CN210131833U

CN210131833U - Integrated vibrating rice distributing and sweeping and recycling mechanism

Info

Publication number: CN210131833U
Application number: CN201920851514.6U
Authority: CN
Inventors: 吕学庚; 马晓峰; 吕学威
Original assignee: Liaoning Meijun Intelligent Equipment Co ltd
Current assignee: Meijun Intelligent Equipment Panjin Co ltd
Priority date: 2019-06-06
Filing date: 2019-06-06
Publication date: 2020-03-10
Anticipated expiration: 2029-06-06

Abstract

The utility model relates to an integral type vibration cloth rice and sweep rice recovery mechanism, including frame, cloth rice dish, cloth rice unit and sweep rice unit, its technical essential is: rice distributing grooves are uniformly distributed on the upper surface of a rice distributing disc body, an electromagnetic vibration unit is fixed in the middle of the lower surface of the rice distributing disc body, and an execution unit of a rice sweeping unit comprises a gantry type mounting frame, a brush arranged at the lower part of a cross beam of the gantry type mounting frame, linear slide rails fixed on two sides of a rack, a slide block in sliding fit with the linear slide rails, and a proximity switch; the rice distributing unit comprises a cantilever beam arranged on a cross beam of the gantry type mounting frame, a distributing hopper arranged below the tail end of the cantilever beam, a guide rod air cylinder arranged on the cantilever beam, a push-pull assembly connected with the guide rod air cylinder, and a horizontal baffle plate connected with the push-pull assembly and plugged at a discharging opening of the distributing hopper. The device has the advantages of simple structure, small volume, good cloth-rice uniformity, no camera shooting dead angle, stable work, high reliability and contribution to improving the accuracy of detection and analysis results and the detection and analysis efficiency.

Description

Integrated vibrating rice distributing and sweeping and recycling mechanism

Technical Field

The utility model relates to a rice etc. stay embryo rate and garrulous rice rate analysis machine's key mechanism, especially an integral type vibration cloth rice and sweep rice and retrieve mechanism.

Background

As is well known, the embryo remaining rate and the broken rice rate of rice are important indexes affecting the quality and the selling price of rice and are also important indexes reflecting the rice planting level and the rice processing level. The embryo-remaining rate is the percentage of grains in the high-precision rice or finished rice sample that have all or part of the rice embryo left in the sample. The broken rice rate is the percentage of the number of incomplete grains in the total number of grains during the milling process of the rice, and the other concept relative to the broken rice rate is the whole rice rate, i.e., the percentage of the whole grains in the total number of grains. The detection and analysis of the embryo remaining rate and the broken rice rate have important promotion significance and reference value for the improvement of rice production equipment, and are also important bases for classifying rice grades by sales enterprises.

The existing embryo remaining rate and broken rice rate detection and analysis device generally comprises a rack, a rice taking device, a rice distributing device, a recovery device, an image acquisition device and an analysis and calculation terminal connected with the image acquisition device, wherein the rice taking device, the rice distributing device, the recovery device and the image acquisition device are arranged on the rack. The rice is placed into the rice distribution device through the rice taking device, the rice distribution device is vibrated by the driving mechanism of the rice distribution device, the rice is uniformly distributed on a rice distribution disc of the rice distribution device, then the image acquisition device acquires image data of the rice falling into the rice distribution disc and transmits the image data to the analysis and calculation terminal, finally, the analysis and calculation terminal calculates the embryo remaining rate and the broken rice rate, and finally, the recovery device recovers rice grains.

As a key mechanism of the analyzer, the rice distributing device and the recovery device are of a split structure, and the following problems exist:

1. the transmission mechanisms of the rice distributing device and the recovery device need to be respectively configured, so that the structure is complex, the working stability is poor, the occupied space is large, the volume of the analyzer is increased, and the production cost is increased;

2. the rice distribution uniformity of the rice distribution device is poor, and pixel analysis is influenced, so that the accuracy of a detection result is influenced.

Disclosure of Invention

The utility model aims at providing a solve the integral type vibration cloth rice of above-mentioned problem and sweep a meter recovery mechanism, its simple structure, it is small, cloth rice homogeneity is good and do not have the camera and shoot the dead angle, job stabilization, the reliability is high, is favorable to improving the accuracy and the detection and analysis efficiency of detection and analysis result.

The technical scheme of the utility model is that:

the utility model provides an integral type vibration cloth rice and sweep rice recovery mechanism, includes the frame, locate cloth rice dish in the frame, to cloth rice dish ration rice cloth rice unit, with the rice recovery of cloth rice dish sweep rice unit, its technical essential is: the rice distribution disc comprises a disc body, a left baffle and a right baffle which are arranged on two sides of the disc body, rice distribution grooves are uniformly distributed on the upper surface of the disc body, an electromagnetic vibration unit is fixed in the middle of the lower surface of the disc body of the rice distribution disc, and the electromagnetic vibration unit comprises an electromagnetic coil fixedly connected with the disc body, a fixed screw group arranged around the electromagnetic coil, an elastic plate fixed on the fixed screw group, an adsorption block fixed on the side, facing the electromagnetic coil, of the elastic plate, and a balancing weight fixed on the other side of the elastic plate; the rice sweeping unit comprises an execution unit and a driving unit, the execution unit comprises a gantry type mounting frame arranged above the rice distribution disc in a spanning mode, a brush arranged on the lower portion of a cross beam of the gantry type mounting frame, linear slide rails fixed on two sides of the rack, slide blocks arranged on two vertical beam sides of the gantry type mounting frame and in sliding fit with the linear slide rails, and proximity switches arranged at the front end and the rear end of the linear slide rails, the length of the brush is equal to the width of a rice distribution area of the rice distribution disc, and the lower end of the brush extends into the bottom surface of a rice distribution groove; the rice distributing unit comprises a cantilever beam fixed on a cross beam of the gantry type mounting frame, a distributing funnel arranged below the tail end of the cantilever beam, a guide rod air cylinder arranged on the cantilever beam, a push-pull assembly connected with a cylinder rod of the guide rod air cylinder, and a horizontal baffle plate connected with the push-pull assembly and plugged at a blanking opening of the distributing funnel.

The integrated vibrating rice distributing and sweeping and recycling mechanism is characterized in that the distributing hopper is cuboid, the blanking port of the distributing hopper is rectangular, the blanking port is located above the rice distributing disc, and the length direction of the blanking port is parallel to the width direction of the rice distributing disc and the rice distributing area and the length of the blanking port is smaller than the width of the rice distributing disc and the rice distributing area.

In the integrated vibrating rice distributing and sweeping and recycling mechanism, the side surfaces of the left baffle and the right baffle, which are connected with the upper surface of the tray body, are inclined surfaces, the rice distributing grooves are rectangular long grooves, the number of the rice distributing grooves is multiple, the rice distributing grooves are closely arranged, each rice distributing groove is parallel to the length direction of the tray body and extends from the rear end of the tray body to the front end of the tray body, and the advancing direction of the brush is parallel to the length direction of the rice distributing grooves in the rice distributing tray. Because left and right baffle is equipped with the inclined plane that prevents the grain of rice from falling into disk body edge, consequently, guaranteed that the grain of rice can not fall into and shoot the dead angle to the accuracy of testing result has been guaranteed. And the rice-distributing groove is matched with the brush, so that rice can be smoothly and thoroughly swept.

Foretell integral type vibration cloth rice and sweep rice and retrieve mechanism, the preceding, the back both ends lower surface of disk body is fixed with the bracing piece respectively, the both ends of bracing piece are equipped with the spring buffering subassembly of being connected with the frame respectively, the spring buffering subassembly comprises nut fixing bolt, upper and lower buffer spring, the fender lid of suit on fixing bolt, the fender lid is located between nut and the last buffer spring, be equipped with the through-hole that corresponds fixing bolt on the bracing piece, upper and lower buffer spring is with bracing piece centre gripping between them, fixing bolt's end is twisted soon in the frame.

The integrated vibrating rice distributing and sweeping recovery mechanism comprises a synchronous belt mechanism respectively arranged at two sides of a frame, a right-angle connecting plate arranged on the synchronous belt of the synchronous belt mechanism, and a transmission mechanism connected with a synchronous wheel of the synchronous belt mechanism, wherein the right-angle connecting plate is fixedly connected with a vertical beam of a gantry type mounting frame, the transmission mechanism comprises a transmission shaft supported at the rear side of the frame by a belt seat bearing, a driven belt wheel fixed at the middle part of the transmission shaft, a reducing motor fixed at the rear side of the frame, and a driving belt wheel arranged on an output shaft of the reducing motor and connected with the driven belt wheel by a transmission belt, the synchronous wheels of the two synchronous belt mechanisms close to the rear side of the frame are respectively assembled at two ends of the transmission shaft, the synchronous belt mechanism is additionally provided with a tensioning wheel and a transmission guide chain, and the free end of the transmission guide chain is fixedly connected, the fixed end of the transmission guide chain is fixed on the horizontal supporting plates at the two sides of the frame.

In the integrated vibrating rice distributing and sweeping and recycling mechanism, the positions of the frame corresponding to the front end and the rear end of the rice distributing disc are respectively supported with the recycling guide grooves.

According to the integrated vibrating rice distributing and sweeping and recovering mechanism, the push-pull assembly is composed of the vertical plate connected with the cylinder rod of the guide rod cylinder, the left connecting plate and the right connecting plate arranged between the vertical plate and the horizontal baffle, and the side face of the lower end of the distributing funnel is provided with the insertion groove matched with the horizontal baffle.

The utility model has the advantages that:

1. because the surface of the rice distribution disk body is provided with the rice distribution groove, the electromagnetic coil generates magnetic force to attract the adsorption block after being electrified, the adsorption block drives the elastic plate to be close to the electromagnetic coil, the elastic plate is reversely reset under the action of the balancing weight after the electromagnetic coil is powered off, and the motion of the adsorption block, the elastic plate and the balancing weight generates vibration, so that rice grains in a gathering state falling in the middle of the upper surface of the disk body are dispersed along the rice distribution groove, thereby ensuring that the rice distribution is uniform and being beneficial to pixel analysis.

2. Sweep rice mechanism owing to adopt the brush to clean the grain of rice that falls into on the cloth rice dish, reach the purpose of thoroughly clean up cloth rice dish, recovery efficiency is high, is favorable to the analysis by detection once more simultaneously, is favorable to improving the accuracy of analysis by detection machine's detection and analysis result, job stabilization, the reliability is high, long service life.

3. The rice distributing unit is fixed on the gantry type mounting frame of the rice sweeping unit, the rice sweeping unit and the rice sweeping unit are integrated into a whole, the driving unit of the rice sweeping unit is utilized, the structure is simplified, the occupied space is greatly reduced, the production cost is saved, the work is stable, the reliability is high, the service life is long, and the accuracy and the detection and analysis efficiency of detection and analysis results are improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the lower part of the rice distribution plate body of the utility model;

FIG. 3 is an enlarged view of section I of FIG. 1;

FIG. 4 is a schematic structural view of a cloth-rice unit of the present invention;

fig. 5 is a schematic structural view (another perspective view) of the present invention.

In the figure: 1. the device comprises a rack, 2 linear sliding rails, 3 synchronous belt mechanisms, 4 front recovery guide grooves, 5 horizontal supporting plates, 6 transmission guide chains, 7 connecting pieces, 8 right-angle connecting plates, 9 sliding blocks, 10 electromagnetic vibration units, 1001 electromagnetic coils, 1002 adsorption blocks, 1003 balancing weights, 1004 elastic plates, 1005 fixing screw rod groups, 11 tension wheels, 12 spring buffer assemblies, 1201 fixing bolts, 1202 blocking covers, 1203 upper buffer springs, 1204 lower buffer springs, 13 belt seat bearings, 14 transmission shafts, 15 driven pulleys, 16 rear recovery guide grooves, 17 proximity switches, 18 disc bodies, 1801 cloth meter grooves, 19 baffle plates, 20 horizontal baffle plates, 21 connecting plates, 22 hopper cloth, 23 gantry type mounting frames, 24 vertical plates, 25 guide rods, cylinders, 26 cantilever beams, 27 proximity switches, 28 supporting rods, a transmission guide chain, 7 connecting pieces, 8 right-angle connecting plates, 9 sliding blocks, 10 electromagnetic vibration units, 1001 electromagnetic vibration units, 1002 electromagnetic coils, 1002 absorption blocks, 1003 adsorption blocks, 1004 balance weights, 1004 elastic plates, 1005 fixing screw rod groups, 29. The brush, 30, driving pulley, 31, gear motor.

Detailed Description

As shown in fig. 1 and 5, the integrated vibrating rice distributing and sweeping and recycling mechanism comprises a frame 1, a rice distributing disc arranged on the frame 1, a rice distributing unit for quantitatively feeding rice to the rice distributing disc, and a rice sweeping unit for recycling the rice from the rice distributing disc.

The rice distributing disc comprises a disc body 18, and a left baffle plate and a right baffle plate 19 which are arranged on two sides of the disc body 18, wherein rice distributing grooves 1801 are uniformly distributed on the upper surface of the disc body 18, the side surfaces of the left baffle plate and the right baffle plate 19, which are connected with the upper surface of the disc body 18, are inclined planes, the rice distributing grooves 1801 are rectangular long grooves, are a plurality of in number and are closely distributed, and each rice distributing groove 1801 is parallel to the length direction of the disc body 18 and extends to the front end of the disc body 18 from the rear end of the disc body 18, which is shown in fig. 3.

Referring to fig. 2, an electromagnetic vibration unit 10 is fixed to the middle of the lower surface of the rice-husked plate 18, and the electromagnetic vibration unit 10 includes an electromagnetic coil 1001 fixedly connected with the plate 18, a fixing screw set 1005 arranged around the electromagnetic coil 1001, an elastic plate 1004 fixed to the fixing screw set 1005, an adsorption block 1002 fixed to the elastic plate 1004 on the side facing the electromagnetic coil 1001, and a balance weight 1003 fixed to the other side of the elastic plate 1004. The fixing screw set 1005 is composed of four screws, and each screw is provided with two locking nuts corresponding to the elastic plates 1004. Referring to fig. 1, support rods 28 are respectively fixed to lower surfaces of front and rear ends of the tray body 18, spring buffer assemblies 12 connected to the frame 1 are respectively disposed at two ends of the support rods 28, each spring buffer assembly 12 is composed of a fixing bolt 1201 with an upward nut, upper and

lower buffer springs

1203, 1204 sleeved on the fixing bolt 1201, and a blocking cover 1202, the blocking cover 1202 is located between the nut and the upper buffer spring 1203, a through hole corresponding to the fixing bolt 1201 is disposed on the support rod 28, the support rods 28 are clamped between the upper and

lower buffer springs

1203, 1204, and a tail end of the fixing bolt 1201 is screwed on the frame 1.

Referring to fig. 1 and 5, the rice sweeping unit comprises an execution unit and a driving unit, the execution unit comprises a gantry type mounting frame 23 arranged above the rice distribution disc in a crossing mode, a brush 29 arranged on the lower portion of a cross beam of the gantry type mounting frame 23, linear slide rails 2 fixed on two sides of the rack 1, sliders 9 arranged on two vertical beam sides of the gantry type mounting frame 23 and in sliding fit with the linear slide rails 2, and

proximity switches

27 and 17 arranged at the front end and the rear end of the linear slide rails 2, the length of the brush 29 is equal to the width of a 18 rice distribution area of the rice distribution disc body, the lower end of the brush 29 extends into the bottom surface of the rice distribution groove 1801, and the advancing direction of the brush 29 is parallel to the length direction of the rice distribution groove 1801 on the rice distribution disc. The driving unit comprises synchronous belt mechanisms 3 respectively arranged at two sides of the rack 1, right-angle connecting plates 8 arranged on synchronous belts of the synchronous belt mechanisms 3, and transmission mechanisms connected with synchronous wheels of the synchronous belt mechanisms 3, wherein the right-angle connecting plates 8 are fixedly connected with vertical beams of a gantry type mounting rack 23, each transmission mechanism comprises a transmission shaft 14 supported at the rear side of the rack 1 by a belt seat bearing 13, a driven pulley 15 fixed at the middle part of the transmission shaft 14, a reducing motor 31 fixed at the rear side of the rack 1, and a driving pulley 30 arranged on an output shaft of the reducing motor 31 and connected with the driven pulley 15 by a transmission belt, the synchronous wheels of the two synchronous belt mechanisms 3 close to the rear side of the rack 1 are respectively assembled at two ends of the transmission shaft 14, each synchronous belt mechanism 3 is additionally provided with a tension pulley 11 and a transmission guide chain 6, the free end of the transmission guide chain 6 is fixedly connected with the vertical beams of the right-, the fixed end of the transmission guide chain 6 is fixed on the horizontal supporting plates 5 at the two sides of the frame 1. The machine frame 1 is respectively supported with a front recovery guide groove 4 and a rear recovery guide groove 16 corresponding to the front end and the rear end of the rice distributing disc.

Referring to fig. 1, 4 and 5, the rice distribution unit includes a cantilever beam 26 fixed on a cross beam of the gantry-type mounting frame 23, a distribution funnel 22 disposed below a tail end of the cantilever beam 26, a guide rod cylinder 25 disposed on the cantilever beam 26, a push-pull assembly connected with a cylinder rod of the guide rod cylinder 25, and a horizontal baffle 20 connected with the push-pull assembly and sealed at a blanking port of the distribution funnel 22. The distributing funnel 22 is cuboid, the blanking port is rectangular, the blanking port is located above the rice distributing disc, the length direction of the blanking port is parallel to the width direction of the rice distributing disc rice distributing area, and the length of the blanking port is smaller than the width of the rice distributing disc rice distributing area. The push-pull assembly consists of a vertical plate 24 connected with the cylinder rod of the guide rod cylinder 25, and a left connecting plate 21 and a right connecting plate 21 arranged between the vertical plate 24 and the horizontal baffle plate 20, and the side surface of the lower end of the distribution funnel 22 is provided with an insertion groove matched with the horizontal baffle plate 20.

The working process is as follows:

1. the initial position of the distributing unit is positioned above the rear recovery guide groove 16, after rice is quantitatively taken by a rice taking mechanism (omitted in the figure) of the analyzer, the distributing unit is put into a distributing hopper 22 of the distributing unit, then the distributing unit reaches the middle part above a rice distributing disc (see figure 1) under the action of a driving unit, a guide rod cylinder 25 drives a horizontal baffle plate 20 to open a blanking port of the distributing hopper 22 by utilizing a push-pull assembly, rice is scattered at the middle position of a disc body 18, and then the distributing unit reaches the upper part of the front recovery guide groove 4 under the action of the driving unit;

2. starting the electromagnetic vibration unit 10, moving the rice grains in the middle of the tray body 18 to two ends along the slotting direction of the rice distribution groove 1801 until all the rice grains are flatly laid on the tray body 18 and gaps are left among the rice grains, and stopping the electromagnetic vibration unit 10;

3. starting shooting by adopting an image acquisition device in a lighting state of the lamp box, transmitting pictures to an analysis and calculation terminal for analysis and calculation, making a preset value on the volume of the rice according to the type of the detected rice, marking the rice smaller than the preset value as broken rice, and calculating according to the number of the broken rice and the number of the whole polished rice to obtain a broken rice rate; when the embryo remaining rate is measured, the camera takes pictures of two sides and three different angles above the measured rice to obtain more accurate embryo remaining rate image data;

4. after image acquisition is finished, the brush 29 of the rice sweeping unit advances from the front end of the rice distributing disc to the rear end of the rice distributing disc under the action of the driving unit, rice grains on the disc body 18 are swept to the rear recovery guide groove 16 to be recovered to the rice receiving box (omitted in the figure), in order to ensure complete clean recovery, the brush 29 reciprocates linearly twice under the action of the driving unit, and when the brush advances to the front end of the rice distributing disc, the rice grains are swept to the front recovery guide groove 4 to finish rice grain recovery.

Claims

1. The utility model provides an integral type vibration cloth rice and sweep rice and retrieve mechanism, includes the frame, locate cloth rice dish in the frame, to cloth rice dish ration send the cloth rice unit of rice, with sweeping rice unit of cloth rice dish's rice recovery, its characterized in that: the rice distribution disc comprises a disc body, a left baffle and a right baffle which are arranged on two sides of the disc body, rice distribution grooves are uniformly distributed on the upper surface of the disc body, an electromagnetic vibration unit is fixed in the middle of the lower surface of the disc body of the rice distribution disc, and the electromagnetic vibration unit comprises an electromagnetic coil fixedly connected with the disc body, a fixed screw group arranged around the electromagnetic coil, an elastic plate fixed on the fixed screw group, an adsorption block fixed on the side, facing the electromagnetic coil, of the elastic plate, and a balancing weight fixed on the other side of the elastic plate; the rice sweeping unit comprises an execution unit and a driving unit, the execution unit comprises a gantry type mounting frame arranged above the rice distribution disc in a spanning mode, a brush arranged on the lower portion of a cross beam of the gantry type mounting frame, linear slide rails fixed on two sides of the rack, slide blocks arranged on two vertical beam sides of the gantry type mounting frame and in sliding fit with the linear slide rails, and proximity switches arranged at the front end and the rear end of the linear slide rails, the length of the brush is equal to the width of a rice distribution area of the rice distribution disc, and the lower end of the brush extends into the bottom surface of a rice distribution groove; the rice distributing unit comprises a cantilever beam fixed on a cross beam of the gantry type mounting frame, a distributing funnel arranged below the tail end of the cantilever beam, a guide rod air cylinder arranged on the cantilever beam, a push-pull assembly connected with a cylinder rod of the guide rod air cylinder, and a horizontal baffle plate connected with the push-pull assembly and plugged at a blanking opening of the distributing funnel.

2. The integrated vibratory rice distribution and sweeping recovery mechanism of claim 1, wherein: the cloth funnel is cuboid, and its blanking mouth is the rectangle, and the blanking mouth is located cloth rice dish top, and its length direction is parallel with the width direction in cloth rice dish cloth rice region and length is less than the width in cloth rice dish cloth rice region.

3. The integrated vibratory rice distribution and sweeping recovery mechanism of claim 1, wherein: the side surfaces of the left baffle and the right baffle, which are connected with the upper surface of the tray body, are inclined surfaces, the rice distributing grooves are rectangular long grooves, the number of the rice distributing grooves is multiple, the rice distributing grooves are closely arranged, each rice distributing groove is parallel to the length direction of the tray body and extends from the rear end of the tray body to the front end of the tray body, and the advancing direction of the brush is parallel to the length direction of the rice distributing grooves on the rice distributing tray.

4. The integrated vibratory rice distribution and sweeping recovery mechanism of claim 1, wherein: the support plate is characterized in that support rods are fixed on the lower surfaces of the front end and the rear end of the support plate respectively, spring buffer assemblies connected with the rack are arranged at the two ends of the support rod respectively, each spring buffer assembly comprises a fixing bolt with an upward nut, an upper buffer spring, a lower buffer spring and a blocking cover, the upper buffer spring, the lower buffer spring and the blocking cover are sleeved on the fixing bolt, the blocking cover is located between the nut and the upper buffer spring, through holes corresponding to the fixing bolt are formed in the support rod, the upper buffer spring and the lower buffer spring clamp the support rod therebetween, and the tail end of the fixing bolt.

5. The integrated vibratory rice distribution and sweeping recovery mechanism of claim 1, wherein: the driving unit comprises synchronous belt mechanisms respectively arranged at two sides of the frame, a right-angle connecting plate arranged on a synchronous belt of the synchronous belt mechanism, and a transmission mechanism connected with a synchronous wheel of the synchronous belt mechanism, the right-angle connecting plate is fixedly connected with the vertical beam of the gantry type mounting rack, the transmission mechanism comprises a transmission shaft which is supported at the rear side of the rack by a belt seat bearing, a driven belt wheel which is fixed at the middle part of the transmission shaft, a reducing motor which is fixed at the rear side of the rack, and a driving belt wheel which is arranged on an output shaft of the reducing motor and is connected with the driven belt wheel by a transmission belt, synchronous wheels of the two synchronous belt mechanisms which are close to the rear side of the rack are respectively assembled at two ends of the, the synchronous belt mechanism is additionally provided with a tension wheel and a transmission guide chain, the free end of the transmission guide chain is fixedly connected with a right-angle connecting plate or a vertical beam of the gantry type mounting rack by a connecting piece, and the fixed end of the transmission guide chain is fixed on horizontal supporting plates at two sides of the rack.

6. The integrated vibratory rice distribution and sweeping recovery mechanism of claim 1, wherein: the positions of the frame corresponding to the front end and the rear end of the rice distributing disc are respectively provided with a recovery guide groove.

7. The integrated vibratory rice distribution and sweeping recovery mechanism of claim 1, wherein: the push-pull assembly consists of a vertical plate connected with a cylinder rod of the guide rod cylinder, a left connecting plate and a right connecting plate arranged between the vertical plate and the horizontal baffle, and an insertion groove matched with the horizontal baffle is formed in the side face of the lower end of the distribution funnel.