CN111014017A

CN111014017A - Agar screening device

Info

Publication number: CN111014017A
Application number: CN201911405574.6A
Authority: CN
Inventors: 施东
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-04-17

Abstract

The invention provides an agar screening device, and belongs to the technical field of agar production. This agar sieving mechanism includes screening case, screen cloth spare, driving piece, first feed inlet, first discharge gate, second discharge gate and water conservancy diversion spare. The guide member guides agar into the screen mesh, the agar is prevented from being directly thrown into the screen mesh from a first feeding hole to break the agar and damage the agar, the screen mesh conveys second preset agar to a first discharging hole, the receiving plate collects the first preset agar, the distance between one end, far away from the second discharging hole, of the receiving plate and the top end of the screening box is smaller than the distance between one end, close to the second discharging hole, of the receiving plate and the top end of the screening box, the first preset agar slides out of the second discharging hole conveniently, one end of the screen mesh is higher than the other end of the screen mesh, the second preset agar slides out of the first discharging hole conveniently, the first motor drives the first rotating rod through the first coupler to further drive the screen mesh, the first preset agar can be accelerated to be screened out of the screen mesh, the structure.

Description

Agar screening device

Technical Field

The invention belongs to the technical field of agar production, and relates to an agar screening device.

Background

Agar, also called agar, jelly, is commonly known as agar powder or agar. Is prepared from sea agar, gracilaria, etc. It is colorless, solid without fixed shape, and is dissolved in hot water. In order for agar to dissolve in water more quickly when used by the consumer, the particle size of the agar is screened when it is produced.

Disclosure of Invention

The invention provides an agar screening device aiming at the problems in the prior art, and the technical problems to be solved by the invention are as follows: how to provide a device which can screen agar with different sizes.

The purpose of the invention can be realized by the following technical scheme:

the agar screening device comprises a screening box, a screen mesh piece arranged in the screening box, a driving piece used for driving the screen mesh, a first feed inlet arranged at the top end of the screening box, a first discharge outlet arranged at the first end of the screening box, a second discharge outlet arranged at the second end of the screening box, and a flow guide piece, wherein one end of the driving piece is sleeved at the first feed inlet, the other end of the driving piece is arranged at the top end of the screen mesh piece, the flow guide piece is used for guiding agar into the screen mesh piece, the screen mesh piece comprises a flow guide piece bottom end, one end of the flow guide piece is connected to the first discharge outlet, a first preset agar with the diameter smaller than the preset length in the agar is screened off to convey a second preset agar with the diameter equal to or larger than the preset length to the first discharge outlet, a screen mesh with the distance between the end far away from the first discharge outlet and the, Be used for receiving the agar-agar in the diameter be less than the first predetermined agar of predetermineeing length, keep away from the one end of second discharge gate and the distance on screening case top be less than be close to the second discharge gate one end and the receiving panel of the distance on screening case top, set up in the first rotation pole of screen cloth one end, one end is connected in the first elastic connection spare and the one end of screen cloth, other end connection in the screen cloth of screening case, the second elastic connection spare of other end connection in screening case, the length of first elastic connection spare is less than the length of second elastic connection spare, the driving piece is including the first motor that is used for driving first rotation pole, be used for supplying first motor drive first rotation pole pivoted first shaft coupling and one end are connected in first motor, the other end is connected in the first support frame of screening.

Preferably, the water conservancy diversion spare includes that both ends opening cup joints in the feed cylinder and the one end of first feed inlet and connects in feed cylinder bottom, the other end and set up in the step drainage plate on screen cloth top, the step drainage plate includes a plurality of first swash plates that are the acute angle with the contained angle of screen cloth and sets up in the first riser of first swash plate bottom.

Preferably, the screen mesh is a semi-cylindrical screen mesh, and a first stop plate for preventing agar from sliding out of one end of the screen mesh is arranged at the other end of the screen mesh.

Preferably, the receiving plate is a semi-cylindrical receiving plate, and a second stop plate for preventing the first preset agar from sliding out of one end of the receiving plate is arranged at the other end of the receiving plate.

Preferably, the screen mesh part further comprises a first connecting rod and a second connecting rod, wherein one end of the first connecting rod is connected with one end of the receiving plate, the other end of the first connecting rod is connected with one end of the screen mesh, one end of the second connecting rod is connected with the other end of the receiving plate, and the other end of the second connecting rod is connected with the other end of the screen.

Preferably, the driving member further includes a control structure for controlling the first motor to drive the first rotating rod to rotate a first preset angle along a first preset direction and then to drive the first rotating rod to rotate a second preset angle along a second preset direction.

Preferably, screening incasement wall symmetry is equipped with first snap ring and second snap ring, first elastic connecting piece is connected in the first iron chain of screen cloth first end, other end joint in first snap ring for one end, second elastic connecting piece is connected in the second iron chain of screen cloth second end, other end joint in the second snap ring for one end.

Preferably, the device also comprises a first collecting box used for collecting the first preset agar, a second collecting box used for collecting the second preset agar, a second feeding hole with one end sleeved on the second discharging hole and the other end sleeved on the first collecting box, a first conveying pipe used for collecting the first preset agar on the receiving plate and conveying the first preset agar to the first collecting box, a third feeding hole with one end sleeved on the first discharging hole and the other end sleeved on the second collecting box, and a second conveying pipe used for collecting the second preset agar on the screen and conveying the second preset agar to the second collecting box.

Preferably, the feeding cylinder is a funnel-shaped feeding cylinder.

Preferably, the screening case is provided with a third snap ring and a fourth snap ring, the first collecting box is provided with a first arc-shaped hook used for hooking the third snap ring, and the second collecting box is provided with a second arc-shaped hook used for hooking the fourth snap ring.

The guide member guides agar into the screen mesh to avoid damaging the agar by directly throwing the agar into the screen mesh from the first feed port, the screen mesh screens off first preset agar with the diameter smaller than the preset length in the agar to convey second preset agar with the diameter equal to or larger than the preset length to the first discharge port, the receiving plate collects the first preset agar with the diameter smaller than the preset length in the agar, the distance between one end of the receiving plate far away from the second discharge port and the top end of the screening box is smaller than the distance between one end of the receiving plate close to the second discharge port and the top end of the screening box, the first preset agar conveniently slides out from the receiving plate to the second discharge port, one end of the first elastic connecting member is connected with one end of the screen mesh, the other end of the first elastic connecting member is connected with the screening box, one end of the second elastic connecting member is connected with the other end of the screen mesh, the other end of the second elastic, like this screen cloth one end is higher than the screen cloth other end, makes things convenient for the second to predetermine agar-agar and slides out to first discharge gate from the screen cloth, and first motor passes through the first pivot pole of first shaft coupling drive, and then drives the screen cloth, can sieve first preset agar-agar from the screen cloth with higher speed and the second predetermine agar-agar and slide out to first discharge gate from the screen cloth, simple structure, efficiency is higher.

Drawings

Fig. 1 is a schematic structural view of the present invention.

In the figure: 1-a screening box, 11-a first feed inlet, 12-a first discharge outlet, 13-a second discharge outlet, 14-a fourth snap ring, 15-a third snap ring, 2-a screen member, 21-a screen, 211-a first stop plate, 212-a first elastic connecting piece, 213-a second elastic connecting piece, 22-a receiving plate, 221-a second stop plate, 222-a first connecting rod, 223-a second connecting rod, 23-a first rotating rod, 3-a driving member, 31-a first coupling, 32-a first motor, 33-a first support frame, 34-a control structure, 4-a flow guide member, 41-a step flow guide plate, 411-a first inclined plate, 412-a first vertical plate, 42-a feed cylinder, 5-a second collecting box, 51-a second conveying pipe, 52-third feed inlet, 53-second curved hook, 6-first collecting box, 61-first conveying pipe, 62-second feed inlet, 63-first curved hook.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1, the agar screening apparatus in this embodiment includes a screening box 1, a screen member 2 disposed in the screening box 1, a driving member 3 for driving the screen 21, a first feeding hole 11 disposed at a top end of the screening box 1, a first discharging hole 12 disposed at a first end of the screening box 1, a second discharging hole 13 disposed at a second end of the screening box 1, and a guiding member 4 having one end sleeved on the first feeding hole 11 and the other end disposed at a top end of the screen member 2 for guiding agar into the screen member 2, wherein the screen member 2 includes a bottom end disposed at the guiding member 4 and one end connected to the first discharging hole 12 for screening out a first predetermined agar having a diameter smaller than a predetermined length to deliver a second predetermined agar having a diameter equal to or larger than the predetermined length to the first discharging hole 12, a screen 21 having one end far from the first discharging hole 12 and a top end of the screening box 1 and a distance smaller than a distance close to the top end of the first discharging hole 12, A receiving plate 22 arranged at the bottom end of the screen 21, one end of which is connected with the second discharge hole 13, used for receiving first preset agar with the diameter smaller than the preset length in the agar, a receiving plate 22 arranged at the top end of the screening box 1, one end far away from the second discharge hole 13, and the distance between one end close to the second discharge hole 13 and the top end of the screening box 1, a first rotating rod 23 arranged at one end of the screen 21, a first elastic connecting piece 212 with one end connected with the screen 21 and the other end connected with the screening box 1, and a second elastic connecting piece 213 with one end connected with the screen 21 and the other end connected with the, the length of the first elastic coupling member 212 is smaller than that of the second elastic coupling member 213, the driving member 3 includes a first motor 32 for driving the first rotating rod 23, a first coupling 31 for driving the first motor 32 to drive the first rotating rod 23 to rotate, and a first supporting frame 33 having one end connected to the first motor 32 and the other end connected to the screening box 1.

Here, the guiding member 4 guides agar into the screen 21 to prevent the agar from being broken by dropping the agar directly from the first feeding hole 11 onto the screen 21, the screen 21 screens off a first predetermined agar having a diameter smaller than a predetermined length from the agar to deliver a second predetermined agar having a diameter equal to or larger than the predetermined length to the first discharging hole 12, the receiving plate 22 collects the first predetermined agar having a diameter smaller than the predetermined length from the agar, and the distance between one end of the receiving plate 22 far from the second discharging hole 13 and the top end of the screening box 1 is smaller than the distance between one end of the receiving plate 13 near the second discharging hole and the top end of the screening box 1, so that the first predetermined agar slides out from the receiving plate 22 to the second discharging hole 13, one end of the first elastic connecting member 212 is connected to one end of the screen 21, the other end thereof is connected to the screening box 1, one end of the second elastic connecting member 213 is connected to the other end of the screen 21, the length of first elastic connecting piece 212 is less than the length of second elastic connecting piece 213, and screen cloth 21 one end is higher than the screen cloth 21 other end like this, makes things convenient for the second to predetermine agar roll-off to first discharge gate 12 from screen cloth 21, and first motor 32 drives first rotation pole 23 through first shaft coupling 31, and then drives screen cloth 21, can sieve first predetermine agar from screen cloth 21 with higher speed and predetermine agar roll-off to first discharge gate 12 from screen cloth 21 with the second, and simple structure, efficiency is higher.

The guide member 4 can include that both ends opening cup joints in the feed cylinder 42 and one end of first feed inlet 11 and connects in the feed cylinder 42 bottom, the other end sets up in the step drainage plate 41 on screen cloth 21 top, and step drainage plate 41 includes a plurality of first swash plates 411 that are the acute angle with the contained angle of screen cloth 21 and sets up in the first riser 412 of first swash plate 411 bottom. The flow guide part 4 can be a plastic flow guide part 4, so that the friction force between the agar and the flow guide part 4 can be reduced, and the sliding of the agar from the flow guide part 4 is accelerated. The included angle between the first inclined plate 411 and the screen 21 can be 30-45 degrees, so that agar can be prevented from being broken due to too large included angle, and agar can be prevented from sliding down due to too small included angle. First riser 412 can be 60~90 degrees with the contained angle of first swash plate 411, and what water conservancy diversion spare 4 bottom was a first riser 412, and this first riser 412 bottom sets up directly over the one end of screen cloth 21, and can be 3~5cm with the distance between the screen cloth 21 bottom, makes things convenient for first motor 32 drive screen cloth 21 to rotate.

The screen 21 may be a semi-cylindrical screen 21, and the other end of the screen 21 may be provided with a first stopper 211 for preventing agar from slipping out of one end of the screen 21, so that when the screen 21 rotates, unscreened agar is prevented from slipping out of one end of the screen 21, thereby reducing screening efficiency. The screen 21 may be provided with 80-100 mesh. The diameter of the sieve mesh can be 6-8 cm.

Receiving plate 22 is the semicircle cylinder receiving plate 22, and the other end of receiving plate 22 is equipped with the second backstop 221 that prevents first preset agar from receiving plate 22 one end roll-off, and receiving plate 22 can be plastics semicircle cylinder receiving plate 22, and second backstop 221 can prevent that first preset agar roll-off from falling into screening case 1 in, has reduced screening efficiency.

The screen member 2 may further include a first link 222 having one end connected to one end of the receiving plate 22 and the other end connected to one end of the screen 21, and a second link 223 having one end connected to the other end of the receiving plate 22 and the other end connected to the other end of the screen 21, the first link 222 may be connected to one end of the screen 21 remote from the first discharge hole 12, the second link 223 may be connected to one end of the screen 21 near the first discharge hole 12, the length of the first link 222 may be smaller than that of the second link 223, thus, the distance between the end of the receiving plate 22 far away from the second discharge hole 13 and the top end of the screening box 1 is smaller than the distance between the end of the receiving plate close to the second discharge hole 13 and the top end of the screening box 1, so that the first preset agar can conveniently slide out from the receiving plate 22 to the second discharge hole 13, meanwhile, when the first motor 32 drives the first rotating rod 23 to drive the screen 21, the receiving plate 22 rotates along with the first rotating rod, so that the first preset agar can slide out from the receiving plate 22 to the second discharge hole 13 at an accelerated speed. First connecting rod 222 may include one end rigid coupling in receiving plate 22 first end, the other end rigid coupling in the first iron rod and one end rigid coupling in receiving plate 22 second end of screen cloth 21 first end, the other end rigid coupling in the second iron rod of screen cloth 21 second end, second connecting rod 223 may include one end rigid coupling in receiving plate 22 third end, the other end rigid coupling in the third iron rod and one end rigid coupling in receiving plate 22 fourth end of screen cloth 21 third end, the other end rigid coupling in the fourth iron rod of screen cloth 21 fourth end, can be fixed in the screen cloth 21 bottom with receiving plate 22.

The driving member 3 may further include a control structure 34 for controlling the first motor 32 to drive the first rotating rod 23 to rotate by a first predetermined angle along the first predetermined direction and then drive the first rotating rod 23 to rotate by a second predetermined angle along the second predetermined direction. The control structure 34 may include a PLC controller to control the first motor 32 and an STM32 single chip microcomputer to control the PLC controller.

Screening case 1 inner wall can be equipped with first snap ring and second snap ring by the symmetry, first elastic connection spare 212 can be connected in the first end of screen cloth 21 for one end, other end joint in the first iron chain of first snap ring, second elastic connection spare 213 can be connected in the second end of screen cloth 21 for one end, other end joint in the second iron chain of second snap ring, first iron chain can be equipped with a plurality of first chain links, make things convenient for first iron chain conversion shape, the second iron chain can be equipped with the convenient second iron chain conversion shape of a plurality of second chain links, and then make things convenient for first motor 32 drive first rotation pole 23 and drive screening case 1 and rotate.

The agar screening device in this embodiment may further include a first collection box 6 for collecting a first predetermined agar, a second collection box 5 for collecting a second predetermined agar, a second feed inlet 62 having one end sleeved on the second discharge port 13 and the other end sleeved on the first collection box 6, a first delivery pipe 61 for collecting the first predetermined agar on the receiving plate 22 and delivering the first predetermined agar to the first collection box 6, a third feed inlet 52 having one end sleeved on the first discharge port 12 and the other end sleeved on the second collection box 5, a second delivery pipe 51 for collecting the second predetermined agar on the screen 21 and delivering the second predetermined agar to the second collection box 5, wherein the height of the second feed inlet 62 of the first collection box 6 may be smaller than the height of the first discharge port 12, so that the first predetermined agar falls into the first collection box 6 through the first delivery pipe 61 under the action of gravity, the height of the third feed port 52 of the second collection box 5 can be smaller than that of the first discharge port 12, so that the second preset agar can conveniently fall into the second collection box 5 through the second conveying pipe 51 under the action of gravity, the efficiency is higher, and meanwhile, the screened agar can be conveniently sorted.

The feed cylinder 42 may be a funnel-shaped feed cylinder 42 to facilitate the placement of more agar into the feed cylinder 42 at one time.

Screening case 1 can be equipped with third snap ring 15 and fourth snap ring 14, is equipped with the first curved hook 63 that is used for hooking third snap ring 15 on the first collecting box 6, is equipped with the second curved hook 53 that is used for hooking fourth snap ring 14 on the second collecting box 5, conveniently installs first collecting box 6 and second collecting box 5 in screening case 1 respectively like this and dismantles from screening case 1.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims

1. An agar screening device, which is characterized in that: including screening case (1), set up screen cloth spare (2) in screening case (1), driving piece (3) for driving screen cloth (21), set up in first feed inlet (11) on screening case (1) top, set up in first discharge gate (12) of screening case (1) first end, set up in second discharge gate (13) and one end of screening case (1) second end and cup joint in first feed inlet (11), the other end sets up in screen cloth spare (2) top, be used for water conservancy diversion spare (4) with leading-in screen cloth spare (2) of agar, screen cloth spare (2) are including setting up in water conservancy diversion spare (4) bottom, one end is connected in first discharge gate (12), be less than the first agar sieve of predetermineeing of length with the diameter equals or is greater than predetermineeing the second of length and predetermine agar and carry to first discharge gate (12), the one end of keeping away from first discharge gate (12) is less than the distance that is close to first discharge gate (12) top with the screening case (1) top The screen cloth (21) of the distance of end, set up in screen cloth (21) bottom, one end is connected in second discharge gate (13), be used for receiving in the agar diameter be less than the first agar of predetermineeing length, the one end of keeping away from second discharge gate (13) is less than dash board (22) of being close to the distance on second discharge gate (13) one end and screening case (1) top with the distance on screening case (1) top, set up in first pivot pole (23) of screen cloth (21) one end, one end is connected in screen cloth (21) one end, the other end is connected in first elastic connecting piece (212) and one end of screening case (1) and is connected in the screen cloth (21) other end, the other end is connected in second elastic connecting piece (213) of screening case (1), the length of first elastic connecting piece (212) is less than the length of second elastic connecting piece (213), driving piece (3) are including first motor (32) that are used for driving first, The first shaft coupling (31) is used for driving the first rotating rod (23) to rotate by the first motor (32), and the first support frame (33) is connected with the first motor (32) at one end and connected with the screening box (1) at the other end.

2. The agar screening apparatus according to claim 1, wherein: flow guide piece (4) include that both ends opening cup joints in feed cylinder (42) and one end of first feed inlet (11) and connects in feed cylinder (42) bottom, the other end and set up in step drainage plate (41) on screen cloth (21) top, step drainage plate (41) include a plurality of first swash plate (411) that are the acute angle with the contained angle of screen cloth (21) and set up in first riser (412) of first swash plate (411) bottom.

3. An agar screening device according to claim 1 or 2, wherein: the screen cloth (21) is a semi-cylinder screen cloth (21), and the other end of the screen cloth (21) is provided with a first stop plate (211) for preventing agar from sliding out of one end of the screen cloth (21).

4. An agar screening device according to claim 3, wherein: the receiving plate (22) is a semi-cylindrical receiving plate (22), and the other end of the receiving plate (22) is provided with a second stop plate (221) for preventing first preset agar from sliding out of one end of the receiving plate (22).

5. The agar screening apparatus according to claim 4, wherein: the screen member (2) further comprises a first connecting rod (222) with one end connected to one end of the receiving plate (22) and the other end connected to one end of the screen (21), and a second connecting rod (223) with one end connected to the other end of the receiving plate (22) and the other end connected to the other end of the screen (21).

6. An agar screening device according to claim 1 or 2, wherein: the driving piece (3) further comprises a control structure (34) for controlling the first motor (32) to drive the first rotating rod (23) to rotate a first preset angle along a first preset direction and then drive the first rotating rod (23) to rotate a second preset angle along a second preset direction.

7. An agar screening device according to claim 1 or 2, wherein: screening case (1) inner wall symmetry is equipped with first snap ring and second snap ring, first elastic connecting piece (212) are connected in the first iron chain of screen cloth (21) first end, other end joint in first snap ring for one end, second elastic connecting piece (213) are connected in the second iron chain of screen cloth (21) second end, other end joint in the second snap ring for one end.

8. An agar screening device according to claim 1 or 2, wherein: the first conveying pipe (61) is used for collecting the first preset agar and conveying the first preset agar to the first collecting box (6), the third conveying pipe (51) is used for collecting the second preset agar on the screen mesh (21) and conveying the second preset agar to the second collecting box (5).

9. The agar screening apparatus according to claim 2, wherein: the feeding cylinder (42) is a funnel-shaped feeding cylinder (42).

10. The agar screening apparatus according to claim 8, wherein: screening case (1) is equipped with third snap ring (15) and fourth snap ring (14), be equipped with first arc hook (63) that are used for hooking third snap ring (15) on first collecting box (6), be equipped with second arc hook (53) that are used for hooking fourth snap ring (14) on second collecting box (5).