CN221245607U - Magnetic separation device for producing starch - Google Patents

Abstract

The utility model discloses a magnetic separation device for producing starch, and belongs to the technical field of starch production. The utility model provides a production starch magnetic separation device, includes the magnet separator body, and the inner wall of magnet separator body is fixed with fixed frame, and the inner wall of fixed frame is fixed with electromagnetic vibration screen cloth. According to the utility model, through the arrangement of the material distributing mechanism, in the use process, the movable material guiding plate in a swinging state can guide the falling starch direction, so that the effect of uniformly scattering materials in the magnetic separation working chamber of the magnetic separator body is realized, the problem that the utilization rate of sieve holes on the electromagnetic vibration sieve is not high due to the concentrated blanking problem is solved, meanwhile, the condition that the sieve holes on the electromagnetic vibration sieve are blocked by scrap iron to influence the sieving is relieved, and in the swinging process of the movable material guiding plate, the movable material guiding plate can perform flattening treatment on starch accumulated at the bottom of the electromagnetic vibration sieve, so that the stacking phenomenon is further improved.

Description

Magnetic separation device for producing starch

Technical Field

The utility model belongs to the technical field of starch production, and particularly relates to a magnetic separation device for producing starch.

Background

The magnetic separation device is used for removing screening equipment such as iron powder in the powder particles, and is usually doped with mechanically worn scrap iron in the starch processed by corn before the starch is packaged, and the starch is required to be screened before the packaging, and the magnetic separation device generally screens the scrap iron through an electromagnetic screen.

However, when current electromagnetic screen cloth filters iron fillings in the starch, the starch adds the magnetic separation working chamber through the loading hopper on the magnet separator in can exist blanking concentrate and the windrow phenomenon appears on the electromagnetic screen cloth, lead to the electromagnetic screen cloth on keeping away from the sieve mesh utilization ratio of blanking position not high and influence the screening efficiency like this, still traditional blanking mode leads to the electromagnetic screen cloth of blanking position below to play main magnetic separation effect, in case the electromagnetic screen cloth of this position can influence the screening efficiency of starch greatly because of the iron fillings jam like this.

Therefore, a magnetic separation device for producing starch is needed, and the problems that in the prior art, starch adding screening machine is not uniform enough and the local utilization rate of an electromagnetic screen is not high are solved.

Disclosure of utility model

The utility model aims to provide a magnetic separation device for producing starch, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The utility model provides a production starch magnetic separation device, includes the magnet separator body, the inner wall of magnet separator body is fixed with fixed frame, the inner wall of fixed frame is fixed with electromagnetic vibration screen cloth, electromagnetic vibration screen cloth's bottom is provided with vibration mechanism, the last port department of magnet separator body is provided with diffusion feeding mechanism, diffusion feeding mechanism includes bar reinforced box and slope guide net, bar reinforced box is fixed in the last port department of magnet separator body, slope guide net is fixed on the inner wall of bar reinforced box, the inside of magnet separator body is provided with feed divider mechanism, feed divider mechanism includes movable stock guide, upset board, articulated support arm, articulated support and electric telescopic handle, the upset board is fixed on the inner roof of magnet separator body, movable stock guide rotates to be connected on the upset board, articulated support arm rotates to be connected in articulated support arm one end of keeping away from movable stock guide, electric telescopic handle is fixed on one side surface of magnet separator body.

In the scheme, the output end of the electric telescopic rod is fixed at one end of the hinged support after penetrating through the magnetic separator body in a sliding mode, and the lower end face of the movable stock guide is provided with an accommodating opening matched with the rotation of the hinged support arm.

It is further worth to say that the turnover opening has been seted up to the up end of activity stock guide, the rotation groove has been seted up on the wall that activity stock guide is located the turnover opening place, the inside rotation in rotation groove is connected with the axis of rotation, the one end of axis of rotation is fixed on the one side surface of turnover plate.

It should be further noted that the movable material guiding plate is located above the electromagnetic vibration screen, and a gap is formed between the movable material guiding plate and the upper surface of the electromagnetic vibration screen.

Preferably, a charging port is formed in the strip-shaped charging box, and the upper port of the magnetic separator body is communicated with the charging port of the strip-shaped charging box.

Preferably, the inside of magnet separator body is located the top of electromagnetic vibration screen cloth and is provided with the magnetic separation working chamber, the lower terminal surface of magnet separator body is fixed with and lifts the landing leg, the bin outlet has been seted up to the lower extreme of magnet separator body, the lower part of slope guide net is provided with the vibrator, one side surface of magnet separator body is provided with control panel.

Compared with the prior art, the magnetic separation device for producing starch has the following beneficial effects:

(1) Through the feed divider who sets up, in the use, swing state's activity stock guide can carry out the guide to the starch direction of whereabouts and realize the effect of evenly spilling the material in the magnetic separation working chamber of magnet separator body to improve because of concentrating the problem of blanking and lead to the not high problem of sieve mesh utilization ratio on the electromagnetic vibration screen cloth, alleviate the situation that partial sieve mesh is blockked up by iron fillings and influences the sieve material on the electromagnetic vibration screen cloth simultaneously, still in activity stock guide swing in-process, activity stock guide can carry out the flattening to the piled up starch of electromagnetic vibration screen cloth bottom on and handle and further improve the windrow phenomenon.

(2) Through the diffusion feeding mechanism that sets up, the starch that continuously adds in the bar reinforced box is along the slope guide net landing of vibration state and fill the reinforced region of bar reinforced box, improves traditional loading hopper single-point and concentrates the reinforced mode and not only can reach the purpose of evenly throwing the material, still is favorable to alleviating putty situation and effectively promotes feeding efficiency.

Drawings

FIG. 1 is a perspective view of the overall structure of the present utility model;

FIG. 2 is a cross-sectional view of the magnetic separator body of the present utility model;

FIG. 3 is a cross-sectional view of a strip feed cassette of the present utility model;

FIG. 4 is a cross-sectional view of the movable stock guide of the present utility model.

In the figure:

1. A magnetic separator body; 2. a strip-shaped charging box; 3. a feed inlet; 4. tilting the material guiding net; 5. a movable stock guide; 6. a turnover port; 7. a turnover plate; 8. a rotating shaft; 9. a rotating groove; 10. a support arm is hinged; 11. a hinged support; 12. an electric telescopic rod; 13. a receiving opening; 14. raising the legs; 15. fixing the frame; 16. an electromagnetic vibratory screen; 17. and a control panel.

Detailed Description

The utility model is further described below with reference to examples.

Referring to fig. 1-4, the utility model provides a magnetic separation device for producing starch, which comprises a magnetic separator body 1, wherein a fixed frame 15 is fixed on the inner wall of the magnetic separator body 1, an electromagnetic vibration screen 16 is fixed on the inner wall of the fixed frame 15, a vibrating mechanism is arranged at the bottom of the electromagnetic vibration screen 16, a diffusion feeding mechanism is arranged at the upper port of the magnetic separator body 1, the diffusion feeding mechanism comprises a strip feeding box 2 and an inclined guide net 4, the strip feeding box 2 is fixed at the upper port of the magnetic separator body 1, the inclined guide net 4 is fixed on the inner wall of the strip feeding box 2, a material distributing mechanism is arranged in the magnetic separator body 1, the material distributing mechanism comprises a movable guide plate 5, a turnover plate 7, a hinged support 11 and an electric telescopic rod 12, the turnover plate 7 is fixed on the inner top wall of the magnetic separator body 1, the movable guide plate 5 is rotationally connected to the turnover plate 7, the hinged support 10 is rotationally connected to the movable guide plate 5, the hinged support 11 is rotationally connected to one end of the hinged support 10 far away from the movable guide plate 5, the electric telescopic rod 12 is fixed to the surface of one side of the magnetic separator body 1, and a control panel 17 is arranged on one side of the magnetic separator body 1.

As further shown in fig. 1, 2 and 3, it should be noted that, the output end of the electric telescopic rod 12 is fixed at one end of the hinged support 11 after penetrating through the magnetic separator body 1 in a sliding manner, and the lower end surface of the movable stock guide 5 is provided with a containing opening 13 rotationally matched with the hinged support arm 10.

Further, as shown in fig. 3, it is worth specifically explaining that the upper end face of the movable stock guide 5 is provided with a turnover opening 6, the wall body of the movable stock guide 5 where the turnover opening 6 is located is provided with a rotation groove 9, the inside of the rotation groove 9 is rotationally connected with a rotation shaft 8, and one end of the rotation shaft 8 is fixed on one side surface of the turnover plate 7.

The scheme comprises the following working processes: before using, starch is added from the charge door 3 of the bar-shaped charging box 2 into the magnetic separation working chamber of the magnetic separator body 1, in the process, the starch continuously added into the bar-shaped charging box 2 slides along the inclined material guiding net 4 in a vibrating state and fills the charging area of the bar-shaped charging box 2, the single-point centralized charging mode of the traditional charging hopper is improved, the purpose of uniform charging can be achieved, and the blocking condition is relieved and the charging efficiency is effectively improved.

The working process can be as follows: the starch in the continuous feeding box 2 slides along the inclined guide net 4 in the vibrating state and fills the feeding area of the strip feeding box 2, so that the purpose of uniform feeding can be achieved by improving the single-point centralized feeding mode of the traditional feeding hopper, and the feeding efficiency is effectively improved while the blocking condition is relieved.

Further, as shown in fig. 1, fig. 2 and fig. 4, it is worth specifically explaining that the movable material guiding plate 5 is located above the electromagnetic vibration screen 16, the upper surfaces of the movable material guiding plate 5 and the electromagnetic vibration screen 16 are provided with gaps, starch is discharged from the lower port of the strip-shaped feeding box 2 in the use process, the movable material guiding plate 5 swings along the turnover plate 7 under the driving of the electric telescopic rod 12, the hinged support 11 and the hinged support arm 10 in the process, so that the movable material guiding plate 5 in the swinging state can guide the falling starch direction to realize the effect of uniformly scattering materials in the magnetic separation working chamber of the magnetic separator body 1, thereby improving the problem of low utilization rate of sieve holes on the electromagnetic vibration screen 16 due to the concentrated blanking problem, simultaneously relieving the situation that part of the sieve holes on the electromagnetic vibration screen 16 are blocked to influence the sieving, and further improving the phenomenon of stacking starch accumulated at the bottom of the electromagnetic vibration screen 16 by the movable material guiding plate 5 in the swinging process.

Further, as shown in fig. 4, it is worth specifically explaining that the inside of the strip-shaped feeding box 2 is provided with a feeding port 3, and the upper port of the magnetic separator body 1 is communicated with the feeding port 3 of the strip-shaped feeding box 2.

Further, as shown in fig. 1, it is worth specifically explaining that a magnetic separation working chamber is arranged above the electromagnetic vibration screen 16 in the magnetic separator body 1, the lifting support leg 14 is fixed on the lower end face of the magnetic separator body 1, a discharge port is formed in the lower end of the magnetic separator body 1, and a vibrator is arranged on the lower portion of the inclined guide net 4.

To sum up: the starch continuously added into the strip-shaped feeding box 2 slides along the inclined material guiding net 4 in the vibrating state and fills the feeding area of the strip-shaped feeding box 2, so that the aim of uniform feeding can be achieved by improving the single-point centralized feeding mode of the traditional feeding hopper, and the feeding efficiency is effectively improved while the blocking condition is relieved; in the use, swing state's activity stock guide 5 can guide the starch direction of whereabouts and realize the effect of evenly spilling the material in the magnetic separation working chamber of magnet separator body 1 to improve because of concentrating blanking problem and lead to the not high problem of sieve mesh utilization ratio on the electromagnetic vibration screen cloth 16, alleviate the situation that partial sieve mesh on the electromagnetic vibration screen cloth 16 was stopped up by iron fillings and influence the sieve material simultaneously, in the swing of activity stock guide 5, activity stock guide 5 can carry out the flattening to the starch that the upper bottom was piled up on the electromagnetic vibration screen cloth 16 and handle and further improve the windrow phenomenon.

The motorized telescopic rod 12 and the electromagnetic vibratory screen 16 are commercially available and are provided with a power source, well known in the art, and therefore will not be repeated in the present specification.

Claims (6)

1. The utility model provides a production starch magnetic separation device, includes magnet separator body (1), the inner wall of magnet separator body (1) is fixed with fixed frame (15), the inner wall of fixed frame (15) is fixed with electromagnetic vibration screen cloth (16), the bottom of electromagnetic vibration screen cloth (16) is provided with vibration mechanism, its characterized in that: the utility model provides a magnetic separator, the last port department of magnet separator body (1) is provided with diffusion feeding mechanism, diffusion feeding mechanism includes bar reinforced box (2) and slope guide net (4), the last port department at magnet separator body (1) is fixed to bar reinforced box (2) is reinforced to bar reinforced box (2), slope guide net (4) are fixed on the inner wall of bar reinforced box (2), the inside of magnet separator body (1) is provided with feed divider, feed divider includes activity stock guide (5), upset board (7), articulated support arm (10), articulated support (11) and electric telescopic handle (12), upset board (7) are fixed on the interior roof of magnet separator body (1), activity stock guide (5) swivelling joint is on upset board (7), articulated support arm (10) swivelling joint is on activity stock guide (5), articulated support arm (11) swivelling joint is kept away from the one end of activity stock guide (5) at articulated support arm (10), electric telescopic handle (12) are fixed on the surface of one side of magnet separator body (1).

2. The magnetic separation device for producing starch according to claim 1, wherein: the output end of the electric telescopic rod (12) is fixed at one end of the hinged support (11) after penetrating through the magnetic separator body (1) in a sliding mode, and an accommodating opening (13) matched with the hinged support arm (10) in a rotating mode is formed in the lower end face of the movable guide plate (5).

3. The magnetic separation device for producing starch according to claim 2, wherein: the upper end face of the movable stock guide (5) is provided with a turnover opening (6), the movable stock guide (5) is located on the wall body where the turnover opening (6) is located, a rotating groove (9) is formed in the wall body, a rotating shaft (8) is connected to the inside of the rotating groove (9) in a rotating mode, and one end of the rotating shaft (8) is fixed to one side surface of the turnover plate (7).

4. A magnetic separation device for producing starch according to claim 3, wherein: the movable material guide plates (5) are distributed above the electromagnetic vibration screen (16), and gaps are formed between the movable material guide plates (5) and the upper surface of the electromagnetic vibration screen (16).

5. The magnetic separation device for producing starch according to claim 4, wherein: the inside of bar reinforced box (2) has offered charge door (3), the last port of magnet separator body (1) is linked together with charge door (3) of bar reinforced box (2).

6. The magnetic separation device for producing starch according to claim 5, wherein: the magnetic separator is characterized in that a magnetic separation working chamber is arranged above an electromagnetic vibration screen (16) in the magnetic separator body (1), a lifting supporting leg (14) is fixed on the lower end face of the magnetic separator body (1), a discharge opening is formed in the lower end of the magnetic separator body (1), a vibrator is arranged at the lower portion of the inclined guide screen (4), and a control panel (17) is arranged on one side surface of the magnetic separator body (1).