CN219965495U - Hierarchical sieving mechanism is used in processing of roasted seeds - Google Patents

Abstract

The utility model discloses a grading screening device for processing roasted melon seeds, which belongs to the field of roasted melon seed processing equipment and comprises a bracket and a screening cylinder fixedly arranged on the inner side of the bracket, wherein a grading screening assembly is arranged in the screening cylinder, the grading screening assembly comprises a screening plate I fixed on the top of the screening cylinder, and the bottom of the screening plate I is fixedly connected with a guide plate I extending towards the outside of the screening cylinder in a penetrating way; the classifying screening assembly is arranged in the screening cylinder and consists of a plurality of screening mechanisms with conical structures and a material guiding structure, the classifying screening assembly is arranged into the conical structure with the inclined surface, the screening surface is enlarged, the downward conveying of the roasted melon seeds along the conical inclined tiling is realized, the blockage is not easy to be caused, the automatic screening is realized by utilizing the mechanical force formed by conveying and rolling from top to bottom, the manual holding and the mechanical shaking are not needed, the manpower and the material resources are saved, and the classifying screening can be rapidly completed.

Description

Hierarchical sieving mechanism is used in processing of roasted seeds

Technical Field

The utility model relates to the field of roasted melon seed processing equipment, in particular to a grading and screening device for roasted melon seed processing.

Background

In the melon seed roasted seeds processing process, need to carry out hierarchical screening to it, screen out the melon seed of equidimension not to the roasted seeds to carry out different processing to different particle diameter size, and at present usually by artifical holding screening board or through installing vibrating motor on the screening board, vibrating motor screens screening board vibration, this kind of traditional screening mode inefficiency, and be difficult to accomplish multistage sorting fast. In addition, when the stir-frying amount is large, the screening plate is easy to be blocked, and the screening process is influenced;

therefore, we propose a classifying and screening device for processing roasted melon seeds to solve the practical problems in the prior art.

Disclosure of Invention

The utility model aims to solve the problems that a screening device in the prior art is low in screening efficiency and easy to cause blockage under the condition of large screening amount, and compared with the prior art, the utility model provides the grading screening device for processing roasted melon seeds.

The aim of the utility model can be achieved by the following technical scheme:

the utility model provides a classifying screen device is used in roasted seeds melon seed processing, including support and fixed mounting in the inboard screening section of thick bamboo of support, install classifying screen subassembly in the screening section of thick bamboo, classifying screen subassembly is including being fixed in screening board one at screening section of thick bamboo top, screening board one bottom fixedly connected with is to screening section of thick bamboo outside guide plate one that runs through and extends, screening section of thick bamboo outer wall fixed sleeve has been located the guide plate one side below connect workbin one, screening board one bottom inboard fixedly connected with is located the guide plate one inboard screening board two, it has the row material passageway first to reserve between screening board one bottom and the screening board two tops, screening board two bottom fixedly connected with and its symmetry setting's guide plate two, guide plate two bottom is through guide tube fixed communication have the guide box second that extends to screening section of thick bamboo bottom, guide plate two periphery cover is equipped with the guide plate three that is connected with screening barrel inner wall, the guide plate three with the corresponding setting of screening section of thick bamboo upper and lower position of thick bamboo, it has the guide plate three guide plates three that also runs through to outside the screening barrel outside guide plate three, the guide plate three bottom fixedly connected with the guide plate three guide plates that is located the screening board three guide plates that run through and three guide tube side guide plate three, the three guide plate fixedly connected with the sieve plate three guide plates that is located the sieve plate three guide tube and is located the sieve plate three guide tube fixedly connected with the sieve tube and is located the sieve tube three guide tube side and is located the sieve tube three.

Further, the first sieving plate, the first material guiding plate, the second sieving plate, the second material guiding plate, the third sieving plate and the third material guiding plate are conical structures which are respectively matched in a butt joint mode, the mesh number of the first sieving plate, the second sieving plate and the third sieving plate is gradually decreased, the first sieving plate, the second sieving plate and the third sieving plate are arranged to be conical structures with inclined planes, the sieving surface is enlarged, automatic sieving is achieved by utilizing mechanical force formed by conveying and rolling from top to bottom, manual holding and mechanical shaking are not needed, and manpower and material resources are saved.

Further, the top end of the screening cylinder is connected with a flow dividing sleeve connected with the top of the screening plate, the flow dividing sleeve comprises an outer guide vane fixedly connected to the top end of the screening cylinder and arranged far away from the screening cylinder in an outward inclined mode, the inner side of the outer guide vane is fixedly connected with an inner guide vane of which the bottom end extends to the upper portion of the screening plate through a plurality of connecting rods, a feeding groove is reserved between the outer guide vane and the opposite side wall of the bottom of the inner guide vane, roasted seeds and nuts to be processed are guided to the outer guide vane along the outer edge direction of the outer guide vane, the roasted seeds and nuts are guided to the upper end of the screening plate through the feeding groove of an annular structure and move downwards along the inclined surface of the screening plate, the roasted seeds and nuts screened out are guided into the first receiving box through the first guide plate, and the first roasted seeds are first-stage roasted seeds.

Further, the top end of the second sieving plate is fixedly connected with a diversion cone part, the diversion cone part is fixedly connected with the inner wall of the bottom end of the first sieving plate through a plurality of positioning steel bars, and the hanging effect is achieved by utilizing the matching structure of the pair of sieving plates II of the sieving plate, the material guiding plate II, the material guiding long tube and the material receiving box II.

Further, the bottom ends of the first material receiving box, the third material receiving box, the fourth material receiving box and the second material receiving box are externally connected with discharge pipes, the first material receiving box, the third material receiving box, the fourth material receiving box and the second material receiving box are respectively used for collecting roasted seeds with different grades, and the roasted seeds can be easily sucked out by connecting the discharge pipes with an external sucking pump.

Further, the support is U type structure, and the support inboard has multiunit joint board along vertical direction fixed distribution, and multiunit joint board respectively with screening section of thick bamboo, connect workbin one, connect three outer end walls fixed connection of workbin to improve screening section of thick bamboo and hierarchical subassembly that sieves wholly constitute the steadiness of structure.

Compared with the prior art, the utility model has the advantages that:

(1) The classifying screen assembly is arranged in the screening cylinder and consists of a screening plate I, a screening plate II and a screening plate III which are distributed from top to bottom, and structures such as a material guide plate I, a material guide plate II, a material guide plate III and a material guide short pipe which are matched with the screening plate I, the screening plate II and the screening plate III respectively.

(2) The bottom ends of the first receiving bin, the third receiving bin, the fourth receiving bin and the second receiving bin are externally connected with discharge pipes, the first receiving bin, the third receiving bin and the fourth receiving bin are respectively used for collecting roasted melon seeds in different grades, and the discharge pipes are connected with an external pumping pump so that the roasted melon seeds can be easily pumped out.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of the present utility model;

FIG. 2 is a schematic diagram of a second embodiment of the present utility model;

FIG. 3 is a schematic view of the joint between the first screening plate and the split sleeve according to the present utility model;

FIG. 4 is a schematic view of the structure at the sizing screen assembly of the present utility model;

FIG. 5 is a partial cross-sectional view of the present utility model;

fig. 6 is an internal schematic view of the present utility model in operation.

The reference numerals in the figures illustrate:

1. a bracket; 2. a screening cylinder; 3. screening a first screen plate; 4. a first material guide plate; 5. a first material receiving box; 6. a second screening plate 61 and a diversion cone part; 7. a second material guide plate; 8. a guide long tube; 9. a material receiving box II; 10. screening plates III; 11. a material guide plate III; 12. a material receiving box III; 13. a material guiding short pipe; 14. a material receiving box IV; 15. a shunt sleeve; 151. an outer deflector; 152. an inner deflector; 16. and a discharge pipe.

Detailed Description

The drawings in the embodiments of the present utility model will be combined; the technical scheme in the embodiment of the utility model is clearly and completely described; obviously; the described embodiments are only a few embodiments of the present utility model; but not all embodiments, are based on embodiments in the present utility model; all other embodiments obtained by those skilled in the art without undue burden; all falling within the scope of the present utility model.

Example 1:

the utility model discloses a grading screening device for processing roasted melon seeds, referring to fig. 1 and 2-6, comprising a bracket 1 and a screening cylinder 2 fixedly arranged on the inner side of the bracket 1, wherein a grading screening component is arranged in the screening cylinder 2, the grading screening component comprises a screening plate I3 fixed on the top of the screening cylinder 2, a guide plate I4 penetrating and extending towards the outside of the screening cylinder 2 is fixedly connected with the bottom of the screening plate I3, a material receiving box I5 positioned below the side of the guide plate I4 is fixedly sleeved on the outer wall of the screening cylinder 2, a diversion sleeve 15 connected with the top of the screening plate I3 is connected at the top of the screening cylinder 2, the diversion sleeve 15 comprises an outer diversion sheet 151 fixedly connected with the top of the screening cylinder 2 and arranged in an outward inclined way away from the screening cylinder 2, the inner side of the outer guide vane 151 is fixedly connected with an inner guide vane 152 with the bottom end extending to the upper part of the top of the first sieving plate 3 through a plurality of connecting rods, a feed chute is reserved between the outer guide vane 151 and the opposite side wall of the bottom of the inner guide vane 152, the roasted seeds to be processed are guided to the outer guide vane 151 along the outer edge direction of the outer guide vane 151, the roasted seeds are guided to the upper end part of the first sieving plate 3 through the feed chute with an annular structure and move downwards along the inclined surface of the first sieving plate 3, the screened roasted seeds are sieved for the first time through the first sieving plate 3, and the screened roasted seeds are guided into the first receiving box 5 through the first guiding plate 4, which is the first-stage roasted seeds.

The inner side of the bottom of the first screening plate 3 is fixedly connected with a second screening plate 6 positioned on the inner side of the first guiding plate 4, a first discharging channel is reserved between the bottom of the first screening plate 3 and the top of the second screening plate 6, the bottom end of the second screening plate 6 is fixedly connected with a second guiding plate 7 symmetrically arranged with the first guiding plate, the bottom end of the second guiding plate 7 is fixedly communicated with a second material receiving box 9 extending to the bottom of the screening cylinder 2 through a guiding long pipe 8, the top end of the second screening plate 6 is fixedly connected with a guiding cone 61, the guiding cone 61 is fixedly connected with the inner wall of the bottom end of the first screening plate 3 through a plurality of positioning steel bars, the first screening plate 3 is utilized to play a hanging role, the first guiding plate 7, the guiding long pipe 8 and the second material receiving box 9, the roasted melon seeds which are not filtered by the first screening plate 3 are guided into the second screening plate 6 through the first discharging channel, are downwards conveyed through the inclined surface of the second screening plate 6, screened in the conveying process, and the roasted melon seeds guided into the second material receiving box 9 through the guiding long pipe 8.

The periphery of the second guide plate 7 is sleeved with a third guide plate 10 fixedly connected with the inner wall of the screening cylinder 2, the third screening plate 10 is arranged corresponding to the upper and lower positions of the first screening plate 3, a second discharge channel is reserved between the bottom of the second screening plate 6 and the top of the third screening plate 10, a third guide plate 11 which also extends towards the outside of the screening cylinder 2 in a penetrating way is fixedly connected with the bottom end of the third screening plate 10, a third receiving box 12 positioned below the side of the third guide plate 11 is fixedly sleeved on the outer wall of the screening cylinder 2, the roasted seeds and nuts which are not filtered by the second screening plate 6 are led into a conveying gap between the third screening plate 10 and the second guide plate 7 through the second discharge channel, are downwards conveyed through the third screening plate 10 inclined surfaces, three times of screening is carried out in the conveying process, and the roasted seeds and nuts which are screened out are led into the third receiving box 12 through the third guide plate 11, and the roasted seeds are three-stage roasted seeds.

The connection part of the third material guiding plate 11 and the third sieving plate 10 is fixedly connected with a short material guiding pipe 13 which extends downwards and is sleeved outside the long material guiding pipe 8, the bottom end of the short material guiding pipe 13 is fixedly communicated with a fourth material receiving box 14 which is sleeved on the long material guiding pipe 8, the fourth material receiving box 14 is communicated with the short material guiding pipe 13, and the roasted seeds which are not filtered out by the third sieve plate 10 are downwards conveyed and then guided into the fourth material receiving box 14 through the short material guiding pipe 13, so that the four-stage roasted seeds are.

The screening plate I3, the material guiding plate I4, the screening plate II 6, the material guiding plate II 7, the screening plate III 10 and the material guiding plate III 11 are conical structures which are respectively matched in a butt joint mode, the mesh number of the screening plate I3, the screening plate II 6 and the screening plate III 10 is gradually decreased, the screening plate I3, the screening plate II and the screening plate III 10 are arranged to be conical structures with inclined planes, the screening surface is enlarged, the downward conveying of roasted seeds along the conical inclined tiling is realized, the blockage is not easy to be caused, the automatic screening is realized by utilizing the mechanical force formed by conveying and rolling from top to bottom, manual holding and mechanical shaking are not needed, the manpower and material resources are saved, and the classified screening can be rapidly completed.

Referring to fig. 6, the bottom ends of the first receiving bin 5, the third receiving bin 12, the fourth receiving bin 14 and the second receiving bin 9 are respectively connected with a discharge pipe 16, the first receiving bin 5, the third receiving bin 12, the fourth receiving bin 14 and the second receiving bin 9 are respectively used for collecting roasted melon seeds with different grades, and the roasted melon seeds can be easily sucked out by connecting the discharge pipes 16 with an external suction pump.

Referring to fig. 2, a bracket 1 is in a U-shaped structure, a plurality of groups of connection plates are fixedly distributed on the inner side of the bracket 1 along the vertical direction, and the plurality of groups of connection plates are respectively and fixedly connected with the outer end walls of a screening cylinder 2, a first material receiving box 5 and a third material receiving box 12 so as to improve the stability of the integral structure of the screening cylinder 2 and the grading screening assembly.

The foregoing is only a preferred embodiment of the present utility model; the scope of the utility model is not limited in this respect; any person skilled in the art is within the technical scope of the present disclosure; equivalent substitutions or changes are made according to the technical proposal of the utility model and the improved conception thereof; are intended to be encompassed within the scope of the present utility model.

Claims (6)

1. Hierarchical sieving mechanism is used in processing of roasted seeds, including support (1) and fixed mounting in inboard screening section of thick bamboo (2) of support (1), its characterized in that: the screening device comprises a screening cylinder (2), and is characterized in that a grading screening assembly is arranged in the screening cylinder (2), the grading screening assembly comprises a screening plate I (3) fixed at the top of the screening cylinder (2), the bottom of the screening plate I (3) is fixedly connected with a material guide plate I (4) penetrating and extending towards the outside of the screening cylinder (2), a material receiving box I (5) positioned below the material guide plate I (4) is fixedly sleeved on the outer wall of the screening cylinder (2), a screening plate II (6) positioned on the inner side of the material guide plate I (4) is fixedly connected with the inner side of the bottom of the screening plate I (3), a material discharging channel I is reserved between the bottom of the screening plate I (3) and the top of the screening plate II (6), the bottom of the screening plate II (6) is fixedly connected with a material guide plate II (7) symmetrically arranged with the screening plate II, and the bottom of the material guide plate II (7) is fixedly communicated with a material receiving box II (9) extending to the bottom of the screening cylinder (2) through a material guide tube (8).

The material guiding device is characterized in that a material guiding plate II (7) is fixedly connected with a material guiding plate III (10) through a peripheral sleeve, the material guiding plate III (10) is arranged at the upper and lower positions of a material guiding tube III (3) correspondingly, a material discharging channel II is reserved between the bottom of the material guiding plate II (6) and the top of the material guiding plate III (10), a material guiding plate III (11) which extends to the outside of the material guiding tube (2) in a penetrating mode is fixedly connected with the bottom end of the material guiding plate III (10), a material receiving box III (12) which is positioned below the material guiding plate III (11) is fixedly sleeved on the outer side of the material guiding tube (8) through the outer wall of the material guiding tube (2), a material guiding short tube (13) which extends downwards and is sleeved on the outer side of the material guiding tube (8) is fixedly connected with a material receiving box IV (14) which is sleeved on the material guiding tube (8) through the bottom end of the material guiding short tube (13).

2. The hierarchical screening device for processing roasted seeds of claim 1, wherein: the first screening plate (3), the first material guiding plate (4), the second screening plate (6), the second material guiding plate (7), the third screening plate (10) and the third material guiding plate (11) are conical structures which are respectively matched in a butt joint mode, and the mesh numbers of the first screening plate (3), the second screening plate (6) and the third screening plate (10) are gradually decreased.

3. The hierarchical screening device for processing roasted seeds of claim 1, wherein: the screening tube (2) top links up there is reposition of redundant personnel cover (15) that link up with screening plate one (3) top mutually, reposition of redundant personnel cover (15) are including fixed connection in screening tube (2) top and keep away from outer guide vane (151) that screening tube (2) outwards slope set up, outer guide vane (151) inboard extends to interior guide vane (152) of screening plate one (3) top through a plurality of connecting rod fixedly connected with bottom, reserve the feed chute between the opposite lateral wall of outer guide vane (151) and interior guide vane (152) bottom.

4. The hierarchical screening device for processing roasted seeds of claim 1, wherein: the top end of the sieving plate II (6) is fixedly connected with a diversion cone part (61), and the diversion cone part (61) is fixedly connected with the inner wall of the bottom end of the sieving plate I (3) through a plurality of positioning steel bars.

5. The hierarchical screening device for processing roasted seeds of claim 1, wherein: the bottom ends of the first material receiving box (5), the third material receiving box (12), the fourth material receiving box (14) and the second material receiving box (9) are externally connected with a discharge pipe (16).

6. The hierarchical screening device for processing roasted seeds of claim 1, wherein: the support (1) is of a U-shaped structure, a plurality of groups of connecting plates are fixedly distributed on the inner side of the support (1) along the vertical direction, and the plurality of groups of connecting plates are fixedly connected with the outer end walls of the screening cylinder (2), the first material receiving box (5) and the third material receiving box (12) respectively.