CN205076500U - Preparation system of synthetic granule and automatic feeding thereof - Google Patents

Abstract

The utility model relates to a preparation system of synthetic granule and automatic feeding thereof, include: the feeding funnel, the fixed bolster, the connecting rod, elevating system, advancing mechanism, advancing mechanism is connected with the feeding funnel to drive feeding funnel level impels, and control module for the output control signal that rises when the material is transferred to the storage vat with the lifting of drive elevating system drive connecting rod, drives feeding funnel from the below position of initial position lifting to the discharge gate of keeping away from the storage vat, and output impels control signal, and it impels predetermined distance in the box to fight with the push feed of drive advancing mechanism, control module still is used for output recovery control signal after the storage vat stops the pay -off to control advancing mechanism retrieves the predetermined distance, and output decline control signal, transfers with control elevating system drive connecting rod, drives the feeding funnel and retrieves to initial position from the below of discharge gate. Above -mentioned automatic feeding simple structure is reliable, can realize automatic quick material loading, has promoted production efficiency.

Description

The preparation system of synthesis particle and automatic feeding thereof

Technical field

The utility model relates to technical field of processing equipment, particularly relates to a kind of preparation system and the automatic feeding thereof that synthesize particle.

Background technology

At present, along with the development of technology, the degree of automation of big scale production equipment is constantly improved, and for processing type equipment, such as, synthesizes the preparation system of particle, all needs constantly to carry out material loading to it, to meet the needs of production.

And current most production facilities adopts the mode of artificial loading to casing material loading.Artificial loading is inefficiency not only, improves productive costs, and higher for operating ambient temperature, produce the situation such as pernicious gas, artificial loading also can produce larger injury to human body, the life and health of serious threat people.

Utility model content

Based on this, provide a kind of structure simple and preparation system and the automatic feeding thereof of the synthesis particle of rapid material-feeding can be realized.

A kind of automatic feeding, enters casing for the material guiding the discharging opening of storage vat to transfer, comprising:

Conveyer bucket, for the material that discharging opening described in splendid attire is transferred;

Fixed support;

Connecting rod, described connecting rod one end is connected with described fixed support is movable, and the other end is connected with described conveyer bucket;

Lifting mechanism, one end of described lifting mechanism is connected with described connecting rod is movable, and the other end of described lifting mechanism is connected with described fixed support;

Propulsive mechanism, described propulsive mechanism is connected with described conveyer bucket, advances to drive described conveyer bucket; And

Control module, for exporting rising control signal when material transferred by described storage vat, described connecting rod lifting is made to drive described lifting mechanism, described conveyer bucket is driven to be raised to the lower position of described discharging opening from the initial position away from described storage vat, and export boost control signal, advance described conveyer bucket to enter preset distance in described casing to drive described propulsive mechanism;

Described control module also reclaims control signal for exporting after described storage vat stops feeding, to drive preset distance described in described propulsive mechanism rollback, and export decline control signal, drive described connecting rod to transfer to control described lifting mechanism, drive described conveyer bucket to be recycled to initial position from the lower position of described discharging opening.

Wherein in an embodiment, the second strut bar that described lifting mechanism comprises the first strut bar and is connected with described first strut bar; Described first strut bar and described second strut bar can relative slidings, extend or shrink to make described lifting mechanism; Described first strut bar is connected with described fixed support is movable away from one end of described second strut bar; Described second strut bar is connected with described connecting rod is movable away from one end of described first strut bar.

Wherein in an embodiment, described lifting mechanism is connecting rod described in lifting in the first plane perpendicular to described discharging opening place plane, and described propulsive mechanism advances described conveyer bucket perpendicular in the second plane of described first plane and described discharging opening place plane at the same time.

Wherein in an embodiment, between described conveyer bucket and described connecting rod, be provided with sliding rail, described conveyer bucket can move along described sliding rail; Or,

Described conveyer bucket comprises body and conducting element; Described conducting element is sheathed in described body, and is slidably connected with described body.

Wherein in an embodiment, described propulsive mechanism comprises the rotating mechanism be arranged on described connecting rod, described rotating mechanism receives the boost control signal that described control module sends, to drive described connecting rod to rotate forward around axis, described conveyer bucket is made to advance in described casing described preset distance along described sliding rail or make the relatively described body relative sliding of described conducting element enter described preset distance in described casing; Described rotating mechanism also receives the recovery control signal that described control module sends, to drive described connecting rod around axis contrarotation, make described conveyer bucket along preset distance described in described sliding rail rollback or make preset distance described in described conducting element relatively described body relative sliding rollback.

Wherein in an embodiment, described connecting rod comprises first connecting rod, second connecting rod and the conveyer bucket fixed way for being connected described conveyer bucket, and described first connecting rod is equal with second connecting rod length, and be arranged in parallel; Described first connecting rod is flexibly connected with described conveyer bucket fixed way respectively with one end of described second connecting rod, and the other end of described first connecting rod and described second connecting rod is movably connected on described fixed support; On the movable any connecting rod be connected in described first connecting rod and described second connecting rod in one end of described lifting mechanism, the plane that described conveyer bucket fixed way is parallel to described discharging opening axis direction fixes described conveyer bucket.

Wherein in an embodiment, described conveyer bucket is U-shaped channel-shaped structure, the inside bottom surface of described conveyer bucket is obliquely installed, arrange sliding rail between described conveyer bucket and described conveyer bucket fixed way, described propulsive mechanism advances or preset distance described in horizontal rollback along described sliding rail level in order to drive described conveyer bucket.

Wherein in an embodiment, described propulsive mechanism comprises the rotation angle mechanism be arranged on described fixed support, and described fixed support comprises the first support and the second support; Described second support installing is on described first support; Described rotation angle mechanism can drive relatively described first holder pivots of described second support; Described rotation angle mechanism receives the boost control signal that described control module sends, rotate forward around axis to drive described second support, described conveyer bucket is made to enter described preset distance in described casing, described rotation angle mechanism also receives the recovery control signal that described control module sends, to drive described second support around axis contrarotation, make preset distance described in described conveyer bucket rollback; Or,

Described conveyer bucket is rotatably connected on described connecting rod, described propulsive mechanism comprises chain, pulley, chain jack, one end of described chain connects described conveyer bucket, the other end of described chain connects described chain jack by described pulley, described chain jack discharges described chain predetermined length according to the described boost control signal received, described conveyer bucket is made to advance described preset distance in described casing, described chain jack reclaims predetermined length described in described chain according to the recovery control signal received, make preset distance described in described conveyer bucket rollback, or,

Described propulsive mechanism is idler wheel mechanism and roller driver module, described idler wheel mechanism is arranged on described fixed support, described roller driver module receives the boost control signal that described control module sends, to drive described wheel actions to drive described fixed support parallel motion, described conveyer bucket level is made to advance preset distance in described casing; Described roller driver module receives the recovery control signal that described control module sends, and to drive described wheel actions to drive described fixed support parallel motion, makes preset distance described in described conveyer bucket rollback.

Synthesize a preparation system for particle, comprising:

Reaction chamber is tubular structure, and described reaction chamber end is provided with inlet point;

Storage vat, the axis of described storage vat and the axis perpendicular of described reaction chamber, described storage vat is provided with discharging opening; And

Above-mentioned automatic feeding, described automatic feeding and described reaction chamber interval are arranged; It is inner that the material that the bootable described discharging opening of described automatic feeding is transferred enters described reaction chamber by described inlet point.

Wherein in an embodiment, described discharge outlet is provided with taper resettlement section; Described resettlement section is provided with gate, and described resettlement section can be closed or open by described gate.

Above-mentioned automatic feeding is provided with lifting mechanism, propulsive mechanism and drives the control module of lifting mechanism and propulsive mechanism action, can realize automatic rapid material-feeding, improve production efficiency largely, reduce productive costs.And automatic feeding is simple and reliable for structure, at the end of material loading, conveyer bucket combined action can be retracted to initial position by control module, lifting mechanism and propulsive mechanism, saves space.

The storage vat that the preparation system of above-mentioned synthesis particle is provided with automatic feeding and matches with it, can realize rapid material-feeding, simple and reliable for structure.And placement that automatic feeding is collapsible, avoids the impact of conveyer bucket at inlet point place on reaction chamber work, also saves space simultaneously.

Further, storage vat is arranged near inlet point place, can enter in reaction chamber by material by conveyer bucket by fast speed, reduces material transferring distance, shortens the haulage time of material, improves the production efficiency of the preparation system of synthesis particle.

Accompanying drawing explanation

Fig. 1 is the automatic feeding material loading status architecture schematic diagram of the utility model one embodiment;

Fig. 2 is the retracted state of automatic feeding shown in Fig. 1 structural representation;

Fig. 3 is the lifting process of automatic feeding shown in Fig. 1 schematic diagram;

Fig. 4 is the conveyer bucket structural representation of another embodiment of the utility model;

Fig. 5 is the fixing rack structure schematic diagram of another embodiment of the utility model;

Fig. 6 is the propulsive mechanism structural representation of another embodiment of the utility model;

Fig. 7 is the module controls figure of the utility model automatic feeding;

Fig. 8 is the preparation system structural representation of the synthesis particle of the utility model one embodiment;

Fig. 9 is the inner structure of reaction chamber shown in Fig. 8 schematic diagram.

Detailed description of the invention

For the ease of understanding the utility model, below with reference to relevant drawings, the utility model is described more fully.Better embodiment of the present utility model is given in accompanying drawing.But the utility model can realize in many different forms, is not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make to disclosure of the present utility model understand more thorough comprehensively.

It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.Term as used herein " vertical ", " level ", "left", "right" and similar statement just for illustrative purposes, do not represent it is unique embodiment.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in specification sheets of the present utility model herein just in order to describe concrete embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.

Shown in composition graphs 1, Fig. 2, Fig. 3, Fig. 7, the automatic feeding 100 of the utility model one embodiment, the material for guiding storage vat 200 to transfer enters casing (not marking, can be agitator, reaction chamber, cold chamber etc.).Automatic feeding 100 comprises conveyer bucket 110, fixed support 140, connecting rod 130, lifting mechanism 120, propulsive mechanism 150 and control module (not shown).

The material that conveyer bucket 110 is transferred for splendid attire storage vat 200.Wherein, material can refer to that any one can transmit material, this material from the discharging opening of storage vat 200 out after utilize gravity to transfer to conveyer bucket 110.Connecting rod 130 one end is connected with conveyer bucket 110, and the other end is connected with fixed support 140 is movable.In order to ensure that conveyer bucket can horizontal lifting and recovery, and it is minimum to ensure to take up an area space, then, in an embodiment of the present utility model, above-mentioned connecting rod 130 comprises first connecting rod 131 and second connecting rod 132, for connecting the conveyer bucket fixed way 133 of conveyer bucket.First connecting rod 131 is equal with second connecting rod 132 length, and be arranged in parallel, and first connecting rod 131 is flexibly connected with conveyer bucket fixed way 133 respectively with one end of second connecting rod 132, and the other end of first connecting rod and second connecting rod is movably connected on fixed support 140.Conveyer bucket is positioned at can horizontal lifting or recovery on conveyer bucket fixed way 133.

One end of above-mentioned lifting mechanism 120 is movable to be connected on connecting rod 130, and the other end is connected with fixed support 140.As shown in figures 1 and 3, when above-mentioned connecting rod 130 comprise first connecting rod 131 and second connecting rod 132, for connecting the conveyer bucket fixed way 133 of conveyer bucket time.One end of lifting mechanism 120 is movably connected on any connecting rod in above-mentioned first connecting rod 131 and second connecting rod 132, and the other end of lifting mechanism 120 is movable to be connected on fixed support 140.

Above-mentioned propulsive mechanism 150 is connected with conveyer bucket 110, and propulsive mechanism 150 can drive conveyer bucket 110 to advance.

Control module is electrically connected with lifting mechanism 120 and propulsive mechanism 150.Control module can send drive singal, in order to drive lifting mechanism 120 and propulsive mechanism 150 action.

The mechanical mechanism of above-mentioned automatic feeding 100 can realize based on the control of control module, when material transferred by storage vat 200, control module exports rising control signal, connecting rod 130 lifting is made to drive lifting mechanism 120, conveyer bucket 110 is driven to be raised to the lower position of discharging opening from the initial position away from storage vat 200, and export boost control signal, enter preset distance in casing to drive propulsive mechanism 150 push feed bucket 110.When storage vat 200 stops feeding, control module exports and reclaims control signal, to drive the horizontal rollback preset distance of propulsive mechanism 150, and export decline control signal, transfer to control lifting mechanism 120 drive link 130, drive conveyer bucket 110 to be recycled to initial position from the lower position of discharging opening.

Shown in composition graphs 1, Fig. 2, Fig. 3, in an embodiment of the present utility model, lifting mechanism 120 comprises the first strut bar 122 and the second strut bar 124.First strut bar 122 is connected with the second strut bar 124.Can relative sliding between first strut bar 122 and the second strut bar 124, extend to make lifting mechanism 120 or shrink.First strut bar 122 is connected with fixed support 140 is movable away from one end of the second strut bar 124.Second strut bar 124 is connected with connecting rod 130 is movable away from one end of the first strut bar 122.Concrete, the first strut bar 122 is tubular structure, and the second strut bar 124 can be contained in the first strut bar 122.Relative sliding between described first strut bar 122 and the second strut bar 124 relies on air cylinder driven, and then makes connecting rod 130 lifting or transfer.

In another embodiment, lifting mechanism 120 elongation or shrink can also be realized by the mode of clamping.Engagement section can be set on the first strut bar 122 or the second strut bar 124, when relative second strut bar 124 of the first strut bar 122 slides stretching, by the first strut bar 122 and the second strut bar 124 phase clamping, make lifting mechanism 120 by connecting rod 130 lifting.Between the first strut bar 122 with the second strut bar 124 not phase clamping time, relative second strut bar 124 of the first strut bar 122 is regained, and transfers with drivening rod 130.

But, for the Relative motion control of the first strut bar 122 and the second strut bar 124, the drive source be connected with control module can be adopted, the rising control signal that described drive source exports according to described control module or decline control signal, drive the first strut bar 122 and the second strut bar 124 relative sliding action, thus complete the lifting of connecting rod 130 or transfer.And drive source here can be cylinder, motor transmission mechanism etc.

Shown in composition graphs 1, Fig. 2, Fig. 3, Fig. 7, in an embodiment of the present utility model, conveyer bucket 110 is U-shaped channel-shaped structure, and its inside bottom surface is obliquely installed.In addition, arrange sliding rail between conveyer bucket 110 and connecting rod 130, conveyer bucket 110 can move along sliding rail and go deep into preset distance in casing, and then makes the material that flows down from storage vat 200 slide to box house along the ramped bottom surface of conveyer bucket 110.Propulsive mechanism 150 is arranged on connecting rod 130, is positioned at the rear of conveyer bucket 110, and propulsive mechanism 150 receives the boost control signal that control module sends, and advances preset distance in casing to drive conveyer bucket 110 along sliding rail.Propulsive mechanism 150 also receives the recovery control signal that control module sends, to drive conveyer bucket 110 along sliding rail rollback preset distance.And propulsive mechanism 150 here can be cylinder, motor transmission mechanism etc.Such as, in one of them embodiment of the present utility model, when connecting rod 130 comprising conveyer bucket fixed way 133, then propulsive mechanism 150 can be positioned on conveyer bucket fixed way 133.Arrange sliding rail between conveyer bucket 110 and conveyer bucket fixed way 133, propulsive mechanism 150 can advance or horizontal rollback preset distance along driving conveyer bucket 110 along sliding rail level.This setup so that accurately positioning control, can facilitate in the smooth feeding casing of material.

It is pointed out that and also above-mentioned embodiment can be out of shape.Such as, as shown in Figure 4, conveyer bucket 110 comprises body 112 and conducting element 114.Conducting element 114 is sheathed in body 112, and is slidably connected with body 112.Such as, can also be provided with above-mentioned sliding rail, conducting element 114 is fastened in sliding rail on body 112, conducting element 114 opposing body 112 slidably.Being appreciated that the U-shaped channel-shaped structure of conveyer bucket 110, except comprising the U-shaped mechanism that cross-sectional plane mates completely, can also comprising in other shapes such as V-shaped, W font that any one has the chute-type structure of two sidewalls.

Certainly, in the bar linkage structure shown in Fig. 1, above-mentioned propulsive mechanism 150 can be arranged on conveyer bucket fixed way 133, and propulsive mechanism 150 can be cylinder, motor transmission mechanism etc., and it is controlled by above-mentioned control module.In one of them embodiment of the present utility model, the link joint feature that conveyer bucket fixed way 133 comprises hopper fixed part and is connected with hopper fixed part, link joint feature is flexibly connected with one end of first connecting rod 131 and second connecting rod 132 respectively.And, plane hopper fixed part being parallel to discharging opening axis direction fixes conveyer bucket.Namely the plane being parallel to discharging opening axis direction on conveyer bucket fixed way 133 fixes conveyer bucket 110.Its object is to ensure that conveyer bucket 110 is in lifting and can horizontal positioned all the time when transferring, minimally can reduce taking up room of recovery.

Certainly, except each embodiment above-mentioned, following scheme can also be adopted.

Shown in composition graphs 5, Fig. 7, in another embodiment, propulsive mechanism comprises the rotating mechanism (not shown) be arranged on connecting rod 130.Rotating mechanism can receive the boost control signal that control module sends, rotate forward around axis with drive link 130, make conveyer bucket 110 relative sliding track slip into preset distance in casing, or make conducting element 114 opposing body 112 relative sliding enter preset distance in casing.Rotating mechanism also receives the recovery control signal that control module sends, with drive link 130 around axis contrarotation, make conveyer bucket 110 relative sliding track slip rollback preset distance, or make conducting element 114 opposing body 112 relative sliding rollback preset distance.

As shown in Figure 5, Figure 7, in another embodiment, propulsive mechanism comprises the rotation angle mechanism 152 be arranged on fixed support 140, and fixed support 140 comprises the first support 142 and the second support 144.Second support 144 is installed on the first support 142.Rotation angle mechanism 152 can drive relative first holder pivots 142 of the second support 144.Rotation angle mechanism 152 receives the boost control signal that control module sends, and to drive the second support 144 to rotate forward around axis, makes conveyer bucket 110 enter preset distance in casing.Rotation angle mechanism 152 also receives the recovery control signal that control module sends, and to drive the second support 144 around axis contrarotation, makes conveyer bucket 110 rollback preset distance.

In addition, as shown in Figure 7, in another embodiment of the present utility model, conveyer bucket is movable to be connected on connecting rod, and propulsive mechanism 150 comprises chain, pulley, chain jack.One end of chain connects conveyer bucket 110, and the other end of chain connects chain jack by pulley.Chain jack, according to the boost control signal release chain predetermined length received, makes conveyer bucket 110 advance preset distance in casing.Chain jack reclaims chain predetermined length according to the recovery control signal received, and makes conveyer bucket 110 reclaim preset distance.Certainly enter in casing for the ease of the propelling of conveyer bucket 110 in the present embodiment, conveyer bucket 110 also can adopt above-mentioned split-type structural, and such as, conveyer bucket 110 comprises body 112 and conducting element 114.Conducting element 114 is sheathed in body 112.Body 112 is provided with sliding rail, conducting element 114 is fastened in sliding rail, conducting element 114 opposing body 112 slidably.When chain is released, conducting element 114 opposing body slides in casing for 112 times, and when chain is recovered, conducting element 114 opposing body 112 slides away in casing.

Shown in composition graphs 6, Fig. 7, in one embodiment, propulsive mechanism 150 can be idler wheel mechanism 151 and roller driver module (not shown).Idler wheel mechanism 151 is arranged on fixed support 140.Roller driver module is electrically connected with idler wheel mechanism 151, can driving rolls mechanism 151 move.Roller driver module can receive the boost control signal that control module sends, and with driving rolls mechanism 151 action to drive fixed support 140 parallel motion, makes conveyer bucket 110 level advance preset distance in casing.Roller driver module can also receive the recovery control signal that control module sends, and with driving rolls mechanism 151 action to drive fixed support 140 parallel motion, makes conveyer bucket 110 rollback preset distance.

Above-mentioned automatic feeding 100 is provided with lifting mechanism 120, propulsive mechanism 150 and control module, lifting mechanism 120 can in the first plane perpendicular to discharging opening place plane lifting connecting rod 130, and then drive conveyer bucket 110 to promote, propulsive mechanism 150 can stretch into preset distance in casing perpendicular to push feed bucket 110 in the second plane of the first plane and discharging opening place plane at the same time, make the direct material received below storage vat 200 of conveyer bucket 110, and be delivered in casing.Above-mentioned automatic feeding 100 simple and reliable for structure, can realize automatic charging, improve production efficiency largely, reduce productive costs.And at the end of material loading, conveyer bucket 110 combined action can be retracted to initial position by lifting mechanism 120, propulsive mechanism 150 and control module, saves space.

Above-mentioned each embodiments provides the multiple various embodiments advanced about connecting rod lifting and conveyer bucket; certain the utility model cannot be exhaustive, as long as therefore the satisfied technical scheme simultaneously with above-mentioned lifting mechanism 120 and propulsive mechanism 150 of above-mentioned automatic feeding 100 all should in protection domain of the present utility model.Or above-mentioned automatic feeding 100 can also be meet lifting mechanism 120 lifting connecting rod 130 in the first plane perpendicular to discharging opening place plane, and propulsive mechanism 150 is at the same time perpendicular to the technical scheme of the condition of push feed bucket 110 in the second plane of the first plane and discharging opening place plane.

Shown in composition graphs 1, Fig. 8, the preparation system 10 of the synthesis particle of the utility model one embodiment, can be prepared into synthesis particle by material.Wherein, material refers to the residual discarded vegetable fibre of general plant or industrial crops (as straw, stalk, weedtree, palm shell and cocoanut shell etc.).The preparation system 10 of synthesis particle comprises reaction chamber 300, storage vat 200 and automatic feeding 100.Reaction chamber 300 for cross section be circular tubular structure.Reaction chamber 300 is rotatable, and its end is provided with inlet point 310.The axis of storage vat 200 and the axis perpendicular of reaction chamber 300.Automatic feeding 100 and reaction chamber 300 interval are arranged.Automatic feeding 100 adopts described structure above, and casing mentioned above refers to reaction chamber 300 in the present embodiment.

The lifting of lifting mechanism 120 drive link 130, by conveyer bucket 110 from initial position to be raised to below storage vat 200 and with the position of inlet point 310 sustained height.Propulsive mechanism 150 push feed bucket 110 stretches into inlet point 310 preset distance, and material transferred by the storage vat 200 be positioned at above conveyer bucket 110, and material enters in reaction chamber 300 along conveyer bucket 110.

Specifically in the present embodiment, storage vat 200 is arranged on erecting frame (figure does not mark).Erecting frame and reaction chamber 300 and fixed support 140 interval are arranged.Storage vat 200 is both ends open structure.Storage vat 200 one end is provided with taper resettlement section 210.Resettlement section 210 is provided with gate 220, and gate 220 is slidably inserted in resettlement section 210 along resettlement section 210 radial direction.When gate 220 is closed, material storing is in storage vat 200.When gate 220 is opened, material flows out by resettlement section 210.The size degree that regulating gate 220 is opened, can control streams output.

It is pointed out that erecting frame can omit, storage vat 200 is installed on automatic feeding 100.Such as, can storage vat 200 be arranged on fixed support 140, joint space-efficient object can be reached.

As shown in Figure 9, specifically in the present embodiment, the inwall of reaction chamber 300 is fixed with the strip piece 320 of multiple spaced sheet, each strip piece 320 is spirally extended to the other end from one end of reaction chamber 300.Angle between each strip piece 320 and the axis of reaction chamber 300 is equal.When reaction chamber 300 rotates, strip piece 320 rotates with reaction chamber 300 and produces the wind-force that one blows to the inside of reaction chamber 300, and the material entered from inlet point 310 is prepared into synthesis particle.When materiel machining completes, reaction chamber 300 contrarotation, strip piece 320 rotates backward with reaction chamber 300 and produces the wind-force that one blows to the outside of reaction chamber 300, and then is exported from inlet point 310 by the synthesis particle processed.

It is pointed out that preparation and the output of synthesis particle are not limited only to this kind of mode.Such as, strip salient can be arranged realize the preparation of synthesis particle in reaction chamber 300.At reaction chamber 300, discharging opening is set away from one end of inlet point 310 or sidewall, to realize the output of synthesizing particle.

Specifically in the present embodiment; the preparation system 10 of synthesis particle also comprises actuating device 400; actuating device 400 is arranged at the outside of reaction chamber 300; and be connected with reaction chamber 300; and actuating device 400 can drive reaction chamber 300 to rotate forward or backwards, to make strip piece 320 by materiel machining for synthesis particle or drive synthesis particle export from inlet point 310.

Concrete, actuating device 400 is CD-ROM drive motor, and is arranged at reaction chamber 300 one end away from inlet point 310.Reaction chamber 300 is provided with mesh bulge 330 away from one end circumference of inlet point 310, and the gear 410 of actuating device 400 is meshed with mesh bulge 330, thus realizes actuating device 400 and drive reaction chamber 300 to rotate forward or backwards.

Specifically in the present embodiment, the preparation system 10 of synthesis particle also comprises housing 600 and gas/liquid separator device 500.Housing 600 is covered on outside reaction chamber 300, plays heat insulation effect.Gas-liquid separation device 500 is connected with reaction chamber 300, and is arranged at reaction chamber 300 one end away from inlet point 310, can be undertaken cold by the gas in reaction chamber 300, and is separated by the mixing material formed.

The storage vat 200 that the preparation system 10 of above-mentioned synthesis particle is provided with automatic feeding 100 and matches with it, automatic feeding 100 is simple and reliable for structure, can realize automatic rapid material-feeding.And after material loading terminates, lifting mechanism 120 and propulsive mechanism 150 combined action, drive conveyer bucket 110 to regain, avoid the impact that conveyer bucket 110 works on reaction chamber 300 at inlet point 310 place, also save space simultaneously.

Further, the preparation system 10 of above-mentioned synthesis particle is provided with storage vat 200, the axis of storage vat 200 and the axis perpendicular of reaction chamber 300, can material be entered in reaction chamber 300 by conveyer bucket 110 fast speed, shorten the haulage time of material, improve the production efficiency of the preparation system 10 of synthesis particle.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this specification sheets is recorded.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. an automatic feeding, enters casing for the material guiding the discharging opening of storage vat to transfer, it is characterized in that, comprising:

Conveyer bucket, for the material that discharging opening described in splendid attire is transferred;

Fixed support;

Connecting rod, described connecting rod one end is connected with described fixed support is movable, and the other end is connected with described conveyer bucket;

Lifting mechanism, one end of described lifting mechanism is connected with described connecting rod is movable, and the other end of described lifting mechanism is connected with described fixed support;

Propulsive mechanism, described propulsive mechanism is connected with described conveyer bucket, advances to drive described conveyer bucket; And

Control module, for exporting rising control signal when material transferred by described storage vat, described connecting rod lifting is made to drive described lifting mechanism, described conveyer bucket is driven to be raised to the lower position of described discharging opening from the initial position away from described storage vat, and export boost control signal, advance described conveyer bucket to enter preset distance in described casing to drive described propulsive mechanism;

Described control module also reclaims control signal for exporting after described storage vat stops feeding, to drive preset distance described in described propulsive mechanism rollback, and export decline control signal, drive described connecting rod to transfer to control described lifting mechanism, drive described conveyer bucket to be recycled to initial position from the lower position of described discharging opening.

2. automatic feeding according to claim 1, is characterized in that, the second strut bar that described lifting mechanism comprises the first strut bar and is connected with described first strut bar; Described first strut bar and described second strut bar can relative slidings, extend or shrink to make described lifting mechanism; Described first strut bar is connected with described fixed support is movable away from one end of described second strut bar; Described second strut bar is connected with described connecting rod is movable away from one end of described first strut bar.

3. automatic feeding according to claim 1, it is characterized in that, described lifting mechanism is connecting rod described in lifting in the first plane perpendicular to described discharging opening place plane, and described propulsive mechanism advances described conveyer bucket perpendicular in the second plane of described first plane and described discharging opening place plane at the same time.

4. automatic feeding according to claim 1, is characterized in that, between described conveyer bucket and described connecting rod, be provided with sliding rail, and described conveyer bucket can move along described sliding rail; Or,

Described conveyer bucket comprises body and conducting element; Described conducting element is sheathed in described body, and is slidably connected with described body.

5. automatic feeding according to claim 4, is characterized in that, described propulsive mechanism comprises the rotating mechanism be arranged on described connecting rod; Described rotating mechanism receives the boost control signal that described control module sends, to drive described connecting rod to rotate forward around axis, described conveyer bucket is made to advance in described casing described preset distance along described sliding rail or make the relatively described body relative sliding of described conducting element enter described preset distance in described casing; Described rotating mechanism also receives the recovery control signal that described control module sends, to drive described connecting rod around axis contrarotation, make described conveyer bucket along preset distance described in described sliding rail rollback or make preset distance described in described conducting element relatively described body relative sliding rollback.

6. automatic feeding according to claim 1, is characterized in that, described connecting rod comprises first connecting rod, second connecting rod and the conveyer bucket fixed way for being connected described conveyer bucket, and described first connecting rod is equal with second connecting rod length, and be arranged in parallel; Described first connecting rod is flexibly connected with described conveyer bucket fixed way respectively with one end of described second connecting rod, and the other end of described first connecting rod and described second connecting rod is movably connected on described fixed support; On the movable any connecting rod be connected in described first connecting rod and described second connecting rod in one end of described lifting mechanism, the plane that described conveyer bucket fixed way is parallel to described discharging opening axis direction fixes described conveyer bucket.

7. automatic feeding according to claim 6, is characterized in that, described conveyer bucket is U-shaped channel-shaped structure, and the inside bottom surface of described conveyer bucket is obliquely installed; Between described conveyer bucket and described conveyer bucket fixed way, sliding rail is set; Described propulsive mechanism advances or preset distance described in horizontal rollback along described sliding rail level in order to drive described conveyer bucket.

8. automatic feeding according to claim 1, is characterized in that, described propulsive mechanism comprises the rotation angle mechanism be arranged on described fixed support, and described fixed support comprises the first support and the second support; Described second support installing is on described first support; Described rotation angle mechanism can drive relatively described first holder pivots of described second support; Described rotation angle mechanism receives the boost control signal that described control module sends, and to drive described second support to rotate forward around axis, makes described conveyer bucket enter described preset distance in described casing; Described rotation angle mechanism also receives the recovery control signal that described control module sends, and to drive described second support around axis contrarotation, makes preset distance described in described conveyer bucket rollback; Or,

Described conveyer bucket is rotatably connected on described connecting rod; Described propulsive mechanism comprises chain, pulley, chain jack; One end of described chain connects described conveyer bucket, and the other end of described chain connects described chain jack by described pulley; Described chain jack discharges described chain predetermined length according to the described boost control signal received, and makes described conveyer bucket advance described preset distance in described casing; Described chain jack reclaims predetermined length described in described chain according to the recovery control signal received, and makes preset distance described in described conveyer bucket rollback; Or,

Described propulsive mechanism is idler wheel mechanism and roller driver module, and described idler wheel mechanism is arranged on described fixed support; Described roller driver module receives the boost control signal that described control module sends, and to drive described wheel actions to drive described fixed support parallel motion, makes described conveyer bucket level advance preset distance in described casing; Described roller driver module receives the recovery control signal that described control module sends, and to drive described wheel actions to drive described fixed support parallel motion, makes preset distance described in described conveyer bucket rollback.

9. synthesize a preparation system for particle, it is characterized in that, comprising:

Reaction chamber is tubular structure, and described reaction chamber end is provided with inlet point;

Storage vat, the axis of described storage vat and the axis perpendicular of described reaction chamber, described storage vat is provided with discharging opening; And

Automatic feeding any one of the claims 1 to claim 8 described in claim, described automatic feeding and described reaction chamber interval are arranged; It is inner that the material that the bootable described discharging opening of described automatic feeding is transferred enters described reaction chamber by described inlet point.

10. the preparation system of synthesis particle according to claim 9, is characterized in that, described discharge outlet is provided with taper resettlement section; Described resettlement section is provided with gate, and described resettlement section can be closed or open by described gate.