming lies in that not realizing automation completely, still need artifical the sorting after the cone gun cluster is arranged in proper order, does not thoroughly realize automatic technical requirement.

Disclosure of Invention

The invention aims to provide an automatic iron cannon string sorting device, which realizes the technical effect of automatic iron cannon string direction arrangement through a conveying plate unit arranged below a blanking pipe and used for receiving and conveying iron cannon strings, an inclined plate unit arranged on the conveying plate unit and used for sorting by utilizing the gravity center position difference of the iron cannon strings, and a backflow belt unit arranged below the inclined plate unit and used for receiving and conveying the iron cannon strings and returning the iron cannon strings to the conveying plate unit. The method has the advantages that manual operation is not needed in the whole sorting process, time and labor are saved, the sorting success rate of the sorted iron gun strings is high due to adjustable inclined plate direction and inclination, the direction and angle adjusting structure is simple and easy to install, and meanwhile, the plurality of direction adjusting devices are arranged in the iron gun string backflow sorting process to prevent the re-sorted iron gun strings from sliding off again.

The technical scheme adopted by the invention for solving the problems is as follows: an automated iron gun string sorting device comprises a transfer plate unit arranged below a blanking pipe and used for receiving and transporting iron gun strings, a sloping plate unit arranged on the transfer plate unit and used for sorting by utilizing the difference of gravity center positions of the iron gun strings, and a backflow belt unit arranged below the sloping plate unit and used for receiving and transporting the iron gun strings to return to the transfer plate unit.

The further preferred technical scheme is as follows: the conveying plate unit comprises a sliding plate arranged below the blanking pipe, a traveling belt arranged on the sliding plate and used for conveying the iron cannon string, and an inclined plate groove arranged on the sliding plate and used for installing the inclined plate unit; the inclined plate unit comprises an inclined plate arranged on the inclined plate groove; the return belt unit includes a return conveyor belt disposed below the swash plate and serving to convey the dropped iron cannon string back onto the slide plate.

The further preferred technical scheme is as follows: the conveying plate unit further comprises an adjusting cavity arranged in the sliding plate, a sliding opening arranged between the adjusting cavity and the inclined plate groove, and a sliding hole arranged on the adjusting cavity and positioned at one side far away from the travelling belt; the inclined plate unit further comprises an angle adjusting column part which is arranged on the side face of the inclined plate and penetrates through the sliding port, and a distance adjusting column part which is arranged on the sliding hole and is connected with the angle adjusting column part at the inner side end.

The further preferred technical scheme is as follows: the conveying plate unit also comprises a clamping groove which is arranged on the inner side surface of the adjusting cavity and is used for being inserted into the angle adjusting column part; the angle adjusting column part comprises a translation column which is arranged on the inclined plate, penetrates through the sliding port and is installed in the clamping groove; the distance adjusting column part comprises a threaded column which penetrates through the sliding hole and is arranged on the translation column, and a clamping ring which is screwed on the threaded column and is positioned on the outer side of the sliding hole.

The further preferred technical scheme is as follows: the angle adjusting column part further comprises a fixing block arranged on the translation column, the fixing block is arranged on the inclined plate and used for being installed on the rotary drum of the fixing block, the limiting grooves are arranged on the inner side face of the rotary drum in an annular array mode, and the limiting blocks are arranged on the fixing block and clamped in the limiting grooves.

The further preferred technical scheme is as follows: the angle adjustment post part is still including setting up be used for the installation on the fixed block the sliding tray of stopper sets up spacing ring on the sliding tray side sets up on the stopper bottom surface and with the limiting plate of spacing ring block, and set up and be used for the jack-up on the sliding tray bottom surface the spring of limiting plate.

The further preferred technical scheme is as follows: the distance adjusting column part further comprises a tension spring and an end plate, wherein the tension spring is arranged on the inner side face of the adjusting cavity and used for being connected with the translation column, and the end plate is arranged on the outer side end of the threaded column.

The further preferred technical scheme is as follows: the return belt unit further includes an endless conveyor belt disposed on the return conveyor belt and connected to the sliding plate.

The further preferred technical scheme is as follows: the return belt unit further includes a blocking plate disposed above the return conveyor belt and blocking the iron cannon string sliding off the swash plate.

The further preferred technical scheme is as follows: the return belt unit further includes an adjusting plate disposed above the return conveyor belt and used to realign the iron cannon string by blocking the right way.

According to the automatic iron cannon string sorting device, the technical effect of automatic iron cannon string directional arrangement is achieved through the conveying plate unit arranged below the blanking pipe and used for receiving and conveying iron cannon strings, the inclined plate unit arranged on the conveying plate unit and used for sorting iron cannon strings through the gravity center position difference, and the backflow belt unit arranged below the inclined plate unit and used for receiving and conveying the iron cannon strings and returning the iron cannon strings to the conveying plate unit. The method has the advantages that manual operation is not needed in the whole sorting process, time and labor are saved, the sorting success rate is high due to the fact that the inclined plate direction and the inclination of the sorted iron cannon string can be adjusted, the direction and angle adjusting structure is simple and easy to install, and meanwhile the plurality of direction adjusting devices are arranged in the iron cannon string backflow sorting process to prevent the re-sorted iron cannon string from sliding off again.

Drawings

FIG. 1 is a schematic diagram of the manner in which an automated iron gun string sorting apparatus of the present invention is used.

FIG. 2 is a schematic view showing the construction of the transfer plate unit of the present invention in which the inclined plate unit is installed at a position opposite to the position of the return belt unit and the inclined plate unit.

Fig. 3 is a schematic view of the structure inside the conditioning chamber of the transfer plate unit of the present invention.

Fig. 4 is a schematic structural view of the angle adjusting cylinder part of the present invention.

Fig. 5 is a schematic structural view of the inside of the sliding groove of the angle adjusting column part of the present invention.

Detailed Description

The following description is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention.

Example (b): as shown in fig. 1, 2, 3, 4 and 5, an automatic iron cannon string sorting apparatus includes a transfer plate unit 1 disposed below a blanking pipe a and adapted to receive and transport an iron cannon string B, a swash plate unit 2 disposed on the transfer plate unit 1 and adapted to perform sorting using a difference in the position of the center of gravity of the iron cannon string B, and a return belt unit 3 disposed below the swash plate unit 2 and adapted to receive and transport the iron cannon string B back to the transfer plate unit 1.

In this embodiment, as shown in fig. 1, the iron cannon string B falls from the blanking pipe a onto the transfer plate unit 1, the transfer plate unit 1 drives the iron cannon string B to move to the right, the grip end of the iron cannon string B faces downward, the center of gravity thereof can be maintained on the transfer plate unit 1, the iron cannon string B can be transported by the transfer plate unit 1 to the next racking device, the grip end of the iron cannon string B faces upward, and when the iron cannon string B travels above the swash plate unit 2, the center of gravity thereof is located on the swash plate unit 2, and therefore the iron cannon string B slides down onto the swash plate unit 2, then falls onto the return belt unit 3 through the swash plate unit 2, and finally returns to the transfer plate unit 1 through the return belt unit 3, at this time, there is a high probability that the grip end of the iron cannon string B faces downward, and only the grip end of the very individual iron cannon string B still faces upward, sorting can be completed by dropping once more, and the other very individual iron gun string B can drop from the gap between the swash plate unit 2 and the return belt unit 3, and can be returned to the transfer plate unit 1 from the blanking pipe a by the lower collecting device, so that the technical effect of automatic iron gun string B sorting is achieved.

The transfer plate unit 1 includes a sliding plate 101 disposed below a blanking pipe a, a traveling belt 102 disposed on the sliding plate 101 and used to transfer an iron cannon string B, and an inclined plate groove 103 disposed on the sliding plate 101 and used to mount the inclined plate unit 2; the swash plate unit 2 includes a swash plate 201 provided on the swash plate groove 103; the return belt unit 3 comprises a return conveyor belt 301 arranged below the sloping plate 201 and serving to convey the falling iron cannon string B back onto the sliding plate 101.

In this embodiment, the surface of the slip sheet 101 is smoothed, facilitating the sliding of the iron cannon string B thereon, the travelling belt 102, externally connected to a motor, carries and carries the iron cannon string B travelling in the direction of extension of the slide plate 101, the slide plate 101 is provided with a ramp slot 103, at a central position thereof, having a depth of about half of the slide plate 101, so that the grip end of the iron cannon string B faces downwards, the center of gravity may remain on the slide plate 101 at all times, with the iron cannon string B handle end facing upward, when traveling to the swash plate channel 103, the vertical line of its centre of gravity to the ground is located in the region of the chute 103, so that the iron cannon string B has a tendency to fall towards the chute 103, such a falling iron cannon string B will fall onto the swash plate 201 and eventually onto the return conveyor 301, changing its handle end orientation and then being re-conveyed back onto the slide plate 101.

The transfer plate unit 1 further includes an adjustment chamber 104 provided in the slide plate 101, a slide opening 105 provided between the adjustment chamber 104 and the swash plate groove 103, and a slide hole 106 provided on the adjustment chamber 104 at a position on a side away from the traveling belt 102; the swash plate unit 2 further includes an angle adjusting column portion 202 provided on a side surface of the swash plate 201 and passing through the sliding port 105, and a distance adjusting column portion 203 provided on the sliding hole 106 and having an inner end connected to the angle adjusting column portion 202.

In this embodiment, the swash plate 201 is only fixed in the swash plate groove 103 to maintain a slope, which does not ensure that the iron cannon string B can be accurately dropped on the return conveyor belt 301, and it is necessary to perform trial adjustment before mass production, and the swash plate 201 needs to be adjusted by the angle adjustment column 202 to an appropriate angle so that the iron cannon string B can be dropped on the return conveyor belt 301 relatively smoothly without dropping, which means that the apparatus can be operated reliably.

Further, the swash plate 201 is a factor affecting whether the iron cannon string B can be accurately and smoothly dropped on the return conveyor belt 301, as with the return conveyor belt 301, and it is necessary to adjust the swash plate 201 by an appropriate distance using the distance adjusting column portion 203 so that the iron cannon string B can be dropped on the return conveyor belt 301 relatively smoothly without a drop phenomenon, which means that the apparatus can be operated reliably.

The transfer plate unit 1 further includes a locking groove 107 disposed on an inner side surface of the adjustment cavity 104 and used for inserting the angle adjustment column portion 202; the angle adjusting column part 202 includes a translation column 202a provided on the swash plate 201, passing through the slide opening 105, and fitted in the engagement groove 107; the distance adjustment column portion 203 includes a threaded column 203a passing through the sliding hole 106 and disposed on the translation column 202a, and a snap ring 203b screwed on the threaded column 203a and located outside the sliding hole 106.

In this embodiment, as shown in fig. 3, if the inclined plate 201 is adjusted to be away from the sliding plate 101, that is, to be close to the backflow conveyor 301, the locking ring 203b is rotated, the threaded column 203a is connected to the translation column 202a and cannot rotate, and then the threaded column is driven by the thread to move upward, so as to drive the translation column 202a to move upward along the extending direction of the locking groove 107 and the sliding port 105, and finally, the inclined plate 201 is driven to move upward, thereby completing the adjustment process.

In addition, if the inclined plate 201 is adjusted to be close to the slide plate 101, i.e., to be away from the return belt 301, the engaging ring 203b is rotated in the reverse direction with reference to the above-mentioned steps.

The angle-adjusting column 202 further includes a fixing block 202b disposed on the translation column 202a, a rotating cylinder 202c disposed on the inclined plate 201 and used for mounting the fixing block 202b, a limiting groove 202d disposed on an inner side surface of the rotating cylinder 202c in an annular array, and a limiting block 202e disposed on the fixing block 202b and engaged in the limiting groove 202 d. In this embodiment, as shown in fig. 4, if the inclined plate 201 is inclined downward, the inclined plate 201 can be directly grasped and rotated downward with a slight force, the end of the stopper 202e is hemispherical, and will not be separated from the stopper groove 202d under the gravity of the iron cannon string a at ordinary times, but will be separated from the stopper groove 202d under the action of an artificial external force, and then enter the next stopper groove 202d through the rotation of the rotary cylinder 202c, so that the inclined plate 201 can be adjusted downward and the angle can be kept fixed.

In addition, if the inclined plate 201 is inclined upward, the inclined plate 201 can be rotated upward with reference to the above steps, so that the technical effect of adjusting the inclined angle of the inclined plate 201 while adjusting the front and rear positions of the inclined plate 201 can be achieved.

The angle adjusting column portion 202 further includes a sliding groove 202f provided on the fixing block 202b and used for mounting the limit block 202e, a limit ring 202g provided on a side surface of the sliding groove 202f, a limit plate 202h provided on a bottom surface of the limit block 202e and engaged with the limit ring 202g, and a spring 202j provided on a bottom surface of the sliding groove 202f and used for jacking up the limit plate 202 h.

In this embodiment, it is difficult to disengage the limiting block 202e from the limiting groove 202d by relying solely on the elasticity of the limiting block 202e, even there is a risk of jamming in the rotating cylinder 202c, in order to avoid such a risk, it is necessary to design a structure for the limiting block 202e to move freely up and down, as shown in fig. 5, under the action of the spring 202j, the limiting block 202h is lifted up, but is blocked by the limiting ring 202g, and will not leave the range of the sliding groove 202f, and along with the lifting up of the limiting block 202h, the limiting block 202e will also be lifted up into the limiting groove 202d, which is that under the condition of not receiving external force, when the limiting groove 202d moves, pressure will be applied to the side of the limiting block 202e, and such a part of the pressure of the side will be converted by the limiting block 202e towards the direction of the spring 202j, thereby compressing the spring 202j to contract, so that the stopper 202e is easily separated from the stopper groove 202 d.

The distance adjusting column part 203 further comprises a tension spring 203c arranged on the inner side surface of the adjusting cavity 104 and used for connecting the translation column 202a, and a head plate 203d arranged on the outer end of the threaded column 203 a.

In this embodiment, the tension spring 203c enables the locking ring 203b to be always tightly attached to the sliding plate 101, so as to avoid idle rotation and failure to drive the threaded post 203a to move up and down, and the head plate 203d is provided so that the locking ring 203b does not excessively rotate and is not disengaged from the threaded post 203 a.

The return belt unit 3 further comprises an endless conveyor belt 302 arranged on the return conveyor belt 301 and connected to the slide plate 101.

In this embodiment, the endless conveyor 302 has an upward slope, so that the iron cannon string B returns to the sliding plate 101, and although the iron cannon string B falls on the return flow conveyor 301, the orientation of the handle end of the iron cannon string B is not changed by the sliding of the inclined plate 201, and a device for changing the orientation of the handle of the iron cannon string B is required, as shown in fig. 1, the endless conveyor 302 has a semi-circular arc shape, and after the iron cannon string B moves for a half circle thereon, the orientation of the handle end is rotated by 180 °, so that the technical effect of adjusting the orientation of the handle end is achieved.

The return belt unit 3 further includes a blocking plate 303 disposed above the return conveyor belt 301 and blocking the iron cannon string B sliding off from the swash plate 201.

In this embodiment, the blocking plate 303 is disposed on the frame body receiving the reflow conveyor 301 through a mounting method of the prior art, and the iron cannon string B still has forward inertia after slipping down from the inclined plate 201, and if not blocked, the iron cannon string B cannot stably fall onto the reflow conveyor 301, and at this time, the blocking plate 303 is disposed to block a forward path of the iron cannon string B, so that the iron cannon string B can stably fall onto the reflow conveyor 301.

The return belt unit 3 further includes an adjusting plate 304 disposed above the return conveyor belt 301 and used for rearranging the iron cannon string B by a block and right manner.

In this embodiment, although the iron cannon string B can smoothly fall down above the return conveyor 301, due to the uneven arrangement thereof, there is still a risk of slipping off the inclined plate 201 when returning to the top of the sliding plate 101, so that the direction adjustment plate 304 is provided to periodically move up and down, to perform an action of blocking and vertically arranging the iron cannon string B when moving down, and then to allow the vertically arranged iron cannon string B to enter the endless conveyor 302 and finally return to the top of the sliding plate 101 when moving up.

The embodiments of the present invention have been described in detail, but the present invention is not limited to the above embodiments, and various modifications can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the present invention.

Claims (5)

1. An automatic iron cannon string sorting device is characterized by comprising a conveying plate unit (1) which is arranged below a blanking pipe (A) and used for receiving and transporting an iron cannon string (B), an inclined plate unit (2) which is arranged on the conveying plate unit (1) and used for sorting by utilizing the gravity center position difference of the iron cannon string (B), and a backflow belt unit (3) which is arranged below the inclined plate unit (2) and used for receiving and transporting the iron cannon string (B) to return to the conveying plate unit (1); the conveying plate unit (1) comprises a sliding plate (101) arranged below a blanking pipe (A), a traveling belt (102) arranged on the sliding plate (101) and used for conveying an iron cannon string (B), and an inclined plate groove (103) arranged on the sliding plate (101) and used for installing the inclined plate unit (2); the inclined plate unit (2) comprises an inclined plate (201) arranged on the inclined plate groove (103); the return belt unit (3) comprises a return conveyor belt (301) arranged below the swash plate (201) and serving to convey the falling train of irons (B) back onto the sliding plate (101); the conveying plate unit (1) further comprises an adjusting cavity (104) arranged in the sliding plate (101), a sliding opening (105) arranged between the adjusting cavity (104) and the inclined plate groove (103), and a sliding hole (106) arranged on the adjusting cavity (104) and positioned at one side far away from the traveling belt (102); the inclined plate unit (2) further comprises an angle adjusting column part (202) which is arranged on the side surface of the inclined plate (201) and penetrates through the sliding opening (105), and a distance adjusting column part (203) which is arranged on the sliding hole (106) and is connected with the angle adjusting column part (202) at the inner side end; the conveying plate unit (1) further comprises a clamping groove (107) which is arranged on the inner side surface of the adjusting cavity (104) and is used for being inserted into the angle adjusting column part (202); the angle adjusting column part (202) comprises a translation column (202 a) which is arranged on the inclined plate (201), passes through the sliding opening (105) and is installed in the clamping groove (107); the distance adjusting column part (203) comprises a threaded column (203 a) passing through the sliding hole (106) and arranged on the translation column (202 a), and a snap ring (203 b) screwed on the threaded column (203 a) and positioned outside the sliding hole (106); the angle adjusting column part (202) further comprises a fixing block (202 b) arranged on the translation column (202 a), a rotating cylinder (202 c) arranged on the inclined plate (201) and used for mounting the fixing block (202 b), limiting grooves (202 d) arranged on the inner side face of the rotating cylinder (202 c) in an annular array manner, and limiting blocks (202 e) arranged on the fixing block (202 b) and clamped in the limiting grooves (202 d); the angle adjusting column part (202) further comprises a sliding groove (202 f) which is arranged on the fixing block (202 b) and used for installing the limiting block (202 e), a limiting ring (202 g) which is arranged on the side surface of the sliding groove (202 f), a limiting plate (202 h) which is arranged on the bottom surface of the limiting block (202 e) and clamped with the limiting ring (202 g), and a spring (202 j) which is arranged on the bottom surface of the sliding groove (202 f) and used for jacking the limiting plate (202 h).

2. An automated iron cannon string sorting apparatus as in claim 1, wherein the distance adjustment post section (203) further comprises a tension spring (203 c) disposed on an inside face of the adjustment chamber (104) and adapted to connect to the translation post (202 a), and a head plate (203 d) disposed on an outside end of the threaded post (203 a).

3. An automated iron cannon string sorting apparatus in accordance with claim 1, wherein the return belt unit (3) further comprises an endless conveyor belt (302) disposed on the return conveyor belt (301) and connected to the slide plate (101).

4. An automated iron cannon string sorting apparatus in accordance with claim 1, wherein the return belt unit (3) further comprises a blocking plate (303) disposed above the return conveyor belt (301) and adapted to block an iron cannon string (B) that slides off the inclined plate (201).

5. An automated iron cannon string sorting apparatus as claimed in claim 1, wherein the return belt unit (3) further comprises an adjusting plate (304) disposed above the return conveyor belt (301) and arranged by blocking alignment for rearranging the iron cannon string (B).

Images