CN212707510U - Sieving device used after cable material granulation and cooling - Google Patents

Abstract

The utility model discloses a sieving device after cable material granulation cooling, its structure includes the screen cloth of vibration, evenly distributed has a plurality of filtration holes on the screen cloth, its structure still includes a plurality of baffles, the incline direction of screen cloth is down, the setting that a plurality of baffles are parallel to each other is on the screen cloth, the extending direction of baffle and the incline direction of screen cloth are unanimous, form between two baffles and cross the sieve district, filter the hole and distribute in the bottom of crossing the sieve district along the incline direction of screen cloth one by one, the top of crossing the sieve district all is equipped with feed hopper, feed hopper is located the highest point of screen cloth, the utility model discloses the effectual screening efficiency that improves the screen cloth to cable material granule.

Description

Sieving device used after cable material granulation and cooling

The technical field is as follows:

the utility model belongs to the technical field of a cable material production technique and specifically relates to a device that sieves after cable material granulation cooling.

Background art:

cable material granule can generally be screened after production, and then distinguish the goodness and badness of cable material, among the prior art, the screening of cable material goodness and badness is mostly all to put the cable material of granule at the screen cloth, the vibration that utilizes the screen cloth reaches the screening to cable material goodness and badness, however this kind of screening mode, it directly falls the cable material granule on the screen cloth usually, however in the actual screening process of cable material granule, the cable material granule of falling on the screen cloth is piled up on the screen cloth very easily, lead to cable material granule to concentrate on certain region on the screen cloth, the screening efficiency is slow, the utilization efficiency of filtration pore on the screen cloth is low.

The utility model has the following contents:

the utility model aims at providing a device that sieves after cable material granulation cooling solves one or more among the above-mentioned prior art problem.

In order to solve the technical problem, the utility model provides a device that sieves after cable material granulation cooling, its structure includes the screen cloth of vibration, and evenly distributed has a plurality of filtration pores on the screen cloth, and its innovation point lies in: its structure still includes a plurality of baffles, and the incline direction of screen cloth is down, and the setting that a plurality of baffles are parallel to each other is on the screen cloth, and the extending direction of baffle is unanimous with the incline direction of screen cloth, forms to cross the sieve district between two baffles, and the bottom in crossing the sieve district is distributed along the incline direction of screen cloth to the filtration pore one by one, and the top in crossing the sieve district all is equipped with feed hopper, and feed hopper is located the highest point of screen cloth.

Furthermore, above-mentioned feed hopper includes conical feeding case and a plurality of inlet pipe, and the feeding case is fixed directly over the district of sieving, and the inside of inlet pipe and feeding case is linked together and mobilizable setting in the bottom of feeding case, the bottom of inlet pipe extend to the inside in district of sieving one by one and the screen cloth between the interval be 6mm, the bottom of a plurality of inlet pipes corresponds the distribution position of filtration pore between two baffles in the inside distribution position in district of sieving, all is connected with the driving plate between inlet pipe and the screen cloth.

Furthermore, the bottom of above-mentioned feeding case is equipped with the movable groove, and the mobilizable embedding of inlet pipe is in the inside of movable groove, and the inlet pipe moves about in the inside of movable groove, and the driving plate includes diaphragm and riser, and the diaphragm level is fixed on the inlet pipe, and the riser vertical fixation is on the diaphragm and with screen cloth fixed connection.

Furthermore, a plurality of rows of filter holes which are parallel to each other are distributed in the screen passing area along the extending direction of the baffle, the number of the filter holes in each row is four, the number of the feed pipes is four, and the falling positions of the cable materials from the four feed pipes correspond to the positions of the filter holes in each row.

The beneficial effects of the utility model reside in that:

1. the utility model provides a device that sieves after cable material granulation cooling, when screening cable material granule, add the inside of sieving the district with cable material granule through feed hopper, get into the inside cable material of sieving the district and separated by the baffle each other, a large amount of cable material granules have been avoided piling up on the surface of screen cloth, lead to cable material granule to concentrate on certain region on screen cloth surface, when subsequent sieving the district to cable material granule screening, the inside cable material of sieving the district landing along the incline direction of screen cloth, every landing mutually independent of sieving the inside cable material of district, mutual noninterference, be blockked by the baffle each other, make cable material granule holistic distribution on the screen cloth comparatively even, the utilization ratio of the last filtration pore of screen cloth has been improved, thereby the screening efficiency of cable material granule has been improved.

2. The utility model provides a device that sieves after cable material granulation cooling, cable material are at the inlet pipe to the whereabouts in-process of crossing the sieve district, and the vibration of screen cloth drives the riser and vibrates from top to bottom to drive the diaphragm and vibrate from top to bottom, and then drive the inlet pipe and carry out the activity from top to bottom in the inside of movable groove, thereby be favorable to the cable material in the inside whereabouts of inlet pipe, thereby avoided the cable material at the inside jam of inlet pipe.

3. The utility model provides a device that sieves after cable material granulation cooling, cable material granule corresponds the position of filtering the hole between the baffle from the whereabouts position of inlet pipe, the quantity of every line of filtering the hole is four, the quantity of inlet pipe is four, the cable material corresponds the position of every line of four filtering the hole from the position that drops of four inlet pipes respectively, this kind of position correspondence makes cable material granule when the incline direction landing along the screen cloth, can aim at the filtering hole fast, further improvement the filtration efficiency of filtering the hole to cable material granule.

Description of the drawings:

fig. 1 is a schematic side view of the present invention.

Fig. 2 is a cross-sectional view of the screen of the present invention.

The specific implementation mode is as follows:

in order to deepen the understanding of the present invention, the present invention will be further described in detail with reference to the following embodiments and the attached drawings, and the embodiments are only used for explaining the present invention, and do not constitute the limitation to the protection scope of the present invention.

Fig. 1 to fig. 2 are the utility model discloses a concrete implementation mode, its structure includes vibrating screen cloth 1, evenly distributed has a plurality of filtration holes 2 on the screen cloth 1, its structure still includes a plurality of baffles 3, the incline direction of screen cloth 1 is down, the setting that a plurality of baffles 3 are parallel to each other is on screen cloth 1, the extending direction of baffle 3 is unanimous with the incline direction of screen cloth 1, form between two baffles 3 and sieve district 4, filter holes 2 and distribute in the bottom of sieving district 4 along the incline direction of screen cloth 1 one by one, the top of sieving district 4 all is equipped with feed hopper 5, feed hopper 5 is located the highest point of screen cloth 1.

The utility model discloses the theory of operation of screening cable material as follows: the inside of feed hopper 5 is added respectively to the cable material that will need the screening, the cable material passes through feed hopper 5 and gets into the inside of sieving district 4, get into 4 inside cable materials in sieving district and be separated by baffle 3 each other, when sieve mesh 1 screens 4 inside cable material granule in sieving, 4 inside cable materials in sieving district slide along the incline direction of sieve mesh 1, every 4 inside cable materials in sieving district's landing mutually independent, mutual noninterference, can only be blockked by baffle 3 each other, cable material granule is more even in holistic distribution on sieve mesh 1, and under sieve mesh 1's vibration, according to the big or small screening cable material granule of filtration pore 2.

The utility model discloses in, above-mentioned cable material granule is at the inside filtration screening of 4 in the district of sieving, avoided a large amount of cable material granules to pile up on screen cloth 1's surface, when 4 cable material granules in the district of sieving are screened, every 4 inside cable material's in the district of sieving landing mutual independence, mutual noninterference, be blockked by baffle 3 each other, the holistic distribution of cable material granule is more even on screen cloth 1, the utilization ratio of filtration pore 2 on the screen cloth 1 has been improved, thereby the screening efficiency of cable material granule has been improved.

Above-mentioned feed hopper 5 includes conical feeding case 51 and a plurality of inlet pipe 52, feeding case 51 is fixed directly over crossing screening zone 4, inlet pipe 52 is linked together and mobilizable setting in feeding case 51's bottom with feeding case 51's inside, the bottom of inlet pipe 52 extends to the inside of crossing screening zone 4 one by one and the interval between screen cloth 1 is 6mm, the bottom of a plurality of inlet pipes 52 corresponds the distribution position of filtration pore 2 between two baffles 3 in the distribution position of 4 insides of screening zone, all be connected with driving plate 53 between inlet pipe 52 and the screen cloth 1.

The utility model discloses in, when adding the cable material granule that will need the screening into feed hopper 5, the inside of feed box 51 is added earlier to cable material granule, the inside cable material granule of feed box 51 falls into the inside of district 4 that sieves one by one along inlet pipe 52 afterwards, the cable material is at the whereabouts in-process of inlet pipe 52, the vibration of screen cloth 1 passes through the vibration that driving plate 53 drove inlet pipe 52, thereby be favorable to the cable material at the inside whereabouts of inlet pipe 52, thereby avoided the cable material at the inside jam of inlet pipe 52.

The utility model discloses in, cable material granule from the whereabouts position of inlet pipe 52 correspond the position of crossing filter hole 2 between the baffle 3, and this kind of position correspondence makes cable material granule when the incline direction landing along screen cloth 1, can aim at filter hole 2 fast, further improvement filter hole 2 is to the filtration efficiency of cable material granule.

The utility model discloses in, it has a plurality of lines of filtration pores 2 that are parallel to each other to distribute along the extending direction of baffle 3 on the above-mentioned cross sieve district 4, and as optimal scheme, every line of filtration pores 2's quantity is four, and the quantity of inlet pipe 52 is four, and the cable material corresponds every line of four positions of filtering pores 2 from four inlet pipe 52's the position that drops respectively, and every line of filtration pores 2's quantity design is 4 between the baffle 4, can the maximize satisfy the screening efficiency to cable material granule inside the sieve district 4.

The utility model discloses in, for the vibration that the driving plate 53 drove inlet pipe 52 of the concrete explanation, the bottom of above-mentioned feeding case 51 is equipped with movable groove 511, the mobilizable embedding of inlet pipe 52 is in movable groove 511's inside, inlet pipe 52 moves about in movable groove 511's inside, driving plate 53 includes diaphragm 531 and riser 532, diaphragm 531 level is fixed on inlet pipe 52, riser 532 vertical fixation just with screen cloth 1 fixed connection on diaphragm 531, when screen cloth 1 vibrates, drive riser 532 vibration from top to bottom, thereby drive diaphragm 531 vibration from top to bottom, and then drive inlet pipe 52 and move about going on in movable groove 511's inside.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a device that sieves after cable material granulation cooling, its structure includes screen cloth (1) of vibration, evenly distributed has a plurality of filtration holes (2), its characterized in that on screen cloth (1): its structure still includes a plurality of baffles (3), the incline direction of screen cloth (1) is down, and is a plurality of the setting that baffle (3) are parallel to each other is in on the screen cloth (1), the extending direction of baffle (3) with the incline direction of screen cloth (1) is unanimous, two form between baffle (3) and cross sieve district (4), filter hole (2) one by one along the incline direction distribution of screen cloth (1) is in cross the bottom in sieve district (4), the top of crossing sieve district (4) all is equipped with feed hopper (5), feed hopper (5) are located the highest point of screen cloth (1).

2. The sieving device for cable material after granulation and cooling according to claim 1, wherein: feed hopper (5) are including conical feeding case (51) and a plurality of inlet pipe (52), feeding case (51) are fixed cross the top of sieve district (4), inlet pipe (52) with the inside of feeding case (51) is linked together and mobilizable setting is in the bottom of feeding case (51), the bottom of inlet pipe (52) extends to one by one cross the inside of sieve district (4) and with interval between screen cloth (1) is 6mm, and is a plurality of the bottom of inlet pipe (52) is in cross the inside distribution position correspondence of sieve district (4) filtration pore (2) are two distribution position between baffle (3), inlet pipe (52) with all be connected with driving plate (53) between screen cloth (1).

3. The sieving device for cable material after granulation and cooling according to claim 2, wherein: the bottom of feeding case (51) is equipped with movable groove (511), the mobilizable embedding of inlet pipe (52) is in the inside of movable groove (511), inlet pipe (52) are in the activity about the inside of movable groove (511) is gone on, driving plate (53) are including diaphragm (531) and riser (532), diaphragm (531) level is fixed on inlet pipe (52), riser (532) vertical fixation be in on diaphragm (531) and with screen cloth (1) fixed connection.

4. The sieving device for cable material after granulation and cooling according to claim 2, wherein: it has a plurality of rows of filter holes (2) that are parallel to each other to cross to distribute along the extending direction of baffle (3) on sieve district (4), and every row the quantity of filter holes (2) is four, the quantity of inlet pipe (52) is four, and the cable material is followed four respectively the position that drops of inlet pipe (52) corresponds every row the position of four filter holes (2).

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