CN113181998A - Peach gum raw materials pulverizes edulcoration equipment - Google Patents

Abstract

The invention discloses peach gum raw material crushing and impurity removing equipment which comprises a frame body, wherein a crushing device, an impurity removing device and a discharging device are arranged on the frame body, the crushing device is used for crushing fixed granular peach gum raw materials and drawing the crushed peach gum raw materials into the impurity removing device, the impurity removing device is used for removing impurities in the crushed peach gum raw materials, and the discharging device is used for drawing the impurity removed peach gum raw materials to the outside for collection; according to the invention, a double-layer sliding plate extrusion mode is adopted to crush and feed solid granular peach gum raw materials, impurities are removed from the crushed peach gum raw materials through a double-piston type jigger, and finally, the impurity-removed peach gum raw materials are collected through a mechanical discharging mode.

Description

Peach gum raw materials pulverizes edulcoration equipment

Technical Field

The invention relates to the field of peach gum processing, in particular to peach gum raw material grinding and impurity removing equipment.

Background

Peach tears are peach gum, which is a reddish brown or yellowish brown gelatinous substance secreted from the bark of peach trees. In a broad sense, the jelly secreted by plants of Rosaceae such as apricot tree and cherry tree can also be called peach gum. The secretion is peeled from the bark and dried to obtain the original peach gum, which can be added into the traditional Chinese medicine or simply processed for eating. The peach tree gummosis is a pathological phenomenon, and the gummosis phenomenon with different degrees is similar to that of the seven-fruit peach tree in China. Usually, the infection is caused by fungi or bacteria, or the damage of insect pests and epidermis. The gummosis can reduce the output of peach, and the gummosis position can decay, leads to whole branch or peach withered even, and the essential element of original peach gum is macromolecular polysaccharide, and original peach gum gets rid of impurity, becomes little molecular polysaccharide through processing such as hydrolysis, decoloration and is exactly commercial peach gum, and the essential element of original peach gum is macromolecular polysaccharide, is difficult to dissolve in water, nevertheless has fine hydroscopicity, and the volume can be soaked and is expanded more than 10 times. The original peach gum is subjected to impurity removal, hydrolysis, decoloration and other treatment to be changed into micromolecular polysaccharide, namely the commercial peach gum. The purpose of hydrolysis is to change the insoluble macromolecular polysaccharide into soluble micromolecular polysaccharide, which is convenient for industrial use.

At present, the impurity removal of solid granular peach gum raw materials is basically carried out by adopting a soaking impurity removal mode, the solid granular peach gum needs to be soaked in clear water for more than one day, because the density of the peach gum raw materials is higher than that of water, the peach gum components can be precipitated at the bottom of the water, impurities in the peach gum raw materials can float on the water surface and can be filtered and removed in a manual mode, thus, the processing period is long by adopting a direct soaking mode, the phenomenon that the impurity removal is not measured can occur, the impurity removal is carried out by adopting a manual mode, the labor intensity of workers is greatly increased, in order to solve the problems, the invention adopts a double-layer sliding plate extrusion mode to crush and feed the solid granular peach gum raw materials, removes the impurities of the crushed peach gum raw materials by adopting a double-piston structure, and finally adopts a mechanical discharging mode to collect the impurity-removed peach gum raw materials, the impurity removal mode not only shortens the impurity removal period by crushing, the impurity removal efficiency of the peach gum raw material is accelerated, the quality of the peach gum raw material after impurity removal is improved, and the automatic machining is adopted in the whole process, so that the labor intensity of workers is greatly reduced.

Disclosure of Invention

In order to solve the problems, the solid granular peach gum raw material is crushed and fed in a double-layer sliding plate extrusion mode, the crushed peach gum raw material is subjected to impurity removal through a double-piston type structure, and finally the impurity-removed peach gum raw material is collected in a mechanical discharging mode.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows:

peach gum raw materials pulverizes edulcoration equipment, it includes the frame body, installs on the frame body and pulverizes device, edulcoration device and discharging device, pulverize device be used for with fixed graininess peach gum raw materials pulverize and will pulverize the peach gum raw materials after drawing to the edulcoration device in, the edulcoration device is arranged in driving the impurity in the peach gum raw materials after pulverizing, discharging device is used for drawing the peach gum raw materials after the edulcoration to the external world and collects.

As a further improvement and optimization of the invention, the frame body is horizontally arranged on the ground;

the crushing device comprises a mounting frame, a feeding mechanism, a crushing mechanism and a discharging hopper are mounted on the mounting frame, the feeding mechanism is used for conveying fixed granular peach gum raw materials into the crushing mechanism, the crushing mechanism is used for crushing the peach gum raw materials of the fixed granular device and drawing the crushed peach gum raw materials into the discharging hopper, and the discharging hopper is used for drawing the crushed peach gum raw materials into the impurity removing device;

the mounting rack is fixedly arranged on the rack body;

the feeding mechanism comprises a feeding bin, a mounting frame and a feeding auger, the feeding bin consists of a feeding cylinder and a feeding hopper, the feeding cylinder is of a cylindrical cylinder structure with openings at the upper end and the lower end, the two ends of the feeding hopper are provided with openings, the feeding hopper and the feeding cylinder are coaxially arranged, and the horizontal cross-sectional area of the feeding hopper is increased from bottom to top;

the feeding device comprises a feeding hopper, a feeding barrel, a constraint frame, a guide piece I, a guide block I, a guide groove I, a guide block I and a guide block I, wherein the upper opening end of the feeding hopper is communicated with the lower opening end of the feeding barrel, the feeding pipe I is coaxially and fixedly installed at the lower opening end of the feeding hopper, the constraint frame is fixedly sleeved outside the feeding pipe I and is installed on an installation frame, the guide piece I is arranged between the constraint frame and the installation frame, the guide piece I and the constraint frame form sliding guide fit along the width direction of a frame body through the guide piece I, and the guide piece I;

a feeding pipe II is coaxially sleeved outside the feeding pipe I, a sliding guide fit in the vertical direction is formed between the feeding pipe II and the feeding pipe I, and a discharging port communicated with the interior of the feeding pipe II is formed in the side wall of the lower end part of the feeding pipe II;

the mounting frame is fixedly arranged at the upper opening end of the feeding cylinder, a feeding motor is arranged on the mounting frame, the output shaft of the feeding motor is coaxially arranged with the feeding cylinder, and the output shaft of the feeding motor faces downwards vertically;

the material conveying auger is vertically arranged, the upper end of the material conveying auger is coaxially and fixedly arranged on the output shaft of the feeding motor, and the lower end of the material conveying auger penetrates through the lower opening end of the feeding hopper and extends into the feeding pipe I.

As a further improvement and optimization of the invention, the grinding mechanism comprises a grinding member and a driving member, wherein the grinding member is used for grinding the fixed granular peach gum raw material discharged from the discharge hole arranged on the second feeding pipe and conveying the ground peach gum raw material into the discharge hopper, and the driving member is used for providing required power for the grinding member;

the crushing component comprises a second crushing plate, a leveling plate and a lifting assembly, the second crushing plate is of a horizontally arranged rectangular plate structure, the length direction of the second crushing plate is parallel to the width direction of the frame body, and the second crushing plate is fixedly arranged on the mounting frame and is positioned below the second feeding pipe;

the upper end face of the second crushing plate is provided with a plurality of crushing grooves which are parallel to the guiding direction and the width direction of the second crushing plate, and the crushing grooves are arranged in an array along the length direction of the second crushing plate;

the crushing plate I is arranged on the crushing plate II and consists of an installation section and a material pushing section, the material pushing section of the crushing plate I is of a horizontally arranged rectangular plate structure and is positioned above the crushing plate II, a crushed material protruding strip matched with the crushed material groove is arranged on the lower end surface of the material pushing section of the crushing plate I, the length direction of the crushed material protruding strip is parallel to the width direction of the crushed material plate II, one end of the crushed material protruding strip is positioned in the crushed material groove, and sliding guide fit along the guide direction of the crushed material groove is formed between the crushed material protruding strip and the crushed material groove;

the mounting section of the first crushing plate is of a vertically arranged rectangular plate structure, the length direction of the mounting section of the first crushing plate is parallel to the length direction of the second crushing plate, and a mounting rod is arranged between the mounting section of the first crushing plate and the side wall of the first crushing plate;

the length direction of the mounting rod is parallel to the width direction of the second crushing plate, one end of the mounting rod is fixedly connected with the side wall of the second crushing plate, one end of the mounting rod, which is fixedly connected with the second crushing plate, is a fixed end of the mounting rod, and the other end of the mounting rod is an extending end of the mounting rod;

the extending end of the mounting rod penetrates through the mounting section of the first crushing plate and extends to one side, away from the second crushing plate, of the mounting section of the first crushing plate, and the mounting rod and the mounting section of the first crushing plate form sliding guide fit along the length direction of the mounting rod;

the outer part of the mounting rod is sleeved with a return spring, one end of the return spring abuts against the second crushing plate, the other end of the return spring abuts against the mounting section of the first crushing plate, and the elastic force of the return spring drives the mounting section of the first crushing plate to move away from the second crushing plate along the length direction of the mounting rod;

the extending end of the first crushing plate is coaxially and fixedly sleeved with a limiting ring;

the two mounting rods are arranged at intervals along the length direction of the second crushing plate;

the two positions of the leveling plate are respectively a grinding position and a material pushing position, and the grinding position is an initial position;

the leveling plate is obliquely arranged and is positioned on one side of the feeding pipe II, which is provided with the discharging hole, and the distance between the leveling plate and the feeding pipe II is gradually reduced from bottom to top; when the leveling plate is positioned at the crushing position, the horizontal height of the bottom end of the leveling plate is equal to the horizontal height of the upper end surface of the second crushing plate; when the leveling plate is positioned at the material pushing position, the horizontal height of the bottom end of the leveling plate is greater than the horizontal height of the upper end surface of the material pushing section of the crushing plate.

The position state switching device is further improved and optimized, the lifting assembly is used for driving the leveling plate to perform position state switching, the lifting assembly comprises a lifting block, a driving frame and an interlocking block, the driving frame is vertically arranged, a third guide piece is arranged between the driving frame and the mounting frame, the third guide piece and the driving frame form sliding guide fit along the length direction of the second crushing plate through the third guide piece, and the third guide piece comprises a driving groove arranged on the driving frame and a driving convex strip arranged on the mounting frame;

the driving frame is provided with an installation groove with a vertical guiding direction;

the lifting block is movably arranged in the mounting groove, a second guide piece is arranged between the lifting block and the mounting groove, the two guide pieces form sliding guide fit along the guide direction of the mounting groove through the second guide piece, and the second guide piece comprises a guide groove arranged on the lifting block and a guide block arranged in the mounting groove;

a leveling shaft is arranged between the lifting block and the leveling plate, the axis direction of the leveling shaft is parallel to the width direction of the crushing plate, the side wall of the leveling shaft is fixedly connected with the top end of the leveling plate, the leveling shaft is movably connected to the lifting block and rotates around the axis of the lifting block, and a reset coil spring for driving the leveling plate to reset is arranged at the joint of the leveling shaft and the lifting block;

a connecting frame is arranged between the lifting block and the second feeding pipe, one end of the connecting frame is fixed with the side wall of the second feeding pipe, and the other end of the connecting frame is fixed with the lifting block;

the linkage block is fixedly arranged on one side of the lifting block, which deviates from the leveling plate.

As a further improvement and optimization of the invention, the driving member comprises a driving component and a transmission component, the driving component is used for transmitting power to the lifting component and driving the leveling plate to crush the solid granular peach gum raw material on the second crushing plate, and the transmission component is used for receiving the power of the lifting component and driving the first crushing plate to push the crushed peach gum raw material on the second crushing plate into the discharge hopper;

the driving assembly comprises a driving motor, a driving belt wheel and a driven belt wheel, the driving motor is fixedly arranged on the mounting frame, and an output shaft of the driving motor is parallel to the width direction of the second crushing plate;

the driving belt wheel is coaxially and fixedly sleeved outside the output shaft of the driving motor;

the driven belt wheel is movably mounted on the mounting frame and rotates around the axis of the driven belt wheel, the axis of the driven belt wheel is parallel to the output shaft of the driving motor, and the axis of the driven belt wheel and the axis of the driving belt wheel are on the same horizontal plane;

a driving belt is arranged between the driven belt wheel and the driving belt wheel and transmits power through a synchronous belt, and the driving block is fixedly arranged on the belt surface of the driving belt;

when the leveling plate is positioned at a grinding position, the driving block is positioned on the lower layer belt surface of the transmission belt and does the motion of the driving belt wheel pointing to the direction of the driven belt wheel along the length direction of the grinding plate II; when the leveling plate is located at the material pushing position, the driving block is located on the upper layer belt surface of the transmission belt and moves towards the driving belt wheel by the driven belt wheel along the length direction of the second crushing plate.

As a further improvement and optimization of the invention, the transmission assembly comprises a limiting frame, a limiting block and a limiting block, wherein the limiting frame is horizontally arranged, the length direction of the limiting frame is parallel to the length direction of the second crushing plate, the mounting sections of the limiting frame and the first crushing plate are respectively positioned at two sides of the second crushing plate along the length direction of the second crushing plate, and the area between the limiting frame and the second crushing plate is a discharging area;

the limiting frame is provided with a limiting groove with a guiding direction parallel to the length direction of the second crushing plate;

the restraint block comprises a fixed block and a restraint plate, and the fixed block is vertically arranged and fixedly installed in the limit groove;

the restraint plate is of a rectangular plate structure, the length direction of the restraint plate is parallel to that of the second crushing plate, the restraint plate is fixedly mounted on the top end face of the fixed block and located above the limiting groove, and the horizontal height of the upper end face of the restraint plate is equal to that of the lower end of the driving frame;

the stopper activity set up in the spacing inslot, be provided with between stopper and the spacing groove guide four and both constitute the sliding guide cooperation along the direction of guidance of spacing groove through guide four, guide four including set up restraint groove on the stopper, set up the guide sand grip on the cell wall of spacing groove.

As further improvement and optimization of the invention, the limiting block is provided with a mounting hole penetrating through the thickness of the limiting block, a guide rod is movably mounted in the mounting hole, and the guide rod is vertically arranged and forms vertical sliding guide fit with the mounting hole;

the upper end of the guide rod extends to the upper part of the mounting hole, the upper end of the guide rod is fixedly provided with a driving block, a guide inclined plane is arranged on the driving block, the distance between the guide inclined plane and the restraining block increases from bottom to top, and when the leveling plate is at a grinding position, the maximum horizontal height of the guide inclined plane is greater than the horizontal height of the lower end of the driving frame;

the lower end of the guide rod extends to the lower part of the mounting hole, and a limiting plate in a circular plate structure is coaxially fixed at the lower end of the guide rod;

a limiting spring is sleeved outside the guide rod, one end of the limiting spring is abutted against the driving block, the other end of the limiting spring is abutted against the limiting plate, and the driving block is driven to vertically move upwards by the elasticity of the limiting spring;

a pulley part is arranged between the limiting block and the mounting section of the first crushing plate and is used for receiving the power of the limiting block and driving the material pushing section of the limiting plate to push the crushed peach gum raw materials on the second crushing plate into the material discharging hopper;

the pulley assembly comprises a pulley A, a pulley B and a connecting line, and the pulley A is movably arranged on the bottom end face of the second crushing plate and rotates around the axis of the pulley A;

the pulley B is movably arranged on the mounting frame and rotates around the axis of the pulley B, the pulley B is positioned on one side, far away from the restraint block, of the limiting frame, a transition pulley is arranged between the pulley A and the pulley B, the transition pulley is movably arranged on the mounting frame and rotates around the axis of the pulley B, and the number of the transition pulleys is multiple;

one end of the linkage line is connected with the middle part of the mounting section of the crushing plate, and the other end of the linkage line is connected with the limiting block through a pulley A, a transition pulley and a pulley B in sequence;

the discharge hopper is fixedly arranged on the mounting frame, and the discharge hopper is vertically arranged and is positioned under the discharge area.

Compared with the prior art, the invention has the advantages that:

1. according to the invention, a double-layer sliding plate extrusion mode is adopted to crush and feed solid granular peach gum raw materials, impurities are removed from the crushed peach gum raw materials through a double-piston type structure, and finally, a mechanical discharging mode is adopted to collect the impurity-removed peach gum raw materials.

2. In order to prevent the mounting rod 2312 from being separated from the mounting section of the first crushing plate 2311, a limit ring is coaxially and fixedly sleeved at the extending end of the first crushing plate 2311.

3. In order to make the power transmission of the impurity removing shaft 390 more stable, the impurity removing flywheel 350 is coaxially and fixedly sleeved at the lower end of the impurity removing shaft 390.

4. In order to prevent the filtered water from being drawn to the outside through the discharge nozzle, the discharge plate 460 is provided with a plurality of filter holes.

Drawings

The description includes the following figures, the contents shown are respectively:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic structural view of the present invention;

FIG. 4 is a schematic structural view of the present invention;

FIG. 5 is a schematic structural view of the present invention;

FIG. 6 is a schematic structural view of the present invention;

FIG. 7 is a schematic view of the structure of the feeding device of the present invention;

FIG. 8 is a view of the feeding mechanism and grinding mechanism of the present invention;

FIG. 9 is a schematic view of the feeding mechanism of the present invention;

FIG. 10 is a cross-sectional view of a supply bin of the present invention;

FIG. 11 is a view of the grinding member and drive member of the present invention in combination;

FIG. 12 is a view of the grinding member and drive member of the present invention in combination;

FIG. 13 is an exploded schematic view of the grinding member of the present invention;

FIG. 14 is a schematic view of the driving member of the present invention;

FIG. 15 is a schematic diagram of a constraint block structure according to the present invention;

FIG. 16 is a view of the driving block and the limiting block of the present invention;

FIG. 17 is a schematic view of the structure of an impurity removing apparatus according to the present invention;

FIG. 18 is a schematic view of the trash bin of the present invention;

FIG. 19 is a view showing the combination of the trash removal cam and the trash removal piston according to the present invention;

FIG. 20 is a schematic view of the structure of the discharging device of the present invention;

FIG. 21 is a cross-sectional view of a tap frame of the present invention;

labeled as:

100. a frame body;

200. a grinding device; 210. a mounting frame;

220. a feeding mechanism; 221. a feeding bin; 222. a mounting frame; 223. a feeding motor; 224. a feeding auger; 225. a first feeding pipe; 226. a second feeding pipe; 227. a restraint frame; 228. a connecting frame;

230. a grinding mechanism;

231. a grinding member; 2311. a particle board I; 2312. a second particle board; 2313. mounting a rod; 2314. a return spring; 2315. leveling the plate; 2316. a lifting block; 2317. a driving frame; 2318. a linkage block;

232. a drive member; 2321. a drive motor; 2322. a transmission belt; 2323. a limiting frame; 2324. a constraint block; 2325. a drive block; 2326. a limiting block; 2327. a sheave assembly; 2328. a guide bar; 2329. a limiting spring;

240. a discharge hopper;

300. an impurity removal device;

310. an impurity removal bin; 320. an impurity removal motor; 330. a power transfer assembly; 340. removing impurities from the cam; 350. removing impurities from the flywheel; 360. a reciprocating frame; 370. a reciprocating lever; 380. an impurity removal piston; 390. removing impurity;

400. a discharging device; 410. a discharging motor; 420. a first transmission mechanism; 430. discharging auger; 440. a discharging frame; 450. a material conveying mechanism; 460. and a discharging plate.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for a purpose of helping those skilled in the art to more fully, accurately and deeply understand the concept and technical solution of the present invention and to facilitate its implementation.

Peach gum raw materials pulverizes edulcoration equipment, it includes frame body 100, installs on frame body 100 and pulverizes device 200, edulcoration device 300 and discharging device 400, pulverize device 200 be used for pulverize fixed graininess peach gum raw materials and pull the peach gum raw materials after pulverizing in edulcoration device 300, edulcoration device 300 is arranged in driving the impurity in the peach gum raw materials after pulverizing, discharging device 400 is used for pulling the peach gum raw materials after the impurity removal to the external world and collects.

The frame body 100 is horizontally installed on the ground.

The grinding device 200 comprises a mounting frame 210, a feeding mechanism 220, a grinding mechanism 230 and a discharging hopper 240 are mounted on the mounting frame 210, the feeding mechanism 220 is used for conveying fixed granular peach gum raw materials into the grinding mechanism 230, the grinding mechanism 230 is used for grinding the peach gum raw materials of the fixed granular device and drawing the ground peach gum raw materials into the discharging hopper 240, and the discharging hopper 240 is used for drawing the ground peach gum raw materials into the impurity removing device 300.

The mounting bracket 210 is fixedly mounted on the bracket body 100.

The feeding mechanism 220 comprises a feeding bin 221, a mounting frame 222 and a feeding auger 224, wherein the feeding bin 221 comprises a feeding cylinder and a feeding hopper, the feeding cylinder is a cylindrical cylinder structure with openings at the upper end and the lower end, the conical hopper-shaped structures with openings at the two ends of the feeding hopper and the feeding hopper are coaxially arranged with the feeding cylinder, and the horizontal cross-sectional area of the feeding hopper is increased from bottom to top.

The upper opening end of the feeding hopper is communicated with the lower opening end of the feeding cylinder, a first feeding pipe 225 is coaxially and fixedly installed at the lower opening end of the feeding hopper, a restraint frame 227 is fixedly sleeved outside the first feeding pipe 225, the restraint frame 227 is installed on the installation frame 210, a first guide part is arranged between the restraint frame 227 and the installation frame 210, and the first guide part form sliding guide fit along the width direction of the frame body 100; specifically, the first guiding element comprises a first guiding groove arranged on the constraint frame 227 and a first guiding block arranged on the mounting frame 210;

the outer coaxial cover of feed pipe one 225 be equipped with feed pipe two 226, feed pipe two 226 and feed pipe one 225 between constitute vertical direction's sliding guide cooperation, set up the discharge gate with feed pipe two 226 intercommunication on the lower tip lateral wall of feed pipe two 226.

The mounting bracket 222 is fixedly installed at the upper opening end of the feeding cylinder, the mounting bracket 222 is provided with a feeding motor 223, the output shaft of the feeding motor 223 is coaxially arranged with the feeding cylinder, and the output shaft of the feeding motor 223 faces downwards.

The material conveying auger 224 is vertically arranged, and the upper end of the material conveying auger 224 is coaxially and fixedly arranged on the upper end and the lower end of the output shaft of the feeding motor 223 and extends into the feeding pipe I225 after penetrating through the lower opening end of the feeding hopper.

The grinding mechanism 230 includes a grinding member 231 and a driving member 232, the grinding member 231 is used for grinding the fixed granular peach gum raw material discharged from the discharge port arranged on the supply pipe two 226 and conveying the ground peach gum raw material into the discharge hopper 240, and the driving member 232 is used for providing required power to the grinding member 231.

The crushing member 231 comprises a second crushing plate 2313, a leveling plate 2315 and a lifting assembly, wherein the second crushing plate 2313 is a horizontally arranged rectangular plate structure, the length direction of the second crushing plate 2312 is parallel to the width direction of the frame body 100, and the second crushing plate 2313 is fixedly arranged on the mounting frame 210 and is positioned below the second supply pipe 226.

The upper end face of the second grinding plate 2312 is provided with a plurality of grinding grooves which are parallel to the guiding direction and the width direction of the second grinding plate 2312, and the grinding grooves are arranged in an array mode along the length direction of the second grinding plate 2312.

The second crushing plate 2312 is provided with a first crushing plate 2311, the first crushing plate 2311 is composed of an installation section and a material pushing section, the material pushing section of the first crushing plate 2311 is of a horizontally arranged rectangular plate structure and is located above the second crushing plate 2312, the lower end face of the material pushing section of the first crushing plate 2311 is provided with a crushed material protruding strip matched with the crushed material groove, the length direction of the crushed material protruding strip is parallel to the width direction of the second crushed material plate 2312, and one end of the crushed material protruding strip is located in the crushed material groove and forms sliding guide fit along the guide direction of the crushed material groove between the crushed material groove and the crushed material groove.

The mounting section of the first crushing plate 2311 is of a vertically arranged rectangular plate structure, the length direction of the mounting section of the first crushing plate 2311 is parallel to the length direction of the second crushing plate 2312, and a mounting rod 2313 is arranged between the mounting section of the first crushing plate 2311 and the side wall of the first crushing plate 2311.

The length direction of the mounting rod 2313 is parallel to the width direction of the second crushing plate 2312, one end of the mounting rod 2313 is fixedly connected with the side wall of the second crushing plate 2312, one end of the mounting rod 2313 fixedly connected with the second crushing plate 2312 is a fixed end of the mounting rod 2313, and the other end of the mounting rod 2313 is an extending end of the mounting rod 2313.

The extending end of the mounting bar 2313 passes through the mounting section of the first crush plate 2311 and extends to the side of the mounting section of the first crush plate 2311, which faces away from the second crush plate 2312, and the mounting bar 2313 and the mounting section of the first crush plate 2311 form sliding guide fit along the length direction of the mounting bar 2313.

The mounting rod 2313 is externally sleeved with a return spring 2314, one end of the return spring 2314 abuts against the second crushing plate 2312, the other end of the return spring 2314 abuts against the mounting section of the first crushing plate 2311, and the elastic force of the return spring 2314 drives the mounting section of the first crushing plate 2311 to move away from the second crushing plate 2312 along the length direction of the mounting rod 2312.

Preferably, in order to prevent the mounting rod 2312 from being separated from the mounting section of the first crush plate 2311, a limit ring is coaxially and fixedly sleeved at the extending end of the first crush plate 2311.

More specifically, in order to make the connection of the first crush plate 2311 and the second crush plate 2312 more stable, the mounting bars 2312 are provided in two and spaced apart from each other along the length of the second crush plate 2312.

The position states of the leveling plates 2315 are two types, namely a grinding position and a material pushing position, and the grinding position is an initial position.

The leveling plate 2315 is obliquely arranged and is positioned on one side, provided with the discharge hole, of the second feeding pipe 226, and the distance between the leveling plate 2315 and the second feeding pipe 226 decreases progressively from bottom to top; when the leveling plate 2315 is in the grinding position, the horizontal height of the bottom end of the leveling plate 2315 is equal to the horizontal height of the upper end surface of the second grinding plate 2312; when the leveling plate 2315 is in the pushing position, the horizontal height of the bottom end of the leveling plate 2315 is greater than the horizontal height of the upper end surface of the pushing section of the first crushing plate 2311.

The lifting assembly is used for driving the leveling plate 2315 to be switched in position state, the lifting assembly comprises a lifting block 2316, a driving frame 2317 and a linkage block 2318, the driving frame 2317 is vertically arranged, a third guide piece is arranged between the driving frame 2317 and the mounting frame 210, and the third guide piece form sliding guide fit along the length direction of the second crushing plate 2312; specifically, the third guiding element includes a driving groove disposed on the driving rack 2317 and a driving protrusion disposed on the mounting rack 210.

The driving rack 2317 is provided with a mounting groove with a vertical guiding direction.

The lifting block 2316 is movably arranged in the mounting groove, a second guide piece is arranged between the lifting block 2316 and the mounting groove, and the two guide pieces form sliding guide fit along the guiding direction of the mounting groove; specifically, the guide piece two includes a guide groove arranged on the lifting block 2316 and a guide block arranged in the installation groove.

A leveling shaft is arranged between the lifting block 2316 and the leveling plate 2315, the axial direction of the leveling shaft is parallel to the width direction of the crushing plate 2312, the side wall of the leveling shaft is fixedly connected with the top end of the leveling plate, the leveling shaft is movably connected to the lifting block 216 and rotates around the axis of the lifting block, and a reset coil spring for driving the leveling plate 2315 to reset is arranged at the joint of the leveling shaft and the lifting block 2316.

A connecting frame 228 is arranged between the lifting block 2316 and the second feeding pipe 226, one end of the connecting frame 228 is fixed with the side wall of the second feeding pipe 226, and the other end of the connecting frame is fixed with the lifting block 2316.

The linkage block 2318 is fixedly mounted on the side of the lifting block 2316 away from the leveling plate 2315.

The driving member 232 includes a driving assembly for transmitting power to the lifting assembly and driving the leveling plate 2311 to crush the solid granular peach gum raw material on the second crushing plate 2312, and a transmission assembly for receiving the power of the lifting assembly and driving the first crushing plate 2311 to push the crushed peach gum raw material on the second crushing plate 2312 into the discharge hopper 240.

The driving assembly comprises a driving motor 2321, a driving pulley and a driven pulley, the driving motor 2321 is fixedly mounted on the mounting frame 210, and an output shaft of the driving motor 2321 is parallel to the width direction of the second crushing plate 2312.

The driving belt wheel is coaxially and fixedly sleeved outside the output shaft of the driving motor 2321.

The driven belt wheel is movably mounted on the mounting frame 210 and rotates around the axis of the driven belt wheel, the axis of the driven belt wheel is parallel to the output shaft of the driving motor 2321, and the axis of the driven belt wheel and the axis of the driving belt wheel are on the same horizontal plane.

A driving belt 2322 is provided between the driven pulley and the driving pulley, and the driven pulley and the driving pulley transmit power through a timing belt 2322, and the driving block 2318 is fixedly mounted on a belt surface of the driving belt 2322.

More specifically, when the leveling plate 2315 is in the grinding position, the driving block 2318 is positioned on the lower belt surface of the transmission belt 2322, and the driving block 2318 moves along the length direction of the second grinding plate 2312 in the direction that the driving pulley points to the driven pulley; when the leveling plate 2315 is in the pushing position, the driving block 2318 is positioned on the upper belt surface of the driving belt 2322, and the driving block 2318 moves along the length direction of the second crushing plate 2312 in a direction that the driven pulley points to the driving pulley.

The transmission assembly comprises a limiting frame 2323, a limiting block 2324 and a limiting block 2326, the limiting frame 2323 is horizontally arranged, the length direction of the limiting frame 2323 is parallel to the length direction of the second crushing plate 2312, the limiting frame 2323 and the mounting section of the first crushing plate 2311 are respectively positioned at two sides of the second crushing plate 2312 along the length direction of the second crushing plate 2312, and the area between the limiting frame 2323 and the second crushing plate 2312 is a discharging area.

The limiting frame 2323 is provided with a limiting groove with a guiding direction parallel to the length direction of the second crushing plate 2312.

The restraint block 2324 comprises a fixing block and a restraint plate, wherein the fixing block is vertically arranged and fixedly mounted in a limiting groove.

The restraint plate is of a rectangular plate structure, the length direction of the restraint plate is parallel to the length direction of the second crushing plate 2312, and the restraint plate is fixedly mounted on the top end face of the fixing block and located above the limiting groove; specifically, the horizontal height of the upper end surface of the restraint plate is equal to the horizontal height of the lower end of the driving frame 2317.

The limiting block 2326 is movably arranged in the limiting groove, a fourth guiding element is arranged between the limiting block and the limiting groove, and the four guiding elements and the four guiding element form sliding guiding fit along the guiding direction of the limiting groove; specifically, the fourth guide piece comprises a restraining groove arranged on the limiting block and a guide convex strip arranged on the groove wall of the limiting groove.

The limiting block 2326 is provided with a mounting hole penetrating through the thickness of the limiting block, a guide rod 2328 is movably mounted in the mounting hole, and the guide rod 2328 is vertically arranged and is in sliding guide fit with the mounting hole in the vertical direction.

The upper end of the guide rod 2328 extends to the upper part of the mounting hole, the upper end of the guide rod 2328 is fixedly provided with a driving block 2325, the driving block 2325 is provided with a guide inclined plane, and the distance from the guide inclined plane to the restraint block 2324 increases from bottom to top; specifically, the maximum level of the guide slope is greater than the level of the lower end of the driving frame 2317 when the leveling plate 2315 is in the crushing position.

The lower end of the guide bar 2328 extends to the lower part of the mounting hole; preferably, in order to prevent the guide bar 2328 from being separated from the mounting hole, a limiting plate having a circular plate structure is coaxially fixed to the lower end of the guide bar 2328.

The outside of the guide bar 2328 is sleeved with a limiting spring 2329, one end of the limiting spring 2329 abuts against the driving block 2325, the other end of the limiting spring 2329 abuts against the limiting plate, and the driving block 2325 is driven by the elastic force of the limiting spring 2329 to move vertically and upwards.

A pulley member 2327 is arranged between the limiting block 2326 and the mounting section of the first grinding plate 2311, and the pulley member 2327 is used for receiving the power of the limiting block 2326 and driving the material pushing section of the limiting plate 2311 to push the peach gum raw material ground on the second grinding plate 2312 into the material outlet hopper 240.

The pulley assembly 2327 comprises a pulley A, a pulley B and a connecting line, wherein the pulley A is movably mounted on the bottom end face of the second crushing plate 2312 and rotates around the axis of the pulley A.

The pulley B is movably mounted on the mounting frame 210 and rotates around the axis of the mounting frame, and the pulley B is positioned on one side, far away from the limiting block 2324, of the limiting frame 2323; specifically, be provided with the transition pulley between pulley A and the pulley B, transition pulley movable mounting on mounting bracket 210 and around self axis rotation just the transition pulley be provided with a plurality of.

One end of the linkage line is connected with the middle of the mounting section of the crushing plate 2311, and the other end of the linkage line is connected with the limiting block 2326 through the pulley A, the transition pulley and the pulley B in sequence.

The discharge hopper 240 is fixedly mounted on the mounting frame 210, and the discharge hopper 240 is vertically arranged and located right below the discharge area.

During actual operation of the grinding apparatus 200: the solid granular peach gum raw material is poured into the feeding bin 221, the feeding motor 223 starts to work, the feeding motor 223 drives the feeding packing auger 224 to rotate around the axis of the feeding motor 223, the feeding packing auger 224 rotates and pulls the solid granular peach gum raw material in the feeding bin 221 to be conveyed into the feeding tube I225, and the solid granular peach gum raw material drops into the feeding tube II 226 under the gravity of the solid granular peach gum raw material and is discharged through a discharging hole formed in the feeding tube II 226.

The fixed granular peach gum raw material discharged from the discharge port of the second feeding pipe 226 falls onto the second crushing plate 2312, meanwhile, the driving motor 2321 starts to work, the driving motor 2321 drives the driving pulley to rotate around the axis thereof, the driving pulley rotates and drives the driving belt 2322 to rotate synchronously under the action of the driven pulley, the driving belt 2322 rotates and drives the linkage block 2318 to move towards the driven pulley along the length direction of the second crushing plate 2312, the linkage block 2318 drives the lifting block 2316 to move synchronously, the lifting block 2316 drives the leveling plate 2315 to move synchronously, meanwhile, the lifting block 2316 drives the feeding pipe two 226 to move synchronously through the connecting frame 228, the feeding pipe two 226 moves and drives the feeding pipe one 225 to move synchronously through the guide piece, and the feeding pipe one 225 moves and drives the feeding bin 221 to move synchronously, while the flattening plate 2315 moves, the solid granular peach gum raw material on the second crushing plate 2312 is flattened and crushed under the driving of the elastic force of the return coil spring.

When the lower end of the driving frame 2317 contacts the guiding inclined surface arranged on the driving block 2325, the driving frame 2317 applies downward pressure to the driving block 2325 at the guiding inclined surface, so that the driving block 2325 is driven to overcome the elastic force of the limiting spring 2329 and the driving block 2325 is driven to move vertically downward through the guiding of the guiding rod 2328.

When the linkage block 2318 moves to the driven gear and moves towards the upper belt surface of the transmission belt 2322, the feeding motor 223 stops working, the second feeding pipe 226 stops feeding to the second crushing plate 2312, meanwhile, the linkage block 2318 moves upwards to drive the lifting block 2316 to move upwards through the second guide piece and drive the second flattening plate 2315 to move synchronously with the second feeding pipe 226, meanwhile, the lower end of the driving frame 2317 is separated from contact with the guide inclined surface arranged on the driving block 2325, the driving block 2325 moves to the initial position under the elastic force of the limiting spring 2328, and at the moment, the horizontal height of the lower end of the driving frame 2317 is smaller than the maximum horizontal height of the driving block 2325 and is positioned on the side, away from the guide inclined surface, of the driving block 2325.

When the linkage block 2318 moves to the upper belt surface of the transmission belt 2322 and moves in the direction that the driven belt wheel points to the driving belt wheel along the length direction of the second grinding plate 2312 under the driving of the transmission belt 2322, the leveling plate 2315 is located above the material pushing section of the first grinding plate 2311, and at the moment, the leveling plate 2315 is switched from the grinding position to the material pushing position and drives the leveling plate 2315 to synchronously move at the material pushing position under the driving of the linkage block 2318.

During the movement of the linkage block 2318 on the upper belt surface of the transmission belt 2322, the driving frame 2317 is driven to move synchronously, the lower end of the driving frame 2317 pushes the limit block 2326 to move synchronously through the driving block 2325 under the guiding action of the guide member four, the limit block 2326 moves and drives the first crushing plate 2311 to move towards the discharging area against the elastic force of the return spring 2315 through the pulley assembly 2327, and the crushed peach gum raw material on the second crushing plate 2312 is pushed into the discharging area through the material pushing section of the first crushing plate 2311.

When the guiding inclined surface of the driving block 2325 contacts the restraint plate in the restraint block 2324, the driving block 2325 overcomes the elastic force of the limiting spring 2329 to move vertically downwards until the maximum horizontal height of the driving block 2328 is equal to the horizontal height of the lower end of the driving frame 2317 and the driving frame 2317 is separated from the driving block 2328, at this time, the material pushing section of the first crushing plate 2311 pushes the crushed peach gum raw material into the material discharging hopper 240 through the material discharging area, and under the action of self gravity, the crushed peach gum raw material flows out from the lower end opening of the material discharging hopper 240, meanwhile, the first crushing plate 2311 moves away from the material discharging area along the length direction of the mounting rod 2313 under the action of the elastic force of the return spring 2314, and drives the limiting block 2326 to move away from the limiting block 2324 along the length direction of the second crushing plate 2312 through the sliding assembly until the limiting block 2326 moves to the original position.

When the linkage block 2318 moves to the active pulley and moves towards the lower belt surface of the transmission belt 2322, the linkage block 2318 drives the leveling plate 2315 and the discharge pipe two 226 to move downwards, and when the linkage block 2318 moves to the lower belt surface, the horizontal height of the bottom end of the leveling plate 2315 is equal to the horizontal height of the upper end surface of the grinding plate two 2312, and the leveling plate 2315 is switched from the material pushing position to the grinding position.

The impurity removing device 300 comprises an impurity removing bin 310 and a driving mechanism, wherein the impurity removing bin 310 is used for storing filtered water for filtering impurities in the crushed peach gum raw materials, and the driving mechanism is used for driving the flow of the filtered water in the impurity removing bin 310.

Edulcoration storehouse 310 be upper end opening, lower extreme confined shell structure, edulcoration storehouse 310 fixed mounting is on frame body 100, the bottom in the edulcoration storehouse 310 is provided with two inclined planes and the distance between two inclined planes increases progressively from bottom to top, the minimum distance department downwardly extending on two inclined planes has the precipitation tank, set up the bin outlet with the precipitation tank switch-on the lateral wall in edulcoration storehouse 310.

Impurity removal bin 310 on install the water inlet nozzle with impurity removal bin 310 inner chamber switch-on, the water inlet nozzle be used for to impurity removal bin 310 in input filtration water, the water inlet nozzle is located the top on arbitrary inclined plane.

Edulcoration storehouse 310 in be provided with filtering baffle, filtering baffle set up between two inclined planes, filtering baffle includes vertical baffle, slope baffle, vertical baffle be rectangular plate body structure and vertical fixed mounting in edulcoration storehouse 310, the length direction of vertical baffle is parallel with the width direction of frame body 100.

The inclined baffle is of a rectangular plate structure and is obliquely arranged, the top end of the inclined baffle is fixedly installed at the lower end of the vertical baffle, and the distance between the inclined baffle and the water inlet nozzle is gradually decreased from bottom to top.

The area between the filtering baffle plate in the filtering bin 310 and the inclined plane below the water inlet nozzle is an impurity removing cavity, and the impurity removing cavity is located under the discharge hopper 240.

The region between the filtering baffle and the other end inclined plane in the filtering bin 310 is provided with a slag discharging filter plate for the slag discharging cavity and the filtering bin 310 above the impurity discharging cavity to be inclined and outwards extended, and the slag discharging filter plate is used for filtering peach gum impurities outwards removed from the impurity removing cavity.

And a drainage nozzle is fixedly arranged below the deslagging filter plate.

A drum pipe communicated with the impurity removing cavity is arranged on the outer side of the inclined surface of the filtering bin 310 close to the impurity removing cavity, the central line of the drum pipe is parallel to the length direction of the frame body 100, and a sealing plate is arranged on one side of the drum pipe, away from the impurity removing cavity; specifically, the blast pipe is provided with two parallel eye frame bodies 100 arranged in the width direction.

The driving mechanism comprises a driving component, a driving piston 380 and a driving frame 360, wherein the driving piston 380 is arranged in the driving pipe, and a sealed sliding guide fit along the length direction of the frame body 100 is formed between the driving piston 380 and the driving pipe; specifically, two corresponding drumming pistons 380 are provided.

The transmission frame 360 is used for receiving power of a transmission component and driving the drumming piston 380 to move close to the impurity removing cavity along the length direction of the frame body 100, the length direction of the transmission frame 360 is parallel to the width direction of the frame body 100, and a reciprocating rod 370 is arranged between the transmission frame 360 and the drumming piston 380.

The length direction of the reciprocating rod 370 is parallel to the length direction of the frame body 100, one end of the reciprocating rod 370 is fixed to the drumming piston 380, and the other end of the reciprocating rod 370 passes through the sealing plate and extends out of the drumming pipe and is fixed to the transmission frame 360.

One side of the transmission frame 360 departing from the drumming piston is provided with two drumming inclined planes, the two drumming inclined planes are arranged along the length direction of the transmission frame 360, and the distance between the two drumming inclined planes is gradually decreased along the length direction of the frame body 100 by the direction of the drumming piston 380 pointing to the transmission frame 360.

The transmission component comprises an impurity removing motor 320, an impurity removing shaft 390 and an impurity removing cam 340, wherein the impurity removing motor 320 is fixedly arranged on the frame body 100, and an output shaft of the impurity removing motor 320 faces upwards vertically.

The trash removal shaft 390 is vertically arranged, the trash removal shaft 390 is movably mounted on the frame body 100 and rotates around the axis of the trash removal shaft 390, and a power transmission assembly 330 is arranged between the trash removal shaft 390 and the output shaft of the trash removal motor 320 and performs power transmission through the power transmission assembly 330; preferably, the power transmission assembly 330 is a belt transmission assembly.

More optimally, in order to ensure that the power transmission of the impurity removing shaft 390 is more stable, the impurity removing flywheel 350 is coaxially and fixedly sleeved at the lower end of the impurity removing shaft 390.

Edulcoration cam 340 be located the one side that transmission frame 360 deviates from to drive piston 380, edulcoration cam 340 includes drive wheel, drive arch, the drive wheel for upper and lower both ends open-ended cylindrical barrel structure and coaxial fixed cover establish in the outside of edulcoration axle 390, the protruding fixed mounting of drive on the periphery of drive wheel.

In the actual working process of the impurity removing device 400: the impurity removing bin 310 is filled with filtered water through a water inlet nozzle arranged on the impurity removing gate valve 310, the crushed peach gum raw material flowing out from the lower port of the storage hopper 240 falls into an impurity removing cavity in the impurity removing bin 310 under the action of self gravity, meanwhile, the impurity removing motor 320 starts to work, the power transmission assembly 330 drives the impurity removing shaft 390 to rotate around the self axis, the impurity removing shaft 390 drives the impurity removing cam 340 to synchronously rotate, when a driving protrusion of the impurity removing cam 340 is in contact with a driving inclined plane arranged on a driving frame 2317, the impurity removing cam 340 pushes the driving frame 2317 to move close to the impurity removing cavity along the length direction of a reciprocating rod 370, the driving frame 2317 moves and drives a driving piston 380 to synchronously move in a driving pipe through a reciprocating rod 370, and when the impurity removing cam 340 is out of contact with the driving frame 2317, the driving piston 380 will move close to the impurity removing cam 340 along the length direction of the reciprocating rod 370 under the water pressure of the filtered water in the impurity removing bin 310, and drives the driving frame 2317 to move synchronously through the reciprocating rod 370 until the driving frame 2317 moves to the initial position, and the driving piston 380 reciprocates in the axial direction of the reciprocating rod 370 in the blast pipe by repeating the above operations.

When the driving piston 380 does reciprocating motion in the driving pipe, the filtered water in the impurity removing bin 310 flows, impurities in the peach gum raw materials crushed in the impurity removing cavity can flow in the impurity removing cavity through the filtering baffle arranged in the impurity removing bin 310, the impurities are discharged to the outside through the impurity removing filter plate arranged above the impurity removing cavity under the traction of the filtered water, and meanwhile, the peach gum raw materials after impurity removal in the impurity removing cavity are slowly precipitated to the precipitation tank arranged at the bottom of the impurity removing bin 310 under the guide of the filtering baffle.

The discharging device 400 comprises a material conveying mechanism and a discharging mechanism, wherein the material conveying mechanism is used for conveying the peach gum raw materials subjected to impurity removal in the precipitation tank into the discharging mechanism, and the discharging mechanism is used for drawing and collecting the peach gum raw materials subjected to impurity removal to the outside.

The material conveying mechanism 410 comprises a discharging motor 410 and a discharging auger 430, wherein the discharging motor 410 is fixedly arranged on the frame body 100, and an output shaft of the discharging motor 410 is parallel to the width direction of the frame body 100.

The discharging auger 430 is movably arranged in the precipitation tank and rotates around the axis of the discharging auger 430, the input end of the discharging auger 430 penetrates through the inner wall of the impurity removing bin 310 and extends out of the discharging bin 310, a first transmission mechanism 420 is arranged between the input end of the discharging auger 430 and the discharging motor 410, and the first transmission mechanism 420 are used for power transmission; preferably, the first transmission mechanism 420 is a belt transmission.

Discharge mechanism including being provided with the discharge frame 440 of cavity, be provided with ejection of compact component 450, play flitch 460 in the discharge frame 440, discharge frame 440 be used for receiving the peach gum raw materials after the edulcoration that is pull out by ejection of compact auger 430, ejection of compact component 450 is used for receiving the power of ejection of compact auger 430 and orders about the peach gum raw materials after the ejection of compact auger 460 will edulcorate and pull to the external world.

The discharging frame 440 is obliquely arranged and fixedly installed on the impurity removing bin 310, a feeding nozzle communicated with the inner cavity of the discharging frame 440 is arranged on the side wall of the bottom end of the discharging frame 440, a discharging nozzle communicated with the inner cavity of the discharging frame 440 is obliquely and downwards arranged on the side wall of the top end of the discharging frame 440, and the feeding nozzle is communicated with a discharging opening arranged on the impurity removing bin 310; specifically, the output end of the discharging auger 430 sequentially passes through the discharge opening and the feed nozzle and extends into the discharge frame 440.

The discharging member 450 comprises a discharging belt wheel A, a discharging belt wheel B and a discharging belt, and the discharging belt wheel A is coaxially fixed outside the output end of the discharging auger 430 in a fixed mode.

The discharging belt wheel B is movably arranged on the discharging frame 440 and rotates around the axis of the discharging frame, and the discharging belt wheel B is positioned above the discharging nozzle.

The discharging belt is arranged between the discharging belt wheel A and the discharging belt wheel B, and a discharging plate 460 used for drawing the peach gum raw materials after impurity removal to a discharging nozzle is arranged on the discharging belt.

More preferably, in order to prevent the filtered water from being drawn to the outside through the discharging nozzle, the discharging plate 460 is provided with a plurality of filtering holes.

In the actual working process of the discharging device 400: the discharging motor 410 starts to work and drives the discharging auger 430 to rotate around the axis of the discharging auger, the discharging auger 430 rotates and drives the discharging belt wheel A to rotate synchronously, the discharging belt wheel A rotates and drives the discharging belt to rotate synchronously under the action of the discharging belt wheel B, and the discharging belt rotates and drives the discharging plate 460 to move synchronously.

The peach gum raw materials after impurity removal in the precipitation tank can be sequentially pulled to the discharging frame 440 through the discharging opening and the feeding nozzle while the discharging auger 430 is driven, and the peach gum raw materials after impurity removal in the discharging frame 440 are pulled to the discharging nozzle through the discharging plate 460 and are discharged from the outside for collection.

Peach gum raw materials pulverizes edulcoration equipment, in actual work process:

the solid granular peach gum raw material is poured into the feeding bin 221, the feeding motor 223 starts to work, the feeding motor 223 drives the feeding auger 224 to start to rotate around the axis of the feeding auger 224, the feeding auger 224 rotates and pulls the solid granular peach gum raw material in the feeding bin 221 to be conveyed into the feeding tube I225, and the solid granular peach gum raw material falls into the feeding tube II 226 under the gravity of the solid granular peach gum raw material and is discharged through a discharging hole formed in the feeding tube II 226;

the fixed granular peach gum raw materials discharged from the discharge hole of the second feeding pipe 226 fall onto the second crushing plate 2312;

then, the driving motor 2321 starts to work, the driving motor 2321 drives the driving pulley to rotate around the axis of the driving pulley, the driving pulley rotates and drives the driving belt 2322 to rotate synchronously under the action of the driven pulley, the driving belt 2322 rotates and drives the linkage block 2318 to move along the length direction of the second grinding plate 2312, the driving pulley points to the driven pulley, the linkage block 2318 drives the lifting block 2316 to move synchronously, the lifting block 2316 drives the leveling plate 2315 to move synchronously, meanwhile, the lifting block 2316 drives the feeding pipe two 226 to move synchronously through the connecting frame 228, the feeding pipe two 226 moves and drives the feeding pipe one 225 to move synchronously through the guide piece, the feeding pipe one 225 moves and drives the feeding bin 221 to move synchronously, and the solid granular peach gum raw material on the second grinding plate 2312 is leveled and ground under the elastic force of the reset coil spring while the feeding plate 2315 moves;

when the lifting block 2316 moves, the driving frame 2317 is driven by the third guide piece to move the driving pulley towards the driven pulley along the length direction of the second crushing plate 2312, and when the lower end of the driving frame 2317 is in contact with the guide inclined plane arranged on the driving block 2325, the driving frame 2317 gives downward pressure to the driving block 2325 at the guide inclined plane, so that the driving block 2325 is driven to overcome the elastic force of the limiting spring 2329 and the driving block 2325 is driven to move vertically downward by the guide of the guide rod 2328;

when the linkage block 2318 moves to the driven gear and moves towards the upper belt surface of the transmission belt 2322, the feeding motor 223 stops working, the second feeding pipe 226 stops feeding to the second crushing plate 2312, meanwhile, the linkage block 2318 moves upwards to drive the lifting block 2316 to move upwards through the second guide piece and drive the second flattening plate 2315 to move synchronously with the second feeding pipe 226, meanwhile, the lower end of the driving frame 2317 is separated from contact with the guide inclined surface arranged on the driving block 2325, the driving block 2325 moves to the initial position under the elastic force of the limiting spring 2328, and at the moment, the horizontal height of the lower end of the driving frame 2317 is smaller than the maximum horizontal height of the driving block 2325 and is positioned on one side of the driving block 2325, which is far away from the guide inclined surface;

when the linkage block 2318 moves to the upper belt surface of the transmission belt 2322 and moves in the direction that the driven belt wheel points to the driving belt wheel along the length direction of the second grinding plate 2312 under the driving of the transmission belt 2322, the leveling plate 2315 is positioned above the material pushing section of the first grinding plate 2311, and at the moment, the leveling plate 2315 is switched from the grinding position to the material pushing position and drives the leveling plate 2315 to synchronously move at the material pushing position under the driving of the linkage block 2318;

in the process that the linkage block 2318 moves on the upper belt surface of the transmission belt 2322 and drives the driving frame 2317 to move synchronously, the lower end of the driving frame 2317 pushes the limit block 2326 to move synchronously through the driving block 2325 under the guiding action of the guide member IV, the limit block 2326 moves and drives the first crushing plate 2311 to move towards the direction of the discharging area by overcoming the elastic force of the return spring 2315 through the pulley assembly 2327, and the crushed peach gum raw material on the second crushing plate 2312 is pushed into the discharging area through the material pushing section of the first crushing plate 2311;

when the guiding inclined plane of the driving block 2325 contacts the restraint plate in the restraint block 2324, the driving block 2325 overcomes the elastic force of the limiting spring 2329 to move vertically downwards until the maximum horizontal height of the driving block 2328 is equal to the horizontal height of the lower end of the driving frame 2317 and the driving frame 2317 is separated from the contact with the driving block 2328, at this time, the material pushing section of the crushing plate 2311 pushes the crushed peach gum raw material into the material discharging hopper 240 through the material discharging area, and the crushed peach gum raw material flows out from the lower end opening of the material discharging hopper 240 under the action of self gravity;

then, the first crushing plate 2311 moves away from the discharging area along the length direction of the mounting rod 2313 under the elastic force of the return spring 2314, and the sliding assembly drives the limit block 2326 to move away from the restriction block 2324 along the length direction of the second crushing plate 2312 until the limit block 2326 moves to the original position;

when the linkage block 2318 moves to the active pulley and moves towards the lower belt surface of the transmission belt 2322, the linkage block 2318 drives the leveling plate 2315 and the discharge pipe II 226 to move downwards, and when the linkage block 2318 moves to the lower belt surface, the horizontal height of the bottom end of the leveling plate 2315 is equal to the horizontal height of the upper end surface of the grinding plate II 2312, and the leveling plate 2315 is switched from the material pushing position to the grinding position;

the impurity removing bin 310 is filled with filtered water through a water inlet nozzle arranged on the impurity removing gate valve 310, the crushed peach gum raw material flowing out from the lower port of the storage hopper 240 falls into an impurity removing cavity in the impurity removing bin 310 under the action of self gravity, meanwhile, the impurity removing motor 320 starts to work, the power transmission assembly 330 drives the impurity removing shaft 390 to rotate around the self axis, the impurity removing shaft 390 drives the impurity removing cam 340 to synchronously rotate, when a driving protrusion of the impurity removing cam 340 is in contact with a driving inclined plane arranged on a driving frame 2317, the impurity removing cam 340 pushes the driving frame 2317 to move close to the impurity removing cavity along the length direction of a reciprocating rod 370, the driving frame 2317 moves and drives a driving piston 380 to synchronously move in a driving pipe through a reciprocating rod 370, and when the impurity removing cam 340 is out of contact with the driving frame 2317, the driving piston 380 will move close to the impurity removing cam 340 along the length direction of the reciprocating rod 370 under the water pressure of the filtered water in the impurity removing bin 310, the reciprocating rod 370 drives the driving rack 2317 to synchronously move until the driving rack 2317 moves to the initial position, the operations are repeated, and the driving piston 380 reciprocates in the axial direction of the reciprocating rod 370 in the blast pipe;

while the driving piston 380 does reciprocating motion in the driving pipe, filtered water in the impurity removing bin 310 flows, impurities in the milled peach gum raw materials in the impurity removing cavity flow into the impurity removing cavity through a filtering baffle arranged in the impurity removing bin 310 and are discharged to the outside through an impurity removing filtering plate arranged above the impurity removing cavity under the traction of the filtered water, and meanwhile, the peach gum raw materials after impurity removal in the impurity removing cavity are slowly precipitated into a precipitation tank arranged at the bottom of the impurity removing bin 310 under the guide of the filtering baffle;

then, the discharging motor 410 starts to work and drives the discharging auger 430 to rotate around the axis of the discharging auger, the discharging auger 430 rotates and drives the discharging belt wheel A to rotate synchronously, the discharging belt wheel A rotates and drives the discharging belt to rotate synchronously under the action of the discharging belt wheel B, and the discharging belt rotates and drives the discharging plate 460 to move synchronously;

while the discharging auger 430 is used for transmission, peach gum raw materials subjected to impurity removal in the precipitation tank are sequentially pulled into the discharging frame 440 through the discharging opening and the feeding nozzle, and the peach gum raw materials subjected to impurity removal in the discharging frame 440 are pulled to the discharging nozzle through the discharging plate 460 and are discharged outside from the discharging nozzle for collection;

and repeating the operation repeatedly, and continuously removing impurities from the solid granular peach gum raw material.

The invention is described above with reference to the accompanying drawings. It is to be understood that the specific implementations of the invention are not limited in this respect. Various insubstantial improvements are made by adopting the method conception and the technical scheme of the invention; the present invention is not limited to the above embodiments, and can be modified in various ways.

Claims (10)

1. Peach gum raw materials pulverizes edulcoration equipment, its characterized in that, it includes the frame body, installs on the frame body and pulverizes device, edulcoration device and discharging device, pulverize device be used for with fixed graininess peach gum raw materials pulverize and will pulverize the peach gum raw materials after drawing to the edulcoration device in, the edulcoration device is arranged in driving the impurity in the peach gum raw materials after pulverizing, discharging device is used for drawing the peach gum raw materials after the edulcoration to the external world and collects.

2. The peach gum raw material crushing and impurity removing equipment as claimed in claim 1, wherein the frame body is horizontally installed on the ground;

the crushing device comprises a mounting frame, a feeding mechanism, a crushing mechanism and a discharging hopper are mounted on the mounting frame, the feeding mechanism is used for conveying fixed granular peach gum raw materials into the crushing mechanism, the crushing mechanism is used for crushing the peach gum raw materials of the fixed granular device and drawing the crushed peach gum raw materials into the discharging hopper, and the discharging hopper is used for drawing the crushed peach gum raw materials into the impurity removing device;

the mounting rack is fixedly arranged on the rack body;

the feeding mechanism comprises a feeding bin, a mounting frame and a feeding auger, the feeding bin consists of a feeding cylinder and a feeding hopper, the feeding cylinder is of a cylindrical cylinder structure with openings at the upper end and the lower end, the two ends of the feeding hopper are provided with openings, the feeding hopper and the feeding cylinder are coaxially arranged, and the horizontal cross-sectional area of the feeding hopper is increased from bottom to top;

the feeding device comprises a feeding hopper, a feeding barrel, a constraint frame, a guide piece I, a guide block I, a guide groove I, a guide block I and a guide block I, wherein the upper opening end of the feeding hopper is communicated with the lower opening end of the feeding barrel, the feeding pipe I is coaxially and fixedly installed at the lower opening end of the feeding hopper, the constraint frame is fixedly sleeved outside the feeding pipe I and is installed on an installation frame, the guide piece I is arranged between the constraint frame and the installation frame, the guide piece I and the constraint frame form sliding guide fit along the width direction of a frame body through the guide piece I, and the guide piece I;

a feeding pipe II is coaxially sleeved outside the feeding pipe I, a sliding guide fit in the vertical direction is formed between the feeding pipe II and the feeding pipe I, and a discharging port communicated with the interior of the feeding pipe II is formed in the side wall of the lower end part of the feeding pipe II;

the mounting frame is fixedly arranged at the upper opening end of the feeding cylinder, a feeding motor is arranged on the mounting frame, the output shaft of the feeding motor is coaxially arranged with the feeding cylinder, and the output shaft of the feeding motor faces downwards vertically;

the material conveying auger is vertically arranged, the upper end of the material conveying auger is coaxially and fixedly arranged on the output shaft of the feeding motor, and the lower end of the material conveying auger penetrates through the lower opening end of the feeding hopper and extends into the feeding pipe I.

3. A peach gum raw material grinding and impurity removing device as claimed in claim 2, wherein the grinding mechanism comprises a grinding member and a driving member, the grinding member is used for grinding the fixed granular peach gum raw material discharged from a discharge port arranged on the second feeding pipe and conveying the ground peach gum raw material into a discharge hopper, and the driving member is used for providing required power for the grinding member;

the crushing component comprises a second crushing plate, a leveling plate and a lifting assembly, the second crushing plate is of a horizontally arranged rectangular plate structure, the length direction of the second crushing plate is parallel to the width direction of the frame body, and the second crushing plate is fixedly arranged on the mounting frame and is positioned below the second feeding pipe;

the upper end face of the second crushing plate is provided with a plurality of crushing grooves which are parallel to the guiding direction and the width direction of the second crushing plate, and the crushing grooves are arranged in an array along the length direction of the second crushing plate;

the crushing plate I is arranged on the crushing plate II and consists of an installation section and a material pushing section, the material pushing section of the crushing plate I is of a horizontally arranged rectangular plate structure and is positioned above the crushing plate II, a crushed material protruding strip matched with the crushed material groove is arranged on the lower end surface of the material pushing section of the crushing plate I, the length direction of the crushed material protruding strip is parallel to the width direction of the crushed material plate II, one end of the crushed material protruding strip is positioned in the crushed material groove, and sliding guide fit along the guide direction of the crushed material groove is formed between the crushed material protruding strip and the crushed material groove;

the mounting section of the first crushing plate is of a vertically arranged rectangular plate structure, the length direction of the mounting section of the first crushing plate is parallel to the length direction of the second crushing plate, and a mounting rod is arranged between the mounting section of the first crushing plate and the side wall of the first crushing plate;

the length direction of the mounting rod is parallel to the width direction of the second crushing plate, one end of the mounting rod is fixedly connected with the side wall of the second crushing plate, one end of the mounting rod, which is fixedly connected with the second crushing plate, is a fixed end of the mounting rod, and the other end of the mounting rod is an extending end of the mounting rod;

the extending end of the mounting rod penetrates through the mounting section of the first crushing plate and extends to one side, away from the second crushing plate, of the mounting section of the first crushing plate, and the mounting rod and the mounting section of the first crushing plate form sliding guide fit along the length direction of the mounting rod;

the outer part of the mounting rod is sleeved with a return spring, one end of the return spring abuts against the second crushing plate, the other end of the return spring abuts against the mounting section of the first crushing plate, and the elastic force of the return spring drives the mounting section of the first crushing plate to move away from the second crushing plate along the length direction of the mounting rod;

the extending end of the first crushing plate is coaxially and fixedly sleeved with a limiting ring;

the two mounting rods are arranged at intervals along the length direction of the second crushing plate;

the two positions of the leveling plate are respectively a grinding position and a material pushing position, and the grinding position is an initial position;

the leveling plate is obliquely arranged and is positioned on one side of the feeding pipe II, which is provided with the discharging hole, and the distance between the leveling plate and the feeding pipe II is gradually reduced from bottom to top; when the leveling plate is positioned at the crushing position, the horizontal height of the bottom end of the leveling plate is equal to the horizontal height of the upper end surface of the second crushing plate; when the leveling plate is positioned at the material pushing position, the horizontal height of the bottom end of the leveling plate is greater than the horizontal height of the upper end surface of the material pushing section of the crushing plate.

4. The peach gum raw material grinding and impurity removing equipment as claimed in claim 3, wherein the lifting assembly is used for driving the leveling plate to perform position state switching, the lifting assembly comprises a lifting block, a driving frame and a linkage block, the driving frame is vertically arranged, a third guide part is arranged between the driving frame and the mounting frame, the third guide part and the mounting frame form sliding guide fit along the length direction of the second grinding plate through the third guide part, and the third guide part comprises a driving groove arranged on the driving frame and a driving convex strip arranged on the mounting frame;

the driving frame is provided with an installation groove with a vertical guiding direction;

the lifting block is movably arranged in the mounting groove, a second guide piece is arranged between the lifting block and the mounting groove, the two guide pieces form sliding guide fit along the guide direction of the mounting groove through the second guide piece, and the second guide piece comprises a guide groove arranged on the lifting block and a guide block arranged in the mounting groove;

a leveling shaft is arranged between the lifting block and the leveling plate, the axis direction of the leveling shaft is parallel to the width direction of the crushing plate, the side wall of the leveling shaft is fixedly connected with the top end of the leveling plate, the leveling shaft is movably connected to the lifting block and rotates around the axis of the lifting block, and a reset coil spring for driving the leveling plate to reset is arranged at the joint of the leveling shaft and the lifting block;

a connecting frame is arranged between the lifting block and the second feeding pipe, one end of the connecting frame is fixed with the side wall of the second feeding pipe, and the other end of the connecting frame is fixed with the lifting block;

the linkage block is fixedly arranged on one side of the lifting block, which deviates from the leveling plate.

5. A peach gum raw material grinding and impurity removing device as claimed in claim 4, wherein the driving member comprises a driving component and a transmission component, the driving component is used for transmitting power to the lifting component and driving the leveling plate to grind the solid granular peach gum raw material on the second grinding plate, and the transmission component is used for receiving the power of the lifting component and driving the first grinding plate to push the ground peach gum raw material on the second grinding plate into the discharge hopper;

the driving assembly comprises a driving motor, a driving belt wheel and a driven belt wheel, the driving motor is fixedly arranged on the mounting frame, and an output shaft of the driving motor is parallel to the width direction of the second crushing plate;

the driving belt wheel is coaxially and fixedly sleeved outside the output shaft of the driving motor;

the driven belt wheel is movably mounted on the mounting frame and rotates around the axis of the driven belt wheel, the axis of the driven belt wheel is parallel to the output shaft of the driving motor, and the axis of the driven belt wheel and the axis of the driving belt wheel are on the same horizontal plane;

a driving belt is arranged between the driven belt wheel and the driving belt wheel and transmits power through a synchronous belt, and the driving block is fixedly arranged on the belt surface of the driving belt;

when the leveling plate is positioned at a grinding position, the driving block is positioned on the lower layer belt surface of the transmission belt and does the motion of the driving belt wheel pointing to the direction of the driven belt wheel along the length direction of the grinding plate II; when the leveling plate is located at the material pushing position, the driving block is located on the upper layer belt surface of the transmission belt and moves towards the driving belt wheel by the driven belt wheel along the length direction of the second crushing plate.

6. A peach gum raw material grinding and impurity removing device as claimed in claim 5, wherein the transmission assembly comprises a limiting frame, a limiting block and a limiting block, the limiting frame is horizontally arranged, the length direction of the limiting frame is parallel to the length direction of the second grinding plate, the mounting sections of the limiting frame and the first grinding plate are respectively positioned at two sides of the second grinding plate along the length direction of the second grinding plate, and the region between the limiting frame and the second grinding plate is a discharging region;

the limiting frame is provided with a limiting groove with a guiding direction parallel to the length direction of the second crushing plate;

the restraint block comprises a fixed block and a restraint plate, and the fixed block is vertically arranged and fixedly installed in the limit groove;

the restraint plate is of a rectangular plate structure, the length direction of the restraint plate is parallel to that of the second crushing plate, the restraint plate is fixedly mounted on the top end face of the fixed block and located above the limiting groove, and the horizontal height of the upper end face of the restraint plate is equal to that of the lower end of the driving frame;

the stopper activity set up in the spacing inslot, be provided with between stopper and the spacing groove guide four and both constitute the sliding guide cooperation along the direction of guidance of spacing groove through guide four, guide four including set up restraint groove on the stopper, set up the guide sand grip on the cell wall of spacing groove.

7. The peach gum raw material grinding and impurity removing equipment as claimed in claim 6, wherein the limiting block is provided with a mounting hole penetrating through the thickness of the limiting block, a guide rod is movably mounted in the mounting hole, and the guide rod is vertically arranged and forms vertical sliding guide fit with the mounting hole;

the upper end of the guide rod extends to the upper part of the mounting hole, the upper end of the guide rod is fixedly provided with a driving block, a guide inclined plane is arranged on the driving block, the distance between the guide inclined plane and the restraining block increases from bottom to top, and when the leveling plate is at a grinding position, the maximum horizontal height of the guide inclined plane is greater than the horizontal height of the lower end of the driving frame;

the lower end of the guide rod extends to the lower part of the mounting hole, and a limiting plate in a circular plate structure is coaxially fixed at the lower end of the guide rod;

a limiting spring is sleeved outside the guide rod, one end of the limiting spring is abutted against the driving block, the other end of the limiting spring is abutted against the limiting plate, and the driving block is driven to vertically move upwards by the elasticity of the limiting spring;

a pulley part is arranged between the limiting block and the mounting section of the first crushing plate and is used for receiving the power of the limiting block and driving the material pushing section of the limiting plate to push the crushed peach gum raw materials on the second crushing plate into the material discharging hopper;

the pulley assembly comprises a pulley A, a pulley B and a connecting line, and the pulley A is movably arranged on the bottom end face of the second crushing plate and rotates around the axis of the pulley A;

the pulley B is movably arranged on the mounting frame and rotates around the axis of the pulley B, the pulley B is positioned on one side, far away from the restraint block, of the limiting frame, a transition pulley is arranged between the pulley A and the pulley B, the transition pulley is movably arranged on the mounting frame and rotates around the axis of the pulley B, and the number of the transition pulleys is multiple;

one end of the linkage line is connected with the middle part of the mounting section of the crushing plate, and the other end of the linkage line is connected with the limiting block through a pulley A, a transition pulley and a pulley B in sequence;

the discharge hopper is fixedly arranged on the mounting frame, and the discharge hopper is vertically arranged and is positioned under the discharge area.

8. The peach gum raw material crushing and impurity removing equipment according to claim 7, wherein the impurity removing device comprises an impurity removing bin and a driving mechanism, the impurity removing bin is used for storing filtered water for filtering impurities in the crushed peach gum raw material, and the driving mechanism is used for driving the flow of the filtered water in the impurity removing bin;

the impurity removing bin is of a shell structure with an opening at the upper end and a closed lower end, the impurity removing bin is fixedly mounted on the frame body, two inclined planes are arranged at the bottom end in the impurity removing bin, the distance between the two inclined planes is increased from bottom to top, a precipitation tank extends downwards at the minimum distance of the two inclined planes, and a discharge port communicated with the precipitation tank is formed in the side wall of the impurity removing bin;

the impurity removing bin is provided with a water inlet nozzle communicated with the inner cavity of the impurity removing bin, the water inlet nozzle is used for inputting filtered water into the impurity removing bin, and the water inlet nozzle is positioned above any one inclined plane;

the impurity removing bin is internally provided with a filtering baffle which is arranged between the two inclined planes, the filtering baffle comprises a vertical baffle and an inclined baffle, the vertical baffle is of a rectangular plate structure and is vertically and fixedly installed in the impurity removing bin, and the length direction of the vertical baffle is parallel to the width direction of the frame body;

the inclined baffle is of a rectangular plate structure and is obliquely arranged, the top end of the inclined baffle is fixedly arranged at the lower end of the vertical baffle, and the distance between the inclined baffle and the water inlet nozzle is gradually reduced from bottom to top;

the region between the filtering baffle in the filtering bin and the inclined plane below the water inlet nozzle is an impurity removing cavity which is positioned right below the discharge hopper;

the area between the filtering baffle and the inclined plane at the other end in the filtering bin is a deslagging cavity, a deslagging filter plate is obliquely and outwards extended on the filtering bin above the impurity removing cavity and is used for filtering peach gum impurities outwards removed by the impurity removing cavity;

a drainage nozzle is fixedly arranged below the deslagging filter plate;

the filter bin on be close to the outward survey of the inclined plane in edulcoration chamber install with the drum move pipe of edulcoration chamber intercommunication, the central line of drum move pipe be parallel with the length direction of frame body, the drum move pipe is kept away from one side in edulcoration chamber and is installed the closing plate, the drum move pipe be provided with two and the width direction of eye frame body arrange.

9. A peach gum raw material grinding and impurity removing device as claimed in claim 8, wherein the driving mechanism comprises a transmission member, a driving piston and a transmission frame, the driving piston is arranged in the driving pipe, the driving piston and the driving frame form a sealed sliding guide fit along the length direction of the frame body, and two driving pistons are correspondingly arranged;

the transmission frame is used for receiving the power of the transmission component and driving the drum piston to move close to the impurity removing cavity along the length direction of the frame body, the length direction of the transmission frame is parallel to the width direction of the frame body, and a reciprocating rod is arranged between the transmission frame and the drum piston;

the length direction of the reciprocating rod is parallel to the length direction of the frame body, one end of the reciprocating rod is fixed with the drumming piston, and the other end of the reciprocating rod penetrates through the sealing plate to extend out of the drumming pipe and is fixed with the transmission frame;

one side of the transmission frame, which is far away from the drumming piston, is provided with two drumming inclined planes, the two drumming inclined planes are arranged along the length direction of the transmission frame, and the distance between the two drumming inclined planes is gradually decreased along the length direction of the frame body from the direction of the drumming piston pointing to the transmission frame;

the transmission component comprises an impurity removing motor, an impurity removing shaft and an impurity removing cam, wherein the impurity removing motor is fixedly arranged on the frame body, and an output shaft of the impurity removing motor is vertically upward;

the impurity removing shaft is vertically arranged, the impurity removing shaft is movably mounted on the frame body and rotates around the axis of the impurity removing shaft, a power transmission assembly is arranged between the impurity removing shaft and an output shaft of the impurity removing motor and transmits power through the power transmission assembly, and the power transmission assembly is a belt transmission assembly;

the lower end of the impurity removing shaft is coaxially and fixedly sleeved with an impurity removing flywheel;

the edulcoration cam be located the one side that the transmission frame deviates from the drumming piston, the edulcoration cam includes drive wheel, drive arch, the drive wheel for upper and lower both ends open-ended cylindrical barrel structure and coaxial fixed cover establish the outside at the edulcoration axle, the protruding fixed mounting of drive on the periphery of drive wheel.

10. The peach gum raw material crushing and impurity removing equipment according to claim 9, wherein the discharging device comprises a material conveying mechanism and a discharging mechanism, the material conveying mechanism is used for conveying the peach gum raw material subjected to impurity removal in the precipitation tank into the discharging mechanism, and the discharging mechanism is used for drawing and collecting the peach gum raw material subjected to impurity removal to the outside;

the material conveying mechanism comprises a discharging motor and a discharging auger, the discharging motor is fixedly arranged on the frame body, and an output shaft of the discharging motor is parallel to the width direction of the frame body;

the discharging auger is movably arranged in the precipitation tank and rotates around the axis of the discharging auger, the input end of the discharging auger penetrates through the inner wall of the impurity removing bin and extends out of the discharging bin, a first transmission mechanism is arranged between the input end of the discharging auger and the discharging motor and performs power transmission through the first transmission mechanism, and the first transmission mechanism is belt transmission;

the discharging mechanism comprises a discharging frame provided with a cavity, a discharging member and a discharging plate are arranged in the discharging frame, the discharging frame is used for receiving the peach gum raw materials after impurity removal and pulled out by the discharging auger, and the discharging member is used for receiving the power of the discharging auger and driving the discharging plate to pull the peach gum raw materials after impurity removal to the outside;

the discharging frame is obliquely arranged and fixedly installed on the impurity removing bin, a feeding nozzle communicated with the inner cavity of the discharging frame is arranged on the side wall of the bottom end of the discharging frame, a discharging nozzle communicated with the inner cavity of the discharging frame is obliquely and downwards arranged on the side wall of the top end of the discharging frame, the feeding nozzle is communicated with a discharging opening arranged on the impurity removing bin, and the output end of the discharging auger sequentially penetrates through the discharging opening and the feeding nozzle and extends into the discharging frame;

the discharging component comprises a discharging belt wheel A, a discharging belt wheel B and a discharging belt, and the discharging belt wheel A is coaxially and fixedly sleeved outside the output end of the discharging auger;

the discharging belt wheel B is movably arranged on the discharging frame and rotates around the axis of the discharging frame, and the discharging belt wheel B is positioned above the discharging nozzle;

the discharging belt is arranged between the discharging belt wheel A and the discharging belt wheel B, and a discharging plate used for drawing the peach gum raw material subjected to impurity removal to a discharging nozzle is arranged on the discharging belt;

the discharge plate is provided with a plurality of filter holes.

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