CN213887195U - Full-automatic quick sorting machine - Google Patents

Abstract

The utility model relates to the technical field of bamboo processing, in particular to a full-automatic quick sorting machine, which comprises a feeding device, a measuring device, a material distributing device and a control box; the measuring device is provided with an inner measuring instrument and an outer measuring instrument for thickness detection, and the thickness of the bamboo tube wall is accurately calculated through data comparison of the inner measuring instrument and the outer measuring instrument; the material distributing device is provided with a guide rail type operation, so that the blanking speed of bamboo materials can be increased; the material distributing device adopts the servo motor to provide power, the planetary reducer is arranged at the output end of the servo motor, and the output end of the planetary reducer is connected with the synchronous shaft through the coupler, so that the adjusting precision of the servo motor is improved; the whole machine is easy to assemble and disassemble, safe and convenient to operate and suitable for batch production.

Description

Full-automatic quick sorting machine

Technical Field

The utility model relates to a bamboo timber processing technology field, concretely relates to full-automatic quick sorting machine.

Background

Along with the continuous improvement of living standard of people, the consciousness of green environmental protection is more and more emphasized, bamboo is used as building materials and daily necessities such as brooms, tables and chairs, and common rural areas such as bamboo baskets, basket backs, vegetable baskets and mats can also be woven, bamboo is widely applied to the field of close-fitting textiles such as home textiles, socks and underwear, and the demand of the market for bamboo products is more and more increased.

The existing bamboo sorting machine generally mainly adopts a large production line, most bamboo sorting machines have complex structures, higher manufacturing cost and lower sorting efficiency, and cannot be popularized and applied. Therefore, most enterprises adopt manual sorting, the labor intensity is high, the production efficiency is low, and economic, quick and accurate sorting is difficult to realize.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic quick sorting machine solves artifical letter sorting among the prior art, and intensity of labour is big, and production efficiency is low, is difficult to realize the problem of economy, quick, accurate letter sorting.

In order to achieve the purpose, the utility model provides a full-automatic quick sorting machine, including loading attachment, measuring device, feed divider and control box, loading attachment is equipped with the flourishing material subassembly that is used for accepting measuring device, and feed divider connects loading attachment's discharge end, the control box passes through control circuit and controls loading attachment, measuring device and feed divider respectively.

The measuring device comprises an inner measuring support, an inner measuring instrument cylinder, a hole probing cylinder, an inner measuring instrument, an outer measuring instrument cylinder, a material pressing cylinder, a measuring arm, an outer measuring instrument and a measuring frame, wherein the inner measuring support is provided with a first accommodating cavity for accommodating the hole probing cylinder, the first accommodating cavity is provided with a probe through hole for facilitating the probe of the hole probing cylinder to stretch, an inner output rod of the inner measuring instrument cylinder is abutted against the inner measuring support, an inner output part of the inner measuring instrument is connected with the inner measuring support, an outer output rod of the outer measuring instrument cylinder is abutted against the measuring arm, the material pressing cylinder is arranged at the upper end of the measuring arm, a material pressing output rod of the material pressing cylinder is parallel to the measuring arm, an outer output part of the outer measuring instrument is connected with one end of the measuring arm, the measuring frame is provided with a second accommodating cavity, a measuring guide rail is fixed in the second accommodating cavity, the inner measuring support is provided with a sliding groove part matched with the measuring guide rail, the second accommodating cavity is also provided with a long hole which is convenient for the probe to move up and down, and the outer side of the long hole is provided with a table part for arranging an outer measuring instrument cylinder and an outer measuring instrument;

feed divider removes frame, axis of rotation, unloading gate, unloading floodgate cylinder, L shape support and synchronizing shaft including dividing material frame, synchronizing wheel bearing group, unloading subassembly, unloading, divide the parallel two material guide rails that are equipped with of material frame, and each divides the material guide rail to be equipped with the hold-in range through the synchronizing wheel bearing group, the unloading subassembly slides and locates on two material guide rails that divide, the support riser of L shape support is fixed in the one corner of feed divider's output, and the support horizontal plate face of L shape support is fixed with servo motor, and servo motor's output is equipped with planetary reducer, and planetary reducer's output passes through the shaft coupling and is connected with the synchronizing shaft, the both ends of synchronizing shaft are passed through two synchronizing wheel bearing group and are rotated and are connected in the hold-in range.

Preferably, the feeding device comprises a feeding rack, wherein the feeding rack is provided with a feeding chute convenient for containing and conveying bamboos and a feeding assembly for conveying the bamboos to the measuring device.

Preferably, the material loading assembly includes assembly support, motor element, drive chain subassembly and triangle chain subassembly, be equipped with the balance plate that is used for placing motor element in the assembly support, two at least triangle chain subassemblies rotate the peripheral hardware through the gear train respectively and are equipped with in the assembly support, and motor element drives triangle chain subassembly through drive chain subassembly, and triangle chain subassembly is violently equipped with a plurality of material loading support piece that is used for conveying the bamboo.

Preferably, the material containing component comprises a material containing shaft and an unloading cylinder, the material containing shaft is rotatably arranged on the assembly support through a bearing set, two ends of the material containing shaft are respectively provided with two supporting pieces for bearing and unloading bamboos, an unloading vertical plate is fixed at one end of the material containing shaft, one end of the unloading cylinder is fixed on the assembly support, and the other end of the unloading cylinder is fixed on the unloading vertical plate.

Preferably, the material pressing output rod is a first arc-shaped rod with a downward opening, and the measuring arm is a second arc-shaped rod with an upward opening.

Preferably, the measuring rack is provided with a guide plate for facilitating the bamboo material to slide into the measuring device, and the measuring rack is provided with a rear cover.

Preferably, the unloading subassembly includes that the unloading removes frame, axis of rotation, unloading gate and unloading floodgate cylinder, the unloading removes the frame and slides through two chute spare and locate two and divide the material guide rail on, the axis of rotation is located in the unloading gate activity, and the both ends of axis of rotation are fixed in the unloading through two bearings respectively and remove the frame, and the one end of unloading floodgate cylinder is fixed in the unloading and removes the frame, and the other end butt unloading gate of unloading floodgate cylinder.

Preferably, still include the protecting wire tow chain, the unloading removes the frame is located to protecting wire tow chain one end, and its other end is established in the one corner of dividing the material frame.

Preferably, the synchronizing wheel bearing group includes two universal bearings and synchronizing wheel, and two universal bearings pass through minor axis swing joint, and the synchronizing wheel is located between two universal bearings, and universal bearing passes through screw assembly to be fixed in and divides the material frame, and hold-in range swing joint is between two synchronizing wheels.

Preferably, the material distributing guide rail is an optical axis guide rail or a linear guide rail, and the blanking brake cylinder is a circular cylinder or a square cylinder.

The utility model has the advantages that:

1. the thickness detection is carried out by arranging an inner measuring instrument and an outer measuring instrument, the thickness of the wall of the bamboo barrel is accurately calculated through data comparison of the inner measuring instrument and the outer measuring instrument, a material pressing cylinder and a guide plate are arranged on a measuring rack, bamboo materials are quickly guided in and positioned, and the measuring speed is accelerated; the two guide rails are arranged on the material distribution rack in parallel, the blanking assembly is arranged on the two guide rails in a sliding mode through the two sliding groove pieces, and the guide rail type operation improves the blanking speed of the bamboo material;

2. the servo motor is adopted to provide power, and the servo motor can adjust the operation according to signals sent by the control system, so that adjustable sorting is realized; the output end of the servo motor is provided with the planetary reducer, the output end of the planetary reducer is connected with the synchronous shaft through the coupler, the planetary reducer is compact in structure, small in return clearance and high in precision, the planetary reducer improves the adjustment precision of the servo motor, high-precision sorting is realized, the servo motor is protected, the operation time of the servo motor is prolonged, and the production capacity is improved;

3. the whole machine is installed in a component mode, the structure is simple, the assembly and disassembly are easy, the operation is safe and convenient, the manufacturing cost is low, and the machine is suitable for batch production.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a perspective view of the feeding device of the present invention;

FIG. 3 is a lower oblique view of the feeding device of the present invention;

fig. 4 is a side view of the feeding device of the present invention;

fig. 5 is a partially exploded view of a measuring device according to the present invention;

fig. 6 is a perspective view of the measuring device of the present invention;

fig. 7 is a partially exploded oblique rear view of the measuring device of the present invention;

fig. 8 is an exploded view of components of the measuring device of the present invention;

fig. 9 is an exploded view of the material separating device of the present invention;

fig. 10 is a schematic structural diagram of a part of the material separating device of the present invention.

The reference numbers illustrate: 1-a loading device, 2-a measuring device, 3-a distributing device, 4-a control box, 11-a material containing component, 12-a loading frame, 13-a loading groove, 14-a loading assembly, 21-an inner measuring bracket, 22-an inner measuring cylinder, 23-a hole probing cylinder, 24-an inner measuring instrument, 25-an outer measuring cylinder, 26-a material pressing cylinder, 27-a measuring arm, 28-an outer measuring instrument, 29-a measuring frame, 31-a distributing frame, 32-a synchronizing wheel bearing set, 33-a blanking component, 38-L-shaped bracket, 39-a synchronizing shaft, 111-a material containing shaft, 112-a discharging cylinder, 113-a supporting component, 114-a discharging vertical plate, 141-an assembly bracket, 142-a motor component and 143-a driving chain component, 144-triangle chain component, 145-balance plate, 146-material loading support piece, 211-first containing cavity, 212-sliding groove part, 221-inner output rod, 231-probe, 241-inner output part, 251-outer output rod, 261-material pressing output rod, 271-second arc rod, 281-outer output part, 291-second containing cavity, 292-measuring guide rail, 293-guide plate, 294-rear cover, 295-vertical plate, 296-transverse plate, 321-synchronous belt, 322-universal bearing, 323-synchronous wheel, 331-material loading moving frame, 332 rotating shaft, 333-material loading gate, 334-material loading gate cylinder, 335-sliding groove piece, 341-material distributing guide rail, 342-wire protecting drag chain, 391-servo motor, 392-planetary reducer, 393-coupler, 1421-three-phase asynchronous motor, 1422-speed reducer, 2111-probe through hole, 2611-first arc rod and 2911-long hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that if the embodiments of the present invention are described with reference to "first", "second", etc., the description of "first", "second", etc. is only for descriptive purposes and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

Examples

Referring to fig. 1 to 10, the present embodiment provides a full-automatic fast sorting machine, as shown in fig. 1, which includes a feeding device 1, a measuring device 2, a material distributing device 3 and a control box 4, wherein the feeding device 1 is provided with a material containing assembly 11 for receiving the measuring device 2, the material distributing device 3 is connected to a discharging end of the feeding device 1, and the control box 4 controls the feeding device 1, the measuring device 2 and the material distributing device 3 through a control circuit respectively.

As shown in fig. 5, the measuring device 2 includes an inner measuring bracket 21, an inner measuring instrument cylinder 22, a hole-detecting cylinder 23, an inner measuring instrument 24, an outer measuring instrument cylinder 25, a material-pressing cylinder 26, a measuring arm 27, an outer measuring instrument 28, and a measuring frame 29, as shown in fig. 8, the inner measuring bracket 21 is provided with a first accommodating cavity 211 for accommodating the hole-detecting cylinder 23, the first accommodating cavity 211 is provided with a probe through hole 2111 for facilitating extension and retraction of a probe 231 of the hole-detecting cylinder 23, an inner output rod 221 of the inner measuring instrument cylinder 22 abuts against the inner measuring bracket 21, an inner output portion 241 of the inner measuring instrument 24 is connected to the inner measuring bracket 21, and the inner measuring instrument 24 records displacement of the measuring bracket 21, that is, up-and-down displacement of the probe 231.

The outer output rod 251 of the outer measuring instrument cylinder 25 abuts against the measuring arm 27, the outer output rod 251 pushes the measuring arm 27 to move upwards under the operation of the outer measuring instrument cylinder 25, the swaging cylinder 26 is arranged at the upper end of the measuring arm 27, the swaging output rod 261 of the swaging cylinder 26 is parallel to the measuring arm 27, the outer output part 281 of the outer measuring instrument 28 is connected with one end of the measuring arm 27, and the outer measuring instrument 28 records the displacement generated by the measuring arm 27.

As shown in fig. 7, the measuring rack 29 is provided with a second accommodating cavity 291, the second accommodating cavity 291 may be a rectangular cavity, which facilitates the production of the rack and the installation of the components, the measuring guide rail 292 is fixed in the second accommodating cavity 291, the inner measuring bracket 21 is provided with a sliding groove portion 212 matching with the measuring guide rail 292, the second accommodating cavity 291 is further provided with a long hole 2911 facilitating the up-and-down movement of the probe 231, a table portion for placing the outer measuring instrument cylinder 25 and the outer measuring instrument 28 is provided outside the long hole 2911, and the outer measuring instrument cylinder 25 and the outer measuring instrument 28 may be fixed on the table portion by a screw assembly, so as to assemble, disassemble and replace the components.

The working principle of the measuring device 2 is as follows: when the bamboo tube enters the measuring area, the pressing cylinder 26 is firstly pressed down to adjust the position of fixing the bamboo tube, and then the probe 231 of the hole probing cylinder 23 extends into the bamboo tube. The inner measuring instrument cylinder 22 and the outer measuring instrument cylinder 25 operate simultaneously, the measuring arm 27 pushes the outer wall of the bamboo tube upwards under the propelling action of the outer measuring instrument cylinder 25, meanwhile, the probe 231 is pressed to the inner wall of the bamboo tube under the propelling action of the inner measuring instrument cylinder 22, and the thickness of the bamboo tube wall is accurately calculated through data comparison of the inner measuring instrument and the outer measuring instrument.

As shown in fig. 9, the material distributing device 3 includes a material distributing frame 31, a synchronizing wheel bearing set 32, a material distributing assembly 33, a material distributing moving frame 331, a rotating shaft 332, a material distributing gate 333, a material distributing gate cylinder 334, an L-shaped bracket 38 and a synchronizing shaft 39, wherein the material distributing frame 31 is provided with two material distributing guide rails 341 in parallel, each material distributing guide rail 341 is provided with a synchronizing belt 321 through the synchronizing wheel bearing set 32, the material distributing assembly 33 is slidably provided on the two material distributing guide rails 341, and the material distributing guide rails 34 function as a guide to enable the material distributing assembly 33 to stably slide, thereby increasing the operating speed of the material distributing assembly 33.

As shown in fig. 10, a support vertical plate of the L-shaped support 38 is fixed at one corner of the output end of the material distributing device 3 through a screw assembly, that is, the support vertical plate of the L-shaped support 38 is fixed at one corner of the material receiving end of the material distributing frame 31, a servo motor 391 is fixed on a transverse plate surface of the L-shaped support 38, the servo motor 391 can transmit signals to a control system at any time, meanwhile, the servo motor 391 can adjust operation according to the signals given by the control system, the servo motor 391 can be controlled by a single chip microcomputer, and the operation is simple; the output end of the servo motor 391 is provided with a planetary reducer 392, the support transverse plate of the L-shaped support 38 is provided with a corresponding through hole, the output end of the servo motor 391 penetrates through the through hole to be connected with the planetary reducer 392, the output end of the planetary reducer 392 is connected with the synchronizing shaft 39 through the coupler 393, and two ends of the synchronizing shaft 39 are rotatably connected with the synchronous belt 321 through two synchronizing wheel bearing sets 32.

The working principle of the material distributing device 3 is as follows: when measured bamboos fall into the blanking assembly 33, the servo motor 391 rotates according to the calculation data of the control system, the planetary reducer 392 rotates to drive the synchronous wheel 323 to rotate through the synchronous shaft 39, and the synchronous belt 321 rotates to drive the blanking assembly 33 to move to a specific position; after the blanking assembly 33 reaches the designated position, the blanking gate cylinder 334 retracts, the blanking gate 333 opens, and bamboos with different sizes respectively displace and fall into different material distribution vehicles under the regulation of the control system, wherein the number of the material distribution vehicles is determined according to the regulation of the control system. After the bamboo falls, the blanking gate cylinder 334 extends out, and the blanking gate 333 is closed; the blanking assembly 33 returns to the initial position to await the next action.

Specifically, as shown in fig. 2 and 3, the feeding device 1 comprises a feeding frame 12, the feeding frame 12 is provided with a feeding chute 13 for containing and conveying bamboo and a feeding assembly 14 for conveying the bamboo to the measuring device 2, a feeding port of the feeding chute 13 is higher than a discharging port, the feeding chute 13 is arranged obliquely, and the bamboo can automatically roll to a feeding part of the feeding assembly 14 along the inclined surface of the feeding chute 13.

More specifically, as shown in fig. 4, the feeding assembly 14 includes an assembly support 141, a motor component 142, a driving chain component 143, and a triangular chain component 144, a balance plate 145 for placing the motor component 142 is disposed in the assembly support 141, the motor component 142 includes a three-phase asynchronous motor 1421 and a speed reducer 1422, at least two triangular chain components 144 are respectively disposed outside the assembly support 141 through gear set rotation, the motor component 142 drives the triangular chain component 144 through the driving chain component 143, and the triangular chain component 144 is horizontally provided with a plurality of feeding holders 146 for conveying bamboos.

It should be noted that the material containing component 11 includes a material containing shaft 111 and a discharging cylinder 112, the material containing shaft 111 is rotatably disposed on the assembly bracket 141 through a bearing set, two ends of the material containing shaft 111 are respectively provided with two supporting members 113 for supporting and discharging bamboos, one end of the material containing shaft 111 is fixed with a discharging vertical plate 114, one end of the discharging cylinder 112 is fixed on the assembly bracket 141, and the other end of the discharging cylinder 112 is fixed on the discharging vertical plate 114.

When the whole machine is operated, bamboos are arranged in the feeding groove 13, the three-phase asynchronous motor 1421 rotates to drive the driving chain assembly 143 to rotate through the variable-speed output of the speed reducer 1422, the feeding support member 146 carries the bamboos along with the triangular chain assembly 144 and moves to the top of the assembly support 141, the top of the assembly support 141 is provided with a feeding induction rocker 1441, when the bamboos reach the feeding induction rocker 1441, an induction signal is fed back to the control electronic box 4, the control system transmits the induction signal to the motor assembly 142, the measuring device 2 and the distributing device 3, when the bamboos are driven to the support member 113 through the triangular chain assembly 144, the motor assembly 142 stops operating, the device 2 to be measured finishes measuring the bamboos, the measuring device 2 stops measuring the thickness, the discharging cylinder 112 operates after measuring, pushes the material containing shaft 111 to rotate, then the support member 113 rotates towards the distributing device 3, the bamboos fall downwards to the discharging assembly 33, and after the, the motor assembly 142 is again operational.

It should be noted that, as shown in fig. 6, the swage output rod 261 may be a first arc rod 2611 with a downward opening, and the measuring arm 27 may be a second arc rod 271 with an upward opening, and since the bamboo material is generally cylindrical, the arc swage output rod 261 and the measuring arm 27 can fix the bamboo material more quickly and accurately.

It should be further noted that the measuring rack 29 is provided with a guide plate 293 for facilitating the bamboo material to slide into the measuring device 2, in the actual operation process, the automatic measuring device is usually combined with the feeding device, and the bamboo material in the feeding device is guided by the guide plate 293 to quickly position the bamboo material and accelerate the feeding speed; the measuring rack 29 is provided with a rear cover 294, so that dust and the like are prevented from entering the second accommodating cavity 291 to influence the lubricating degree of the guide rail, and meanwhile, workers are prevented from touching the internal parts to hurt hands; as shown in fig. 7, a vertical plate 295 is arranged in the second accommodating cavity 291, the inner measuring instrument 24 is fixed to the vertical plate 295, the vertical plate 295 is arranged to facilitate installation and positioning of the inner measuring bracket 21, and the vertical plate 295 can be vertically fixed to the horizontal plate 296 by arranging a horizontal plate 296 in the second accommodating cavity 291, so that material consumption of the vertical plate 295 is saved, and a cavity facilitating positioning and assembling of the material pressing cylinder 26 is formed.

Further, the blanking assembly 33 includes a blanking moving frame 331, a rotating shaft 332, a blanking gate 333 and a blanking gate cylinder 334, the diameter of the rotating shaft 332 can be 18mm, 19mm, 20mm, 22mm, 25mm, 26mm, 28mm or 30mm, the blanking moving frame 331 is slidably disposed on the two material dividing guide rails 341 through two sliding groove members 335, the blanking gate 333 is movably disposed on the rotating shaft 332, two ends of the rotating shaft 332 are respectively fixed on the blanking moving frame 331 through two bearings, one end of the blanking gate cylinder 334 is fixed on the blanking moving frame 331, and the other end of the blanking gate cylinder 334 is abutted to the blanking gate 333.

Furthermore, the device also comprises a wire protection drag chain 342, one end of the wire protection drag chain 342 is arranged on the blanking moving frame 331, and the other end is arranged at one corner of the material distribution rack 31, and when the device is operated, the wire protection drag chain 342 protects the circuits of all the electric components.

Still further, as shown in fig. 10, the synchronizing wheel bearing set 32 includes two universal bearings 322 and a synchronizing wheel 323, the two universal bearings 322 are movably connected through a short shaft 324, the synchronizing wheel 323 is disposed between the two universal bearings 322, and the universal bearings 322 are fixed to the material dividing frame 31 through screw components, so that the position of the synchronizing wheel bearing set 322 can be adjusted according to the actual frame of the feeding frame 12, and the position deviation of the blanking component 33 after the whole machine operates for a long time is avoided, and the synchronizing belt 321 is movably connected between the two synchronizing wheels 323.

Further, the material separating guide 341 may be an optical axis guide with a diameter of 25mm, 30mm, 35mm, 40mm or 45mm, or this is a linear guide 14 with a diameter of 15mm, 20mm, 25mm, 30mm, 35mm or 40mm, the universal bearings 322 may be SBR linear bearings with a diameter of 25mm, 30mm, 35mm, 40mm or 45mm, or HGH linear bearings or EGH linear bearings with a diameter of 15mm, 20mm, 25mm, 30mm, 35mm or 40mm, and the blanking gate cylinder 334 is a circular cylinder or a square cylinder.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic quick sorting machine, includes loading attachment (1), measuring device (2), feed divider (3) and control box (4), loading attachment (1) is equipped with flourishing material subassembly (11) that are used for accepting measuring device (2), and the discharge end of loading attachment (1) is connected in feed divider (3), control box (4) are through control circuit control loading attachment (1), measuring device (2) and feed divider (3) respectively, characterized by:

the measuring device (2) comprises an inner measuring support (21), an inner measuring instrument cylinder (22), a hole probing cylinder (23), an inner measuring instrument (24), an outer measuring instrument cylinder (25), a material pressing cylinder (26), a measuring arm (27), an outer measuring instrument (28) and a measuring frame (29), wherein the inner measuring support (21) is provided with a first accommodating cavity (211) for accommodating the hole probing cylinder (23), the first accommodating cavity (211) is provided with a probe through hole (2111) convenient for a probe (231) of the hole probing cylinder (23) to stretch, an inner output rod (221) of the inner measuring instrument cylinder (22) is abutted against the inner measuring support (21), an inner output part (241) of the inner measuring instrument (24) is connected to the inner measuring support (21), an outer output rod (251) of the outer measuring instrument cylinder (25) is abutted against the measuring arm (27), and the material pressing cylinder (26) is arranged at the upper end of the measuring arm (27), a material pressing output rod (261) of the material pressing cylinder (26) is parallel to the measuring arm (27), an outer output part (281) of the outer measuring instrument (28) is connected with one end of the measuring arm (27), the measuring rack (29) is provided with a second accommodating cavity (291), a measuring guide rail (292) is fixed in the second accommodating cavity (291), the inner measuring support (21) is provided with a sliding groove part (212) matched with the measuring guide rail (292), the second accommodating cavity (291) is further provided with a long hole (2911) facilitating the up-and-down movement of the probe (231), and a table part for arranging the outer measuring instrument cylinder (25) and the outer measuring instrument (28) is arranged on the outer side of the long hole (2911);

the material distributing device (3) comprises a material distributing rack (31), a synchronizing wheel bearing group (32), a material discharging assembly (33), a material discharging moving rack (331), a rotating shaft (332), a material discharging gate (333), a material discharging gate cylinder (334), an L-shaped support (38) and a synchronizing shaft (39), wherein the material distributing rack (31) is provided with two material distributing guide rails (341) in parallel, each material distributing guide rail (341) is provided with a synchronous belt (321) through the synchronizing wheel bearing group (32), the material discharging assembly (33) is arranged on the two material distributing guide rails (341) in a sliding mode through two sliding groove pieces (335), a support vertical plate of the L-shaped support (38) is fixed at one corner of the output end of the material distributing device (3), a servo motor (391) is fixed on a support transverse plate surface of the L-shaped support (38), a planetary reducer (392) is arranged at the output end of the servo motor (391), and the output end of the planetary reducer (392) is, and the two ends of the synchronizing shaft (39) are rotationally connected to the synchronous belt (321) through two synchronous wheel bearing sets (32).

2. The fully automatic rapid sorter according to claim 1, wherein: the feeding device (1) comprises a feeding rack (12), wherein the feeding rack (12) is provided with a feeding groove (13) convenient for containing and conveying bamboos and a feeding assembly (14) used for conveying the bamboos to the measuring device (2).

3. The fully automatic rapid sorter according to claim 2, wherein: the feeding assembly (14) comprises an assembly support (141), a motor assembly (142), a driving chain assembly (143) and triangular chain assemblies (144), a balance plate (145) used for placing the motor assembly (142) is arranged in the assembly support (141), at least two triangular chain assemblies (144) are respectively arranged on the assembly support (141) through gear set rotation, the motor assembly (142) drives the triangular chain assemblies (144) through the driving chain assembly (143), and a plurality of feeding supporting pieces (146) used for conveying bamboo are transversely arranged on the triangular chain assemblies (144).

4. A fully automatic rapid sorting machine according to any one of claims 1 to 3, characterised in that: contain material subassembly (11) including containing material axle (111) and discharge cylinder (112), containing material axle (111) is located assembly support (141) through the bearing group rotation, and the both ends of containing material axle (111) are equipped with two holds in the palm piece (113) that are used for accepting and lift the bamboo down respectively, and the one end of containing material axle (111) is fixed with the riser of unloading (114), the one end of discharge cylinder (112) is fixed in assembly support (141), and the other end of discharge cylinder (112) is fixed in the riser of unloading (114).

5. The fully automatic rapid sorter according to claim 1, wherein: the material pressing output rod (261) is a first arc-shaped rod (2611) with a downward opening, and the measuring arm (27) is a second arc-shaped rod (271) with an upward opening.

6. The fully automatic rapid sorting machine according to claim 1, wherein: the measurement rack (29) is provided with a guide plate (293) which is convenient for the bamboo wood to slide into the measurement device (2), and the measurement rack (29) is provided with a rear cover (294).

7. The fully automatic rapid sorter according to claim 1, wherein: unloading subassembly (33) remove frame (331), axis of rotation (332), unloading gate (333) and unloading floodgate cylinder (334) including the unloading, the unloading removes on frame (331) slides and locates two branch material guide rails (341), and axis of rotation (332) are located in unloading gate (333) activity, and the both ends of axis of rotation (332) are fixed in the unloading through two bearings respectively and remove frame (331), and the one end of unloading floodgate cylinder (334) is fixed in the unloading and removes frame (331), and the other end butt unloading gate (333) of unloading floodgate cylinder (334).

8. The fully automatic rapid sorter according to claim 7, wherein: the automatic wire-protecting device is characterized by further comprising a wire-protecting drag chain (342), wherein one end of the wire-protecting drag chain (342) is arranged on the blanking moving frame (331), and the other end of the wire-protecting drag chain is arranged at one corner of the material-distributing rack (31).

9. The fully automatic rapid sorting machine according to claim 1, wherein: synchronizing wheel bearing group (32) include two universal bearing (322) and synchronizing wheel (323), and two universal bearing (322) are through minor axis (324) swing joint, and between two universal bearing (322) was located synchronizing wheel (323), and universal bearing (322) are fixed in branch material frame (31) through screw assembly, and hold-in range (321) swing joint is between two synchronizing wheel (323).

10. The fully automatic rapid sorter according to claim 1, wherein: the material distributing guide rail (341) is an optical axis guide rail or a linear guide rail, and the blanking brake cylinder (334) is a circular cylinder or a square cylinder.

Images