CN111701860A - Annular feed screening equipment to globular product - Google Patents

Abstract

The invention discloses annular feeding and screening equipment for spherical products, which comprises a screening cylinder and a spiral discharging hopper, wherein the spiral discharging hopper is spirally distributed on the surface of the screening cylinder, the spiral discharging hopper comprises a feeding sliding cavity, a spiral sliding cavity and a discharging sliding cavity, the spiral sliding cavity is spirally distributed on the outer surface of the screening cylinder downwards, an opening at the upper end of the spiral sliding cavity is communicated with the feeding sliding cavity, and an opening at the lower end of the spiral sliding cavity is communicated with the discharging sliding cavity; the outer surface of the spiral sliding cavity is provided with screening grooves with the same diameter, and the outer ends of the screening grooves are communicated with the screening sliding cavities; a feeding control mechanism for intermittently conveying spherical products is arranged on the feeding sliding cavity; a sterilization cylinder is installed in the screening cylinder, a spiral plate is installed at the position, corresponding to the spiral sliding cavity, of the surface of the sterilization cylinder, a high-temperature cavity communicated with the sterilization cylinder is arranged in the spiral plate, and a plurality of spray heads are movably extended out of the outer end of the high-temperature cavity. The spherical product is a pill food in the field, and the product slides into the spiral sliding cavity through the feeding sliding cavity and is subjected to sterilization and screening procedures simultaneously.

Description

Annular feed screening equipment to globular product

Technical Field

The invention relates to the technical field of annular feeding equipment, in particular to annular feeding screening equipment for spherical products.

Background

When some pellet food is processed, various feeding and feeding devices are used.

The food needs to be subjected to high-temperature sterilization and a process of screening superior products and inferior products according to the sizes of food balls in the packaging process, the two processes in the prior art are usually performed separately, the efficiency is low, common screening is also performed in a manual mode, the screening is inaccurate, and therefore an annular feeding screening device for spherical products is provided for solving the problems.

Disclosure of Invention

The present invention aims to provide a screening device for annular feeding of spherical products, which solves the problems set out in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: an annular feeding and screening device for spherical products comprises a screening cylinder and a spiral discharging hopper spirally distributed on the surface of the screening cylinder,

the spiral discharging hopper comprises a feeding sliding cavity, a spiral sliding cavity and a discharging sliding cavity, the spiral sliding cavity is distributed on the outer surface of the screening cylinder in a downward spiral mode, an opening at the upper end of the spiral sliding cavity is communicated with the feeding sliding cavity, and an opening at the lower end of the spiral sliding cavity is communicated with the discharging sliding cavity;

a cavity with a rectangular cross section is formed between the spiral sliding cavity and the outer surface of the screening cylinder;

the outer surface of the spiral sliding cavity is provided with screening grooves with the same upper and lower distribution calibers, and the outer ends of the screening grooves are communicated with the screening sliding cavities;

a feeding control mechanism for intermittently conveying spherical products is arranged on the feeding sliding cavity;

a sterilizing cylinder is arranged in the screening cylinder, a spiral plate is arranged on the surface of the sterilizing cylinder at a position corresponding to the spiral sliding cavity, a high-temperature cavity communicated with the sterilizing cylinder is arranged in the spiral plate, a plurality of spray heads are movably extended out of the outer end of the high-temperature cavity, and the spray heads penetrate through holes in the screening cylinder;

the top of the sterilizing cylinder is fixedly communicated with a high-temperature steam pipe which can be injected with steam.

Preferably, the cross section of the spiral sliding cavity is of an L-shaped structure, and the top of a cavity formed between the spiral sliding cavity and the outer surface of the screening cylinder is of an open structure.

Preferably, the cross sections of the feeding sliding cavity and the discharging sliding cavity are U-shaped structures, the widths of the feeding sliding cavity and the discharging sliding cavity are consistent with the width of the cavity, and the feeding sliding cavity and the discharging sliding cavity are inclined towards the moving direction of the spherical product.

Preferably, the screening grooves are distributed on the outer side walls of the spiral sliding cavities at different height positions, the length of each screening groove is one fourth of the circumference of a single circle of the spiral sliding cavity, an arc-shaped block bent at the inner side of a cavity is mounted at the top of each screening groove through a screw, and the screening sliding cavities communicated with the outer sides of the screening grooves are inclined towards the conveying direction of spherical products.

Preferably, pay-off control mechanism is including spaning the mounting bracket of installing in the smooth chamber top of feeding, a pivot of installation is rotated to the mounting bracket bottom, and the pivot is through the outside motor drive of fixed mounting at the mounting bracket, the blade is stirred to a plurality of arcs of surface symmetry installation of pivot, the tip that the blade was stirred to the arc is the arc surface structure.

Preferably, the sterilizing cylinder is of a hollow structure with two sealed ends, the bottom of the sterilizing cylinder is fixedly connected with a regular polygon fixture block, the bottom of the screening cylinder is correspondingly provided with a base, the top surface of the base is provided with a regular polygon groove matched with the regular polygon fixture block, and the sterilizing cylinder is coaxially arranged inside the screening cylinder.

Preferably, a circular shape apron of sterilization section of thick bamboo top rigid coupling, the apron is connected with the sealing ring at screening section of thick bamboo top through the screw, a dovetail block of protrusion on the lateral surface of apron, the position that corresponds the dovetail block on the sealing ring sets up the dovetail of an indent, and when the dovetail block joint was in the dovetail, a plurality of shower nozzles one-to-one of high temperature chamber outer end was on the through-hole on the screening section of thick bamboo.

Preferably, the high-temperature cavity is located on one side of the spiral plate close to the sterilizing cylinder, the high-temperature cavity is of an annular structure, and the inner end of the high-temperature cavity is communicated with the inside of the sterilizing cylinder through a plurality of connecting pipes.

Preferably, the outer end in high temperature chamber evenly runs through a plurality of columniform and leads to the groove, leads to the groove outside and corresponds with the through-hole, piston block of inner sliding fit joint that leads to the groove, a columniform shower nozzle of rigid coupling on the piston block, the shower nozzle extends to leading to the groove outside, runs through a spout on piston block and the shower nozzle simultaneously, the steam in the high temperature chamber passes through the spout and spouts to leading to the groove outside.

Preferably, an annular protrusion is fixedly connected inside the through groove, and the inner end surface of the annular protrusion is connected with the piston block through a V-shaped spring piece.

Compared with the prior art, the invention has the beneficial effects that:

the spherical products are ball-type foods in the field, such as beef balls, fish balls and the like, and are subjected to sterilization and screening procedures simultaneously when sliding into a spiral sliding cavity through a feeding sliding cavity.

Blade is stirred at two adjacent arcs to spherical product joint, stirs the blade when the arc and makes this spherical product carry the spiral sliding chamber when rotating to reach the effect of the spherical product quantity in the control spiral sliding chamber.

High-temperature steam passes through in the high-temperature steam pipe inputs the sterilization section of thick bamboo to through the even high-temperature intracavity portion of carrying of a plurality of connecting pipes, because the bore of spout is less, make the high-temperature intracavity have higher atmospheric pressure, and then promote the piston piece to the motion of leading to the groove outside, make the shower nozzle stretch out from leading to the inslot, and stretch into in the through-hole, can disinfect better to the product in the cavity.

Adopt the thorough of product screening can be guaranteed in a plurality of screening grooves, the width on all screening grooves is unanimous, and its width is less than the diameter of superior quality ball a little, can effectually separate superior quality ball and inferior quality ball fast, and inferior quality ball slides out and collects through screening sliding chamber.

Drawings

FIG. 1 is a schematic diagram of an explosive structure according to the present invention;

FIG. 2 is a schematic view of the construction of the sieving cylinder and the spiral discharging hopper of the present invention;

FIG. 3 is a schematic view of the construction of a sterilization case and a spiral plate according to the present invention;

FIG. 4 is a schematic view of the structure of a sieving tank in the present invention;

FIG. 5 is a schematic view of the high temperature chamber structure of the present invention;

FIG. 6 is a schematic view of a feed control mechanism of the present invention;

FIG. 7 is a schematic view of an arcuate toggle blade in accordance with the present invention.

In the figure: 1 screening cylinder, 101 base, 102 regular polygon groove, 103 dovetail groove, 104 through hole, 2 spiral discharging hopper, 201 cavity, 202 screening groove, 203 arc block, 21 feeding sliding cavity, 22 spiral sliding cavity, 23 discharging sliding cavity, 24 screening sliding cavity, 3 sterilizing cylinder, 301 regular polygon fixture block, 302 cover plate, 303 dovetail block, 304 high temperature steam pipe, 4 spiral plate, 401 high temperature cavity, 402 through groove, 403 annular bulge, 5 spray nozzle, 501 piston block, 502V-shaped spring piece, 503 spray nozzle, 6 feeding control mechanism, 61 mounting rack, 62 motor, 63 arc stirring blade, 6301 rotating shaft, 6302 arc surface structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides an annular feed screening equipment to globular product, hopper 2 under the spiral on screening section of thick bamboo 1 surface is distributed including screening section of thick bamboo 1 and spiral, hopper 2 includes smooth chamber 21 of feeding, smooth chamber 22 of spiral and the smooth chamber 23 of ejection of compact under the spiral, smooth chamber 22 of spiral is downward spiral and distributes at screening section of thick bamboo 1 surface, the smooth chamber 21 of feeding is fed through to the upper end opening part of the smooth chamber 22 of spiral, the smooth chamber 23 of ejection of compact is fed through to the lower extreme opening part of the smooth chamber 22 of spiral, globular product is the ball class food of affiliated field, for example beef ball, fish ball etc. the product slides in the smooth chamber 22 of spiral through the smooth chamber 21 of feeding and carries out sterilization and screening process simultaneously.

A cavity 201 with a rectangular section is formed between the spiral sliding cavity 22 and the outer surface of the screening cylinder 1; the cross section of the spiral sliding cavity 22 is of an L-shaped structure, and the top of a cavity formed between the spiral sliding cavity and the outer surface of the screening cylinder 1 is of an open structure.

The cross sections of the feeding sliding cavity 21 and the discharging sliding cavity 23 are U-shaped structures, the widths of the feeding sliding cavity 21 and the discharging sliding cavity 23 are consistent with the width of the cavity 201, and the feeding sliding cavity 21 and the discharging sliding cavity 23 are inclined towards the moving direction of the spherical product.

As shown in fig. 1-2, the outer surface of the spiral sliding cavity 22 is provided with screening grooves 202 with the same diameter distributed from top to bottom, and the outer ends of the screening grooves 202 are communicated with the screening sliding cavity 24;

the screening grooves 202 are distributed on the outer side walls of the spiral sliding cavities 22 at different height positions, the length of each screening groove 202 is one fourth of the circumference of a single circle of the spiral sliding cavity 22, an arc-shaped block 203 which is bent inside the cavity 201 is installed at the top of each screening groove 202 through a screw, and the screening sliding cavities 24 communicated with the outer sides of the screening grooves 202 are inclined towards the conveying direction of spherical products.

The adoption of the plurality of screening grooves 202 can ensure thorough screening of products, the width of all the screening grooves 202 is consistent, the width is slightly smaller than the diameter of the superior pellets, the superior pellets and the inferior pellets can be effectively and quickly separated, and the inferior pellets slide out and are collected through the screening sliding cavity 24.

As shown in fig. 1, 2, 6 and 7, a feeding control mechanism 6 for intermittently conveying spherical products is arranged on the feeding slide cavity 21; the feeding control mechanism 6 comprises an installation frame 61 stretching over the feeding sliding cavity 21, a rotating shaft 6301 is rotatably installed at the bottom of the installation frame 61, the rotating shaft 6301 is driven by a motor 62 fixedly installed outside the installation frame 61, the motor 62 can be matched with a speed reducer for use, the rotating shaft 6301 is ensured to rotate at a lower rotating speed, and a large amount of products are prevented from being accumulated in the spiral sliding cavity 22. Three arc-shaped toggle blades 63 are symmetrically installed on the surface of the rotating shaft 6301, and the end portions of the arc-shaped toggle blades 63 are arc surface structures 6302. Blade 63 is stirred at two adjacent arcs to globular product joint, makes this globular product carry spiral sliding chamber 22 when blade 63 is stirred to the arc rotates in to reach the effect of the globular product quantity in the control spiral sliding chamber 22.

A sterilization cylinder 3 is arranged in a screening cylinder 1, the sterilization cylinder 3 is of a hollow structure with two sealed ends, the bottom of the sterilization cylinder is fixedly connected with a regular polygon fixture block 301, a base 101 is correspondingly arranged at the bottom of the screening cylinder 1, a regular polygon groove 102 matched with the regular polygon fixture block 301 is formed in the top surface of the base 101, and the sterilization cylinder 3 is coaxially arranged inside the screening cylinder 1.

A circular shape apron 302 of 3 top rigid couplings of a sterilization section of thick bamboo 3, apron 302 is connected with the sealing ring 102 at screening section of thick bamboo 1 top through the screw, a dovetail 303 of protrusion on the lateral surface of apron 302, the position that corresponds dovetail 303 on the sealing ring 102 sets up the dovetail 103 of an indent, and when dovetail 303 joint is in dovetail 103, on the through-hole 104 of a plurality of shower nozzles 5 one-to-one on screening section of thick bamboo 1 of high temperature chamber 401 outer end, position when can ensureing sterilization section of thick bamboo 3 installation can guarantee shower nozzle 5 and through-hole 104 one-to-one through dovetail 103 and dovetail 303 structure.

The top of the sterilizing cylinder 3 is fixedly communicated with a high-temperature steam pipe 304 which can be injected with steam, a spiral plate 4 is arranged on the surface of the sterilizing cylinder 3 corresponding to the position of the spiral sliding cavity 22, a high-temperature cavity 401 communicated with the sterilizing cylinder 3 is arranged in the spiral plate 4, the outer end of the high-temperature cavity 401 movably extends out of a plurality of spray heads 5, and the spray heads 5 penetrate through holes 104 in the screening cylinder 1;

the high temperature cavity 401 is located on one side of the spiral plate 4 close to the sterilizing cylinder 3, the high temperature cavity 501 is of an annular structure, and the inner end of the high temperature cavity is communicated with the inside of the sterilizing cylinder 3 through a plurality of connecting pipes 301.

The outer end of high temperature chamber 401 evenly runs through a plurality of columniform through grooves 402, the through groove 402 outside corresponds with through-hole 104, piston block 501 of inner sliding fit joint through groove 402, columniform shower nozzle 5 of rigid coupling on piston block 501, shower nozzle 5 extends to the through groove 402 outside, run through a spout 503 simultaneously on piston block 501 and the shower nozzle 5, the steam in high temperature chamber 401 passes through spout 503 and spouts to the through groove 402 outside.

An annular protrusion 403 is fixedly connected inside the through groove 402, and the inner end surface of the annular protrusion 403 is connected with the piston block 501 through a V-shaped spring plate 502.

High-temperature steam passes through high-temperature steam pipe 304 and inputs in going out sterilization cylinder 3 to through the even transport of a plurality of connecting pipes 301 inside high temperature chamber 401, because the bore of spout 503 is less, make to have higher atmospheric pressure in the high temperature chamber 401, and then promote piston block 501 to leading to groove 402 outside motion, make shower nozzle 5 stretch out from leading to the inslot 402, and stretch into in the through-hole 104, can be better to the product in the cavity 201 sterilize. When the high-temperature steam stops being input, the piston block 501 drives the spray head 5 to retract into the through groove 402 under the action of the V-shaped spring piece 502, so that the sterilization cylinder 3 is convenient to maintain and clean.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an annular feed screening equipment to globular product, includes that screening section of thick bamboo (1) and spiral distribute hopper (2) under the spiral on screening section of thick bamboo (1) surface, its characterized in that:

the spiral discharging hopper (2) comprises a feeding sliding cavity (21), a spiral sliding cavity (22) and a discharging sliding cavity (23), the spiral sliding cavity (22) is distributed on the outer surface of the screening cylinder (1) in a downward spiral mode, an opening at the upper end of the spiral sliding cavity (22) is communicated with the feeding sliding cavity (21), and an opening at the lower end of the spiral sliding cavity (22) is communicated with the discharging sliding cavity (23);

a cavity (201) with a rectangular cross section is formed between the spiral sliding cavity (22) and the outer surface of the screening cylinder (1);

the outer surface of the spiral sliding cavity (22) is provided with screening grooves (202) with the same diameters distributed from top to bottom, and the outer ends of the screening grooves (202) are communicated with the screening sliding cavity (24);

a feeding control mechanism (6) for intermittently conveying spherical products is arranged on the feeding sliding cavity (21);

a sterilizing cylinder (3) is arranged in the screening cylinder (1), a spiral plate (4) is arranged on the surface of the sterilizing cylinder (3) at a position corresponding to the spiral sliding cavity (22), a high-temperature cavity (401) communicated with the sterilizing cylinder (3) is arranged in the spiral plate (4), a plurality of spray heads (5) are movably extended out of the outer end of the high-temperature cavity (401), and the spray heads (5) penetrate through holes (104) in the screening cylinder (1);

the top of the sterilizing cylinder (3) is fixedly communicated with a high-temperature steam pipe (304) which can be filled with steam.

2. An annular feed screening apparatus for spheroidal products according to claim 1 wherein: the cross section of the spiral sliding cavity (22) is of an L-shaped structure, and the top of a cavity formed between the spiral sliding cavity and the outer surface of the screening cylinder (1) is of an open structure.

3. An annular feed screening apparatus for spheroidal products according to claim 2 wherein: the cross sections of the feeding sliding cavity (21) and the discharging sliding cavity (23) are of U-shaped structures, the widths of the feeding sliding cavity and the discharging sliding cavity are consistent with the width of the cavity (201), and the feeding sliding cavity (21) and the discharging sliding cavity (23) are inclined towards the moving direction of the spherical product.

4. An annular feed screening apparatus for spheroidal products according to claim 1 wherein: the screening grooves (202) are distributed on the outer side walls of the spiral sliding cavities (22) at different height positions, the length of each screening groove (202) is one fourth of the circumference of a single circle of the spiral sliding cavity (22), an arc-shaped block (203) with the inner side of a cavity (201) bent is mounted at the top of each screening groove (202) through a screw, and the screening sliding cavities (24) communicated with the outer sides of the screening grooves (202) are inclined towards the conveying direction of spherical products.

5. An annular feed screening apparatus for spheroidal products according to claim 1 wherein: pay-off control mechanism (6) are including stretching over mounting bracket (61) of installing in feeding sliding chamber (21) top, pivot (6301) of installation is rotated to mounting bracket (61) bottom, and pivot (6301) are driven through motor (62) of fixed mounting in mounting bracket (61) outside, blade (63) are stirred to a plurality of arcs of surface symmetry installation of pivot (6301), the tip that blade (63) were stirred to the arc is arc surface structure (6302).

6. An annular feed screening apparatus for spheroidal products according to claim 1 wherein: the sterilizing cylinder (3) is of a hollow structure with two sealed ends, the bottom of the sterilizing cylinder is fixedly connected with a regular polygon fixture block (301), the bottom of the screening cylinder (1) is correspondingly provided with a base (101), the top surface of the base (101) is provided with a regular polygon groove (102) matched with the regular polygon fixture block (301), and the sterilizing cylinder (3) is coaxially arranged inside the screening cylinder (1).

7. An annular feed screening apparatus for spheroidal products according to claim 6 wherein: a circular shape apron (302) of a sterilization section of thick bamboo (3) top rigid coupling, apron (302) are connected through screw and sealing ring (102) at screening section of thick bamboo (1) top, a dovetail piece (303) of protrusion on the lateral surface of apron (302), the position that corresponds dovetail piece (303) on sealing ring (102) sets up dovetail (103) of an indent, and when dovetail piece (303) joint was in dovetail (103), on through-hole (104) on screening section of thick bamboo (1) of a plurality of shower nozzles (5) one-to-one of high temperature chamber (401) outer end.

8. An annular feed screening apparatus for spheroidal products according to claim 1 wherein: high temperature chamber (401) are located spiral plate (4) and are gone up one side that is close to sterilization section of thick bamboo (3), and high temperature chamber (501) are the loop configuration, and its inner end is through a plurality of connecting pipes (301) and the inside intercommunication of sterilization section of thick bamboo (3).

9. An annular feed screening apparatus for spheroidal products according to claim 8 wherein: the outer end in high temperature chamber (401) evenly runs through a plurality of columniform and leads to groove (402), leads to groove (402) the outside and corresponds with through-hole (104), piston block (501) of inner sliding fit joint that leads to groove (402), columniform shower nozzle (5) of rigid coupling on piston block (501), shower nozzle (5) extend to leading to groove (402) the outside, run through a spout (503) on piston block (501) and shower nozzle (5) simultaneously, steam in high temperature chamber (401) passes through spout (503) and spouts to leading to groove (402) the outside.

10. An annular feed screening apparatus for spheroidal products according to claim 9 wherein: an annular protrusion (403) is fixedly connected inside the through groove (402), and the inner end face of the annular protrusion (403) is connected with the piston block (501) through a V-shaped spring piece (502).

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