CN111974503A - Material conveyor for crushing and quantitatively outputting condensed block powder - Google Patents

Abstract

The invention discloses a material conveyor for crushing and quantitatively outputting condensed block-shaped powder, which comprises a machine body, wherein the upper end of the machine body is provided with a feeding channel with an upward opening, the upper end surface of the machine body at the position corresponding to the feeding channel is fixedly provided with a feeding hole, the left side of the feeding channel is communicated with a closed door cavity, the lower side of the closed door cavity is provided with a crushing bevel gear cavity, the lower wall surface of the closed door cavity at the position corresponding to the crushing bevel gear cavity is communicated with a spline sleeve cavity, and the lower side of the crushing bevel gear cavity is provided with a belt wheel cavity. Is favorable for the accurate mixing of the materials in the later period.

Description

Material conveyor for crushing and quantitatively outputting condensed block powder

Technical Field

The invention relates to the technical field of material conveying, in particular to a material conveyor for crushing and quantitatively outputting condensed block-shaped powder.

Background

In our daily life, often need carry out accurate the mixture with the material, some powdery material condense the piece in the moisture that absorbs in the air easily in humid environment, be unfavorable for the use in later stage, adopt the mode of artifical hand title to accomplish subsequent material mixing usually among the current material mixing technique, greatly reduced the speed of mixing simultaneously personnel demand is big, be unfavorable for improving production efficiency, traditional material transportation equipment does not possess the function of quantitative transport, the anticipated effect of arrival that can not be fine. The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows: ordinary material conveying equipment can not carry out crushing treatment with the powdery material that condenses into the piece, and traditional equipment can not accomplish the ration and carry the requirement, can not reach the expected effect.

In order to solve the problems, the embodiment designs a material conveyor for crushing and quantitatively outputting the coagulated block-shaped powder, which comprises a machine body, wherein the upper end of the machine body is provided with a feeding channel with an upward opening, the upper end surface of the machine body at the position corresponding to the feeding channel is fixedly provided with a feeding hole, the left side of the feeding channel is communicated with a closed door cavity, the lower side of the closed door cavity is provided with a crushing bevel gear cavity, the lower wall surface of the closed door cavity at the position corresponding to the crushing bevel gear cavity is communicated with a spline sleeve cavity, the lower side of the crushing bevel gear cavity is provided with a belt wheel cavity, the lower side of the right end of the belt wheel cavity is provided with a power cavity, a sliding plate capable of sliding up and down is arranged between the left wall surface and the right wall surface of the power cavity, the lower side of the left end of the belt wheel cavity is provided with a conveying bevel gear cavity, the right end surface of the machine body at the position corresponding to, the upper side of the screw cavity is provided with a weighing cavity communicated with the lower end of the feeding channel, a communicating cavity is communicated between the weighing cavity and the screw cavity, the left wall surface and the right wall surface at the upper end of the weighing cavity are symmetrically and fixedly provided with guide blocks, the left end of the position corresponding to the left guide block is provided with a pushing cavity, a weighing barrel capable of sliding up and down is arranged between the guide blocks at the left side and the right side, the weighing cavity is formed inside the weighing barrel, the upper end surface of the weighing barrel and the upper wall surface of the weighing cavity are bilaterally symmetrical and fixedly provided with weighing springs, the lower end surface of the weighing barrel is bilaterally symmetrical provided with a torsion cavity with a downward opening, the left end surface and the right end surface of the discharging plate far away from the axle center of the weighing barrel are fixedly provided with a turnover rod extending into the weighing cavity, the turnover rod penetrates through the left wall surface and the right wall surface of, torsion springs sleeved outside the torsion shaft are fixedly arranged between the rear wall surface of the torsion cavity and the rear end surface of the torsion shaft as well as between the front wall surface of the torsion cavity and the front end surface of the torsion shaft.

Preferably, the power cavity lower wall surface is provided with an electromagnet core cavity communicated with each other, the electromagnet core cavity lower wall surface is fixedly provided with an electromagnet core, the electromagnet core cavity upper end is provided with a pushing head capable of sliding up and down, the pushing head upper end is abutted against the sliding plate lower end surface, an electromagnetic spring is fixedly arranged between the pushing head lower end surface and the electromagnet core cavity lower wall surface, and the sliding plate is internally and fixedly provided with a power motor.

Preferably, the fixed rack that is equipped with of wall leads the slider behind the closed door chamber, the rack is led the slider front side and is equipped with the rack that can the horizontal slip, rack rear end face bilateral symmetry and fixed being equipped with extend to the slider is led to the inside rack of guide rail, the rack lead the slider can along the guide rail horizontal slip, the fixed closed door that is equipped with of rack up end, closed door can with feedstock channel seals, it is equipped with the through-hole to run through between the terminal surface about the closed door.

Preferably, the wall is equipped with can pivoted spline sleeve under the spline sleeve chamber, the inside spline sleeve cavity that forms of spline sleeve, the wall rotates on the power chamber and is equipped with and can run through the belt wheel chamber smash the bevel gear chamber with wall just extends to about the spline sleeve chamber the inside integral key shaft of through-hole, the fixed spline tooth that is equipped with in integral key shaft upper end is located seal the intracavity portion the outer disc of spline sleeve is fixed and is equipped with the straight-teeth gear, the straight-teeth gear can with rack intermeshing, the spline tooth remove extremely when in the spline sleeve cavity, the spline tooth can with the power transmission of integral key shaft gives spline sleeve.

Preferably, be located smash bevel gear intracavity portion the fixed initiative of being equipped with of integral key shaft outer disc smashes bevel gear, it is equipped with to smash bevel gear chamber right side wall rotation and can run through the crushing axle of wall about feedstock channel, the fixed crushing rotary drum that is equipped with of crushing axle outer disc, smash the rotary drum and can smash the powder of agglomerating into pieces, the crushing axle left end be fixed be equipped with can with the initiative smash bevel gear intermeshing's driven bevel gear that smashes, integral key shaft lower extreme power connect in motor power.

Preferably, be located inside the pulley chamber the excircle face of integral key shaft is equipped with spline fit's band pulley spline sleeve, the fixed driving pulley that is equipped with of excircle face of band pulley spline sleeve, the wall rotates under the band pulley chamber to be equipped with and extends to carry the transmission shaft of bevel gear intracavity portion, the fixed driven pulley that is equipped with in transmission shaft upper end, driven pulley with around there being the drive belt between the driving pulley.

Preferably, a driving conveying bevel gear is fixedly arranged at the lower end of the transmission shaft, a screw rod extending into the screw rod cavity is rotatably arranged on the right wall surface of the conveying bevel gear cavity, a driven conveying bevel gear meshed with the driving conveying bevel gear is fixedly arranged at the left end of the screw rod, and screw blades are fixedly arranged on the outer circular surface of the screw rod in the screw rod cavity.

Preferably, the left side lead the slider be equipped with promote the locking through-hole that the chamber communicates each other, the locking through-hole inside be equipped with the catch bar of the mutual butt of weighing bucket, weighing bucket upper end is equipped with the locking chamber of opening left, the locking chamber moves down to during the locking through-hole position, the catch bar can stretch into the locking intracavity portion extends to promote intracavity portion the fixed push disk that is equipped with of catch bar one end, push disk right-hand member face with it is fixed with power spring to promote between the chamber right wall face, promote the dish left end with fixedly connected with stay cord between the head lower extreme promotes.

Preferably, weigh chamber lower wall face left and right sides symmetry and fixed upset sleeve that is equipped with, the inside upset that forms of upset sleeve promotes the chamber, the fixed upset that is equipped with of upset promotion chamber lower wall face promotes the iron core, upset promotes the chamber upper end and is equipped with the upset catch bar that can slide from top to bottom, upset catch bar lower terminal surface with fixed upset promotion spring that is equipped with between the upset promotion chamber lower wall face.

The invention has the beneficial effects that: according to the invention, the material condensed into a block is firstly smashed, then the powdery material is cumulatively weighed, when the weight reaches the specified measurement, the feeding channel is closed, and the powdery material is conveyed downwards.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a material conveyor for crushing and quantitatively outputting agglomerated powder according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 4 is an enlarged view of the structure of "C" of FIG. 1;

FIG. 5 is an enlarged view of the structure of "D" of FIG. 1;

fig. 6 is an enlarged view of the structure of "E" in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a material conveyor for crushing and quantitatively outputting condensed block-shaped powder, which comprises a machine body 11, wherein the upper end of the machine body 11 is provided with a feeding channel 13 with an upward opening, the upper end surface of the machine body 11 at the position corresponding to the feeding channel 13 is fixedly provided with a feeding hole 12, the left side of the feeding channel 13 is communicated with a closed door cavity 14, the lower side of the closed door cavity 14 is provided with a crushing bevel gear cavity 23, the lower wall surface of the closed door cavity 14 at the position corresponding to the crushing bevel gear cavity 23 is communicated with a spline sleeve cavity 17, the lower side of the crushing bevel gear cavity 23 is provided with a belt wheel cavity 28, the lower side of the right end of the belt wheel cavity 28 is provided with a power cavity 41, a sliding plate 42 capable of sliding up and down is arranged between the left wall surface and the right wall surface of the power cavity 41, the lower side of the left end of the belt wheel cavity 28 is provided with a conveying bevel gear cavity 33, the right end surface of, a weighing cavity 35 communicated with the lower end of the feeding channel 13 is arranged on the upper side of the screw cavity 34, a communicating cavity 36 is communicated between the weighing cavity 35 and the screw cavity 34, the left wall surface and the right wall surface of the upper end of the weighing cavity 35 are symmetrically and fixedly provided with guide sliders 51, the left end of the position corresponding to the left guide slider 51 is provided with a pushing cavity 58, a weighing barrel 50 capable of sliding up and down is arranged between the guide sliders 51 on the left side and the right side, a weighing cavity 53 is formed inside the weighing barrel 50, the upper end surface of the weighing barrel 50 and the upper wall surface of the weighing cavity 35 are symmetrically and fixedly provided with weighing springs 49, the lower end surface of the weighing barrel 50 is symmetrically and bilaterally provided with a torsion cavity 69 with a downward opening, the left end surface and the right end surface of the discharging plate 52 far away from the axle center of the weighing barrel 50 are both fixedly provided with a turning rod 56 extending to the inside of the weighing cavity, a torsion shaft 54 penetrating through the front end face and the rear end face of the turning rod 56 is arranged between the front wall face and the rear wall face of the torsion cavity 69, and a torsion spring 55 sleeved outside the torsion shaft 54 is fixedly arranged between the rear wall face of the torsion cavity 69 and the rear end face of the torsion shaft 54 and between the front wall face of the torsion cavity 69 and the front end face of the torsion shaft 54.

Beneficially, the lower wall surface of the power cavity 41 is provided with an electromagnet core cavity 45 which is communicated with each other, the lower wall surface of the electromagnet core cavity 45 is fixedly provided with an electromagnet core 47, the upper end of the electromagnet core cavity 45 is provided with a push head 44 which can slide up and down, the upper end of the push head 44 is abutted to the lower end surface of the sliding plate 42, an electromagnetic spring 46 is fixedly arranged between the lower end surface of the push head 44 and the lower wall surface of the electromagnet core cavity 45, and the inside of the sliding plate 42 is fixedly provided with a power motor 43.

Beneficially, a rack guide slider 68 is fixedly arranged on the rear wall surface of the closed door cavity 14, a rack 16 capable of sliding left and right is arranged on the front side of the rack guide slider 68, the rear end surface of the rack 16 is bilaterally symmetrical and is fixedly provided with the rack guide slider 68 extending into the guide rail 67, the rack guide slider 68 is capable of sliding left and right along the guide rail 67, a closed door 15 is fixedly arranged on the upper end surface of the rack 16, the closed door 15 is capable of closing the feeding channel 13, and a through hole 20 is arranged between the upper end surface and the lower end surface of the closed door 15 in a penetrating manner.

Beneficially, the wall is equipped with can pivoted spline sleeve 19 under spline sleeve cavity 17, the inside spline sleeve cavity 70 that forms of spline sleeve 19, the wall rotates on the power chamber 41 and is equipped with and can run through belt wheel chamber 28 smash bevel gear chamber 23 with the wall just extends to on spline sleeve cavity 17 spline shaft 22 inside through-hole 20, spline shaft 22 upper end is fixed and is equipped with spline tooth 21, is located it is inside to seal door chamber 14 the outer disc of spline sleeve 19 is fixed and is equipped with straight-teeth gear 18, straight-teeth gear 18 can with rack 16 intermeshing, spline tooth 21 remove extremely when in spline sleeve cavity 70, spline tooth 21 can with the power transmission of spline shaft 22 gives spline sleeve 19.

Beneficially, the outer circular surface of the spline shaft 22 inside the grinding bevel gear cavity 23 is fixedly provided with a driving grinding bevel gear 24, the right wall surface of the grinding bevel gear cavity 23 is rotatably provided with a grinding shaft 26 capable of penetrating through the left wall surface and the right wall surface of the feeding channel 13, the outer circular surface of the grinding shaft 26 is fixedly provided with a grinding drum 27, the grinding drum 27 can break powder materials condensed into blocks, the left end of the grinding shaft 26 is fixedly provided with a driven grinding bevel gear 25 capable of being meshed with the driving grinding bevel gear 24, and the lower end of the spline shaft 22 is in power connection with the power motor 43.

Advantageously, the outer circumferential surface of the spline shaft 22 located inside the pulley cavity 28 is provided with a pulley spline sleeve 29 in spline fit, the outer circumferential surface of the pulley spline sleeve 29 is fixedly provided with a driving pulley 30, the lower wall surface of the pulley cavity 28 is rotatably provided with a transmission shaft 71 extending into the conveying bevel gear cavity 33, the upper end of the transmission shaft 71 is fixedly provided with a driven pulley 31, and a transmission belt 32 is wound between the driven pulley 31 and the driving pulley 30.

Advantageously, a driving bevel gear 39 is fixedly arranged at the lower end of the transmission shaft 71, a screw 37 extending into the screw cavity 34 is rotatably arranged on the right wall surface of the conveying bevel gear cavity 33, a driven bevel gear 40 meshed with the driving bevel gear 39 is fixedly arranged at the left end of the screw 37, and a screw blade 38 is fixedly arranged on the outer circumferential surface of the screw 37 positioned in the screw cavity 34.

Beneficially, the left-side guide slide block 51 is provided with a locking through hole 72 mutually communicated with the pushing cavity 58, a pushing rod 59 mutually abutted against the weighing barrel 50 is arranged in the locking through hole 72, the upper end of the weighing barrel 50 is provided with a locking cavity 57 with a left opening, when the locking cavity 57 moves downwards to the position of the locking through hole 72, the pushing rod 59 can extend into the locking cavity 57, one end of the pushing rod 59 extending into the pushing cavity 58 is fixedly provided with a pushing disk 60, a power spring 61 is fixedly arranged between the right end surface of the pushing disk 60 and the right wall surface of the pushing cavity 58, and a pull rope 48 is fixedly connected between the left end of the pushing disk 60 and the lower end of the pushing head 44.

Beneficially, the left side and the right side of the lower wall surface of the weighing cavity 35 are symmetrically and fixedly provided with the overturning sleeve 62, the overturning sleeve 62 forms an overturning pushing cavity 63 inside, the lower wall surface of the overturning pushing cavity 63 is fixedly provided with an overturning pushing iron core 65, the upper end of the overturning pushing cavity 63 is provided with an overturning pushing rod 64 capable of sliding up and down, and an overturning pushing spring 66 is fixedly arranged between the lower end surface of the overturning pushing rod 64 and the lower wall surface of the overturning pushing cavity 63.

The following will explain in detail the operation steps of the material conveyer for crushing and quantitatively outputting agglomerated powder material in the present invention with reference to fig. 1 to 6: in the initial state, the closing door 15 and the rack 16 are in the left limit position, the spline sleeve cavity 17 opens the channel of the feeding channel 13, the spline teeth 21 are in the through holes 20, the driving crushing bevel gear 24 and the driven crushing bevel gear 25 are meshed with each other, the sliding plate 42 is in the upper limit position, the pulling rope 48 is in the tensioned state, the weighing barrel 50 and the discharging plate 52 are in the upper limit position, the discharging plate 52 is in the horizontal state, the power spring 61 is in the extended state, the overturning pushing iron core 65 is electrified, the overturning pushing rod 64 is in the lower limit position, and the overturning pushing spring 66 is in the compressed state.

In operation, the agglomerated powder material is fed through the feeding hole 12, the power motor 43 is driven to drive the spline shaft 22 to rotate, and further drive the spline teeth 21 on the upper end of the spline shaft 22 to idle, the spline shaft 22 rotates and simultaneously drives the driving grinding bevel gear 24 to rotate, and further drives the intermeshing driven grinding bevel gears 25 to rotate, and further drives the grinding shaft 26 to rotate, and further drives the grinding drum 27 to rotate, and further breaks the agglomerated powder material, the spline shaft 22 rotates and drives the pulley spline sleeve 29 to rotate, and further drives the driving pulley 30 to rotate, and further drives the driven pulley 31 to rotate through the driving belt 32, and further drives the driving transmission bevel gear 39 to rotate through the transmission shaft 71, and further drives the screw 37 to rotate through the intermeshing driven transmission bevel gear 40, and further drives the screw blade 38 to rotate, and the broken material of the grinding drum 27 enters the upper side of the discharging plate 52 inside the weighing chamber 53 through the lower end, the powder material gradually becomes heavy, and then the weighing barrel 50 is driven to stretch the weighing spring 49 to move downwards, when the locking cavity 57 moves to correspond to the locking through hole 72, the pushing disc 60 and the pushing rod 59 are driven to move rightwards under the action of the elastic force of the power spring 61 and are inserted into the locking cavity 57, at this time, the pushing head 44 is slightly driven to move downwards through the pulling rope 48, and the electromagnetic iron core 47 is electrified, so that magnetic force is generated, and further the pushing head 44 is attracted to move downwards, at this time, the sliding plate 42 moves downwards under the action of gravity, so that the driving crushing bevel gear 24 is driven to be disengaged from the driven crushing bevel gear 25, at this time, the spline teeth 21 move downwards into the spline sleeve cavity 70, power is transmitted to the straight gear 18 through the spline sleeve 19, so that the meshed rack 16 moves rightwards, so that the closing door 15 is driven to complete the closing of, then the turnover pushing rod 64 moves upwards under the action of the elasticity of the turnover pushing spring 66 to prop against the turnover rod 56 at a corresponding position, so as to drive the turnover rod 56 to turn around the torsion shaft 54, so as to drive the discharging plate 52 to open the sealing of the lower end of the weighing cavity 53, at the moment, powder inside the weighing cavity 53 enters the screw cavity 34 through the communicating cavity 36, so as to drive the powdery material to be transported to the next station under the rotation of the screw blade 38, after the material is transported, the power motor 43 is controlled to rotate reversely, so as to drive the sealing door 15 to move leftwards through the rack 16, so as to open the sealing of the feeding channel 13, at the moment, the power on of the electromagnetic iron core 47 is disconnected, the pushing head 44 moves upwards, so as to complete the meshing of the driving bevel crushing gear 24 and the driven crushing bevel gear 25 and the resetting of the spline teeth 21, meanwhile, the pushing disk 60 and the pushing rod 59 move leftwards, and the, the turning push iron core 65 is continuously electrified, and the turning push rod 64 is moved downwards to reset.

The invention has the beneficial effects that: according to the invention, the material condensed into a block is firstly smashed, then the powdery material is cumulatively weighed, when the weight reaches the specified measurement, the feeding channel is closed, and the powdery material is conveyed downwards.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims (9)

1. The utility model provides a material conveyer that cubic powder of condensing is smashed and ration is exported, includes the organism, its characterized in that: the upper end of the machine body is provided with a feeding channel with an upward opening, the upper end face of the machine body at a position corresponding to the feeding channel is fixedly provided with a feeding hole, the left side of the feeding channel is communicated with a closed door cavity, the lower side of the closed door cavity is provided with a grinding bevel gear cavity, the lower wall face of the closed door cavity at a position corresponding to the grinding bevel gear cavity is communicated with a spline sleeve cavity, the lower side of the grinding bevel gear cavity is provided with a belt wheel cavity, the lower side of the right end of the belt wheel cavity is provided with a power cavity, a sliding plate capable of sliding up and down is arranged between the left wall face and the right wall face of the power cavity, the lower side of the left end of the belt wheel cavity is provided with a conveying bevel gear cavity, the right end face of the machine body at a position corresponding to the conveying bevel gear cavity is provided with a screw rod cavity with a rightward opening, the upper side, the left wall surface and the right wall surface at the upper end of the weighing cavity are symmetrically and fixedly provided with guide sliding blocks, the left end of the position corresponding to the guide sliding block at the left side is provided with a pushing cavity, a weighing barrel capable of sliding up and down is arranged between the guide sliding blocks at the left side and the right side, a weighing cavity is formed inside the weighing barrel, weighing springs are symmetrically arranged between the upper end surface of the weighing barrel and the upper wall surface of the weighing cavity in a left-right mode, the lower end surface of the weighing barrel is symmetrically provided with a torsion cavity with a downward opening at the left and the right, the left and the right end surfaces of the stripper far away from the axle center of the weighing barrel are both fixedly provided with a turnover rod extending to the inside of the weighing cavity, the turning rod penetrates through the left wall surface and the right wall surface of the turning cavity, a turning shaft penetrating through the front end surface and the rear end surface of the turning rod is arranged between the front wall surface and the rear wall surface of the turning cavity, torsion springs sleeved outside the torsion shaft are fixedly arranged between the rear wall surface of the torsion cavity and the rear end surface of the torsion shaft as well as between the front wall surface of the torsion cavity and the front end surface of the torsion shaft.

2. The material conveyer for crushing and quantitatively outputting agglomerated powder as claimed in claim 1, wherein: the power mechanism is characterized in that the lower wall surface of the power cavity is provided with electromagnet core cavities which are communicated with each other, an electromagnet core is fixedly arranged on the lower wall surface of the electromagnet core cavity, a pushing head capable of sliding up and down is arranged at the upper end of the electromagnet core cavity, the upper end of the pushing head is abutted against the lower end surface of the sliding plate, an electromagnetic spring is fixedly arranged between the lower end surface of the pushing head and the lower wall surface of the electromagnet core cavity, and a power motor is fixedly arranged in the sliding plate.

3. The material conveyer for crushing and quantitatively outputting agglomerated powder as claimed in claim 1, wherein: the fixed rack that is equipped with of wall leads the slider behind the closed door chamber, the rack is led the slider front side and is equipped with the rack that can the horizontal slip, rack rear end face bilateral symmetry and fixed be equipped with extend to the slider is led to the inside rack of guide rail, the rack lead the slider can along the guide rail horizontal slip, the fixed closed door that is equipped with of rack up end, closed door can with feedstock channel seals, it is equipped with the through-hole to run through between the terminal surface about the closed door.

4. The material conveyer for crushing and quantitatively outputting agglomerated powder as claimed in claim 3, wherein: the utility model discloses a spline sleeve, including spline sleeve, power chamber, bevel gear chamber, spline sleeve cavity, spline shaft, gear chamber, spline shaft, gear chamber, gear.

5. The material conveyer for crushing and quantitatively outputting agglomerated powder as claimed in claim 1, wherein: lie in smash bevel gear intracavity portion the outer disc of integral key shaft is fixed to be equipped with initiative and smashes bevel gear, it rotates to be equipped with in bevel gear chamber right side wall and can run through the crushing roller of wall about feedstock channel, the outer disc of crushing roller is fixed to be equipped with and smashes the rotary drum, smash the rotary drum and can smash the powder of agglomerating into pieces, the fixed being equipped with in crushing roller left end can with initiative smash bevel gear intermeshing's driven crushing bevel gear, integral key shaft lower extreme power connect in motor power.

6. The material conveyer for crushing and quantitatively outputting agglomerated powder as claimed in claim 1, wherein: be located inside the pulley chamber the outer disc of integral key shaft is equipped with spline fit's band pulley spline sleeve, the fixed driving pulley that is equipped with of outer disc of band pulley spline sleeve, the wall rotates under the band pulley chamber to be equipped with and extends to carry the transmission shaft of bevel gear intracavity portion, the fixed driven pulleys that are equipped with in transmission shaft upper end, driven pulleys with around there being the drive belt between the driving pulley.

7. The material conveyer for crushing and quantitatively outputting agglomerated powder as claimed in claim 1, wherein: the transmission shaft lower extreme is fixed and is equipped with initiative and carries bevel gear, it is equipped with to carry bevel gear chamber right side wall to rotate and extends to the screw rod of screw intracavity portion, the screw rod left end is fixed be equipped with initiative carry bevel gear intermeshing's driven transport bevel gear, be located the screw intracavity portion the outer disc of screw rod is fixed and is equipped with the spiral shell.

8. The material conveyer for crushing and quantitatively outputting agglomerated powder as claimed in claim 1, wherein: the left side lead the slider be equipped with promote the locking through-hole that the chamber communicates each other, locking through-hole inside be equipped with the catch bar of the mutual butt of weighing bucket, weighing bucket upper end is equipped with the locking chamber left of opening, the locking chamber moves down to during the locking through-hole position, the catch bar can stretch into the locking intracavity portion extends to promote intracavity portion the fixed propelling movement dish that is equipped with of catch bar one end, promote a set right-hand member face with it is fixed power spring that is equipped with to promote between the chamber right wall face, promote a set left end with fixedly connected with stay cord between the promotion head lower extreme.

9. The material conveyer for crushing and quantitatively outputting agglomerated powder as claimed in claim 1, wherein: weigh chamber lower wall face left and right sides symmetry and fixed upset sleeve that is equipped with, the inside upset that forms of upset sleeve promotes the chamber, the fixed upset that is equipped with of upset promotion chamber lower wall face promotes the iron core, upset promotion chamber upper end is equipped with gliding upset catch bar from top to bottom, under the upset catch bar terminal surface with fixed upset promotion spring that is equipped with between the upset promotion chamber lower wall face.

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