CN112547506B

CN112547506B - Reciprocating type sieve separator of tin ore

Info

Publication number: CN112547506B
Application number: CN202011536897.1A
Authority: CN
Inventors: 肖好成
Original assignee: Chongyi Xincheng Mining Co Ltd
Current assignee: Chongyi Xincheng Mining Co Ltd
Priority date: 2020-12-23
Filing date: 2020-12-23
Publication date: 2021-12-24
Anticipated expiration: 2040-12-23
Also published as: CN112547506A

Abstract

The invention relates to a screening machine, in particular to a reciprocating type screening machine for tin ores. The technical problem is how to design a tin ore reciprocating type screening machine which can replace manpower to screen tin ore, avoid hand ache, has high work efficiency and is labor-saving. A reciprocating type screening machine of tin ore, including: the device comprises a base, wherein one side of the base is fixedly connected with two n-shaped plates; and the discharge hopper is fixedly connected between one sides of the two n-shaped plates far away from the base. According to the invention, the driving mechanism is started, the driving mechanism drives the screening mechanism to operate, the tin ore is poured into the bidirectional charging hopper, the tin ore in the bidirectional charging hopper falls onto the screening mechanism through the discharging hopper, and the screening mechanism operates to screen the tin ore, so that the tin ore is not required to be screened manually by a person, the labor is saved, and the working efficiency is high.

Description

Reciprocating type sieve separator of tin ore

Technical Field

The invention relates to a screening machine, in particular to a reciprocating type screening machine for tin ores.

Background

After the broken completion of tin ore, the phenomenon of variation in size can appear in the tin ore, then need filter the tin ore, makes things convenient for the follow-up processing of big tin ore and little tin ore, and at present, most all are that the people is manual to filter the tin ore, because the people need be continuous to remove the tin ore to the screening built-in with the shovel, and time is long, and the easy ache of hand influences follow-up work efficiency, and still hard.

Therefore, a tin ore reciprocating type screening machine which can replace manual work to screen tin ore, avoids hand ache, has high working efficiency and is labor-saving is particularly needed to solve the problems existing in the prior art.

Disclosure of Invention

In order to overcome the continuous tin ore that needs to remove to the sieve built-in with the shovel, time is long, and the easy ache of hand influences follow-up work efficiency, and still hard shortcoming, the technical problem that solves is: the utility model provides a can replace the manual work to filter the tin ore, avoid the hand ache, work efficiency is high, and still laborsaving tin ore reciprocating type sieve separator.

The technical scheme of the invention is as follows: a reciprocating type screening machine of tin ore, including: the device comprises a base, wherein one side of the base is fixedly connected with two n-shaped plates; the discharging hopper is fixedly connected between one sides of the two n-shaped plates far away from the base; the supporting rods are symmetrically and fixedly connected to one side of the n-shaped plate close to the discharge hopper; the bidirectional charging hopper is fixedly connected among the end parts of the four support rods far away from the base; the discharging frame is fixedly connected between one sides of the two n-shaped plates close to the base; the driving mechanism is arranged between one side of one of the n-shaped plates and one side of the base and used for providing power; and the screening mechanism is arranged between one side of the two n-shaped plates, is in contact fit with the driving mechanism and is used for screening the tin ore.

Further, the driving mechanism includes: the bump disc is rotatably connected to one side of one of the n-shaped plates and is in contact fit with the screening mechanism; the speed reducing motor is arranged in the middle of one side of the base; the first rotating shaft is fixedly connected to the end part of an output shaft of the speed reducing motor; the first transmission assembly is connected between the shaft end part of the lug disc and the first rotating shaft end part far away from the speed reduction motor.

Further, screening mechanism includes: the vertical plate is fixedly connected to the middle part of one side of the inside of the n-shaped plate far away from the base; the screening frame is rotatably connected between one sides of the two vertical plates; the guide shafts are fixedly connected to the two sides outside the screening frame, penetrate through the n-shaped plates and are close to the first transmission assembly, and the guide shafts are in contact fit with the bump plates.

Further, still including intermittent type unloading mechanism, intermittent type unloading mechanism is including: the mounting seat is fixedly connected to one side of the base close to the speed reducing motor; the second rotating shaft is rotatably connected to one side of the mounting seat far away from the base in a penetrating manner; the number of the bevel gears is two, one bevel gear is fixedly sleeved on the circumferential direction of one side of the first rotating shaft close to the speed reducing motor, the other bevel gear is fixedly sleeved on the circumferential direction of one side of the second rotating shaft close to the first rotating shaft, and the two bevel gears are meshed with each other; the rotating rod is rotatably connected between one side of the two support rods on one side in a penetrating manner; the second transmission assembly is connected between the circumferential direction of one side of the second rotating shaft and one end of the rotating rod; the third rotating shaft is rotatably connected between the two sides outside the bidirectional charging hopper; the driving cylinder is fixedly sleeved in the middle circumferential direction of the third rotating shaft; the third transmission assembly is connected between the circumferential direction of one side of the rotating rod and the circumferential direction of one side of the driving cylinder; the swinging plates are rotatably connected to two sides of the bidirectional charging hopper facing the base and are matched with the bidirectional charging hopper; the guide plates are fixedly connected to the two sides of the outer side of the bidirectional charging hopper close to the third rotating shaft; the movable plate is in sliding type penetrating connection with the guide plate, one end of the movable plate is in contact fit with the swinging plate, and the other end of the movable plate is in contact fit with the end part of the driving barrel.

Further, still include stirring mechanism, stirring mechanism includes: the number of the fourth rotating shafts is two, the fourth rotating shafts are rotatably connected between two sides of the bidirectional charging hopper, and the two fourth rotating shafts are symmetrically arranged; the stirring blade is fixedly sleeved on the periphery of one side of the fourth rotating shaft and is positioned in the bidirectional charging hopper; the ratchet wheel is fixedly sleeved at two ends of the fourth rotating shaft; the ratchets are fixedly connected to two sides of the swinging plate and meshed with the ratchets.

Further, the method also comprises the following steps: the U-shaped pull rod is slidably connected between the two sides of the screening frame in a penetrating manner; the brush plate is fixedly connected between the two ends of the u-shaped pull rod and is in contact fit with one side in the screening frame; and the magnet is fixedly connected to one side, close to the brush plate, in the screening frame and is in contact fit with the brush plate.

Further, the method also comprises the following steps: the guide block is fixedly connected to the middle of one side outside the discharging frame; the arc-shaped baffle is fixedly connected to one side, facing the base and far away from the magnet, of the outer side of the screening frame and is sleeved on the guide block in a sliding mode; and the spring is connected between one side in the arc-shaped baffle and one side of the guide block.

Further, the part of the brush plate, which is in contact with the magnet, is iron.

Has the advantages that:

1. through starting actuating mechanism, actuating mechanism drives the function of screening mechanism, pours the tin ore into two-way charging hopper in, and the tin ore in the two-way charging hopper drops to the screening mechanism through going out the hopper on, and screening mechanism operates and screens the tin ore, so, need not the manual tin ore of people and filter, it is more laborsaving, work efficiency is high.

2. Through the effect of hopper mechanism under the intermittent type, can make tin ore intermittent type drop, so, can avoid a large amount of tin ore to drop simultaneously and blocked in the hopper under and lead to can not being screened.

3. Through the effect of rabbling mechanism, can stir the tin ore in the two-way charging hopper, so, can avoid the tin ore card can not drop in the two-way charging hopper.

Drawings

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

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is an enlarged schematic view of part a of the present invention.

Fig. 4 is an enlarged view of part B of the present invention.

Labeled as: 1-base, 2-n type plate, 3-discharging hopper, 4-supporting rod, 5-bidirectional charging hopper, 6-driving mechanism, 61-reducing motor, 62-lug plate, 63-first transmission component, 64-first rotating shaft, 7-screening mechanism, 71-vertical plate, 72-screening frame, 73-guiding shaft, 8-discharging frame, 9-intermittent discharging mechanism, 91-mounting seat, 92-bevel gear, 93-second transmission component, 94-rotating rod, 95-third transmission component, 96-second rotating shaft, 97-third rotating shaft, 98-driving cylinder, 99-swinging plate, 910-guiding plate, 911-movable plate, 10-stirring mechanism, 101-ratchet wheel, 102-ratchet strip, 103-fourth rotating shaft, 104-stirring blades, 11-u-shaped pull rods, 12-brush plates, 13-magnets, 14-guide blocks, 15-arc baffles and 16-springs.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but the invention is not limited to the scope of protection and application.

Example 1

The utility model provides a reciprocating type sieve separator of tin ore, as shown in figure 1, including base 1, n template 2, go out hopper 3, bracing piece 4, two-way charging hopper 5, actuating mechanism 6, screening mechanism 7 and unloading frame 8, both sides all the rigid coupling has n template 2 around in the middle of the base 1 top, the rigid coupling has out hopper 3 between the front and back both sides n template 2 top, the equal bilateral symmetry rigid coupling in front side n template 2 leading flank upper portion and rear side n template 2 trailing flank upper portion has bracing piece 4, the rigid coupling has two-way charging hopper 5 between four bracing pieces 4 tops, two-way charging hopper 5 and the cooperation of unloading hopper 3, be equipped with screening mechanism 7 between front and back both sides n template 2, be equipped with actuating mechanism 6 between front side n template 2 right part and the base 1 top, actuating mechanism 6 and the contact fit of screening mechanism 7, the rigid coupling has unloading frame 8 between front and back both sides n template 2 lower part.

Actuating mechanism 6 is including gear motor 61, lug dish 62, first drive assembly 63 and first pivot 64, the lug dish 62 that is connected with of front side n type board 2 leading flank right side middle part rotary type, lug dish 62 and screening mechanism 7 contact cooperation, install gear motor 61 in the middle of the base 1 top left side, gear motor 61's output shaft tip rigid coupling has first pivot 64, be connected with first drive assembly 63 between the axle front end of first pivot 64 front end and lug dish 62.

Screening mechanism 7 is including riser 71, screening frame 72 and guiding axle 73, and the middle rigid coupling in the top has riser 71 in the n template 2, and the rotary type is connected with screening frame 72 between front and back both sides riser 71, and both sides face right side all rigid couplings have guiding axle 73 around screening frame 72, and n template 2 is run through rather than sliding fit to the guiding axle 73 front end, and front side guiding axle 73 and lug dish 62 contact cooperation.

At first operating personnel places two collection containers respectively in ejection of compact frame 8 left side below and screening mechanism 7 right side below, start actuating mechanism 6, actuating mechanism 6 operates and drives screening mechanism 7 and operates, can pour the tin ore after the breakage into two-way charging hopper 5 in, the tin ore in two-way charging hopper 5 drops to in the ejection of compact hopper 3, the tin ore in the ejection of compact hopper 3 drops to screening mechanism 7 on, screening mechanism 7 operates and screens the tin ore, little tin ore is filtered and drops to in ejection of compact frame 8, little tin ore in the ejection of compact frame 8 drops to in the left side collection container, big tin ore is filtered to the right side collection container in, so relapse, can be continuous screen the tin ore. After the tin ore all screened completion, closing actuating mechanism 6, screening mechanism 7 stopped working, took two collecting container up and carried out subsequent processing to little tin ore and big tin ore.

After the collecting container is placed, start gear motor 61, gear motor 61 rotates and drives first pivot 64 and rotate, and first pivot 64 rotates and drives first transmission assembly 63 and rotate, and first transmission assembly 63 rotates and drives lug dish 62 and rotate, and lug dish 62 rotates and drives screening mechanism 7 and operate, can pour the tin ore into two-way charging hopper 5 in, the tin ore then drops to being screened on screening mechanism 7. When all the tin ores are screened, the speed reducing motor 61 is turned off, the lug plate 62 stops rotating, and the lug plate 62 stops driving the screening mechanism 7 to operate.

When gear motor 61 starts, because of the effect of gravity, lug dish 62 rotates and drives guiding axle 73 and reciprocates, and guiding axle 73 reciprocates and drives screening frame 72 luffing motion, and then when the tin ore in the play hopper 3 dropped, the tin ore dropped to in the screening frame 72, and screening frame 72 luffing motion filters the tin ore, and little tin ore is filtered to ejection of compact frame 8 in, and big tin ore is then filtered to the right side collection container in. When all the tin ores are screened, the speed reducing motor 61 is turned off, the lug disc 62 stops driving the guide shaft 73 to move up and down, and the screening frame 72 stops swinging.

Example 2

On the basis of embodiment 1, as shown in fig. 1 to 3, the intermittent blanking device 9 further includes an intermittent blanking mechanism 9, the intermittent blanking mechanism 9 includes a mounting seat 91, a bevel gear 92, a second transmission assembly 93, a rotating rod 94, a third transmission assembly 95, a second rotating shaft 96, a third rotating shaft 97, a driving cylinder 98, a swinging plate 99, a guide plate 910 and a movable plate 911, the rotating rod 94 is rotatably connected between the lower portions of the two front supporting rods 4 in a penetrating manner, the third rotating shaft 97 is rotatably connected to the middle of the lower portion of the two-way charging hopper 5, the driving cylinder 98 is circumferentially fixed to the middle of the third rotating shaft 97, the third transmission assembly 95 is connected between the middle of the driving cylinder 98 and the middle of the rotating rod 94 in a circumferential manner, the mounting seat 91 is fixedly connected to the left portion of the front side of the top of the base 1, the second rotating shaft 96 is rotatably connected to the upper portion of the mounting seat 91 in a penetrating manner, the bevel gear 92 is fixedly connected to the left end of the second rotating shaft 96 and the rear side of the first rotating shaft 64 in a circumferential manner, two bevel gears 92 are meshed, a second transmission assembly 93 is connected between the circumferential direction of the left part of a second rotating shaft 96 and the left end of a rotating rod 94, the inner sides of two discharging ends of a bidirectional charging hopper 5 are rotatably connected with swinging plates 99, the swinging plates 99 are matched with the bidirectional charging hopper 5, the lower parts of the two sides outside the middle of the lower part of the bidirectional charging hopper 5 are fixedly connected with guide plates 910, movable plates 911 are slidably connected on the guide plates 910 in a penetrating mode, the inner ends of the movable plates 911 are in contact fit with the end part of a driving barrel 98, and the outer ends of the movable plates 911 are in contact fit with the swinging plates 99.

The stirring device is characterized by further comprising a stirring mechanism 10, wherein the stirring mechanism 10 comprises a ratchet 101, ratchet bars 102, a fourth rotating shaft 103 and stirring blades 104, the fourth rotating shaft 103 is rotatably connected between the left lower sides of the front and the rear sides of the bidirectional charging hopper 5 and between the right lower sides of the front and the rear sides of the bidirectional charging hopper 5 in a penetrating mode, the ratchet 101 is fixedly connected to the front and the rear ends of the fourth rotating shaft 103, the stirring blades 104 are fixedly connected to the middle of the fourth rotating shaft 103 in the circumferential direction, the stirring blades 104 are located in the bidirectional charging hopper 5, the ratchet bars 102 are fixedly connected to the outer sides of the front side surface and the rear side surface of the swinging plate 99, and the ratchet bars 102 are meshed with the ratchet 101.

When the speed reducing motor 61 is started, the first rotating shaft 64 rotates to drive the rear bevel gear 92 to rotate, the rear bevel gear 92 rotates to drive the front bevel gear 92 to rotate, the front bevel gear 92 rotates to drive the second rotating shaft 96 to rotate, the second rotating shaft 96 rotates to drive the second transmission assembly 93 to rotate, the second transmission assembly 93 rotates to drive the rotating rod 94 to rotate, the rotating rod 94 rotates to drive the third transmission assembly 95 to rotate, the third transmission assembly 95 rotates to drive the driving barrel 98 to rotate, the driving barrel 98 rotates to drive the swinging plate 99 to swing up and down through the movable plate 911 under the action of gravity, the swinging plates 99 on the left side and the right side do not swing up and down synchronously, namely, the tin ore can be poured into the bidirectional charging hopper 5, when the swinging plate 99 swings up to be matched with the bidirectional charging hopper 5 in a contacting manner, the tin ore is blocked by the swinging plate 99, when the swinging plate 99 swings down, the swinging plate 99 does not block the tin ore, the tin ore falls into the discharging hopper 3, and then fall into the screening frame 72 for screening, and the tin ore can fall intermittently after the process is repeated. When the reduction motor 61 is turned off, the first rotating shaft 64 stops driving the rear bevel gear 92 to rotate, and the driving cylinder 98 stops driving the swing plate 99 to swing up and down through the movable plate 911. So, can avoid a large amount of tin ores to drop simultaneously and blocked in the hopper down and lead to can not being screened.

When the swing plate 99 swings up and down, the swing plate 99 also drives the ratchet bar 102 to swing up and down, when the ratchet bar 102 swings down, the ratchet bar 102 drives the ratchet 101 to rotate, the ratchet 101 rotates to drive the fourth rotating shaft 103 to rotate, the fourth rotating shaft 103 rotates to drive the stirring blade 104 to rotate, the stirring blade 104 rotates to stir the tin ore in the bidirectional charging hopper 5, when the ratchet bar 102 moves up, the ratchet bar 102 slides on the ratchet 101, and the steps are repeated, so that the tin ore can be continuously stirred. When the swing plate 99 stops swinging, the ratchet 102 stops swinging, and the stirring blade 104 stops rotating. Thus, the tin ore can be prevented from being stuck in the bidirectional charging hopper 5 and not falling.

Example 3

In addition to embodiments 1 and 2, as shown in fig. 1, 2 and 4, the screening device further includes a u-shaped pull rod 11, a brush plate 12 and a magnet 13, the u-shaped pull rod 11 is slidably inserted between the upper sides of the right portions of the front and rear sides of the screening frame 72, the brush plate 12 is fixedly connected between the two ends of the left side of the u-shaped pull rod 11, the brush plate 12 is in contact fit with the bottom portion of the screening frame 72, the magnet 13 is fixedly connected to the left side surface of the screening frame 72, and the magnet 13 is in contact fit with the brush plate 12.

Still including guide block 14, cowl 15 and spring 16, the rigid coupling has guide block 14 in the middle of the outer right flank upper portion of unloading frame 8, and what slide formula was equipped with cowl 15 on guide block 14, cowl 15 top and screening frame 72 outer bottom right side fixed connection, be connected with spring 16 between bottom and the guide block 14 bottom in cowl 15.

When all the tin ores are screened and the screening frame 72 stops swinging, an operator can pull the u-shaped pull rod 11 to move rightwards, the u-shaped pull rod 11 moves rightwards to drive the brush plate 12 to move rightwards, the brush plate 12 moves rightwards to be separated from the magnet 13, the brush plate 12 moves rightwards to remove the tin ores remained in the screening frame 72, when the brush plate 12 moves rightwards to the maximum stroke, the u-shaped pull rod 11 can be pushed to move leftwards to drive the brush plate 12 to move leftwards to reset, and the brush plate 12 is contacted with the magnet 13 and is sucked and fixed. Thus, the tin ore can be prevented from remaining in the screening frame 72 to affect the next use.

When the screening frame 72 swings upwards, the screening frame 72 drives the arc-shaped baffle 15 to move upwards, the spring 16 is compressed, and when the screening frame 72 swings downwards, the screening frame 72 drives the arc-shaped baffle 15 to move downwards to reset, and the spring 16 also resets. Therefore, the large tin ore can be prevented from falling into the discharging frame 8.

The embodiments described above are provided to enable persons skilled in the art to make or use the invention and that modifications or variations can be made to the embodiments described above by persons skilled in the art without departing from the inventive concept of the present invention, so that the scope of protection of the present invention is not limited by the embodiments described above but should be accorded the widest scope consistent with the innovative features set forth in the claims.

Claims

1. The utility model provides a reciprocating type sieve separator of tin ore which characterized in that, including:

the device comprises a base (1), wherein two n-shaped plates (2) are fixedly connected to one side of the base (1);

the discharging hopper (3) is fixedly connected between one sides of the two n-shaped plates (2) far away from the base (1);

the supporting rods (4) are symmetrically and fixedly connected to one side of the n-shaped plate (2) close to the discharge hopper (3);

the bidirectional charging hopper (5) is fixedly connected among the end parts of the four support rods (4) far away from the base (1);

the discharging frame (8) is fixedly connected between one sides of the two n-shaped plates (2) close to the base (1);

the driving mechanism (6) is arranged between one side of the n-shaped plate (2) and one side of the base (1) and is used for providing power;

the screening mechanism (7) is arranged between one sides of the two n-shaped plates (2), is in contact fit with the driving mechanism (6), and is used for screening tin ores;

the drive mechanism (6) comprises:

the bump disc (62) is rotatably connected to one side of one of the n-shaped plates (2) and is in contact fit with the screening mechanism (7);

the speed reducing motor (61), the speed reducing motor (61) is installed in the middle of one side of the base (1);

the first rotating shaft (64), the said first rotating shaft (64) is affixed to the output shaft end of the said gear motor (61);

a first transmission assembly (63), wherein the first transmission assembly (63) is connected between the shaft end part of the lug plate (62) and the end part of the first rotating shaft (64) far away from the speed reducing motor (61);

the screening mechanism (7) comprises:

the vertical plate (71), the vertical plate (71) is fixedly connected to the middle part of one side in the n-shaped plate (2) far away from the base (1);

the screening frame (72) is rotatably connected between one sides of the two vertical plates (71);

the guide shafts (73) are fixedly connected to the two outer sides of the screening frame (72), penetrate through the n-shaped plate (2), and the guide shafts (73) close to the first transmission assembly (63) are in contact fit with the lug plate (62);

still including intermittent type unloading mechanism (9), intermittent type unloading mechanism (9) including:

the mounting seat (91) is fixedly connected to one side, close to the speed reducing motor (61), of the base (1);

the second rotating shaft (96) is rotatably connected to one side of the mounting seat (91) far away from the base (1) in a penetrating manner;

the number of the bevel gears (92) is two, one of the bevel gears (92) is fixedly sleeved on the circumferential direction of one side of the first rotating shaft (64) close to the speed reducing motor (61), the other bevel gear (92) is fixedly sleeved on the circumferential direction of one side of the second rotating shaft (96) close to the first rotating shaft (64), and the two bevel gears (92) are meshed;

the rotating rod (94), the rotating rod (94) is rotatably connected between one side of two supporting rods (4) at one side in a penetrating manner;

the second transmission assembly (93), the second transmission assembly (93) is connected between one side circumference of the second rotating shaft (96) and one end of the rotating rod (94);

the third rotating shaft (97) is rotatably connected between the two outer sides of the two-way charging hopper (5);

the driving cylinder (98), the driving cylinder (98) is fixedly sleeved on the middle circumference of the third rotating shaft (97);

the third transmission assembly (95) is connected between the circumferential direction of one side of the rotating rod (94) and the circumferential direction of one side of the driving cylinder (98);

a swinging plate (99), wherein the swinging plate (99) is rotatably connected to two sides of the bidirectional loading hopper (5) facing the base (1) and is matched with the bidirectional loading hopper (5); the guide plate (910) is fixedly connected to the two sides of the outer side of the bidirectional charging hopper (5) close to the third rotating shaft (97);

and the movable plate (911) is slidably penetrated and connected onto the guide plate (910), one end of the movable plate (911) is in contact fit with the swinging plate (99), and the other end of the movable plate (911) is in contact fit with the end part of the driving cylinder (98).

2. A tin ore reciprocating sifter as defined in claim 1 further including an agitation mechanism (10), the agitation mechanism (10) including:

the number of the fourth rotating shafts (103) is two, the fourth rotating shafts (103) are rotatably connected between two sides of the bidirectional charging hopper (5), and the two fourth rotating shafts (103) are symmetrically arranged;

the stirring blade (104) is fixedly sleeved on the circumferential direction of one side of the fourth rotating shaft (103) and is positioned in the bidirectional charging hopper (5);

the ratchet wheel (101), the said ratchet wheel (101) is fixedly fitted to both ends of the said fourth spindle (103);

the ratchet bar (102), the said ratchet bar (102) is affixed to both sides of the said swing board (99), it engages with said ratchet (101).

3. A tin ore reciprocating sifter as defined in claim 2, further comprising:

the u-shaped pull rod (11), the u-shaped pull rod (11) is slidably connected between two sides of the screening frame (72) in a penetrating mode;

the brush plate (12) is fixedly connected between two ends of the u-shaped pull rod (11) and is in contact fit with one side in the screening frame (72);

magnet (13), magnet (13) rigid coupling in be close to brush board (12) one side in screening frame (72), its with brush board (12) contact cooperation.

4. A tin ore reciprocating sifter as defined in claim 3, further including:

the guide block (14), the said guide block (14) is affixed to the middle part of one side outside the said discharging frame (8);

the arc-shaped baffle (15), the arc-shaped baffle (15) is fixedly connected to one side of the screening frame (72) which faces the base (1) and is far away from the magnet (13), and the arc-shaped baffle (15) is slidably sleeved on the guide block (14);

the spring (16) is connected between the inner side of the arc-shaped baffle plate (15) and one side of the guide block (14).

5. A reciprocating type screening machine for tin ore according to claim 4, characterized in that the portion of said brush plate (12) in contact with said magnet (13) is iron.