CN111167727A - Shunt structure of double-track spread angle interpenetration sliding brush swing sieve with belt conveying vibration - Google Patents

Abstract

The invention discloses a belt-conveying vibrating splitter structure with double-track spread angle interpenetration sliding brush swinging sieve, which comprises: the invention realizes the operation of forming the arc plate edge block shunting conveyor belt track by matching the shaft-driven motor and the conveyor belt shunting bin, ensures that when the thin roller rod is transmitted in sections, the alternate slide block connected with the transmission vibration forms a gap sliding effect, and the alternate pretreatment shunting slide brush effect is formed by swinging the sorting material box through the oscillating flow plate, so that the size of the material box can be detected through detecting the pressing buckle counterweight at the side of the groove plate, the data Bluetooth feedback swinging guide conveying effect after mechanical measurement is achieved, and the low-cost working efficiency during belt transmission is ensured, and a simple screening, shunting and conveying effect of a material gathering point is formed at a node of the bifurcation transmission path, so that the convenience of vibration conveying and the low-cost and high-efficiency operation effect of a belt assembly line are improved.

Description

Shunt structure of double-track spread angle interpenetration sliding brush swing sieve with belt conveying vibration

Technical Field

The invention relates to a belt-conveying vibrating splitter structure with double-track spread angles inserted with a sliding brush swing sieve, belonging to the field of belt production lines.

Background

The belt conveying vibration is achieved by superposing roller rods, long-distance rolling friction is achieved, a track surface sliding effect is driven, friction force is achieved to transmit materials, the effect that sorting processing of different materials can be carried out in connection with belt conveying of materials by the aid of the shunting machine, stacking and conveying of the different materials are achieved, and the common defects to be optimized in the prior art are as follows:

in belt conveying assembly line, the screening and the size reposition of redundant personnel of goods often equipment need sort out the operation of classifying stack deposit transportation, but conventional conveyer belt only takes one-way transport or combine motor just reversal to reach the two-way effect of switching on, in same transverse distance, the mechanical hand operation is commonly used in the letter sorting to the goods, consume the erectting of costly precision instruments like this, and increase both sides on the conveyer belt assembly line and obstruct the shelter from the thing, it can not in time be discover to cause crawler belt card shell or material case to skid during the transmission, and lead to the collision each other of later stage material case, influence incasement material quality, and the letter sorting operation of big or small material becomes complicated, need manipulator programming coordinate location discernment, consume the quantity.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a splitter structure of a belt-conveyed vibrating double-track spread angle interpenetration sliding brush swinging sieve, to solve the problem that in a belt conveying production line, the screening and size distribution of goods are often the operation that equipment needs to be sorted out, classified, stacked, stored and transported, but the conventional conveyor belt only carries one-way conveying or combines the positive and negative rotation of a motor to achieve the two-way conduction effect, the goods are sorted by the common manipulator operation, so that the erection of high-cost precise instruments is consumed, and blocking objects at two sides are increased on a conveyor belt production line, so that the slipping of a crawler belt clamping shell or a material box during the transmission can not be found in time, and the material quality in the material box is influenced due to the mutual collision of the material boxes in the later period, the sorting operation of large and small materials becomes complicated, the mechanical arm is required to be programmed and coordinate is positioned and identified, and the consumption is high.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a belt conveying vibrating shunt structure that double track exhibition angle interlude smooth brush pendulum sieve, its structure includes: the conveying belt shunting device comprises an input groove body, a shaft-driven motor, a bin door cover plate, an exhaust square cylinder, a conveying belt shunting bin, a base bottom plate and an output groove box, wherein the conveying belt shunting bin is tightly attached to the top surface of the base bottom plate, the input groove body and the output groove box are respectively nested on the left side and the right side of the conveying belt shunting bin and are positioned on the same vertical surface, the bin door cover plate is mechanically connected with the conveying belt shunting bin through hinges and is positioned on the same vertical surface, the exhaust square cylinder is inserted and embedded in the right upper corner of the conveying belt shunting bin, the shaft-driven motor is arranged on the left upper corner of the conveying belt shunting bin, the shaft-driven motor is mechanically connected with a belt of the conveying belt shunting bin through a chain belt, the conveying belt shunting bin is provided with a reinforcing rib support frame, a roller thick cushion block, a vibration rotating frame, a corrugated bottom cushion belt, a swinging sieve shunting plate, a switch rail inserting frame, a shunting grid groove and a, the shunt grid grooves are provided with two shunt grid grooves which are tightly attached to the inside of the conveying bin groove, the roller thick cushion blocks and the fork rail penetrating frames are tightly attached to the left side and the right side of the corrugated base pad strip respectively and are located on the same vertical surface, the vibration rotating frame is installed inside the corrugated base pad strip, the swinging sieve shunt plate is installed between the two shunt grid grooves, and the conveying bin groove is tightly attached to the top surface of the base bottom plate.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the reinforcing rib support frame consists of an I-shaped inner support frame and two side link frames, the two side link frames are respectively arranged at the left side and the right side of the I-shaped inner support frame and are positioned on the same vertical surface, and the I-shaped inner support frame and the side link frames are welded together and have collinear axes.

As a further improvement of the invention, the I-shaped inner support frame comprises a crank arm steel pipe, a cap plate sleeve groove, cross-bracing steel bar rods, a short cylinder body and a spring plate, wherein the crank arm steel pipe is inserted and embedded in the cap plate sleeve groove and is positioned on the same vertical surface, the crank arm steel pipe and the spring plate are welded into a whole through the cross-bracing steel bar rods and are mutually vertical, and the cap plate sleeve groove is provided with two sleeve cap plate grooves which are respectively embedded on the left side and the right side of the short cylinder body and have collinear axes.

As a further improvement of the invention, the vibrating revolving frame consists of a revolving shaft rod frame and a Chinese character 'bow' shaped cushion strip, the revolving shaft rod frame is mechanically connected with the Chinese character 'bow' shaped cushion strip, the axes of the revolving shaft rod frame and the Chinese character 'bow' shaped cushion strip are collinear, and the revolving shaft rod frame is arranged inside the Chinese character 'bow' shaped cushion strip.

As a further improvement of the invention, the rotary shaft rod frame consists of a corrugated corner block, a buckling fan plate, an inner shaft rod and a shaft sleeve cap, wherein the corrugated corner block is buckled with the inner shaft rod through the buckling fan plate, the inner shaft rod and the shaft sleeve cap are nested into a whole, and the axes of the inner shaft rod and the shaft sleeve cap are collinear.

As a further improvement of the invention, the swinging sieve flow distribution plate consists of a detection groove plate, short columns and a bidirectional sleeve, wherein the detection groove plate and the short columns are welded into a whole and are positioned on the same vertical surface, and two short columns are arranged and are tightly attached to the left side of the bidirectional sleeve.

As a further improvement of the invention, the detection slot plate consists of a Bluetooth circuit board, a balancing weight, a detection top plate and a sliding slot plate, wherein the Bluetooth circuit board is inserted and embedded in the balancing weight and is positioned on the same vertical surface, the balancing weight is embedded and embedded on the top of the detection top plate, and the balancing weight is mechanically connected with the sliding slot plate and is positioned on the same vertical surface.

As a further improvement of the invention, the switch rail penetrating and inserting frame consists of an arc plate edge block, penetrating slide blocks, thin roller rods and switch rail grooves, wherein the arc plate edge block and the switch rail grooves are nested into a whole, the penetrating slide blocks and the thin roller rods are in clearance fit, and more than two thin roller rods are arranged and are all inserted and embedded in the switch rail grooves.

As a further improvement of the invention, the penetrating slider consists of a bottom lining electrode plate, a slider groove, two aligning support plates and trapezoidal magnet blocks, the bottom lining electrode plate is tightly attached to the bottom surface of the slider groove, the trapezoidal magnet blocks are respectively nested at the left side and the right side of the aligning support plate, and the aligning support plates are inserted in the slider groove and are positioned on the same horizontal plane.

As a further improvement of the invention, the crank arm steel pipe is a longitudinal rod piece structure which is spliced in a crossed manner by half honeycomb grids with edge spread angles of one hundred and twenty degrees, so that a half-hexagonal trapezoidal stress surface is conveniently formed to bear left and right extrusion forces, and the high efficiency of the I-shaped underframe in bearing vibration isolation transmission is ensured.

As a further improvement of the invention, the corrugated corner folding block is of a right-angle folding rod structure with a corrugated cushion block on the top surface of the rod groove, so that the vertical interactive rotation is facilitated, and meanwhile, the vertical vibration fluctuation effect is achieved, and the rapidity of conveying the elastic belt of the material box is ensured.

As a further improvement of the invention, the detection top plate is of a bent plate structure with a hook-shaped curved bottom, so that a buffer jacking gap is conveniently reserved, a data eliminating effect of detecting high and low level deviations is formed, and the operation of detecting accurate values in a large material box and a small material box in a sectional manner is guaranteed.

As a further improvement of the invention, the contraposition support plate is a transverse frame plate structure with superposed upper and lower positive and negative concave plates in a bow shape, so that a counterweight effect and an anti-extrusion force effect of a displacement amount are formed in the roller rod in a sliding and penetrating manner in the operation of left and right opposite vertex, and the slide block is prevented from being deformed and released.

Advantageous effects

The invention relates to a splitter structure of a belt-conveyed and vibrated double-track spread angle interpenetrated sliding brush swinging sieve, which ensures that a transmission assembly line can be observed in real time by opening a bin door cover plate by a worker through placing a large and small material box into an input slot body and pulling a roller thick cushion block formed by butting a conveyor belt splitting bin and a base bottom plate by starting a shaft rotating motor shaft rotating chain belt, is also convenient for ventilating and balancing internal air pressure of a splitting grid slot and a conveying bin slot top in an exhaust square barrel, ensures that the large and small material boxes at the later stage of an output slot box are split and stacked efficiently, forms a vibration isolation stable supporting effect mainly for vibration transmission through a reinforcing rib support during splitting, then introduces the large and small material boxes above a rotating shaft rod frame and a bow-shaped cushion strip of a vibration rotating frame, presses and buckles a fan plate through a corrugated folding angle block to twist an inner shaft rod and a shaft sleeve cap, forming a primary box body and pressing a cushion operation of the corrugated bottom cushion belt, inserting short column bars and double-plate displacement of the bidirectional sleeve through the detection groove plate of the swing sieve flow plate, the detection top plate is pressed down in the chute plate to abut against the top edge of the box through the butt joint balancing weight of the Bluetooth circuit board, after the real-time Bluetooth feedback of measured data is ensured, the material of the plate blocks is quickly pushed out, the size of the box body is regular and reasonable, and then the arc plate edge blocks of the switch rail penetrating and inserting frame and the switch rail grooves form a shunt rail frame, the end liner electrode plate through interlude slider draws counterpoint mounting panel at the slider inslot circular telegram trapezoidal magnet piece of inductance and directly brushes at two thin roller poles, forms the seam that the roller member piece and holds in the palm the pad effect, avoids the box to cover and influences the belt roughness, interlude motion constantly, cooperates the double track angle of exhibition of belt conveying vibration to swing the sieve effect, improves the high-efficient work efficiency that the cost was simply saved to the belt assembly line of reposition of redundant personnel machine.

The invention has the following advantages after operation:

the application axle moves the motor and cooperatees with the conveyer belt reposition of redundant personnel storehouse, through the linkage of axle moves the roller thick cushion block and the fork track interlude of motor tractive belt transmission friction in reposition of redundant personnel check inslot, form arc board limit piece reposition of redundant personnel conveyer belt track operation, when guaranteeing thin roller rod merogenesis transmission, the interlude slider that the conveying vibration is taken turns to forms clearance slip effect, the preliminary treatment reposition of redundant personnel brush effect that rethread pendulum screening class board swing letter sorting material case formed the interlude, make the size of material case can detect through detection frid avris bearing weight, reach data bluetooth feedback pendulum after the mechanical measurement changes the guide and carries the effect, little cost work efficiency when guaranteeing the belt transmission, and form the simple and easy screening reposition of redundant personnel transport effect of a material focus at the node of bifurcation transmission path, improve the convenience of vibratory conveying and the low-cost high-efficient function effect of belt assembly line.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a structural schematic diagram of a splitter structure of a double-track spread angle interpenetration sliding brush oscillating screen for belt conveying vibration.

FIG. 2 is a schematic view of a detailed overhead structure of the belt shunt bin of the present invention.

Fig. 3 is a schematic top view of the working states of the reinforcing rib bracket, the vibration revolving frame, the swing sieve splitter plate and the turnout rail penetrating frame of the invention.

Fig. 4 is a schematic cross-sectional enlarged structure view of the i-shaped inner bracket in the working state.

Fig. 5 is a schematic side sectional view showing the operational state of the swing link frame according to the present invention.

FIG. 6 is a schematic view of the working state of the detection slot plate according to the present invention.

Fig. 7 is a schematic perspective view of the present invention illustrating the operation state of the penetrating slider.

Description of reference numerals: an input groove body-1, a shaft motor-2, a bin door cover plate-3, an exhaust square cylinder-4, a conveyor belt diversion bin-5, a base bottom plate-6, an output groove box-7, a reinforcing rib support frame-5A, a roller thick cushion block-5B, a vibration revolving frame-5C, a corrugated bottom cushion belt-5D, a swinging sieve diversion plate-5E, a forked rail insertion frame-5F, a diversion grid groove-5G, a conveying bin groove-5H, an I-shaped inner support frame-5A 1, a connecting frame rod-5A 2, a crank arm steel pipe-5A 11, a cap plate groove-5A 12, a cross support steel rib rod-5A 13, a short cylinder body-5A 14, a spring plate-5A 15, a revolving shaft rod frame-5C 1, a bow-shaped cushion strip-5C 2, a corrugated corner block-5C 11, a buckle, a fan plate-5C 12, The device comprises an inner shaft rod-5C 13, a shaft sleeve cap-5C 14, a detection groove plate-5E 1, a short column-5E 2, a bidirectional sleeve-5E 3, a Bluetooth circuit board-5E 11, a balancing weight-5E 12, a detection top plate-5E 13, a sliding groove plate-5E 14, an arc plate edge block-5F 1, an inserting sliding block-5F 2, a thin roller rod-5F 3, a turnout rail groove-5F 4, a bottom lining electrode plate-5F 21, a sliding block groove-5F 22, a contraposition support plate-5F 23 and a trapezoidal magnet block-5F 24.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1-7, the present invention provides a belt-driven vibrating splitter structure with a double track spread angle inserted with a sliding brush and a swinging screen, which comprises: input cell body 1, axle move motor 2, door cover 3, exhaust square tube 4, conveyer belt reposition of redundant personnel storehouse 5, base bottom plate 6, output tank box 7, conveyer belt reposition of redundant personnel storehouse 5 hugs closely on base bottom plate 6's top surface, input cell body 1 and output tank box 7 are nested respectively in the left and right sides of conveyer belt reposition of redundant personnel storehouse 5 and on being in same vertical face, door cover 3 through hinge and conveyer belt reposition of redundant personnel storehouse 5 mechanical connection and be in on same vertical face, exhaust square tube 4 inserts the upper right corner of inlaying in conveyer belt reposition of redundant personnel storehouse 5, axle move motor 2 and install the upper left corner in conveyer belt reposition of redundant personnel storehouse 5, axle move motor 2 through the belt and the belt mechanical connection in conveyer belt reposition of redundant personnel storehouse 5, conveyer belt reposition of redundant personnel storehouse 5 is equipped with strengthening rib strut 5A, cushion thickness 5B, vibration revolving rack 5C, ripple bottom pad area 5D, pendulum sieve flow distribution plate 5E, Fork rail break-through frame 5F, reposition of redundant personnel check groove 5G, conveying storehouse groove 5H, strengthening rib strut 5A inserts with roller thick cushion 5B and inlays integratively and be in on same vertical face, reposition of redundant personnel check groove 5G is equipped with two and all hugs closely in conveying storehouse groove 5H's inside, roller thick cushion 5B hugs closely respectively in ripple base mat area 5D's the left and right sides and be in on same vertical face with fork rail break-through frame 5F, vibration revolving rack 5C installs in ripple base mat area 5D's inside, pendulum sieve flow distribution plate 5E installs between two reposition of redundant personnel check grooves 5G, conveying storehouse groove 5H hugs closely on base bottom plate 6's top surface.

Referring to fig. 3, the oscillating turret 5C is composed of a rotating shaft frame 5C1 and a bow-shaped pad strip 5C2, the rotating shaft frame 5C1 is mechanically connected with the bow-shaped pad strip 5C2 and the axes are collinear, the rotating shaft frame 5C1 is installed inside the bow-shaped pad strip 5C2, the swing screen splitter plate 5E is composed of a detection slot plate 5E1, a short bar 5E2 and a bidirectional sleeve 5E3, the detection slot plate 5E1 is welded with the short bar 5E2 and is on the same vertical plane, the short bar 5E2 is provided with two blocks and is tightly attached to the left side of the bidirectional sleeve 5E3, the switch rail penetrating frame 5F is composed of an arc plate edge block 5F1, a penetrating slide block 5F2, a thin roller rod 5F3 and a switch rail groove 5F 5, the arc plate edge block 5F1 is nested with a switch groove 5F4, the thin roller bar 5F 599 is provided with two inserting gaps and is inserted in the switch rail 5F3 and is provided with two inserting rollers 599 and is matched with a gap 599, two-way sleeves 5E3 are erected between the two arched battens 5C2 to form a pre-flow effect of a double-channel, and the belt conveying, flow dividing and distribution effects of the large and small material boxes are achieved by matching with a shaft lever linkage shifting plate.

Referring to fig. 5, the rotating shaft lever bracket 5C1 is composed of a corrugated folding block 5C11, a buckling fan plate 5C12, an inner shaft lever 5C13, and a sleeve cap 5C14, the corrugated folding block 5C11 is buckled with the inner shaft lever 5C13 through the buckling fan plate 5C12, the inner shaft lever 5C13 and the sleeve cap 5C14 are nested into a whole, the axes of the inner shaft lever and the sleeve cap are collinear, the corrugated folding block 5C11 is a right-angle folding lever structure with a corrugated cushion block on the top surface of a lever slot, so that the up-and-down interactive rotation is facilitated, the up-and-down vibration fluctuation effect is achieved, the transmission rapidity of the elastic belt of the material box is guaranteed, the folding plate face supporting effect of the up-and-down vertical inversion is formed by the corrugated folding block 5C11 being inserted into the buckling fan plate 5C12, and the gap pad protection overturning.

Referring to fig. 6, the detection slot plate 5E1 is composed of a bluetooth circuit board 5E11, a weight block 5E12, a detection top plate 5E13, and a sliding slot plate 5E14, the bluetooth circuit board 5E11 is inserted into the weight block 5E12 and is located on the same vertical surface, the weight block 5E12 is nested on the top of the detection top plate 5E13, the weight block 5E12 is mechanically connected with the sliding slot plate 5E14 and is located on the same vertical surface, the detection top plate 5E13 is a bent plate structure with a hook-shaped curved bottom, so that a buffer top pressure gap is conveniently reserved, a data rejection effect of detecting high and low level deviations is formed, operation of detecting a material box with different sizes and accurate values is guaranteed, the detection top plate 5E12 is pressed down to abut against the top of the detection top plate 5E13 to realize data feedback through bluetooth transmission after high level detection, and accurate distance measurement of the entire box plate is guaranteed.

Referring to fig. 7, the penetrating slider 5F2 is composed of a bottom lining electrode plate 5F21, a slider groove 5F22, an aligning support plate 5F23, and a trapezoidal magnet block 5F24, the bottom lining electrode plates 5F21 are tightly attached to the bottom surfaces of the slide block grooves 5F22, two trapezoidal magnet blocks 5F24 are arranged and are respectively nested at the left side and the right side of the contraposition support plate 5F23, the aligning bracket plate 5F23 is inserted into the slider groove 5F22 and is on the same horizontal plane, the contraposition support plate 5F23 is a transverse frame plate structure with superposed upper and lower positive and negative concave plates in a bow shape, is convenient for the operation of left and right contra-vertex, the counterweight effect and the anti-extrusion force effect of a displacement amount formed by the sliding insertion in the roller rod are prevented from being deformed and released, the center ends of the trapezoid magnet blocks 5F24 are covered by the bottom lining electrode plates 5F21 in a pressing mode, so that a current breakdown positive and negative electrode potential magnetic suspension sliding effect is achieved, and the effect of padding and protecting is achieved by means of inserting, bearing, linkage and matching of the roller rods in transportation of the material box after shunting.

The working process is as follows: the working personnel put the big and small material box into the input groove body 1, the shaft rotating chain belt of the shaft driving motor 2 is started to pull the roller thick cushion block 5B of the conveyor belt shunt bin 5 and the butt joint of the base bottom plate 6 to form the conveying effect of laying the belt, the real-time observation of the conveying line can be ensured by opening the bin door cover plate 3 by the working personnel, the ventilation balance operation of the internal air pressure of the shunt grid groove 5G and the top of the conveying bin groove 5H is also facilitated in the exhaust square tube 4, the shunting and stacking of the big and small material boxes at the later stage of the output groove box 7 is high-efficient, during the shunting period, the vibration isolation stable supporting effect of the main vibration conveying is formed by the reinforcing rib support 5A, then the big and small material box is led into the upper part of the rotary shaft rod frame 5C1 and the bow-shaped cushion strip 5C2 of the vibration rotary frame 5C14, the inner part 5C13 and the shaft sleeve cap 5C14, forming a primary box body pressing and pasting a cushion operation of a corrugated bottom cushion belt 5D, pressing down a detection top plate 5E13 to abut against the top edge of the box in a sliding groove plate 5E14 through inserting a detection groove plate 5E1 of a swing screen flow plate 5E into a short column strip 5E2 and a bidirectional sleeve 5E3 through a Bluetooth circuit board 5E11 and butting against a balancing weight 5E12, ensuring that the measured data is quickly stirred by the plate after Bluetooth real-time feedback, and the box body is regular and reasonable in size, then forming a shunt rail frame by passing an arc plate edge block 5F1 of an inserting frame 5F and a branch rail groove 5F4 through a branch rail, directly sliding and brushing an alignment plate 5F23 on two thin roller rods 5F3 through electrifying an inductance trapezoid block 5F24 in a sliding block 5F2 bottom cushion plate 5F21 in a sliding block groove 5F22, forming a slit cushion effect of a roller rod piece, avoiding influence on the degree of belt pressing and moment penetration movement, and matching with a double-rail vibration conveying effect of a belt, the high-efficiency working efficiency of the belt assembly line of the shunting machine is improved, and cost is saved.

Example two:

referring to fig. 1 to 7, the present invention provides a belt-driven vibrating splitter structure with a double track spread angle inserted with a sliding brush oscillating screen, which is otherwise the same as embodiment 1, except that:

referring to fig. 3, the reinforcing rib support frame 5A is composed of an i-shaped inner support frame 5A1 and a side link 5A2, the side link 5A2 is provided with two side links which are respectively installed at the left and right sides of the i-shaped inner support frame 5A1 and located on the same vertical plane, the i-shaped inner support frame 5A1 and the side link 5A2 are welded together, the axes of the i-shaped inner support frame and the side link 5A 3538 are collinear, and the i-shaped inner support frame 5A1 and the side link 5A2 are inserted into a ladder frame rod-shaped structure, so that the supporting effect of an inner frame framework when a roller is received can be guaranteed, the high efficiency of fixed-axis rotation is guaranteed.

Referring to fig. 4, the i-shaped inner bracket 5a1 is composed of a crank arm steel tube 5a11, a cap plate groove 5a12, a cross-bracing steel bar 5a13, a short cylinder 5a14, and a spring plate 5a15, the crank arm steel tube 5a11 is inserted into the cap plate groove 5a12 and is located on the same vertical plane, the crank arm steel tube 5a11 is welded with the spring plate 5a15 into a whole through the cross-bracing steel bar 5a13 and is perpendicular to each other, the cap plate groove 5a12 is provided with two longitudinal rod structures which are respectively nested on the left and right sides of the short cylinder 5a14 and are collinear in axis, the crank arm steel tube 5a11 is a longitudinal rod structure in which the half honeycomb edge spread angle is cross-spliced at one hundred twenty degrees, a half hexagonal trapezoidal bearing surface is conveniently formed to bear left and right extrusion forces, vibration isolation and transmission efficiency of the i-shaped underframe is ensured, and a double longitudinal abutting effect of parallel bearing is formed by the crank arm steel tube 5a11 and the spring plate 5a15, the front end vibration isolation effect when guaranteeing material case belt conveying conveniently cooperates the rear end vibrations output reposition of redundant personnel.

The belt conveying assembly line through the whole material box ensures the double-bent-path conveying effect of the whole shunting turnout, the uniform sorting protection operation of the large and small material boxes is improved, the convenience is brought to workers for observation, the stability of equipment conveying is ensured, the stability of the conveying belt before vibration shunting of the material boxes is insufficient in the period, the conveying range of the falling part of the material boxes is easily caused due to elastic vibration before shunting, at the moment, the transverse unloading force of the transverse bracing steel bar 5A13 and the short cylinder 5A 3683 is required to be alternately erected through the I-shaped inner support 5A1 of the reinforcing rib support 5A and the connecting rod 5A2, then the sleeve cap plate groove 5A12 is driven through the crank arm steel pipe 5A11 to press and buckle the transverse bracing steel bar 5A13 and the short cylinder 5A14 to push and stretch the spring plate 5A15, the left-right vibration extrusion of the conveying belt is realized, the situation.

The invention achieves the purposes that the shaft-driven motor 2 is matched with the conveyor belt diversion bin 5, the thick roller cushion block 5B which is transmitted and rubbed in the diversion grid groove 5G by the traction of the belt through the shaft-driven motor 2 is linked with the turnout rail penetration frame 5F to form the arc plate edge block 5F1 diversion conveyor belt track operation, when the section transmission of the thin roller rod 5F3 is ensured, the penetrating slide block 5F2 which is transmitted and vibrated and linked forms a gap sliding effect, the swinging and sorting material box through the swinging and sorting flow plate 5E forms a penetrating and inserting type pretreatment diversion slide brush effect, the size of the material box can be detected through the pressing and buckling balance weight at the side of the detection groove plate 5E1, the data Bluetooth feedback swinging and rotation guiding and conveying effect after mechanical measurement is achieved, the low-cost working efficiency during belt transmission is ensured, and the simple screening diversion conveying effect of a material gathering point is formed at the node of the bifurcation conveying path, improve the convenience of vibration transport and the low-cost high-efficient function effect of belt assembly line, solve with this in belt conveying assembly line, the screening and the size reposition of redundant personnel of goods often equipment need sort out the operation of classifying stack storage transportation, but conventional conveyer belt only takes unidirectional transport or combines motor just positive and negative rotation to reach the two-way effect of switching on, in same transverse distance, the mechanical hand operation is commonly used in the letter sorting to the goods, consume the erections of high-cost precision instrument like this, and increase both sides on the conveyer belt assembly line and obstruct the shelter from the thing, it can not in time be discover to cause crawler belt card shell or material case to skid during the transmission, and lead to the collision each other of later stage material case, influence incasement material quality, and the letter sorting operation of big or small material becomes complicated, need manipulator programming coordinate location discernment, consume the problem of quantity.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (9)

1. The utility model provides a belt conveying vibrating shunt structure that double track exhibition angle interlude smooth brush pendulum sieve, its structure includes: input cell body (1), axle motor (2), door apron (3), exhaust square tube (4), conveyer belt reposition of redundant personnel storehouse (5), base bottom plate (6), output groove case (7), its characterized in that:

the conveying belt shunting bin (5) is tightly attached to the top surface of the base bottom plate (6), the input tank body (1) and the output tank box (7) are respectively nested on the left side and the right side of the conveying belt shunting bin (5), the bin door cover plate (3) is mechanically connected with the conveying belt shunting bin (5) through hinges, the exhaust square tube (4) is inserted and embedded in the upper right corner of the conveying belt shunting bin (5), the shaft-driven motor (2) is arranged in the upper left corner of the conveying belt shunting bin (5), and the shaft-driven motor (2) is mechanically connected with a belt of the conveying belt shunting bin (5) through a chain belt;

the conveyor belt diversion bin (5) is provided with a reinforcing rib support frame (5A), a roller thick cushion block (5B), a vibration rotary frame (5C), a corrugated base cushion belt (5D), a swinging sieve diversion plate (5E), a turnout rail penetration frame (5F), a diversion grid groove (5G) and a conveyor bin groove (5H);

strengthening rib strut (5A) and roller thick cushion (5B) are inserted and are inlayed integratively, reposition of redundant personnel check groove (5G) are equipped with two and all hug closely in the inside of conveying storehouse groove (5H), roller thick cushion (5B) and fork rail are passed and are inserted frame (5F) and hug closely respectively in the left and right sides of ripple base wad area (5D), install in the inside of ripple base wad area (5D) vibration revolving rack (5C), pendulum sieve flow distribution plate (5E) are installed between two reposition of redundant personnel check grooves (5G), conveying storehouse groove (5H) are hugged closely on the top surface of base plate (6).

2. The belt-conveying vibrating flow divider structure with double-track spread angle interpenetration sliding brush oscillating screen according to claim 1, characterized in that: the reinforcing rib support frame (5A) is composed of an I-shaped inner support frame (5A1) and side link frames (5A2), two side link frames (5A2) are arranged and are respectively installed on the left side and the right side of the I-shaped inner support frame (5A1), and the I-shaped inner support frame (5A1) and the side link frames (5A2) are welded together.

3. The shunt structure of the belt-conveying vibrating double-track spread-angle interpenetration sliding brush oscillating screen of claim 2, characterized in that: the I-shaped inner support frame (5A1) comprises a crank arm steel pipe (5A11), a cap plate sleeve (5A12), a cross-bracing steel bar rod (5A13), a short cylinder body (5A14) and a spring plate (5A15), wherein the crank arm steel pipe (5A11) is inserted and embedded in the cap plate sleeve (5A12), the crank arm steel pipe (5A11) is welded with the spring plate (5A15) into a whole through the cross-bracing steel bar rod (5A13), and the cap plate sleeve (5A12) is provided with two steel bars which are respectively embedded at the left side and the right side of the short cylinder body (5A 14).

4. The belt-conveying vibrating flow divider structure with double-track spread angle interpenetration sliding brush oscillating screen according to claim 1, characterized in that: the vibration revolving rack (5C) is composed of a revolving shaft rod rack (5C1) and a Chinese character 'gong' backing strip (5C2), the revolving shaft rod rack (5C1) is mechanically connected with the Chinese character 'gong' backing strip (5C2), and the revolving shaft rod rack (5C1) is arranged inside the Chinese character 'gong' backing strip (5C 2).

5. The belt-conveying vibrating flow divider structure with double-track spread angle interpenetration sliding brush oscillating screen of claim 4, characterized in that: the rotary shaft rod frame (5C1) is composed of a corrugated corner block (5C11), a buckling fan plate (5C12), an inner shaft rod (5C13) and a shaft sleeve cap (5C14), wherein the corrugated corner block (5C11) is buckled with the inner shaft rod (5C13) through the buckling fan plate (5C12), and the inner shaft rod (5C13) and the shaft sleeve cap (5C14) are nested into a whole.

6. The belt-conveying vibrating flow divider structure with double-track spread angle interpenetration sliding brush oscillating screen according to claim 1, characterized in that: the pendulum sieve flow distribution plate (5E) is composed of a detection groove plate (5E1), short column bars (5E2) and a bidirectional sleeve (5E3), the detection groove plate (5E1) and the short column bars (5E2) are welded into a whole, and the short column bars (5E2) are provided with two and are tightly attached to the left side of the bidirectional sleeve (5E 3).

7. The shunt structure of claim 6, wherein the shunt structure comprises: detect frid (5E1) by bluetooth circuit board (5E11), balancing weight (5E12), detect roof (5E13), spout board (5E14) and constitute, bluetooth circuit board (5E11) are inserted and are inlayed in the inside of balancing weight (5E12), balancing weight (5E12) are nested on the top of detecting roof (5E13), balancing weight (5E12) and spout board (5E14) mechanical connection.

8. The belt-conveying vibrating flow divider structure with double-track spread angle interpenetration sliding brush oscillating screen according to claim 1, characterized in that: the fork rail penetrating and inserting frame (5F) is composed of an arc plate edge block (5F1), a penetrating sliding block (5F2), a thin roller rod (5F3) and a fork rail groove (5F4), wherein the arc plate edge block (5F1) and the fork rail groove (5F4) are nested into a whole, the penetrating sliding block (5F2) is matched with the thin roller rod (5F3), and the thin roller rod (5F3) is provided with more than two and is all inserted and embedded in the fork rail groove (5F 4).

9. The shunt structure of claim 8, wherein the shunt structure comprises: the penetrating slider (5F2) is composed of bottom lining electrode plates (5F21), slider grooves (5F22), aligning support plates (5F23) and trapezoidal magnet blocks (5F24), wherein the bottom lining electrode plates (5F21) are tightly attached to the bottom surfaces of the slider grooves (5F22), the trapezoidal magnet blocks (5F24) are provided with two aligning support plates (5F23) which are respectively nested on the left side and the right side of the aligning support plates, and the aligning support plates (5F23) are embedded in the slider grooves (5F 22).

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