CN205254452U - Fan -shaped unilateral screw conveying mechanism - Google Patents

Abstract

The utility model discloses a fan -shaped unilateral screw conveying mechanism, be open hopper including frame, fan -shaped material loading spare and one side, be equipped with the screw spout in the frame, the lateral wall of frame with the hopper encloses into the material loading district, fan -shaped material loading spare pin joint in in the frame, one side edge of fan -shaped material loading spare has last silo, the material loading trench in in the material loading district and near in the lateral wall of frame, during the material loading, fan -shaped material loading spare upwards rotates, go up the silo with the butt joint of screw spout. The utility model discloses it is fast that fan -shaped unilateral screw conveying mechanism has the material loading, efficient advantage.

Description

Fan-shaped monolateral screw conveyer structure

Technical field

The utility model relates to a kind of screw conveyer structure, relates in particular to a kind of material loading speed fast, and efficiency is highFan-shaped monolateral screw conveyer structure.

Background technology

Traditional mode of tightening up a screw is mainly to tighten manually, and the operating efficiency of this mode is very low, unfavorableIn production. Therefore, on market, there is electronic screw fixing machine now, tightened although can remove from manually,Also to have larger defect: before tightening up a screw, need exactly to carry screw to screwdriver, carry screw to needArrange screw, but screw small volume, and staff is aligned to a large amount of screws one by one can consumption in delivery chuteTake a large amount of time and manpower, use very inconveniently, this has greatly improved workman's labour intensity, reducesProduction efficiency, is also unfavorable for producing; And existing screw conveyer structure conveying is unstable, be easily blocked inIn hopper, or occur stuck situation, material loading speed is slow, and efficiency is low.

Based on above-mentioned deficiency, material loading speed is fast, the fan-shaped monolateral screw conveyer structure that efficiency is high.

Utility model content

The purpose of this utility model is to provide a kind of material loading speed fast, and the fan-shaped monolateral screw that efficiency is high is carriedMechanism.

To achieve these goals, the fan-shaped monolateral screw conveyer structure that the utility model provides comprise frame,Fan-shaped upper materials and parts and a side are open hopper, and described frame is provided with screw chute, the sidewall of described frameSurround feeding area with described hopper, described fan-shaped upper materials and parts are articulated in described frame, described fan-shaped upper materials and partsA lateral edges there is feeding groove, described feeding groove is positioned at described feeding area and is close proximity to the side of described frameWall, when material loading, described fan-shaped upper materials and parts upwards rotate, and described feeding groove docks with described screw chute.

Compared with prior art, because the utility model is by fan-shaped upper materials and parts are set, described fan-shaped onThe edge of materials and parts arranges feeding groove, and described feeding groove is arranged to sidewall upper that is close proximity to described frameIn material district, thereby utilize the sidewall restriction of described frame to be positioned at the accumulation position of the screw of described hopper, makeDescribed screw is positioned at the opposite side of described feeding groove; Therefore,, before material loading, screw can only enter institute from this sideState in feeding groove, form monolateral material loading, avoid screw to take the least important seat at a square table and be placed in the top of described feeding groove and cannot fallEnter described feeding groove, prevent that the screw of taking the least important seat at a square table from stopping up feeding groove and stopping that other screw enters; And due to instituteThe width of stating feeding groove is less than the length of described screw, is placed in described material loading even if there is the screw of minority to take the least important seat at a square tableGroove top, described fan-shaped on materials and parts while upwards rotating, described screw also can be under Action of Gravity Field automatically underFall back in hopper, therefore, fan-shaped monolateral screw conveyer structure of the present utility model can make screw enter fastEnter feeding groove, material loading speed is fast, and transfer efficiency is high.

Preferably, the curved structure being bent upwards of the last groove of described feeding groove. Due to described feeding groove at the beginning ofBeginning is tilted to down when state, and screw is positioned at the least significant end of described feeding groove, when described fan-shaped upper materials and parts toWhen upper rotation, screw easily skids off described feeding groove under the effect of gravity, therefore, and can by this structurePrevent from entering described feeding groove screw inertia skid off feeding groove, effectively improve loading efficiency.

Preferably, described hopper narrows gradually along depth direction. Can make like this described in screw drops to automaticallyThe bottom of hopper, and then automatically enter in described feeding groove.

Preferably, when described fan-shaped upper materials and parts upwards turn to highest point, described feeding groove is obliquely with describedThe docking of screw chute. By the feeding groove of described fan-shaped upper materials and parts is turned to highest point, thereby can make to be positioned atScrew in described feeding groove automatically slides in described screw chute under the effect of gravity, saves and drives.

Preferably, described fan-shaped monolateral screw conveyer structure also comprises the first drive unit, and described first drivesDevice drives described fan-shaped upper materials and parts to rotate.

Preferably, described fan-shaped monolateral screw conveyer structure also comprises that being installed on second in described frame drivesDevice, described the second drive unit drives the screw slippage that is positioned at described screw chute.

Particularly, described the second drive unit is vibrating motor. Described vibrating motor can make to be positioned at described spiral shellScrew in silk chute slides and advances lentamente forward, thereby reaches the object of carrying one by one screw.

Brief description of the drawings

Fig. 1 is the original state figure of the fan-shaped monolateral screw conveyer structure of the utility model.

State diagram when Fig. 2 is the feeding of the fan-shaped monolateral screw conveyer structure of the utility model.

Detailed description of the invention

For the effect that describes technology contents of the present utility model, structural feature in detail, realizes, below in conjunction withEmbodiment also coordinates accompanying drawing to be explained in detail.

As shown in Figure 1 and Figure 2, the fan-shaped monolateral screw conveyer structure 100 of the utility model comprises frame 1, fanOn shape, materials and parts 2 and a side are open hopper 3, and described frame 1 is provided with the screw chute 11 that is inclination,Sidewall 12 and the described hopper 3 of described frame 1 surround feeding area 101, and described fan-shaped upper materials and parts 2 are articulated inIn described frame 1, a lateral edges of described fan-shaped upper materials and parts 2 has feeding groove 21,21 of described feeding groovesIn described feeding area 101 and be close proximity to the sidewall 12 of described frame 1, particularly, described hopper 3 and instituteState between the sidewall 12 of frame 1 and have a groove 102, the width of described groove 102 is a bit larger tham and described fanOn shape the thickness of materials and parts 2 a bit so that described fan-shaped upper materials and parts 2 can pass through described groove 102 on describedThe material interior rotation in district 101, and can stop that again the screw 200 that is positioned at described feeding area 101 is from described groove102 drop out. In the time of material loading, described fan-shaped upper materials and parts 2 upwards rotate, described feeding groove 21 and described spiral shellSilk chute 11 docks.

The curved structure being bent upwards 22 of last groove of described feeding groove 21. Due to described feeding groove 21 at the beginning ofBeginning is tilted to down when state, and screw 200 is positioned at the least significant end of described feeding groove 21, when described fan-shaped onWhen materials and parts 2 upwards rotate, screw 200 easily skids off described feeding groove 21 under the effect of gravity, therefore,Can prevent from having entered by this structure described feeding groove 21 screw 200 inertia skid off feeding groove 21, haveEffect improves loading efficiency.

Described hopper 3 narrows gradually along depth direction. Can make like this screw 200 automatically drop to described materialThe bottom of bucket 3, and then automatically enter in described feeding groove 21.

When described fan-shaped upper materials and parts 2 upwards turn to highest point, described feeding groove 21 dips down tiltedly with describedScrew chute 11 docks, and the at this moment identical formation of slope of described feeding groove 21 and described screw chute 11 alwaysThe slideway of font, or the slope of described feeding groove 21 is greater than the slope of described screw chute 11, forms curvedThe slideway of folding. By the feeding groove of described fan-shaped upper materials and parts 2 21 is turned to highest point, thereby can make to be positioned atScrew 200 in described feeding groove 21 automatically slides in described screw chute 11 under the effect of gravity,Simplify driving mechanism.

Described fan-shaped monolateral screw conveyer structure 100 also comprises the first drive unit (not shown) and installationThe second drive unit (not shown) in described frame 1, described the first drive unit drives described fan-shapedUpper materials and parts 2 rotate, and described the second drive unit drives the screw slippage that is positioned at described screw chute 11. ToolBody ground, described the second drive unit is vibrating motor. Described vibrating motor can make to be positioned at described screw chuteScrew in 11 slides and advances lentamente forward, thereby reaches the object of carrying one by one screw.

Comprehensively above-mentioned, in the time tightening up a screw, screw 200 is placed in described hopper 3, now, places irregularThe threaded post of screw 200 some screw directly enter in described feeding groove 21, and screw terminal carry inOn described feeding groove 21, at this moment, described the first drive unit drives described fan-shaped upper materials and parts 2 counterclockwise upwardsRotate, thereby the screw 200 that is positioned at described feeding groove 21 described in driving upwards, when described fan-shaped upper materials and parts2 while turning to highest point, and described feeding groove 21 docks with described screw chute 11, drives dress described secondPut and the effect of gravity under, the screw 200 that is positioned at described feeding groove 21 slides to described screw chute 11In, thereby complete conveying and the arrangement of screw. When rotating again, get back to originally described fan-shaped upper materials and parts 2Position time, some puts in described feeding groove 21 the irregular screw in described hopper 3 again,So constantly follow action, realize the continuous conveying of screw 200.

Compared with prior art, because the utility model is by fan-shaped upper materials and parts 2 are set, described fan-shaped onThe edge of materials and parts 2 arranges feeding groove 21, and described feeding groove 21 is arranged at and is close proximity to described frame 1In the feeding area 101 of sidewall 12, thereby utilize sidewall 12 restrictions of described frame 1 to be positioned at described hopper 3The accumulation position of interior screw 200, makes described screw be positioned at the opposite side of described feeding groove 21; Therefore, existBefore material loading, screw 200 can only enter in described feeding groove 21 from this side, forms monolateral material loading, avoids screwTaking the least important seat at a square table is placed in the top of described feeding groove 21 and cannot falls into described feeding groove 21, prevents that the screw of taking the least important seat at a square table is stifledHopper 21 stop that other screw enters beyond the Great Wall; And because the width of described feeding groove 21 is less than described spiral shellThe length of silk, is placed in described feeding groove 21 tops even if there is the screw of minority to take the least important seat at a square table, at described fan-shaped material loadingWhen part 2 upwards rotates, described screw also can be under Action of Gravity Field falls back in hopper 3 under automatically, therefore,Fan-shaped monolateral screw conveyer structure 100 of the present utility model can make screw enter fast feeding groove 21, material loadingSpeed is fast, and transfer efficiency is high.

Above disclosed is only preferred embodiments of the present utility model, certainly can not limit this reality with thisBy novel interest field, the equivalent variations of therefore doing according to the utility model claim, still belongs toThe scope that the utility model is contained.

Claims (7)

1. a fan-shaped monolateral screw conveyer structure, is characterized in that: comprise that frame, fan-shaped upper materials and parts and a side are outThe hopper of putting, described frame is provided with screw chute, and the sidewall of described frame and described hopper surround feeding area,Described fan-shaped upper materials and parts are articulated in described frame, and a lateral edges of described fan-shaped upper materials and parts has feeding groove,Described feeding groove is positioned at described feeding area and is close proximity to the sidewall of described frame, when material loading, described fan-shaped onMaterials and parts upwards rotate, and described feeding groove docks with described screw chute.

2. fan-shaped monolateral screw conveyer structure as claimed in claim 1, is characterized in that: the last groove of described feeding grooveThe curved structure being bent upwards.

3. fan-shaped monolateral screw conveyer structure as claimed in claim 1, is characterized in that: described hopper is along degree of depth sideTo narrowing gradually.

4. fan-shaped monolateral screw conveyer structure as claimed in claim 1, is characterized in that: described fan-shaped upper materials and parts toOn while turning to highest point, described feeding groove docks with described screw chute obliquely.

5. fan-shaped monolateral screw conveyer structure as claimed in claim 1, is characterized in that: described fan-shaped monolateral screwConveying mechanism also comprises the first drive unit, and described the first drive unit drives described fan-shaped upper materials and parts to rotate.

6. fan-shaped monolateral screw conveyer structure as claimed in claim 1, is characterized in that: described fan-shaped monolateral screwConveying mechanism also comprises the second drive unit being installed in described frame, and described the second drive unit drives positionScrew slippage in described screw chute.

7. fan-shaped monolateral screw conveyer structure as claimed in claim 6, is characterized in that: described the second drive unitFor vibrating motor.