CN204369033U - Vibra feeder - Google Patents

Abstract

The utility model discloses a kind of vibra feeder, this vibra feeder comprises feeding chute, vibrating feed groove and leak preventing, the outlet of described feeding chute near described vibrating feed groove, and arranges described leak preventing to stop that material overflows in the rear end deviating from the outlet of described feeding chute of described vibrating feed groove.By the way, the utility model can prevent material from falling outside the scope of belt conveyor, thus without the need to spending labour power to clean the material spilt, saves labour power, also can prevent the waste of material simultaneously.

Description

Vibra feeder

Technical field

The utility model relates to pay-off field, particularly relates to a kind of vibra feeder.

Background technology

The Main Function of vibra feeder is by the material uniform discharge in feed bin on band conveyor, to form the material bed of suitable thickness and width.

The vibra feeder of existing rubble, granule materials or powder, comprises feeding chute and vibrating feed groove.Material in feed bin enters in vibrating feed groove by feeding chute, and material is shaken off on the load-transfer device of conveyer by vibration by vibrating feed groove.

Vibra feeder is when carrying out vibration operation, partial material can move due to reverse vibration thus towards the rear end of feeder trough, and be deposited in the rear end of vibrating feed groove, namely in the rear end deviating from the outlet of feeding chute of vibrating feed groove, partial material can be deposited in the rear end of vibrating feed groove gradually, finally from edge or the both sides spilling of vibrating feed groove rear end, the material of this part can drop on outside the scope of belt conveyor mostly, need cleaning, which increase labour power and cause the waste of material.

Utility model content

The technical matters that the utility model mainly solves is to provide a kind of vibra feeder, and it can prevent the material being deposited in vibrating feed groove rear end from spilling, thus saves labour power, prevents material waste.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: provide a kind of vibra feeder.This vibra feeder comprises feeding chute, vibrating feed groove and leak preventing, the outlet of described feeding chute near described vibrating feed groove, and arranges described leak preventing to stop that material overflows in the rear end deviating from the outlet of described feeding chute of described vibrating feed groove.

Wherein, described leak preventing is set to "] " shape structure, to be separately positioned on both sides and the back edge place of the rear end of close described vibrating feed groove.

Wherein, described leak preventing is provided with further dredges mouth for what derived by material.

Wherein, the middle position that mouth is located at described leak preventing is dredged described in.

Wherein, described leak preventing comprises left catch and right catch further; In described position of dredging mouth, described in described left catch and described right catch are formed respectively to the rear bending of described vibrating feed groove, dredge mouth.

Wherein, this vibra feeder also comprises diaphragm; Described diaphragm is connected between the upper limb of described feeding chute and described leak preventing, to form the enclosure space that prevents material dispersion between described feeding chute and described leak preventing.

Wherein, the upper limb of described diaphragm is connected with described feeding chute, and its lower edge is connected with the upper limb of described leak preventing.

Wherein, described diaphragm and the connection between described feeding chute and described leak preventing are for removably connecting.

Wherein, this vibra feeder also comprises the first clamping plate and the second clamping plate; Described diaphragm is connected with described feeding chute by described first clamping plate; Described diaphragm is connected with described leak preventing by the second clamping plate; Described first clamping plate comprise the first upper clamping piece and the first lower clamping piece, and the upper limb of described diaphragm is clipped between described first upper clamping piece and described first lower clamping piece; Described first lower clamping piece is fixed on described feeding chute; By threaded column with tighten up knob and be fixed between described first upper clamping piece and the first lower clamping piece; Described second clamping plate comprise the second upper clamping piece and the second lower clamping piece, and the lower edge of described diaphragm is clipped between described second upper clamping piece and described second lower clamping piece; Described second lower clamping piece is fixed on described leak preventing; By threaded column with tighten up knob and be fixed between described second upper clamping piece and the second lower clamping piece.

Wherein, described diaphragm is transparent membrane.

The beneficial effects of the utility model are: the situation being different from prior art, the utility model is by arranging leak preventing in the rear end of vibrating feed groove, it increases the height of the rear end cell wall of vibrating feed groove, thus can prevent the material being deposited in vibrating feed groove rear end from spilling, especially prevent material from falling outside the scope of belt conveyor, thus without the need to spending labour power to clean the material spilt, save labour power, also can prevent the waste of material simultaneously.

Accompanying drawing explanation

Fig. 1 is the side-looking structural representation of the utility model vibra feeder first embodiment;

Fig. 2 is the plan structure schematic diagram of the vibra feeder shown in Fig. 1;

Fig. 3 is the plan structure schematic diagram of the utility model vibra feeder second embodiment;

Fig. 4 is the plan structure schematic diagram of the utility model vibra feeder the 3rd embodiment;

Fig. 5 is the side-looking structural representation of the vibra feeder shown in Fig. 4;

Fig. 6 is the backsight structural representation of the vibra feeder shown in Fig. 4;

Fig. 7 is the plan structure schematic diagram of the utility model vibra feeder the 4th embodiment;

Fig. 8 is the side-looking structural representation of the vibra feeder shown in Fig. 7;

Fig. 9 is the structural representation of the first clamping plate of the vibra feeder shown in Fig. 7.

Wherein, feeding chute 100,400

Vibrating feed groove 101,201,401

Leak preventing 102,202,402

Belt conveyor 103,305

Left catch 2021

Right catch 2022

Dredge mouth 203,303

Dredge pipe 304

Diaphragm 403

First clamping plate 404

First upper clamping piece 4041

First lower clamping piece 4042

Threaded column 4043

Tighten up knob 4044

Second clamping plate 405

Detailed description of the invention

Refer to Fig. 1 and Fig. 2, wherein, Fig. 1 is the side-looking structural representation of the utility model vibra feeder first embodiment; Fig. 2 is the plan structure schematic diagram of the vibra feeder shown in Fig. 1.

As shown in Figure 1-2, vibra feeder of the present utility model comprises feeding chute 100, vibrating feed groove 101 and leak preventing 102.The outlet of feeding chute 100 is near vibrating feed groove 101, and leak preventing 102 is arranged on the rear end deviating from the outlet of feeding chute 100 of vibrating feed groove 101, and it is in order to stop that material overflows.In the present embodiment, leak preventing 102 is set to "] " shape structure, to be separately positioned on both sides and the back edge place of the rear end of close vibrating feed groove 101.Leak preventing 102 overflows to prevent material mainly through the height increasing the cell wall of the rear end of vibrating feed groove 101, it can be integrated "] of disclosing as the present embodiment " leak preventing 102 of shape structure, certainly, it will be understood by those skilled in the art that, leak preventing 102 also can be made up of multiple flat board, and it is separately fixed at the both sides of vibrating feed groove 101 rear end and is fixed on the back edge of vibrating feed groove 101.Leak preventing 102 can directly be welded on vibrating feed groove 101, also can be fixed by screw or is fixed by other conventional means.

Be different from prior art, the utility model is by arranging leak preventing 102 in the rear end of vibrating feed groove 101, it increases the height of the rear end cell wall of vibrating feed groove 101, thus can prevent the material being deposited in vibrating feed groove 101 rear end from spilling, especially prevent material from falling outside the scope of belt conveyor 103, thus without the need to spending labour power to clean the material spilt, save labour power, also can prevent the waste of material simultaneously.

Refer to Fig. 3, Fig. 3 is the plan structure schematic diagram of the utility model vibra feeder second embodiment.

The difference of the present embodiment and the first embodiment is, leak preventing 202 is provided with further and dredges mouth 203, and this dredges mouth 203 for the material of vibrating feed groove 201 rear end is directly exported to belt conveyor, and can not be deposited on vibrating feed groove 201.Dredging mouth 203 can be a through hole being located on leak preventing 202, or an opening running through leak preventing 202 top and top, the bottom of dredging mouth 203 is concordant with the upper limb of vibrating feed groove 201, and material can be derived from dredging mouth 203 in time.This dredges the rear end that mouth 203 is arranged on leak preventing 202, and the material dredging mouth 203 derivation from this is dropped on belt conveyor.The present embodiment dredge the middle position that mouth 203 is arranged on leak preventing 202, thus to distribute more equably when the material of derivation can be made to fall on belt.

In the present embodiment, leak preventing 202 is made up of left catch 2021 and right catch 2022, dredging the position of mouth 203, left catch 2021 and right catch 2022 are formed respectively to the rear bending of vibrating feed groove 201 and dredge mouth 203, the part of dredging the leak preventing 202 that mouth bends out can prevent material from dredge mouth 203 out after can scatter directly to both sides, material can the be led dead aft of vibrating feed groove 201 of the part of this bending falls, and can not disperse to both sides.

Refer to Fig. 4 to Fig. 6, Fig. 4 is the plan structure schematic diagram of the utility model vibra feeder the 3rd embodiment.Fig. 5 is the side-looking structural representation of the vibra feeder shown in Fig. 4.Fig. 6 is the backsight structural representation of the vibra feeder shown in Fig. 4.

The difference of the present embodiment and the second embodiment is, one can also be connected outside mouth 303 and dredge pipe 304 dredging, dredge the outlet downwardly belt conveyor 305 of pipe 304, and near belt conveyor 305, what increase dredges the scope that pipe 304 can reduce material dispersion, guarantees all to fall belt conveyor 305 from dredging mouth 303 material out.

Refer to Fig. 7 to Fig. 9, Fig. 7 is the plan structure schematic diagram of the utility model vibra feeder the 4th embodiment; Fig. 8 is the side-looking structural representation of the vibra feeder shown in Fig. 7; Fig. 9 is the structural representation of the first clamping plate of the vibra feeder shown in Fig. 7.

The difference of the present embodiment and the second embodiment is, this vibra feeder also comprises diaphragm 403, this diaphragm 403 is connected between the upper limb of feeding chute 400 and leak preventing 402, to form an enclosure space between feeding chute 400 and leak preventing 402, it can prevent further because vibrating the material dispersion brought.The upper limb of diaphragm 403 is connected with feeding chute 400, and its lower edge is connected with the upper limb of leak preventing 402.Can being connected with feeding chute 400 and leak preventing 402 by screw of this diaphragm 403, also can be connected by bonding or alternate manner.

Conveniently cleaning is deposited in the material of vibrating feed groove 401 rear end, connection between diaphragm 403 and feeding chute 400 and leak preventing 402 is set to and removably connects, when the material needing cleaning to pile up, diaphragm 403 is taken off, after having cleared up, again diaphragm 403 is connected, easy to operate.

In the present embodiment, diaphragm 403 is connected by clamping plate with between feeding chute 400 and leak preventing 402.These clamping plate comprise the first clamping plate 404 and the second clamping plate 405.

Diaphragm 403 is connected with feeding chute 400 by the first clamping plate 404, and these first clamping plate 404 comprise the first upper clamping piece 4041 and the first lower clamping piece 4042, and the upper limb of diaphragm 403 is clipped between the first upper clamping piece 4041 and the first lower clamping piece 4042.First lower clamping piece 4042 is fixed on described feeding chute 400, by threaded column 4043 with tighten up knob 4044 and be fixed between the first upper clamping piece 4041 and the first lower clamping piece 4042.

Diaphragm 403 is connected with leak preventing 402 by the second clamping plate 405, and the structure of these the second clamping plate 405 is identical with the structure of the first clamping plate 404, and it comprises the second upper clamping piece and the second lower clamping piece, and the lower edge of diaphragm 403 is clipped between the second upper clamping piece and the second lower clamping piece.Second lower clamping piece is fixed on leak preventing 402, by threaded column 4043 with tighten up knob 4044 and be fixed between the second upper clamping piece and the second lower clamping piece.

Diaphragm 403 is in the present embodiment transparent membrane 403, and transparent membrane 403 energy handled easily personal observations's vibrating feed groove 401 rear end solid accumulation situation, in case of blocking can be cleared up in time.

When operating personal through transparent membrane 403 observe the solid accumulation of vibrating feed groove 401 rear end too much time, the knob 4044 that tightens up of the first clamping plate 404 is unscrewed, make no longer to clamp between the first upper clamping piece 4041 and the first lower clamping piece 4042, thus from the first clamping plate 404, diaphragm 403 can be extracted.Equally, the knob 4044 that tightens up of the second clamping plate 405 is unscrewed, make no longer to clamp between the second upper clamping piece and the second lower clamping piece, thus from the second clamping plate 405, diaphragm 403 can be extracted.Thus whole diaphragm 403 is taken out, then the material piled up is cleared up.After having cleared up, again the upper limb of diaphragm 403 is placed between the first upper clamping piece 4041 and the first lower clamping piece 4042, the upper limb of diaphragm 403 is fixed by the knob 4044 that tightens up tightening the first clamping plate 404, the lower edge of diaphragm 403 is placed between the second upper clamping piece and the second lower clamping piece, the lower edge of diaphragm 403 is fixed by the knob 4044 that tightens up tightening the second clamping plate 405, thus is connected with feeding chute 400 and leak preventing 402 by diaphragm 403.If diaphragm 403 is damaged can also change diaphragm 403.This mode by clamping plate fixes diaphragm 403, and cleaning can be made convenient, and the replacing of diaphragm 403 is also convenient, and simple to operate.

Vibra feeder of the present utility model can prevent the material being deposited in vibrating feed groove rear end from spilling, especially prevent material from falling outside the scope of belt conveyor, thus without the need to spending labour power to clean the material spilt, save labour power, also can prevent the waste of material simultaneously.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model specification sheets and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a vibra feeder, it is characterized in that, comprise feeding chute, vibrating feed groove and leak preventing, the outlet of described feeding chute near described vibrating feed groove, and arranges described leak preventing to stop that material overflows in the rear end deviating from the outlet of described feeding chute of described vibrating feed groove.

2. vibra feeder as claimed in claim 1, it is characterized in that, described leak preventing is set to "] " shape structure, to be separately positioned on both sides and the back edge place of the rear end of close described vibrating feed groove.

3. vibra feeder as claimed in claim 2, is characterized in that, described leak preventing is provided with further and dredges mouth for what derived by material.

4. vibra feeder as claimed in claim 3, is characterized in that, described in dredge the middle position that mouth is located at described leak preventing.

5. vibra feeder as claimed in claim 4, it is characterized in that, described leak preventing comprises left catch and right catch further; In described position of dredging mouth, described in described left catch and described right catch are formed respectively to the rear bending of described vibrating feed groove, dredge mouth.

6. the vibra feeder as described in any one of claim 1 to 5, is characterized in that, it also comprises diaphragm; Described diaphragm is connected between the upper limb of described feeding chute and described leak preventing, to form the enclosure space that prevents material dispersion between described feeding chute and described leak preventing.

7. vibra feeder as claimed in claim 6, it is characterized in that, the upper limb of described diaphragm is connected with described feeding chute, and its lower edge is connected with the upper limb of described leak preventing.

8. vibra feeder as claimed in claim 7, it is characterized in that, described diaphragm and the connection between described feeding chute and described leak preventing are for removably connecting.

9. vibra feeder as claimed in claim 8, it is characterized in that, it also comprises the first clamping plate and the second clamping plate; Described diaphragm is connected with described feeding chute by described first clamping plate; Described diaphragm is connected with described leak preventing by the second clamping plate;

Described first clamping plate comprise the first upper clamping piece and the first lower clamping piece, and the upper limb of described diaphragm is clipped between described first upper clamping piece and described first lower clamping piece; Described first lower clamping piece is fixed on described feeding chute; By threaded column with tighten up knob and be fixed between described first upper clamping piece and the first lower clamping piece;

Described second clamping plate comprise the second upper clamping piece and the second lower clamping piece, and the lower edge of described diaphragm is clipped between described second upper clamping piece and described second lower clamping piece; Described second lower clamping piece is fixed on described leak preventing; By threaded column with tighten up knob and be fixed between described second upper clamping piece and the second lower clamping piece.

10. vibra feeder as claimed in claim 9, it is characterized in that, described diaphragm is transparent membrane.