CN218840891U - Reposition of redundant personnel conveyer belt with size screening structure - Google Patents

Abstract

The utility model is suitable for a technical field is carried to the product, provides a reposition of redundant personnel conveyer belt with size screening structure, include: the feeding frame is arranged into a cuboid strip-shaped frame body structure, a conveying belt is rotatably connected inside the upper end of the feeding frame, a gap is reserved between one end of the conveying belt and one side of a feed inlet at the upper end of the distribution box, one side of the feed inlet of the distribution box is connected with a push plate through a spring, and one side of the push plate and one side of the feed inlet of the distribution box are arranged into parallel slope structures; the positioning plates are arranged on one side of the inner wall surface of the flow distribution box at equal intervals, and one side of each positioning plate is symmetrically and slidably connected with one end of a sliding plate. This reposition of redundant personnel conveyer belt with size screening structure, the push pedal through installing inside slides in reposition of redundant personnel case feed inlet position laminating, under the joint promotion user state through reposition of redundant personnel case and push pedal, promotes the space that the feed inlet was drawn big to the push pedal through the material for inside the material falls to get into the reposition of redundant personnel incasement portion, selects separately through the sliding plate of echelonment.

Description

Reposition of redundant personnel conveyer belt with size screening structure

Technical Field

The utility model belongs to the technical field of the product is carried, especially, relate to a reposition of redundant personnel conveyer belt with size screening structure.

Background

The conveying belt is one of important working devices for transferring products and transporting materials in the production work, is used as a main device for transporting materials, when parts produced by machinery are transported and used, the materials with different sizes and weights are required to be separated according to the requirements of material selection, the output and selection of the materials are controlled and screened according to the overall size, the existing screening of the materials depends on spring screening equipment for screening, springs of different types can be detected and screened, the screening work facing the springs of the same type can only pass through weight selection detection, the weight selection method is not accurate in the state facing the synchronous falling of a plurality of springs, the shunting transportation is influenced, and when the screening work facing the springs of different sizes is used synchronously, small materials and large materials are entangled and hooked on the conveying belt brought into the large materials, the inspection operation needs to be provided for the positions of shunting outlets after shunting, the output efficiency is prolonged, and the traditional selection type screening mode faces the screening process of large quantities of materials, the labor intensity of workers is increased, and the overall working efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a reposition of redundant personnel conveyer belt with size screening structure, propose in aiming at solving above-mentioned background art when dropping in the face of a plurality of springs are synchronous, the method of selecting through weight is inaccurate, and small-size material easily with large-scale material surface fluctuation between the interlude catch the area of being brought into large-scale material, still need provide inspection operation to the reposition of redundant personnel opening position, the extension output efficiency, and the screening mode of traditional formula of selecting is in the middle of the material screening process in large quantity, increase staff's intensity of labour, the problem that whole work efficiency is low.

The utility model discloses a realize like this, a reposition of redundant personnel conveyer belt with size screening structure, including the pay-off frame, it sets up to cuboid strip support body structure, the inside rotation in pay-off frame upper end is connected with the conveying belt, and leaves the gap between conveying belt one end and reposition of redundant personnel case upper end feed inlet one side, reposition of redundant personnel case feed inlet one side is connected with the push pedal through the spring coupling, and push pedal one side and reposition of redundant personnel case feed inlet one side set up to parallel slope structure;

the positioning plates are equidistantly arranged on one side of the inner wall surface of the flow distribution box, one side of each positioning plate is symmetrically and slidably connected with one end of a sliding plate, the other end of each sliding plate is slidably connected inside each positioning rod, two ends of each positioning rod are arranged on the inner wall surface of the flow distribution box, and a gap is reserved between one side of each positioning rod and the surface of each limiting rotating rod;

the spring telescopic link, its one end is installed shunt box one side opening up end, the spring telescopic link other end is connected with the clamp plate, the clamp plate sets up directly over the locating lever, and locating lever one side is provided with spacing roller one end, spacing roller both ends are rotated and are connected at the baffle inner wall, and the baffle symmetry is installed in pay-off frame one side.

By adopting the technical scheme, the internal structure of the device is convenient to provide sorting structures with different sizes, and the materials are convenient to shunt and output.

Preferably, one end of the feeding frame is slidably connected to one side of the outer surface of the shunt box, and the upper end of the shunt box is symmetrically provided with mounting structures slidably connected with the side wall surface of the push plate.

By adopting the technical scheme, the internal structure of the device provides a corresponding working space and structure for operation and use.

Preferably, the inside block of reposition of redundant personnel case upper end recess is connected with the soft stopper of viewing aperture, and reposition of redundant personnel incasement wall one side sets up to the slope structure to reposition of redundant personnel bottom end sliding connection has the box of retrieving the material.

By adopting the technical scheme, the shunting box is convenient to undertake shunting and transporting operations of materials with different sizes.

Preferably, the positioning plate, the sliding plate and the positioning rod are installed in the flow distribution box in an inclined state, and one side of the flow distribution box is penetrated by the sliding plate.

By adopting the technical scheme, the positioning plate in the device can position the height between the sliding plates.

Preferably, the sliding plates are arranged in the flow distribution box in a step shape at equal intervals, and one side of each of the 2 sliding plates with the same height, which is close to the sliding plate, is provided with a reserved slope.

By adopting the technical scheme, the angle is provided for the movement of the material through the reserved slope, so that the material can roll conveniently.

Preferably, the number of the limiting rollers is the same as that of the sliding plates, one end of each limiting roller is connected with a working motor through one side of the baffle, one side of each working motor is installed on the side wall of the shunt box, and the limiting rollers are rotatably connected with the other limiting roller through a belt-shaped structure.

By adopting the technical scheme, the working motor can drive different limiting rollers to rotate, and the shunted materials are output.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model relates to a shunt conveyor belt with a size screening structure,

1. when the device is used, the push plate in the device is attached to and slides at the position of the feed port of the shunt box, and the space of the feed port of the shunt box is enlarged by pushing the push plate through materials under the combined pushing using state of the shunt box and the push plate, so that the materials fall into the shunt box, do not depend on weight detection, and are sorted through a stepped sliding plate gap;

2. the reserved slope structure is arranged on one side of the opening of the sliding plate in the device, and the two ends of the material rotate along the inclined direction of the sliding plate, so that small materials originally entangled with the internal structure of the large material fall off in the downward rotating process, fall down to a layer under the influence of gravity for screening, and the hooking among the springs is reduced;

3. through the inside sliding plate of thrust unit, the slip of adjustment sliding plate between locating plate and locating lever, space between the adjustment sliding plate can be shunted not unidimensional material, carries on spacingly through the inside clamp plate of device to the space of material output, prevents that unidimensional material from overlapping the output, is convenient for smooth the material state of piling up perpendicularly.

Drawings

FIG. 1 is a schematic view of the whole internal front view structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the overall external side view structure of the present invention;

fig. 4 is a schematic view of the whole interior of the present invention.

In the figure: 1-a feeding frame, 2-a conveying belt, 3-a shunt box, 4-a push plate, 5-a soft plug of an observation port, 6-a positioning plate, 7-a sliding plate, 8-a reserved slope, 9-a positioning rod, 10-a limiting rotating rod, 11-a telescopic spring rod, 12-a pressing plate, 13-a limiting roller, 14-a working motor and 15-a baffle plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-4, the utility model provides a technical scheme, a shunt conveyor belt with size screening structure, which comprises a feeding frame 1, a conveying belt 2, a shunt box 3, a push plate 4, an observation port soft plug 5, a positioning plate 6, a sliding plate 7, a reserved slope 8, a positioning rod 9, a limit rotating rod 10, a spring telescopic rod 11, a pressing plate 12, a limit roller 13, a working motor 14 and a baffle 15;

in the embodiment, the feeding frame 1 is arranged into a cuboid strip-shaped frame body structure, the feeding belt 2 is rotatably connected inside the upper end of the feeding frame 1, a gap is reserved between one end of the feeding belt 2 and one side of a feeding hole at the upper end of the distribution box 3, one side of the feeding hole of the distribution box 3 is connected with the push plate 4 through a spring, and one side of the push plate 4 and one side of the feeding hole of the distribution box 3 are arranged into a parallel slope structure;

further, 1 one end sliding connection of pay-off frame is in 3 surface one sides of reposition of redundant personnel case, and 3 upper end symmetries of reposition of redundant personnel case are provided with the mounting structure with push pedal 4 side wall face sliding connection, when using the device, with pay-off frame 1 one side and 3 surface one sides sliding connection of reposition of redundant personnel case, electric drive pay-off frame 1 adjusts its height and makes 2 top surfaces of defeated material belt of pay-off frame 1 upper end be higher than reposition of redundant personnel case 3 upper end feed inlet one side, as shown in fig. 1, make the material from defeated material belt 2 surface get into reposition of redundant personnel case 3 inside from reposition of redundant personnel case 3, before the material gets into reposition of redundant personnel case 3 inside, promote the gliding push pedal 4 of the plate structure that is located reposition of redundant personnel case 3 upper end plate structure through piling up, make push pedal 4 and the spring extrusion of reposition of redundant personnel case 3 feed inlet one side, make push pedal 4 shrink, enlarge the space of reposition of redundant personnel case 3 feed inlet, the slope structure of reposition of redundant personnel case 3 feed inlet is parallel state to reposition of redundant personnel case 3 inside for the material direction with push pedal 4 during the material.

Further, the inside block of 3 upper ends recesses of reposition of redundant personnel case is connected with viewing aperture cork 5, and 3 inner walls one side of reposition of redundant personnel case set up to the slope structure, and 3 bottom sliding connection of reposition of redundant personnel case have the box of retrieving the material, during the use, can upwards take off 3 upper ends recesses of reposition of redundant personnel case inside viewing aperture cork 5, make the opening of viewing aperture cork 5 position open, observe 3 inside reposition of redundant personnel cases, can directly fall into 3 bottoms of reposition of redundant personnel case inside the box of retrieving the material after the dislocation of material and the inside sliding plate 7 of reposition of redundant personnel case, as shown in fig. 1.

In the embodiment, the positioning plates 6 are equidistantly arranged on one side of the inner wall surface of the flow distribution box 3, one side of each positioning plate 6 is symmetrically and slidably connected with one end of a sliding plate 7, the other end of each sliding plate 7 is slidably connected inside a positioning rod 9, two ends of each positioning rod 9 are arranged on the inner wall surface of the flow distribution box 3, and a gap is reserved between one side of each positioning rod 9 and the surface of a limiting rotating rod 10;

further, the positioning plate 6, the sliding plate 7 and the positioning rod 9 are installed in the flow distribution box 3 in an inclined state, one side of the flow distribution box 3 is penetrated through by the sliding plate 7, one end of the positioning plate 6 in the device is symmetrically and slidably connected with the 2 sliding plates 7 in use, the sliding plate 7 penetrates through the flow distribution box 3 in use, when the gap between the sliding plates 7 needs to be adjusted for use, one side of the sliding plate 7 is pushed for use, the installation position of the sliding plate 7 is matched according to the position of the positioning plate 6 installed in the flow distribution box 3 in use, the positioning plate 6, the sliding plate 7 and the positioning rod 9 are output to the opening position on one side of the flow distribution box 3 in an inclined state in use, as shown in fig. 1, the sliding plate 7 is slidably adjusted in the positioning plate 6 and the positioning rod 9 in use, materials roll to one side when entering the sliding plate 7 at the upper end, the sliding plate 7 at the material size is smaller than the gap between the sliding plates 7 at the top end, the sliding plate 7 falls to the next sliding plate 7 at the next layer until being conveyed to one side by the sliding plate 7 at the proper size, and sorting operation is achieved, and when the gap between the sliding plates 7 at the sliding plate 7 without proper size in the bottom end is not, the flow distribution box 3, and the bottom end is recovered.

Further, the sliding plates 7 are arranged inside the flow distribution boxes 3 in a step-shaped mode at equal intervals, the reserved slopes 8 are arranged on the sides, close to the sliding plates 7, of the 2 sliding plates with the same height, the reserved slopes 8 on the sides of the sliding plates 7 assist the sliding plates 7 in screening materials during use, and the sliding plates 7 are distributed as shown in fig. 1.

In the embodiment, one end of a spring telescopic rod 11 is installed on the upper end surface of an opening on one side of the flow distribution box 3, the other end of the spring telescopic rod 11 is connected with a pressing plate 12, the pressing plate 12 is arranged right above a positioning rod 9, one end of a limiting roller 13 is arranged on one side of the positioning rod 9, two ends of the limiting roller 13 are rotatably connected to the inner wall of a baffle plate 15, and the baffle plate 15 is symmetrically installed on one side of the feeding frame 1;

further, the number of the limiting rollers 13 is the same as that of the sliding plates 7, one end of each limiting roller 13 penetrates through one side of the baffle 15 and is connected with the working motor 14, one side of the working motor 14 is mounted on the side wall of the diversion box 3, the limiting rollers 13 are rotatably connected with the other limiting rollers 13 through a belt-shaped structure, after the sliding plates 7 sieve materials, the materials with the same size roll towards one side of the locating rods 9, the locating rods 9 are matched with the pressing plates 12 above the locating rods 9 to adjust the height of the output position, the vertical stacking chatting is assisted and pushed through the spring telescopic rods 11 at the upper ends of the pressing plates 12 during use, the working motors 14 are driven by electricity to drive the limiting rollers 13 to rotate, the limiting rollers 13 roll towards one side by the limiting rollers 13 to drive the materials falling from the locating rods 9 onto the surfaces of the limiting rollers 13, the limiting rollers 13 with different heights are connected through the belt-shaped structures during use, as shown in fig. 3, each layer of the limiting rollers 13 rotate in the same direction to output the materials to one side, one end of the limiting rollers 13 is connected with other transmission equipment during use, and shunting, thereby facilitating the diversion transportation and use of the materials.

The utility model discloses a theory of operation and use flow: during the use through carrying the material to 3 feed inlet positions of reposition of redundant personnel casees through defeated material area 2 for inside the material promotes push pedal 4 and drops reposition of redundant personnel case 3, export the roll to one side through sliding plate 7 slope structure, the sliding plate 7 that is the ladder commentaries on classics during use drops the output with unidimensional material gradually downwards, and the material of being selected separately slides to locating lever 9 one side along sliding plate 7, through spacing roller 13 to the transportation of opposite side under the drive of work motor 14 at last.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a reposition of redundant personnel conveyer belt with size screening structure, includes pay-off frame (1), locating plate (6) and spring telescopic link (11), its characterized in that:

the feeding frame (1) is arranged to be of a cuboid strip-shaped frame body structure, a conveying belt (2) is rotatably connected to the inner portion of the upper end of the feeding frame (1), a gap is reserved between one end of the conveying belt (2) and one side of a feeding port at the upper end of the distribution box (3), one side of the feeding port of the distribution box (3) is connected with a push plate (4) through a spring, and one side of the push plate (4) and one side of the feeding port of the distribution box (3) are arranged to be of a parallel slope structure;

the positioning plates (6) are equidistantly mounted on one side of the inner wall surface of the flow distribution box (3), one side of each positioning plate (6) is symmetrically and slidably connected with one end of a sliding plate (7), the other end of each sliding plate (7) is slidably connected inside a positioning rod (9), two ends of each positioning rod (9) are mounted on the inner wall surface of the flow distribution box (3), and a gap is reserved between one side of each positioning rod (9) and the surface of a limiting rotating rod (10);

spring telescopic link (11), its one end is installed shunt box (3) one side opening up end, spring telescopic link (11) other end is connected with clamp plate (12), clamp plate (12) set up directly over locating lever (9), and locating lever (9) one side is provided with spacing roller (13) one end, rotate at spacing roller (13) both ends and connect at baffle (15) inner wall, and baffle (15) symmetry is installed in pay-off frame (1) one side.

2. The diverting conveyor belt with sizing structures according to claim 1, characterized in that: one end of the feeding frame (1) is connected to one side of the outer surface of the shunt box (3) in a sliding mode, and mounting structures which are connected with the side wall surface of the push plate (4) in a sliding mode are symmetrically arranged at the upper end of the shunt box (3).

3. The conveyor belt of claim 1, further comprising a sizing structure configured to: the inside block of reposition of redundant personnel case (3) upper end recess is connected with viewing aperture cork (5), and reposition of redundant personnel case (3) inner wall one side sets up to the slope structure to reposition of redundant personnel case (3) bottom sliding connection has the box of retrieving the material.

4. The conveyor belt of claim 1, further comprising a sizing structure configured to: the positioning plate (6), the sliding plate (7) and the positioning rod (9) are installed in the flow distribution box (3) in an inclined state, and one side of the flow distribution box (3) is penetrated through by the sliding plate (7).

5. The conveyor belt of claim 1, further comprising a sizing structure configured to: the sliding plates (7) are arranged in the flow distribution boxes (3) in a step-shaped and equidistant mode, and a reserved slope (8) is arranged on one side, close to the 2 sliding plates (7) with the same height, of the sliding plates.

6. The conveyor belt of claim 1, further comprising a sizing structure configured to: the number of the limiting rollers (13) is consistent with that of the sliding plates (7), one end of each limiting roller (13) penetrates through one side of the baffle (15) and is connected with a working motor (14), one side of each working motor (14) is installed on the side wall of the shunt box (3), and each limiting roller (13) is rotatably connected with another limiting roller (13) through a belt-shaped structure.

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