CN109692815B - Sorting unit of electric automobile damping spring - Google Patents

Abstract

The invention relates to a sorting device for damping springs, in particular to a sorting device for damping springs of an electric automobile, which can realize sorting of the damping springs of the electric automobile and is convenient for removing the damping springs of the automobile which do not meet the specification; the sorting rate of the damping spring is changed by changing the discharge amount of the damping spring; adjust the support through the left end and can reduce the vibration that the device produced at the sorting process, the spring is gone into the feed bin and is connected with the wall rod is articulated, and transportation assembly is connected with the wall rod is articulated, and support and transportation assembly fixed connection are adjusted to the left end, and support and transportation assembly articulated connection are adjusted to the right-hand member, and the hold-in range is connected, wall rod and motion rod assembly, and frame fixed connection is gone into the spring, and the support is adjusted to wall rod, transportation assembly, left end, and the support is adjusted to the right-hand member, the hold-in range, select separately the storehouse, the lower extreme of.

Description

Sorting unit of electric automobile damping spring

Technical Field

The invention relates to a sorting device for damping springs, in particular to a sorting device for damping springs of an electric automobile.

Background

For example, patent No. CN201721561529.6 discloses a spring discharging mechanism, which includes: a support bar; the upper end of the supporting rod is provided with a spring arrangement discharging mechanism; a spring sorting device is arranged in the spring arrangement discharging mechanism; the upper end of the spring arrangement discharging mechanism is provided with a discharging hole and a feeding hole; a spring pipe is arranged on the discharge hole; an inductor is arranged between the discharge hole and the spring tube; and a spring gun is arranged at the lower end of the spring tube. By the mode, the spring sorting device has the defect that only the discharge of the springs can be realized, and the springs cannot be sorted.

Disclosure of Invention

The invention aims to provide a sorting device for shock-absorbing springs of an electric automobile, which can realize sorting of the shock-absorbing springs of the electric automobile and is convenient for removing the shock-absorbing springs of the automobile which do not meet the specification; the sorting rate of the damping spring is changed by changing the discharge amount of the damping spring; the vibration generated by the device in the sorting process can be reduced by adjusting the bracket at the left end.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an electric automobile damping spring's sorting unit, goes into feed bin, wall pole, transportation assembly, left end regulation support, right-hand member regulation support, hold-in range, selects separately storehouse, motion pole assembly and frame including the spring, the spring goes into the feed bin and is connected with the wall pole is articulated, and the transportation assembly is connected with the wall pole is articulated, and support and transportation assembly fixed connection are adjusted to the left end, and the right-hand member is adjusted support and transportation assembly and is articulated to be connected, and the hold-in range is connected on wall pole and motion pole assembly through the transportation assembly, and frame fixed connection is gone into the spring, the lower extreme of feed bin, wall pole, transportation assembly, left end regulation support, right-hand member regulation support, hold-.

As a further optimization of the technical scheme, the invention relates to a sorting device for damping springs of electric automobiles, wherein a spring feeding bin comprises a spring feeding bin body, a left end hinge rod of the feeding bin, a left end sliding hole of the feeding bin, a bin door plate sliding frame, a right end connecting rod and an arc rod, the right end connecting rod comprises a connecting rod body, an arc clamping rod, an inner end sliding rod, an inner end compression spring, a hinge connecting rod I, a hinge connecting rod II, an arc clamping groove, a hinge connecting rod waist groove I, a hinge connecting rod waist groove II, a hinge connecting rod waist groove III and a hinge connecting rod waist groove IV, the inner end sliding rod is connected with the connecting rod body in a sliding manner, the arc clamping rod is arranged at the front end of the connecting rod body, the inner end compression spring is arranged between the connecting rod body and the inner end sliding rod, the inner end compression spring is in a compressed state, the hinge connecting rod waist, the articulated connecting rod waist groove III and the articulated connecting rod waist groove IV are both arranged on the articulated connecting rod I, the articulated connecting rod I and the articulated connecting rod II are both rotatably connected to the lower end of the inner end sliding rod, the connecting rod body is in fit connection with the articulated connecting rod waist groove I and the articulated connecting rod waist groove IV through articulated columns, the left end and the right end of the arc-shaped clamping rod are in clearance fit connection with the articulated connecting rod waist groove III and the articulated connecting rod waist groove IV through the articulated columns, and a plurality of arc-shaped clamping grooves are arranged at the lower end of the arc-shaped clamping rod; the hatch board balladeur train includes hatch board balladeur train upper plate, hatch board balladeur train hypoplastron and the smooth chamber of middle-end, and hatch board balladeur train upper plate fixed connection is in the upper end of hatch board balladeur train hypoplastron, and the smooth chamber setting of middle-end is between hatch board balladeur train upper plate and hatch board balladeur train hypoplastron, the arc pole includes arc pole body and a plurality of arc pole body draw-in grooves, and a plurality of arc pole body draw-in grooves evenly set up the outer end at the arc pole body, and the articulated pole fixed connection of pan feeding storehouse left end is at the left end of spring pan feeding storehouse body, and the setting of income storehouse left end slide opening is at the left end of spring pan feeding storehouse body, and hatch board sliding connection is in the smooth chamber of middle-end, and the articulated right-hand member at the cabin door plant of lower extreme at the connecting rod body, and connect.

As a further optimization of the technical scheme, the invention relates to a sorting device for damping springs of electric vehicles, wherein a wall rod comprises an upper end rod of the wall rod, a middle end hinged rod, a middle end roller cone, a left end inclined plane push plate, a right end push rod, a right end plate, a sleeve spring, a left end rod, a motor connecting rod, an input motor and an input rotating wheel, the upper end of the middle end hinged rod is hinged to the middle end of the upper end rod of the wall rod, the middle end roller cone is fixedly connected to the lower end of the middle end hinged rod, the left end inclined plane push plate is fixedly connected with the left end rod, the right end inclined plane push plate is fixedly connected with the right end push rod, the right end plate is fixedly connected to the right end of the right end push rod, the sleeve spring is sleeved on the right end push rod, one end of the motor connecting rod is hinged to the left end of the left end rod, the other end of the motor connecting rod is hinged to, the sleeve spring is arranged between the right inclined plane push plate and the left end of the spring feeding bin body, and the right end plate is arranged at the lower end of the spring feeding bin body.

As a further optimization of the technical scheme, the sorting device for the damping springs of the electric automobile comprises a transportation fixing rod, a transportation belt, a roller I and a roller II, wherein the roller I and the roller II are respectively and rotatably connected to the left end and the right end of the transportation fixing rod, the left end and the right end of the inner wall of the transportation belt are respectively connected to the roller I and the roller II in an interference fit mode, and the upper end of the transportation fixing rod is hinged to the right end of an upper end rod of a wall rod.

As a further optimization of the technical scheme, the invention relates to a sorting device for damping springs of electric vehicles, which comprises a left-end outer side supporting rod, an inner end clamping groove, a middle-end push rod, a middle-end inner side sleeve spring, an upper side push rod, a side wall slide rod I, a side wall slide rod II, two side wall slide clamp springs, a bottom spring, a side wall slide clamp connecting rod I, a side wall slide clamp connecting rod II, a side wall slide clamp rod I, a side wall slide clamp rod II, a side wall slide clamp rod body, a side wall slide clamp rod inner cavity, a side wall slide clamp rod hinged end, a non-slip plate I and an inner end sliding plate, wherein the inner end of the left-end outer side supporting rod is hollowed, the inner end clamping groove is provided with a plurality of inner end clamping grooves which are uniformly arranged at the left side and right sides of the inner wall of the left-end outer side supporting rod, the middle-end push rod is connected with the left-end outer side, the middle-end inner side sleeve spring is arranged between the inner-end sliding plate and the left-end outer side supporting rod, the upper-side push rod is connected with the middle-end push rod in a sliding fit manner, the side wall sliding rod I and the side wall sliding rod II are respectively and fixedly connected to the left side and the right side of the middle-end push rod, the two side wall sliding clamp springs are respectively arranged on the left side and the right side of the side wall sliding rod I and the side wall sliding rod II, the bottom spring is arranged at the lower end of the upper-side push rod, the bottom end spring is in a compressed state, the lower ends of the side wall sliding clamp connecting rod II and the side wall sliding clamp connecting rod I are hinged to the lower end of the upper-side wall sliding clamp connecting rod II, the upper end of the side wall sliding clamp connecting rod I is hinged to the lower end of the side wall sliding clamp rod I, the side wall sliding clamp rod I and the side wall sliding clamp rod II are respectively and slidably connected, the lateral wall sliding clamping rod I and the lateral wall sliding clamping rod II are matched and connected in the inner clamping groove, the anti-slip plate I is hinged to the lower end of the inner sliding plate, and the upper end of the left end outer side supporting rod is hinged to the front side of the left end of the transportation fixing rod.

As a further optimization of the technical scheme, the sorting device for the damping springs of the electric automobile comprises a right end adjusting rod, a locking screw rod, a right end inner sliding rod, a middle side hinged rod, a non-slip plate II, a right end adjusting rod inner cavity and a side wall threaded hole, wherein the inner end of the right end adjusting rod is hollowed, the right end inner sliding rod is in sliding connection with the right end adjusting rod, the side wall threaded hole is uniformly formed in the right end adjusting rod, the locking screw rod is connected into the side wall threaded hole through threads, the upper end and the lower end of the middle side hinged rod are respectively hinged to the end inner sliding rod and the non-slip plate II, the right end adjusting rod inner cavity is formed in the inner end of the right end adjusting rod.

As a further optimization of the technical scheme, the invention discloses a sorting device for damping springs of electric automobiles, sorting bin is including sorting bin body, the sorting board, select separately the slide bar, sorting board dead lever, sorting board waist groove, sorting board slide bar, articulated fixed plate, sorting board spout and sorting slide bar spout, sorting bin body's inner fretwork, sorting board cooperation is connected in sorting bin body's inner, sort slide bar and sorting bin body fixed connection, sorting board dead lever and sorting bin body fixed connection, sorting board waist groove sets up on sorting board dead lever, sorting board slide bar sliding connection is at sorting board waist inslot, sorting board dead lever's right-hand member is articulated to be connected on articulated fixed plate, sorting board spout sets up the upper end at the sorting board, sorting slide bar spout sets up the upper end at the sorting slide bar, sorting bin body sets up the right-hand member at the transportation dead lever.

As a further optimization of the technical scheme, the invention discloses a sorting device for damping springs of electric automobiles, the motion pole assembly includes the planet carrier, a plurality of planet gears, three planet carrier dead lever, planetary gear, the planetary gear connecting rod, the turnover pole slide bar, turnover pole spout and turnover pole hinge bar, a plurality of planet teeth evenly set up the inner at the planet carrier, the equal fixed connection of three planet carrier dead lever is on the planet carrier, planetary gear and planet tooth meshing, the both ends of planetary gear connecting rod are articulated respectively on planet carrier and planetary gear, the articulated connection of left end of turnover pole is on planetary gear, the articulated connection of turnover pole right-hand member is at the lower extreme of turnover pole hinge bar through the articulated shaft, the turnover pole right-hand member passes through the articulated shaft cooperation and connects in turnover pole spout, the turnover pole spout sets up on turnover pole slide bar, turnover pole hinge bar.

As a further optimization of the technical scheme, the sorting device of the damping spring of the electric automobile comprises a frame, a motor fixing frame, a wall bar fixing frame, an adjusting bracket fixing rod, a moving bar fixing frame, a sorting bin fixing frame, a hinged fixing plate fixing frame, a bottom plate, a turnover bar sliding bar fixing frame and a middle end fixing rod, wherein the wall bar fixing frame, the adjusting bracket fixing rod, the moving bar fixing frame, the sorting bin fixing frame, the hinged fixing plate fixing frame, the bottom plate and the turnover bar sliding bar fixing frame are sequentially and fixedly connected to the motor fixing frame from left to right, an input motor is fixedly connected to the motor fixing frame, a left end bar is slidably connected to the wall bar fixing frame, a non-slip plate I and a non-slip plate II are both fixedly connected to the adjusting bracket fixing rod, the upper end of the moving bar fixing frame is hinged to a planet, the upper end fixed connection of turnover pole slide bar mount is at the lower extreme of turnover pole slide bar, and the upper end fixed connection of articulated fixed plate mount is on articulated fixed plate, and middle-end dead lever fixed connection is at the lower extreme of income feed bin left end hinge bar.

The sorting device for the damping springs of the electric automobile has the beneficial effects that:

according to the sorting device for the damping springs of the electric automobile, the right end of the right end push rod can be conveniently connected into the sliding hole at the left end of the feeding bin in a sliding mode; the sleeve spring can be conveniently arranged between the right-end inclined plane push plate and the left end of the spring feeding bin body; the right end plate can be conveniently arranged at the lower end of the spring feeding bin body; the upper end of the transportation fixing rod can be conveniently hinged to the right end of the wall rod upper end rod, and the wall rod can be connected with the transportation combination body through the wall rod upper end rod; the upper end of the left-end outer side supporting rod can be conveniently hinged to the front side of the left end of the transportation fixing rod, and the transportation combination body can be connected with the left-end adjusting bracket through the transportation fixing rod; the upper end of the right-end adjusting rod can be conveniently hinged to the transportation fixing rod, and the transportation assembly and the right-end adjusting support can be connected through the transportation fixing rod.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic overall structure diagram of a sorting device for damping springs of an electric vehicle according to the invention;

FIG. 2 is a first schematic diagram of a spring feeding bin structure of the sorting device for the damping springs of the electric vehicle, according to the present invention;

FIG. 3 is a schematic diagram of a spring feeding bin structure of the sorting device for the damping springs of the electric vehicle of the invention;

FIG. 4 is a schematic diagram of a spring feeding bin structure of the sorting device for the damping springs of the electric vehicle of the invention;

FIG. 5 is a schematic diagram of a wall bar structure of the sorting device for the damping springs of the electric vehicle, provided by the invention;

FIG. 6 is a schematic structural diagram of a transportation assembly of the sorting device for the damping springs of the electric vehicle, provided by the invention;

FIG. 7 is a first structural diagram of a left end adjusting bracket of the sorting device for the damping springs of the electric vehicle, according to the present invention;

FIG. 8 is a schematic structural diagram II of a left end adjusting bracket of the sorting device for the damping spring of the electric vehicle, according to the invention;

FIG. 9 is a schematic structural diagram III of a left end adjusting bracket of the sorting device for the damping springs of the electric vehicle, according to the invention;

FIG. 10 is a first structural diagram of a right end adjusting bracket of the sorting device for the damping springs of the electric vehicle, according to the invention;

FIG. 11 is a second structural diagram of a right end adjusting bracket of the sorting device for the damping springs of the electric vehicle according to the invention;

FIG. 12 is a schematic structural diagram of a sorting bin of the sorting device for the damping spring of the electric vehicle, provided by the invention;

FIG. 13 is a schematic structural diagram of a moving rod assembly of the sorting device for the damping springs of the electric vehicle according to the present invention;

fig. 14 is a schematic structural diagram of a frame of the sorting device for the damping spring of the electric automobile.

In the figure: the spring enters the stock bin 1; the spring is put into the stock bin body 1-1; a hinged rod 1-2 at the left end of the feeding bin; 1-3 of a sliding hole at the left end of the feeding bin; 1-4 of a cabin door plate; a cabin door plate sliding frame 1-5; a hatch board carriage upper plate 1-5-1; a cabin door plate sliding frame lower plate 1-5-2; 1-5-3 of a middle sliding cavity; a right connecting rod 1-6; 1-6-1 of a connecting rod body; 1-6-2 of an arc clamping rod; 1-6-3 sliding rods at the inner ends; the inner end compresses a spring 1-6-4; 1-6-5 parts of a hinged connecting rod; hinged connecting rods II 1-6-6; 1-6-7 of an arc-shaped clamping groove; 1-6-8 parts of a hinge connecting rod waist groove; a waist groove II of the hinged connecting rod is 1-6-9; 1-6-10 parts of hinge connecting rod waist groove III; a hinge connecting rod waist groove IV 1-6-11; 1-7 of an arc-shaped rod; 1-7-1 of an arc rod body; 1-7-2 of a clamping groove of the arc-shaped rod body; a wall bar 2; an upper end rod 2-1 of the wall rod; a middle-end hinge rod 2-2; 2-3 of a middle-end roller cone; 2-4 of a left end inclined plane push plate; 2-5 of a right inclined plane push plate; a right end push rod 2-6; 2-7 of a right end plate; 2-8 parts of a sleeve spring; 2-9 of a left end rod; 2-10 parts of a motor connecting rod; inputting motors 2-11; 2-12 parts of an input rotating wheel; a transport assembly 3; transporting the fixed rod 3-1; 3-2 of a conveyer belt; 3-3 parts of a roller; 3-4 of a roller; a left end adjusting bracket 4; a left-end outer side strut 4-1; a clamping groove 4-2 at the inner end; a middle end push rod 4-3; 4-4 parts of middle-end inner sleeve spring; 4-5 of an upper push rod; 4-6 side wall slide bars; 4-7 side wall slide bars II; 4-8 of a side wall slip clamp spring; 4-9 parts of bottom end spring; 4-10 side wall sliding clamping connecting rods; a side wall sliding clamping connecting rod II 4-11; 4-12 side wall sliding clamping rods; side wall sliding clamping rods II 4-13; 4-15 of side wall slide clamping rod bodies; the side wall is slidably clamped in the inner cavity of the rod 4-16; the hinged ends 4-17 of the side wall slide clamping rods; 4-18 of anti-slip plates; a right end adjusting bracket 5; a right end adjusting rod 5-1; 5-2 parts of a locking screw rod; 5-3 of a right inner slide bar; a middle hinge rod 5-4; 5-5 of a non-slip plate II; 5-6 of the inner cavity of the right end adjusting rod; 5-7 side wall threaded holes; a synchronous belt 6; a sorting bin 7; a sorting bin body 7-1; a sorting plate 7-2; 7-3 of a sorting chute; 7-4 parts of a sorting plate fixing rod; 7-5 parts of sorting plate waist groove; 7-6 of a sorting plate sliding shaft; hinged fixed plates 7-7; 7-8 parts of sorting plate chutes; a sorting slide bar chute 7-9 motion bar assembly 8; a planet carrier 8-1; planet gears 8-2; a planet carrier fixing rod 8-3; 8-4 of a planetary gear; a planetary gear connecting rod 8-5; 8-6 of turnover rods; 8-7 of a turnover rod sliding rod; a turnover rod chute 8-8; the turnover rod is hinged with a rod 8-9; a frame 9; a motor fixing frame 9-1; a wall bar fixing frame 9-2; adjusting a bracket fixing rod 9-3; a moving rod fixing frame 9-4; a sorting bin fixing frame 9-5; a fixed plate fixing frame 9-6 is hinged; a bottom plate 9-7; a turnover rod and slide bar fixing frame 9-9; the middle end is fixed with a rod 9-10.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying way, a spring retainer ring groove is arranged on the shaft or the shaft hole, and the elastic retainer ring is clamped in the spring retainer ring groove to realize the axial fixation of the bearing, so that the rotation is realized; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following description is made with reference to fig. 1 to 14, and the embodiment is a sorting device for damping springs of an electric vehicle, and includes a spring feeding bin 1, a wall rod 2, a transportation assembly 3, a left end adjusting support 4, a right end adjusting support 5, a synchronous belt 6, a sorting bin 7, a motion rod assembly 8 and a frame 9, wherein the spring feeding bin 1 is hinged to the wall rod 2, the transportation assembly 3 is hinged to the wall rod 2, the left end adjusting support 4 is fixedly connected to the transportation assembly 3, the right end adjusting support 5 is hinged to the transportation assembly 3, the synchronous belt 6 is connected to the wall rod 2 and the motion rod assembly 8 through the transportation assembly 3, and the frame 9 is fixedly connected to the spring feeding bin 1, the wall rod 2, the transportation assembly 3, the left end adjusting support 4, the right end adjusting support 5, the synchronous belt 6, the sorting bin 7 and the lower end of the motion rod assembly 8.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-14, and the embodiment further describes the first embodiment, where the spring loading bin 1 includes a spring loading bin body 1-1, a left end hinge rod 1-2 of the loading bin, a left end slide hole 1-3 of the loading bin, a bin door panel 1-4, a bin door panel carriage 1-5, a right end connecting rod 1-6 and an arc rod 1-7, and the right end connecting rod 1-6 includes a connecting rod body 1-6-1, an arc clamping rod 1-6-2, an inner end slide rod 1-6-3, an inner end compression spring 1-6-4, a hinge connecting rod i 1-6-5, a hinge connecting rod ii 1-6-6, an arc clamping groove 1-6-7, a hinge connecting rod waist groove i 1-6-8, a spring, The hinge connecting rod waist groove II 1-6-9, the hinge connecting rod waist groove III 1-6-10 and the hinge connecting rod waist groove IV 1-6-11, the inner end slide bar 1-6-3 is connected with the connecting rod body 1-6-1 in a sliding way, the arc-shaped clamping bar 1-6-2 is arranged at the front end of the connecting rod body 1-6-1, the inner end compression spring 1-6-4 is arranged between the connecting rod body 1-6-1 and the inner end slide bar 1-6-3, the inner end compression spring 1-6-4 is in a compression state, the hinge connecting rod waist groove I1-6-8 and the hinge connecting rod waist groove II 1-6-9 are both arranged on the hinge connecting rod II 1-6-6, the hinge connecting rod waist groove 1-6-10 and the hinge connecting rod waist groove IV 1-6-11 are both arranged on the hinge connecting rod I1 6-5, the hinged connecting rod I1-6-5 and the hinged connecting rod II 1-6-6 are rotatably connected to the lower end of the inner end sliding rod 1-6-3, the connecting rod body 1-6-1 is in fit connection with the hinged connecting rod waist groove I1-6-8 and the hinged connecting rod waist groove IV 1-6-11 through a hinged column, the left end and the right end of the arc clamping rod 1-6-2 are in clearance fit connection with the hinged connecting rod waist groove III 1-6-10 and the hinged connecting rod waist groove IV 1-6-11 through the hinged column, and the arc clamping grooves 1-6-7 are arranged at the lower end of the arc clamping rod 1-6-2; the cabin door plate sliding frame 1-5 comprises a cabin door plate sliding frame upper plate 1-5-1, a cabin door plate sliding frame lower plate 1-5-2 and a middle end sliding cavity 1-5-3, the cabin door plate sliding frame upper plate 1-5-1 is fixedly connected to the upper end of the cabin door plate sliding frame lower plate 1-5-2, the middle end sliding cavity 1-5-3 is arranged between the cabin door plate sliding frame upper plate 1-5-1 and the cabin door plate sliding frame lower plate 1-5-2, the arc-shaped rod 1-7 comprises an arc-shaped rod body 1-7-1 and a plurality of arc-shaped rod body clamping grooves 1-7-2, the plurality of arc-shaped rod body clamping grooves 1-7-2 are uniformly arranged at the outer end of the arc-shaped rod body 1-7-1, the left end of the feeding bin hinged rod 1-2 is fixedly connected to the left end of the spring feeding bin, the left end sliding hole 1-3 of the feeding bin is arranged at the left end of the spring feeding bin body 1-1, the bin door plate 1-4 is connected in the middle end sliding cavity 1-5-3 in a sliding mode, the lower end of the connecting rod body 1-6-1 is connected to the right end of the bin door plate 1-4 in a hinged mode, the middle end of the connecting rod body 1-6-1 is connected to the outer wall of the right end of the spring feeding bin body 1-1 in a hinged mode, and the arc-shaped clamping grooves 1-6-7 are matched with the arc-shaped rod body clamping grooves 1-7-2 respectively.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-14, and the embodiment further describes the first embodiment, wherein the wall rod 2 comprises a wall rod upper end rod 2-1, a middle end hinge rod 2-2, a middle end roller cone 2-3, a left end inclined plane push plate 2-4, a right end inclined plane push plate 2-5, a right end push rod 2-6, a right end plate 2-7, a sleeve spring 2-8, a left end rod 2-9, a motor connecting rod 2-10, an input motor 2-11 and an input rotating wheel 2-12, the upper end of the middle end hinge rod 2-2 is hinged to the middle end of the wall rod upper end rod 2-1, the middle end roller cone 2-3 is fixedly connected to the lower end of the middle end hinge rod 2-2, the left end inclined plane push plate 2-4 is fixedly connected to the left end rod 2-9, the right end inclined plane push plate 2-5 is fixedly connected to the right end push rod 2-6, the right end plate 2-7 is fixedly connected to the right end of a right end push rod 2-6, a sleeve spring 2-8 is sleeved on the right end push rod 2-6, one end of a motor connecting rod 2-10 is hinged to the left end of a left end rod 2-9, the other end of the motor connecting rod 2-10 is hinged to an input rotating wheel 2-12, the input rotating wheel 2-12 is fixedly connected to an output shaft of an input motor 2-11, the right end of the right end push rod 2-6 is slidably connected into a sliding hole 1-3 at the left end of the feed bin, the sleeve spring 2-8 is arranged between a right end inclined plane push plate 2-5 and the left end of a spring feed bin body 1-1, and the right end plate 2-7 is arranged at the lower end of the spring feed bin body;

the right end of the right end push rod 2-6 can be conveniently connected in the sliding hole 1-3 at the left end of the feed bin in a sliding manner; the sleeve spring 2-8 can be conveniently arranged between the right inclined plane push plate 2-5 and the left end of the spring feed bin body 1-1; the right end plate 2-7 can be conveniently arranged at the lower end of the spring feeding bin body 1-1.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-14, and the embodiment further describes the first embodiment, the transportation assembly 3 includes a transportation fixing rod 3-1, a transportation belt 3-2, a roller i 3-3 and a roller ii 3-4, the roller i 3-3 and the roller ii 3-4 are respectively rotatably connected to the left and right ends of the transportation fixing rod 3-1, the left and right ends of the inner wall of the transportation belt 3-2 are respectively connected to the roller i 3-3 and the roller ii 3-4 in an interference fit manner, and the upper end of the transportation fixing rod 3-1 is hinged to the right end of the upper end rod 2-1 of the wall rod;

the upper end of the transportation fixing rod 3-1 can be conveniently hinged to the right end of the wall rod upper end rod 2-1, and the wall rod 2 can be connected with the transportation combination body 3 through the wall rod upper end rod 2-1.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-14, and the embodiment will be further described, wherein the left end adjusting bracket 4 comprises a left end outer side support rod 4-1, an inner end clamping groove 4-2, a middle end push rod 4-3, a middle end inner side spring sleeve 4-4, an upper side push rod 4-5, a side wall slide rod i 4-6, a side wall slide rod ii 4-7, two side wall slide clamp springs 4-8, a bottom end spring 4-9, a side wall slide clamp connecting rod i 4-10, a side wall slide clamp connecting rod ii 4-11, a side wall slide clamp rod i 4-12, a side wall slide clamp rod ii 4-13, a side wall slide clamp rod body 4-15, a side wall slide clamp rod inner cavity 4-16, a side wall slide clamp rod hinge end 4-17, a non-slip plate i 4-18, an inner end slide plate 4-19, and a hollow inner end of the left end outer side support rod 4-, the inner end clamping grooves 4-2 are provided with a plurality of inner end clamping grooves 4-2 which are uniformly arranged at the left side and the right side of the inner wall of the left end outer side supporting rod 4-1, the middle end push rod 4-3 is connected with the left end outer side supporting rod 4-1 in a sliding fit manner, the middle end inner side sleeve spring 4-4 is sleeved on the middle end push rod 4-3, the lower end of the middle end push rod 4-3 is connected with the inner end sliding plate 4-19 in a clearance fit manner, the middle end inner side sleeve spring 4-4 is arranged between the inner end sliding plate 4-19 and the left end outer side supporting rod 4-1, the upper side push rod 4-5 is connected with the middle end push rod 4-3 in a sliding fit manner, the side wall slide rod I4-6 and the side wall slide rod II 4-7 are respectively and fixedly connected with the left side and the right side of the middle end push rod 4-3, the two side, the bottom end spring 4-9 is arranged at the lower end of the upper side push rod 4-5, the bottom end spring 4-9 is in a compressed state, the lower ends of the side wall sliding clamping connecting rod II 4-11 and the side wall sliding clamping rod I4-12 are hinged to the lower end of the upper side push rod 4-5, the upper end of the side wall sliding clamping connecting rod II 4-11 is hinged to the lower end of the side wall sliding clamping rod II 4-13, the upper end of the side wall sliding clamping connecting rod II 4-12 is hinged to the upper end of the lower end of the side wall sliding clamping rod I4-12 and is hinged to the lower end of the side wall sliding clamping rod I4-12, the side wall sliding clamping rod I4-12 and the side wall sliding clamping rod II 4-13 are respectively and slidably connected to the side wall sliding rod I4-6 and the side wall sliding rod II 4-7, the side wall sliding clamping, the side wall sliding and clamping rod I4-12 and the side wall sliding and clamping rod II 4-13 are connected in the inner end clamping groove 4-2 in a matching mode, the anti-slip plate I4-18 is hinged to the lower end of the inner end sliding plate 4-19, and the upper end of the left end outer side supporting rod 4-1 is hinged to the front side of the left end of the transportation fixing rod 3-1;

the upper end of the left-end outer side supporting rod 4-1 can be conveniently hinged to the front side of the left end of the transportation fixing rod 3-1, and the transportation combination body 3 can be connected with the left-end adjusting bracket 4 through the transportation fixing rod 3-1.

The sixth specific implementation mode:

the embodiment is described below by combining with figures 1-14, and the embodiment further describes the first embodiment, wherein the right end adjusting bracket 5 comprises a right end adjusting rod 5-1, a locking screw rod 5-2, a right end inner sliding rod 5-3, a middle side hinged rod 5-4, a non-slip plate II 5-5, a right end adjusting rod inner cavity 5-6 and a side wall threaded hole 5-7, the inner end of the right end adjusting rod 5-1 is hollow, the right end inner sliding rod 5-3 is connected with the right end adjusting rod 5-1 in a sliding manner, the side wall threaded hole 5-7 is uniformly arranged on the right end adjusting rod 5-1, the locking screw rod 5-2 is connected in the side wall threaded hole 5-7 through threads, the upper end and the lower end of the middle side hinged rod 5-4 are respectively hinged to the end inner sliding rod 5-3 and the non, the inner cavity 5-6 of the right end adjusting rod is arranged at the inner end of the right end adjusting rod 5-1, and the upper end of the right end adjusting rod 5-1 is hinged and connected to the transportation fixing rod 3-1;

the upper end of the right end adjusting rod 5-1 can be conveniently hinged on the transportation fixing rod 3-1, and the transportation assembly 3 can be connected with the right end adjusting bracket 5 through the transportation fixing rod 3-1.

The seventh embodiment:

the embodiment is described below with reference to fig. 1-14, and the embodiment further describes the first embodiment, the sorting bin 7 comprises a sorting bin body 7-1, a sorting plate 7-2, a sorting slide bar 7-3, a sorting plate fixing rod 7-4, a sorting plate waist groove 7-5, a sorting plate slide shaft 7-6, a hinged fixing plate 7-7, a sorting plate slide groove 7-8 and a sorting slide bar slide groove 7-9, the inner end of the sorting bin body 7-1 is hollow, the sorting plate 7-2 is connected to the inner end of the sorting bin body 7-1 in a matching manner, the sorting slide bar 7-3 is fixedly connected with the sorting bin body 7-1, the sorting plate fixing rod 7-4 is fixedly connected with the sorting bin body 7-1, the sorting plate waist groove 7-5 is arranged on the sorting plate fixing rod 7-4, the sorting plate sliding shaft 7-6 is slidably connected in the sorting plate waist groove 7-5, the right end of the sorting plate fixing rod 7-4 is hinged to the hinged fixing plate 7-7, the sorting plate sliding groove 7-8 is arranged at the upper end of the sorting plate 7-2, the sorting sliding rod sliding groove 7-9 is arranged at the upper end of the sorting sliding rod 7-3, and the sorting bin body 7-1 is arranged at the right end of the transportation fixing rod 3-1.

The specific implementation mode is eight:

referring to fig. 1 to 14, the present embodiment will be described in detail, and the moving rod assembly 8 includes a planet carrier 8-1, a plurality of planet gears 8-2, three planet carrier fixing rods 8-3, planet gears 8-4, planet gear connecting rods 8-5, an epicyclic rod 8-6, an epicyclic rod slide rod 8-7, an epicyclic rod slide groove 8-8 and an epicyclic rod hinge rod 8-9, wherein a plurality of planet gears 8-2 are uniformly arranged at the inner end of the planet carrier 8-1, the three planet carrier fixing rods 8-3 are fixedly connected to the planet carrier 8-1, the planet gears 8-4 are engaged with the planet gears 8-2, the two ends of the planet gear connecting rods 8-5 are respectively hinged to the planet carrier 8-1 and the planet gears 8-4, the left end of the turnover rod 8-6 is hinged to the planet gear 8-4, the right end of the turnover rod 8-6 is hinged to the lower end of the turnover rod hinged rod 8-9 through a hinged shaft, the right end of the turnover rod 8-6 is connected in the turnover rod sliding groove 8-8 through a hinged shaft in a matched mode, the turnover rod sliding groove 8-8 is formed in the turnover rod sliding rod 8-7, and the upper end of the turnover rod hinged rod 8-9 is fixedly connected with the sorting plate sliding shaft 7-6.

The specific implementation method nine:

the following describes the present embodiment with reference to fig. 1-14, and the present embodiment further describes the first embodiment, where the rack 9 includes a motor fixing frame 9-1, a wall bar fixing frame 9-2, an adjusting bracket fixing rod 9-3, a moving bar fixing frame 9-4, a sorting bin fixing frame 9-5, a hinged fixing plate fixing frame 9-6, a bottom plate 9-7, a revolving bar sliding bar fixing frame 9-9 and a middle end fixing rod 9-10, a wall bar fixing frame 9-2, an adjusting bracket fixing rod 9-3, a moving bar fixing frame 9-4, a sorting bin fixing frame 9-5, a hinged fixing plate fixing frame 9-6, a bottom plate 9-7 and a revolving bar sliding bar fixing frame 9-9 are sequentially and fixedly connected to the motor fixing frame 9-1 from left to right, an input motor 2-11 is fixedly connected to the motor fixing frame 9-1, the left end rod 2-9 is connected to the wall rod fixing frame 9-2 in a sliding mode, the anti-slip plates I4-18 and the anti-slip plates II 5-5 are fixedly connected to the adjusting support fixing rod 9-3, the upper end of the moving rod fixing frame 9-4 is connected to the planet carrier 8-1 in a hinged mode, the upper end of the sorting bin fixing frame 9-5 is fixedly connected to the lower end of the sorting bin body 7-1, the upper end of the turnover rod sliding rod fixing frame 9-9 is fixedly connected to the lower end of the turnover rod sliding rod 8-7, the upper end of the hinge fixing plate fixing frame 9-6 is fixedly connected to the hinge fixing plate 7-7, and the middle end fixing rod 9-10 is fixedly connected to the lower end of the hinge.

The invention relates to a sorting device for damping springs of an electric automobile, which has the working principle that:

when in use, the springs to be sorted are placed at the inner end of the spring feeding bin body 1-1, the inner end sliding rods 1-6-3 are manually pressed downwards to enable the inner end sliding rods 1-6-3 to drive the arc-shaped clamping rods 1-6-2 to move upwards through the hinged connecting rods I1-6-5 and the hinged connecting rods II 1-6-6, so that the arc-shaped clamping grooves 1-6-7 on the arc-shaped clamping rods 1-6-2 are separated from the arc-shaped rod body clamping grooves 1-7-2, the connecting rod body 1-6-1 is manually rotated, the bin door panel 1-4 slides along the middle end sliding cavity 1-5-3 through the connection between the connecting rod body 1-6-1 and the bin door panel 1-4, the effective area of the bin door panel 1-4 for shielding the springs into the bin body 1-1 is changed, the sorting rate of the damping springs is changed by changing the discharge amount of the damping springs through the change of the spring flow of the cabin door plates 1-4; starting an input motor 2-11, driving a left end rod 2-9 to slide to the right side along a wall rod fixing frame 9-2 by the input motor 2-11 through a motor connecting rod 2-10, enabling a middle end roller cone 2-3 to move vertically upwards through extrusion among a middle end roller cone 2-3, a left end inclined plane push plate 2-4 and a right end inclined plane push plate 2-5, pushing the left end of a wall rod upper end rod 2-1 to turn upwards around the hinge joint of the wall rod upper end rod 2-1 and a feeding bin left end hinge rod 1-2 through a middle end hinge rod 2-2, enabling the joint of the wall rod upper end rod 2-1 and a transport fixing rod 3-1 to turn upwards in guess, enabling the left end of the transport fixing rod 3-1 to be higher than the right end of the transport fixing rod 3-1, driving a roller I3-3 to rotate through an input rotating wheel 2-12 and a driving belt by the input motor 2-11, the roller I3-3 rotates to drive the conveying belt 3-2 to rotate, the left end of the conveying fixed rod 3-1 is higher than the right end of the conveying fixed rod 3-1, so that the conveying belt 3-2 can slide off from the right end of the conveying belt 3-2 more easily, when a spring collides with the conveying belt 3-2, kinetic energy generated by collision is released by compressing the middle-end inner sleeve spring 4-4 through the left-end outer side support rod 4-1, the spring can be prevented from splashing when falling onto the conveying belt 3-2, and meanwhile vibration generated in the sorting process can be reduced; the spring falls into a sorting bin body 7-1 through a conveying belt 3-2, meanwhile, a roller II 3-4 drives a planet carrier 8-1 to rotate around a hinged fixing plate fixing frame 9-6 through a synchronous belt 6, the planet carrier 8-4 rotates on the planet carrier 8-4 through meshing transmission between the planet carrier 8-2 and the planet gear 8-4, the planet gear 8-4 moves on the planet gear 8-4 in a circulating mode, the circulating rod 8-6 drives a circulating rod hinged rod 8-9 to move transversely along a circulating rod sliding groove 8-8 through a hinged joint between the planet gear 8-4 and a circulating rod 8-6, the sorting plate sliding shaft 7-6 slides in a sorting plate waist groove 7-5 through fixed connection between the circulating rod hinged rod 8-9 and the sorting plate sliding shaft 7-6, and the sorting plate fixing rod 7-4 rotates around the sorting plate fixing rod 7-4 and the hinged fixing plate 7-4 The hinged part of the sorting plate 7-2 swings up and down to enable the sorting plate 7-2 to move along with the driving of the fixed rod 7-4, when the sorting plate 7-2 swings to the lowest end, the spring falls into a sorting plate chute 7-8 on the sorting plate 7-2, when the sorting plate 7-2 swings to the highest end, the spring falling into the sorting plate chute 7-8 falls into a sorting chute 7-3 along the sorting plate chute 7-8 and flows out of the device through the sorting chute 7-3 to be collected, and the spring which does not meet the specification is left in the sorting bin body 7-1, so that the sorting process of the spring is realized.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (1)

1. The utility model provides an electric automobile damping spring's sorting unit, includes that the spring goes into feed bin (1), wall pole (2), transportation assembly (3), left end regulation support (4), right-hand member regulation support (5), hold-in range (6), sorting bin (7), motion rod assembly (8) and frame (9), its characterized in that: the spring feeding bin (1) comprises a spring feeding bin body (1-1), a feeding bin left end hinged rod (1-2), a feeding bin left end sliding hole (1-3), a bin door plate (1-4), a bin door plate sliding frame (1-5), a right end connecting rod (1-6) and an arc rod (1-7), wherein the right end connecting rod (1-6) comprises a connecting rod body (1-6-1), an arc clamping rod (1-6-2), an inner end sliding rod (1-6-3), an inner end compression spring (1-6-4), a hinged connecting rod I (1-6-5), a hinged connecting rod II (1-6-6), an arc clamping groove (1-6-7), a hinged connecting rod waist groove I (1-6-8), A hinge connecting rod waist groove II (1-6-9), a hinge connecting rod waist groove III (1-6-10) and a hinge connecting rod waist groove IV (1-6-11), an inner end sliding rod (1-6-3) is connected with the connecting rod body (1-6-1) in a sliding way, an arc-shaped clamping rod (1-6-2) is arranged at the front end of the connecting rod body (1-6-1), an inner end compression spring (1-6-4) is arranged between the connecting rod body (1-6-1) and the inner end sliding rod (1-6-3), the inner end compression spring (1-6-4) is in a compressed state, the hinge connecting rod waist groove I (1-6-8) and the hinge connecting rod waist groove II (1-6-9) are both arranged on the hinge connecting rod II (1-6-6), the articulated connecting rod waist grooves III (1-6-10) and the articulated connecting rod waist grooves IV (1-6-11) are all arranged on the articulated connecting rods I (1-6-5), the articulated connecting rods I (1-6-5) and II (1-6-6) are rotatably connected to the lower ends of the inner end sliding rods (1-6-3), the connecting rod body (1-6-1) is in fit connection with the articulated connecting rod waist grooves I (1-6-8) and the articulated connecting rod waist grooves IV (1-6-11) through articulated columns, the left end and the right end of the arc clamping rods (1-6-2) are in clearance fit connection with the articulated connecting rod waist grooves III (1-6-10) and the articulated connecting rod waist grooves IV (1-6-11) through the articulated columns, and the arc clamping grooves (1-6-7) are arranged below the arc clamping rods (1-6-2) A terminal; the cabin door plate sliding frame (1-5) comprises a cabin door plate sliding frame upper plate (1-5-1), a cabin door plate sliding frame lower plate (1-5-2) and a middle end sliding cavity (1-5-3), the cabin door plate sliding frame upper plate (1-5-1) is fixedly connected to the upper end of the cabin door plate sliding frame lower plate (1-5-2), the middle end sliding cavity (1-5-3) is arranged between the cabin door plate sliding frame upper plate (1-5-1) and the cabin door plate sliding frame lower plate (1-5-2), the arc-shaped rod (1-7) comprises an arc-shaped rod body (1-7-1) and a plurality of arc-shaped rod body clamping grooves (1-7-2), and the plurality of arc-shaped rod body clamping grooves (1-7-2) are uniformly arranged at the outer end of the arc-shaped rod body (1-7-1), the left end hinge rod (1-2) of the feeding bin is fixedly connected to the left end of the spring feeding bin body (1-1), the left end sliding hole (1-3) of the feeding bin is formed in the left end of the spring feeding bin body (1-1), the bin door plate (1-4) is slidably connected into the middle end sliding cavity (1-5-3), the lower end of the connecting rod body (1-6-1) is hinged to the right end of the bin door plate (1-4), the middle end of the connecting rod body (1-6-1) is hinged to the outer wall of the right end of the spring feeding bin body (1-1), and the arc-shaped clamping grooves (1-6-7) are matched with the arc-shaped rod body clamping grooves (1-7-2) respectively;

the wall rod (2) comprises a wall rod upper end rod (2-1), a middle end hinged rod (2-2), a middle end roller cone (2-3), a left end inclined plane push plate (2-4), a right end inclined plane push plate (2-5), a right end push rod (2-6), a right end plate (2-7), a sleeve spring (2-8), a left end rod (2-9), a motor connecting rod (2-10), an input motor (2-11) and an input rotating wheel (2-12), wherein the upper end of the middle end hinged rod (2-2) is hinged to the middle end of the wall rod upper end rod (2-1), the middle end roller cone (2-3) is fixedly connected to the lower end of the middle end hinged rod (2-2), the left end inclined plane push plate (2-4) is fixedly connected with the left end rod (2-9), the right end inclined plane push plate (2-5) is fixedly connected with the right end push rod (2-6), the right end plate (2-7) is fixedly connected to the right end of the right end push rod (2-6), a sleeve spring (2-8) is sleeved on the right end push rod (2-6), one end of a motor connecting rod (2-10) is hinged to the left end of the left end rod (2-9), the other end of the motor connecting rod (2-10) is hinged to an input rotating wheel (2-12), the input rotating wheel (2-12) is fixedly connected to an output shaft of an input motor (2-11), the right end of the right end push rod (2-6) is slidably connected into a sliding hole (1-3) at the left end of the feed bin, the sleeve spring (2-8) is arranged between the right end inclined plane push plate (2-5) and the left end of the spring feed bin body (1-1), and the right end plate (2-7) is arranged at the lower end of the spring feed bin body (1-1);

the conveying assembly (3) comprises a conveying fixing rod (3-1), a conveying belt (3-2), a roller I (3-3) and a roller II (3-4), the roller I (3-3) and the roller II (3-4) are respectively and rotatably connected to the left end and the right end of the conveying fixing rod (3-1), the left end and the right end of the inner wall of the conveying belt (3-2) are respectively connected to the roller I (3-3) and the roller II (3-4) in an interference fit mode, and the upper end of the conveying fixing rod (3-1) is hinged to the right end of an upper end rod (2-1) of the wall rod;

the left end adjusting bracket (4) comprises a left end outer side supporting rod (4-1), an inner end clamping groove (4-2), a middle end push rod (4-3), a middle end inner side sleeve spring (4-4), an upper side push rod (4-5), a side wall slide rod I (4-6), a side wall slide rod II (4-7), two side wall slide clamp springs (4-8), a bottom end spring (4-9), a side wall slide clamp connecting rod I (4-10), a side wall slide clamp connecting rod II (4-11), a side wall slide clamp rod I (4-12), a side wall slide clamp rod II (4-13), a side wall slide clamp rod body (4-15), a side wall slide clamp rod inner cavity (4-16), a side wall slide clamp rod hinged end (4-17), an anti-slip plate I (4-18) and an inner end sliding plate (4-19), the inner end of the left-end outer side supporting rod (4-1) is hollowed, a plurality of inner end clamping grooves (4-2) are arranged on the left side and the right side of the inner wall of the left-end outer side supporting rod (4-1), the middle-end push rod (4-3) is connected with the left-end outer side supporting rod (4-1) in a sliding fit mode, the middle-end inner side sleeving spring (4-4) is sleeved on the middle-end push rod (4-3), the lower end of the middle-end push rod (4-3) is connected with the inner end sliding plate (4-19) in a clearance fit mode, the middle-end inner side sleeving spring (4-4) is arranged between the inner end sliding plate (4-19) and the left-end outer side supporting rod (4-1), the upper side push rod (4-5) is connected with the middle-end push rod (4-3) in a sliding fit mode, and the side wall slide rod I (4-6) and the side wall II (4-7) are fixedly Two side wall sliding clamp springs (4-8) are respectively arranged at the left side and the right side of the side wall sliding rod I (4-6) and the side wall sliding rod II (4-7), a bottom end spring (4-9) is arranged at the lower end of the upper side push rod (4-5), the bottom end spring (4-9) is in a compressed state, the lower ends of the side wall sliding clamp connecting rod II (4-11) and the side wall sliding clamp rod I (4-12) are hinged to the lower end of the upper side push rod (4-5), the upper end of the side wall sliding clamp connecting rod II (4-11) is hinged to the lower end of the side wall sliding clamp rod II (4-13), the upper end of the side wall sliding clamp connecting rod I (4-10) is hinged to the lower end of the side wall sliding clamp rod I (4-12), the side wall sliding clamp rod I (4-12) and the side wall sliding clamp rod II (4-13) are respectively and slidably connected to the side wall sliding clamp rods I (4- The upper part of the conveying fixed rod (3-1) is provided with a side wall sliding and clamping rod I (4-12) and a side wall sliding and clamping rod II (4-13), which are respectively connected with an inner end sliding plate (4-19) in a matching way, the side wall sliding and clamping rod I (4-12) and the side wall sliding and clamping rod II (4-13) are both connected in an inner end clamping groove (4-2) in a matching way, a non-slip plate I (4-18) is hinged to the lower end of the inner end sliding plate (4-19), and the upper end of a left end outer side supporting rod (4-1) is hinged to the front side of the left end of;

the right end adjusting support (5) comprises a right end adjusting rod (5-1), a locking screw rod (5-2), a right end inner sliding rod (5-3), a middle side hinged rod (5-4), a non-slip plate II (5-5), a right end adjusting rod inner cavity (5-6) and a side wall threaded hole (5-7), wherein the inner end of the right end adjusting rod (5-1) is hollow, the right end inner sliding rod (5-3) is in sliding connection with the right end adjusting rod (5-1), the side wall threaded hole (5-7) is uniformly formed in the right end adjusting rod (5-1), the locking screw rod (5-2) is connected in the side wall threaded hole (5-7) through threads, the upper end and the lower end of the middle side hinged rod (5-4) are respectively hinged to the end inner sliding rod (5-3) and the non-slip plate II (5, the inner cavity (5-6) of the right end adjusting rod is arranged at the inner end of the right end adjusting rod (5-1), and the upper end of the right end adjusting rod (5-1) is hinged and connected to the transportation fixing rod (3-1);

the sorting bin (7) comprises a sorting bin body (7-1), a sorting plate (7-2), a sorting slide rod (7-3), a sorting plate fixing rod (7-4), a sorting plate waist groove (7-5), a sorting plate slide shaft (7-6), a hinged fixing plate (7-7), a sorting plate chute (7-8) and a sorting slide rod chute (7-9), wherein the inner end of the sorting bin body (7-1) is hollowed, the sorting plate (7-2) is connected to the inner end of the sorting bin body (7-1) in a matching manner, the sorting slide rod (7-3) is fixedly connected with the sorting bin body (7-1), the sorting plate fixing rod (7-4) is fixedly connected with the sorting bin body (7-1), the sorting plate waist groove (7-5) is arranged on the sorting plate fixing rod (7-4), a sorting plate sliding shaft (7-6) is slidably connected in a sorting plate waist groove (7-5), the right end of a sorting plate fixing rod (7-4) is hinged to a hinged fixing plate (7-7), a sorting plate sliding groove (7-8) is arranged at the upper end of a sorting plate (7-2), a sorting sliding rod sliding groove (7-9) is arranged at the upper end of a sorting sliding rod (7-3), and a sorting bin body (7-1) is arranged at the right end of a transportation fixing rod (3-1);

the moving rod assembly (8) comprises a planet carrier (8-1), a plurality of planet gears (8-2), three planet carrier fixing rods (8-3), planet gears (8-4), planet gear connecting rods (8-5), a turnover rod (8-6), a turnover rod sliding rod (8-7), a turnover rod sliding groove (8-8) and a turnover rod hinge rod (8-9), the planet gears (8-2) are uniformly arranged at the inner end of the planet carrier (8-1), the three planet carrier fixing rods (8-3) are fixedly connected to the planet carrier (8-1), the planet gears (8-4) are meshed with the planet gears (8-2), two ends of the planet gear connecting rods (8-5) are respectively hinged to the planet carrier (8-1) and the planet gears (8-4), the left end of a turnover rod (8-6) is hinged to a planetary gear (8-4), the right end of the turnover rod (8-6) is hinged to the lower end of a turnover rod hinge rod (8-9) through a hinge shaft, the right end of the turnover rod (8-6) is connected in a turnover rod chute (8-8) in a matching mode through the hinge shaft, the turnover rod chute (8-8) is arranged on a turnover rod sliding rod (8-7), and the upper end of the turnover rod hinge rod (8-9) is fixedly connected with a sorting plate sliding shaft (7-6);

the machine frame (9) comprises a motor fixing frame (9-1), a wall bar fixing frame (9-2), an adjusting bracket fixing rod (9-3), a moving bar fixing frame (9-4), a sorting bin fixing frame (9-5), a hinged fixing plate fixing frame (9-6), a bottom plate (9-7), a turnover bar sliding rod fixing frame (9-9) and a middle fixing rod (9-10), wherein the wall bar fixing frame (9-2), the adjusting bracket fixing rod (9-3), the moving bar fixing frame (9-4), the sorting bin fixing frame (9-5), the hinged fixing plate fixing frame (9-6), the bottom plate (9-7) and the turnover bar sliding rod fixing frame (9-9) are fixedly connected to the motor fixing frame (9-1) from left to right in sequence, and an input motor (2-11) is fixedly connected to the motor fixing frame (9-1), the left end rod (2-9) is connected to a wall rod fixing frame (9-2) in a sliding mode, an anti-slip plate I (4-18) and an anti-slip plate II (5-5) are fixedly connected to an adjusting support fixing rod (9-3), the upper end of a moving rod fixing frame (9-4) is connected to a planet carrier (8-1) in a hinged mode, the upper end of a sorting bin fixing frame (9-5) is fixedly connected to the lower end of a sorting bin body (7-1), the upper end of a turnover rod sliding rod fixing frame (9-9) is fixedly connected to the lower end of a turnover rod sliding rod (8-7), the upper end of a hinge fixing frame (9-6) is fixedly connected to a hinge fixing plate (7-7), and a middle end fixing rod (9-10) is fixedly connected to the lower end of a bin inlet hinge rod (1-2;

feed bin (1) and wall pole (2) are articulated to be connected are gone into to the spring, transportation assembly (3) are articulated with wall pole (2) and are connected, support (4) and transportation assembly (3) fixed connection are adjusted to the left end, support (5) are adjusted to the right-hand member and transportation assembly (3) are articulated to be connected, hold-in range (6) are connected on wall pole (2) and motion pole assembly (8) through transportation assembly (3), frame (9) fixed connection is gone into feed bin (1) at the spring, wall pole (2), transportation assembly (3), support (4) are adjusted to the left end, support (5) are adjusted to the right-hand member, hold-in range (6), select separately storehouse (7), the lower extreme of motion pole assembly (8).

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