阅读说明：本技术 一种玻纤复合毡制作用ptfe辅助浸渍装置 (PTFE auxiliary impregnation device for manufacturing glass fiber composite felt ) 是由 刘建华 于 2021-08-06 设计创作，主要内容包括：本发明涉及一种浸渍装置,尤其涉及一种玻纤复合毡制作用PTFE辅助浸渍装置。本发明提供一种取料较方便和可以过滤液体的玻纤复合毡制作用PTFE辅助浸渍装置。一种玻纤复合毡制作用PTFE辅助浸渍装置,包括有：支脚和收料框,支脚上设有收料框；放料框,支脚上设有放料框；过滤网,收料框上设有过滤网；下料机构,放料框上设有下料机构；分层机构,放料框上设有分层机构。本发明达到了方便取料的效果,本发明通过下料机构、拍打机构和拉动机构的配合,可以自动将放料框内的PTFE取出,使人们不用将手浸泡到PTFE浸泡液中取出PTFE,提高设备的安全性,通过分层机构、推料机构和推动机构的配合,达到了过滤PTFE浸泡液的效果。(The invention relates to a dipping device, in particular to a PTFE auxiliary dipping device for manufacturing a glass fiber composite felt. The invention provides a PTFE auxiliary impregnation device for manufacturing a glass fiber composite felt, which is convenient to take materials and can filter liquid. The utility model provides a fine compound felt preparation of glass is with supplementary saturating device of PTFE, including: the supporting legs are provided with the material receiving frame; the support legs are provided with the discharging frames; the filter screen is arranged on the material receiving frame; the discharging mechanism is arranged on the discharging frame; the layering mechanism is arranged on the discharging frame. The PTFE filter device has the advantages that the effect of conveniently taking materials is achieved, PTFE in the material placing frame can be automatically taken out through the matching of the blanking mechanism, the patting mechanism and the pulling mechanism, people do not need to soak hands in PTFE soaking liquid to take out PTFE, the safety of equipment is improved, and the effect of filtering the PTFE soaking liquid is achieved through the matching of the layering mechanism, the material pushing mechanism and the pushing mechanism.)

1. The utility model provides a fine compound felt preparation of glass is with supplementary saturating device of PTFE which characterized in that, including:

the material receiving frame (2) is arranged on the support legs (1);

the material placing frame (3) is arranged on the support legs (1);

the filter screen (4) is arranged on the material receiving frame (2);

the blanking mechanism (5) is arranged on the blanking frame (3);

the layering mechanism (6) is arranged on the discharging frame (3).

2. The PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt according to claim 1, wherein the blanking mechanism (5) comprises:

the feeding frame (3) is provided with four first sliding rods (52);

the four first sliding rods (52) are connected with first baffles (51) in a sliding mode, and the first baffles (51) are matched with the discharging frame (3);

the first spring (53) is wound on the first sliding rod (52), and the first spring (53) is connected with the first sliding rod (52) and the first baffle (51);

the feeding frame (3) is provided with four first sliding sleeves (54);

the second sliding rod (55), the first sliding sleeve (54) is provided with the second sliding rod (55) in a sliding way;

the second sliding rod (55) is provided with a wedge block (56), and the wedge block (56) is matched with the first baffle (51);

the four second sliding rods (55) are connected with two first connecting blocks (58);

and the second spring (57) is wound on the second sliding rod (55), and the second spring (57) is connected with the first connecting block (58) and the first sliding sleeve (54).

3. The PTFE auxiliary impregnation device for manufacturing the glass fiber composite felt according to claim 2, wherein the layering mechanism (6) comprises:

the feeding frame (3) is provided with four first supports (61);

the four first brackets (61) are provided with two air cylinders (62);

the telescopic rods of the two cylinders (62) are connected with the first push block (63);

two second sliding sleeves (64) are arranged on the discharging frame (3);

the second baffle (65) is arranged on the discharging frame (3) in a sliding mode, and the second baffle (65) is connected with the first pushing block (63);

the third sliding rod (66), the second sliding sleeve (64) is provided with the third sliding rod (66) in a sliding way, and the third sliding rod (66) is connected with the second baffle (65);

and the third spring (67) is wound on the third sliding rod (66), and the third spring (67) is connected with the second sliding sleeve (64) and the second baffle (65).

4. The PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt according to claim 3, further comprising:

the beating mechanism (7) is arranged on the discharging frame (3), and the beating mechanism (7) is matched with the layering mechanism (6) and the discharging mechanism (5);

the flapping mechanism (7) comprises:

the first connecting block (58) on one side of the special-shaped block (71) is provided with two special-shaped blocks (71), and the special-shaped blocks (71) are matched with the third sliding rod (66);

the convex block (72) is arranged on the special-shaped block (71);

two second supports (73) are arranged on the discharging frame (3);

the cam (74) is rotationally arranged on the second bracket (73);

the torsion spring (75) is wound on the cam (74), and the torsion spring (75) is connected with the cam (74) and the second bracket (73);

the cam (74) is provided with a convex rod (76), and the convex rod (76) is matched with the convex block (72);

and two second connecting blocks (77) are arranged on the first connecting block (58) on one side of the second connecting block (77), and the second connecting blocks (77) are matched with the cam (74).

5. The PTFE auxiliary impregnation device for manufacturing the glass fiber composite felt according to claim 4, further comprising:

the drawing mechanism (8) is arranged on the discharging frame (3), and the drawing mechanism (8) is connected with the layering mechanism (6) and the discharging mechanism (5);

the pulling mechanism (8) comprises:

the first baffle plate (51) is provided with two L-shaped blocks (81);

two third supports (82) are arranged on the discharging frame (3);

a reel (83), the third bracket (82) is provided with the reel (83) in a rotating mode;

the second baffle plate (65) is provided with two third connecting blocks (84);

the pull rope (85) is wound on the winding wheel (83), and the pull rope (85) is connected with the L-shaped block (81) and the third connecting block (84).

6. The PTFE auxiliary impregnation device for manufacturing the glass fiber composite felt according to claim 5, further comprising:

the material pushing mechanism (9) is arranged on the material placing frame (3);

the pushing mechanism (9) comprises:

the third sliding sleeves (91), two third sliding sleeves (91) are arranged on the discharging frame (3);

the fourth sliding rod (92) is arranged on the third sliding sleeve (91) in a sliding manner;

the second push blocks (93) are connected to the two fourth sliding rods (92);

the two fourth sliding rods (92) are connected with a fourth connecting block (95);

the fourth spring (94) is wound on the fourth sliding rod (92), and the fourth spring (94) is connected with the third sliding sleeve (91) and a fourth connecting block (95);

two hand levers (96) are arranged on the hand lever (96) and the fourth connecting block (95).

7. The PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt according to claim 6, further comprising:

the pushing mechanism (10) is arranged on the material receiving frame (2), and the pushing mechanism (10) is matched with the blanking mechanism (5) and the material pushing mechanism (9).

8. The PTFE auxiliary impregnation device for manufacturing the glass fiber composite felt according to claim 7, wherein the pushing mechanism (10) comprises:

the material receiving frame (2) is provided with two fourth sliding sleeves (101);

a fifth sliding rod (102), a fifth sliding rod (102) is arranged on the fourth sliding sleeve (101) in a sliding manner;

the U-shaped block (103) is arranged on the fifth sliding rod (102), and the U-shaped block (103) is matched with the first baffle (51) and the second push block (93);

a fifth spring (104) is wound on the fifth sliding rod (102), and the fifth spring (104) is connected with the fourth sliding sleeve (101) and the U-shaped block (103).

Technical Field

The invention relates to a dipping device, in particular to a PTFE auxiliary dipping device for manufacturing a glass fiber composite felt.

Background

Polytetrafluoroethylene (abbreviated as PTFE), commonly known as "plastic king", is a high molecular polymer prepared by polymerizing tetrafluoroethylene as a monomer, and when people use the PTFE as a raw material for manufacturing, the PTFE needs to be soaked and softened first, but the PTFE soaking solution is highly corrosive, and the contact between the skin of people and the PTFE is unsafe.

Publication No. CN209577236U discloses an anti-oxidation dipping device of a graphite electrode, which comprises a base, a stand column and a dipping device body; the base is provided with a sliding chute, a sliding block in sliding fit with the sliding chute is arranged on the sliding chute, the top end of the sliding block is fixedly provided with a dipping device body, and the right side of the dipping device body is fixedly connected with a hydraulic cylinder; the dipping device body comprises a pretreatment chamber and a dipping chamber; a storage rack is arranged in the pretreatment chamber and is away from the pretreatment chamber, and a storage basket is placed on the storage rack; a plurality of high-pressure spray guns are vertically arranged on the left side wall and the right side wall of the pretreatment chamber, and a washing water outlet is formed in the bottom of the pretreatment chamber; the soaking chamber comprises a soaking chamber body, a tank cover arranged at the top of the soaking chamber body and a pressure pump arranged above the rear side wall of the soaking chamber body.

Therefore, research and development of a PTFE auxiliary impregnation device for manufacturing a glass fiber composite felt, which is convenient to take materials and can filter liquid, are needed.

Disclosure of Invention

In order to overcome the defects that PTFE is inconvenient to take materials and cannot filter liquid, the invention has the technical problems that: the PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt is convenient to take materials and capable of filtering liquid.

The utility model provides a fine compound felt preparation of glass is with supplementary saturating device of PTFE, including:

the material receiving frame is arranged on the support legs;

the support legs are provided with the discharging frames;

the filter screen is arranged on the material receiving frame;

the discharging mechanism is arranged on the discharging frame;

the layering mechanism is arranged on the discharging frame.

Further, the blanking mechanism comprises:

four first sliding rods are arranged on the discharging frame;

the four first sliding rods are connected with first baffles in a sliding mode, and the first baffles are matched with the material discharging frame;

the first spring is wound on the first sliding rod and connected with the first sliding rod and the first baffle;

four first sliding sleeves are arranged on the discharging frame;

the first sliding sleeve is provided with a first sliding rod in a sliding manner;

the second sliding rod is provided with a wedge block, and the wedge block is matched with the first baffle;

the four second sliding rods are connected with two first connecting blocks;

and the second spring is wound on the second sliding rod and connected with the first connecting block and the first sliding sleeve.

Further, the layering mechanism comprises:

four first supports are arranged on the discharging frame;

two air cylinders are arranged on the four first brackets;

the telescopic rods of the two cylinders are connected with the first push block;

two second sliding sleeves are arranged on the discharging frame;

the second baffle is arranged on the discharging frame in a sliding mode and is connected with the first pushing block;

the second sliding sleeve is provided with a second sliding rod in a sliding mode, and the second sliding rod is connected with the second baffle;

and the third spring is wound on the third sliding rod and connected with the second sliding sleeve and the second baffle.

Further, the method also comprises the following steps:

the beating mechanism is arranged on the discharging frame and is matched with the layering mechanism and the discharging mechanism;

beater mechanism including:

the first connecting block on one side of the special-shaped block is provided with two special-shaped blocks which are matched with the third slide bar;

the special-shaped block is provided with a convex block;

two second supports are arranged on the discharging frame;

the cam is rotationally arranged on the second bracket;

the cam is wound with the torsion spring, and the torsion spring is connected with the cam and the second bracket;

the cam is provided with a convex rod which is matched with the convex block;

and the first connecting block on one side of the second connecting block is provided with two second connecting blocks which are matched with the cam.

Further, the method also comprises the following steps:

the drawing mechanism is arranged on the discharging frame and connected with the layering mechanism and the discharging mechanism;

the pulling mechanism comprises:

the first baffle plate is provided with two L-shaped blocks;

two third supports are arranged on the discharging frame;

the third bracket is rotatably provided with a reel;

two third connecting blocks are arranged on the second baffle;

the stay cord is wound on the reel and is connected with the L-shaped block and the third connecting block.

Further, the method also comprises the following steps:

the material pushing mechanism is arranged on the material discharging frame;

pushing equipment includes:

two third sliding sleeves are arranged on the discharging frame;

the third sliding sleeve is provided with a third sliding rod in a sliding manner;

the two fourth sliding rods are connected with a second push block;

the two fourth sliding rods are connected with a fourth connecting block;

the fourth spring is wound on the fourth sliding rod and connected with the third sliding sleeve and the fourth connecting block;

and the fourth connecting block is provided with two hand levers.

Further, the method also comprises the following steps:

the pushing mechanism is arranged on the material receiving frame and matched with the blanking mechanism and the material pushing mechanism.

Further, the pushing mechanism includes:

the material receiving frame is provided with two fourth sliding sleeves;

the fourth sliding sleeve is provided with a fourth sliding rod in a sliding manner;

the fifth sliding rod is provided with a U-shaped block, and the U-shaped block is matched with the first baffle and the second push block;

and the fifth spring is wound on the fifth sliding rod and is connected with the fourth sliding sleeve and the U-shaped block.

The invention has the beneficial effects that:

1. the invention achieves the effect of convenient material taking, and can automatically take out the PTFE in the material placing frame through the matching of the blanking mechanism, the beating mechanism and the pulling mechanism, so that people do not need to soak hands in the PTFE soaking solution to take out the PTFE, and the safety of the equipment is improved.

2. The PTFE soaking liquid filtering device achieves the effect of filtering PTFE soaking liquid, and organic solution can be filtered to the material receiving frame or retained in the inner material placing frame through the matching of the layering mechanism, the material pushing mechanism and the pushing mechanism, so that the PTFE soaking liquid can be conveniently reused.

Drawings

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

Fig. 2 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 3 is a schematic perspective view of the layered structure of the present invention.

Fig. 4 is a schematic perspective view of a flapping mechanism of the present invention.

Fig. 5 is a schematic perspective view of the pulling mechanism of the present invention.

Fig. 6 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 7 is a schematic perspective view of the pushing mechanism of the present invention.

Reference numbers in the drawings: 1: leg, 2: material receiving frame, 3: a material placing frame, 4: a filter screen, 5: blanking mechanism, 51: first baffle, 52: first slide bar, 53: first spring, 54: first runner, 55: second slide bar, 56: wedge block, 57: second spring, 58: first connection block, 6: layering mechanism, 61: first bracket, 62: cylinder, 63: first push block, 64: second runner, 65: second baffle, 66: third slide bar, 67: third spring, 7: tapping mechanism, 71: shaped block, 72: convex block, 73: second bracket, 74: cam, 75: torsion spring, 76: nose bar, 77: second connecting block, 8: pulling mechanism, 81: l-shaped block, 82: third bracket, 83: reel, 84: third connecting block, 85: a pull rope, 9: pushing equipment, 91: third runner, 92: fourth slide bar, 93: second push block, 94: fourth spring, 95: fourth connecting block, 96: hand lever, 10: pushing mechanism, 101: fourth runner, 102: fifth slide bar, 103: u-block, 104: and a fifth spring.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example 1

The utility model provides a fine compound felt preparation of glass is with supplementary saturating device of PTFE, as shown in figure 1, including stabilizer blade 1, receipts material frame 2, blowing frame 3, filter screen 4, unloading mechanism 5 and layering mechanism 6, the lower part is equipped with receipts material frame 2 in the stabilizer blade 1, and upper portion is equipped with blowing frame 3 in the stabilizer blade 1, and the top side right part of receiving frame 2 is equipped with filter screen 4, and 3 lower parts of blowing frame are equipped with unloading mechanism 5, and 3 middle parts of blowing frame are equipped with layering mechanism 6.

The PTFE soaking liquid for soaking PTFE has certain corrosivity and is unsafe, the PTFE soaking device can help to soak PTFE in a safer mode, the PTFE soaking liquid and the PTFE are placed in the material placing frame 3 at first, after the PTFE soaking liquid floating on the upper portion in the material placing frame 3 is separated from the PTFE on the lower portion through the layering mechanism 6 after the PTFE soaking liquid is soaked for a certain time, the material discharging mechanism 5 is started, a small amount of solvent and the PTFE on the lower portion in the material placing frame 3 are taken out, the solvent flows onto the filter screen 4 due to the flowing state and is filtered into the material receiving frame 2 due to gravity, the PTFE stays on the material discharging mechanism 5, after the PTFE is dried, people take the PTFE off from the material discharging mechanism 5, then the material discharging mechanism 5 and the layering mechanism 6 are recovered, and when the PTFE device is used again, the steps are repeated.

Example 2

On the basis of the embodiment 1, as shown in fig. 2 and fig. 3, the blanking mechanism 5 includes a first baffle 51, a first slide rod 52, a first spring 53, a first sliding sleeve 54, a second slide rod 55, a wedge 56, a second spring 57 and a first connecting block 58, the inner lower portion of the discharging frame 3 is provided with four first slide rods 52, the upper portions of the four first slide rods 52 are slidably connected with the first baffle 51, the first baffle 51 is engaged with the discharging frame 3, the first spring 53 is wound on the first slide rod 52, the first spring 53 is connected with the first slide rod 52 and the first baffle 51, the left and right sides of the lower portion of the discharging frame 3 are respectively provided with two first sliding sleeves 54, the lower portion of the first sliding sleeve 54 is provided with a second slide rod 55, the inner side of the second slide rod 55 is provided with a wedge 56, the wedge 56 is engaged with the first baffle 51, the outer side of the second slide rod 55 at the front and rear sides is connected with the first connecting block 58, the second spring 57 is wound on the second slide rod 55, the second spring 57 is connected with the first connection block 58 and the first sliding sleeve 54.

In the initial state, the wedge block 56 is matched with the first baffle plate 51, the first baffle plate 51 is matched with the material placing frame 3, the first spring 53 is in the stretching state, when people place PTFE soak solution and PTFE in the material placing frame 3, the first baffle plate 51 plays a role of blocking, after soaking for a certain time, people manually move the first connecting block 58 outwards, the first connecting block 58 drives the second sliding rod 55 to move outwards, the second spring 57 stretches, the second sliding rod 55 drives the wedge block 56 to move outwards, when the wedge block 56 is not matched with the first baffle plate 51, the first spring 53 restores the initial state, the first spring 53 drives the first baffle plate 51 to move downwards, the first baffle plate 51 does not block articles in the material placing frame 3 any more, a small amount of solvent and PTFE at the lower part in the material placing frame 3 are taken out, because the solvent is in the flowing state, after the solvent flows to the filter screen 4, the solvent is filtered to the material receiving frame 2 because of gravity, and PTFE then stops on first baffle 51, after PTFE is comparatively dry, people take off PTFE from first baffle 51, later keep second spring 57 for under the tensile state, upwards remove first baffle 51, first spring 53 is tensile, when first baffle 51 cooperates with the blowing frame 3 again, loosen first link block 58, second spring 57 resumes initial condition, second spring 57 drives first link block 58 to move to the inboard side, thereby wedge 56 moves to the inboard side and cooperates again with first baffle 51, so can realize getting the effect of material automatically, when using this equipment once more, repeat the above-mentioned step.

The layering mechanism 6 comprises a first support 61, an air cylinder 62, a first pushing block 63, a second sliding sleeve 64, a second baffle 65, a third sliding rod 66 and a third spring 67, wherein the front side and the rear side of the middle of the material placing frame 3 are respectively provided with the two first supports 61, the air cylinders 62 are installed on the upper portions of the first supports 61 on the left side and the right side, the first pushing block 63 is connected onto telescopic rods on the right sides of the two air cylinders 62, the front side and the rear side of the right of the material placing frame 3 are respectively provided with the second sliding sleeve 64, the middle of the material placing frame 3 is slidably provided with the second baffle 65, the second baffle 65 is connected with the first pushing block 63, the middle of the second sliding sleeve 64 is slidably provided with the third sliding rod 66, the third sliding rod 66 is connected with the second baffle 65, a third spring 67 is wound on the third sliding rod 66, and the third spring 67 is connected with the second sliding sleeve 64 and the second baffle 65.

In an initial state, the telescopic rod of the air cylinder 62 is in a stretching state, after the PTFE soaking liquid and the PTFE are both placed in the material placing frame 3, the PTFE soaking liquid with the lower density is placed at the upper part of the material placing frame 3, the PTFE with the higher density is placed at the lower part of the material placing frame 3, after soaking for a certain time, the air cylinder 62 is opened to compress the telescopic rod of the air cylinder 62, the telescopic rod of the air cylinder 62 drives the first push block 63 to move leftwards, the first push block 63 drives the second baffle plate 65 to move leftwards, the second baffle plate 65 drives the third slide rod 66 to move leftwards, the third spring 67 compresses, after the second baffle plate 65 moves into the material placing frame 3, the PTFE soaking liquid at the upper part in the material placing frame 3 and the PTFE at the lower part are isolated by the second baffle plate 65, at the time, the air cylinder 62 is closed, the PTFE soaking liquid at the upper part in the material placing frame is blocked by the second baffle plate 65, then the first baffle plate 51 is taken out without being matched with the material placing frame 3 again, when the first baffle plate 51 is matched with the material placing frame 3 again, the cylinder 62 is started again, the telescopic rod of the cylinder 62 is stretched, the telescopic rod of the cylinder 62 drives the first push block 63 to move rightwards, the second baffle 65 and the third sliding rod 66 both move rightwards, the third spring 67 restores the initial state, when the second baffle 65 moves to the initial position, the cylinder 62 is closed, and when the device is used again, the steps are repeated.

Example 3

Based on the embodiment 2, as shown in fig. 1, 4, 5, 6 and 7, the material discharging device further includes a patting mechanism 7, the patting mechanism 7 is disposed at the lower portion of the material discharging frame 3, the patting mechanism 7 is matched with the layering mechanism 6 and the material discharging mechanism 5, the patting mechanism 7 includes a special-shaped block 71, a convex block 72, a second bracket 73, a cam 74, a torsion spring 75, a convex rod 76 and a second connecting block 77, the special-shaped block 71 is disposed at the front and rear sides of the first connecting block 58 at the left side, the special-shaped block 71 is matched with the third sliding rod 66, the convex block 72 is disposed at the right side of the lower portion of the special-shaped block 71, the second brackets 73 are disposed at the front and rear sides of the lower portion of the material discharging frame 3, the cam 74 is rotatably disposed at the right portion of the second bracket 73, the torsion spring 75 is wound around the outer side of the cam 74, the torsion spring 75 is connected with the cam 74 and the second bracket 73, the convex rod 76 is disposed at the top of the cam 74, the convex rod 76 is matched with the convex block 72, the front and rear sides of the first connecting block 58 at the right side are disposed with the second connecting block 77, the second connecting block 77 cooperates with the cam 74.

When the third slide bar 66 moves leftwards to be matched with the special-shaped block 71, the third slide bar 66 pushes the special-shaped block 71 to move leftwards, the special-shaped block 71 drives the first connecting block 58 on the left side to move leftwards, the special-shaped block 71 drives the convex block 72 to move leftwards, the protruding part of the convex block 72 pushes the convex rod 76 to move, so that the convex rod 76 drives the cam 74 to rotate, the torsion spring 75 deforms, when the protruding part of the cam 74 is matched with the second connecting block 77, the cam 74 pushes the second connecting block 77 to move rightwards, the second connecting block 77 drives the first connecting block 58 on the right side to move rightwards, so that the wedge block 56 moves outwards to be not matched with the first baffle 51, when the third slide bar 66 moves rightwards to be not matched with the special-shaped block 71, the first connecting block 58 on the left side drives the special-shaped block 71 and the convex block 72 to move rightwards, the convex block 72 does not push the convex rod 76 any more, and the torsion spring 75 restores to the initial state, the torsion spring 75 drives the cam 74 to rotate reversely, so that the cam 74 does not push the second connecting block 77 any more, the first connecting block 58 on the right side drives the second connecting block 77 to move rightwards, the wedge block 56 moves inwards, the effect of automatically taking materials can be achieved, and the steps are repeated when the equipment is used again.

Still including pulling mechanism 8, the lower part of blowing frame 3 is equipped with pulling mechanism 8, pulling mechanism 8 is connected with 6 and the unloading mechanism 5 of layered mechanism, pulling mechanism 8 is including L-shaped piece 81, third support 82, reel 83, third connecting block 84 and stay cord 85, first baffle 51 bottom side is equipped with two L-shaped pieces 81, both sides all are equipped with third support 82 around blowing frame 3 lower part, third support 82 outside rotary type is equipped with reel 83, second baffle 65 bottom is equipped with two third connecting blocks 84, around having stay cord 85 on the reel 83, stay cord 85 is connected with L-shaped piece 81 and third connecting block 84.

When the second baffle 65 drives the third connecting block 84 to move leftwards, the third connecting block 84 does not pull the pull rope 85 any more, the reel 83 rotates, the first baffle 51 drives the L-shaped block 81 to move downwards, when the second baffle 65 moves rightwards, the first baffle 51 does not cooperate with the discharging frame 3 at the moment, the second baffle 65 drives the third connecting block 84 to move rightwards, the third connecting block 84 pulls the pull rope 85, due to the friction force, the reel 83 rotates reversely, due to the fixed pulley principle, the pull rope 85 drives the L-shaped block 81 to move upwards, the L-shaped block 81 drives the first baffle 51 to move upwards, so that the first baffle 51 is matched with the discharging frame 3 again, the effect of automatically resetting the first baffle 51 can be realized, and the steps are repeated when the device is used again.

The material pushing device is characterized by further comprising a material pushing mechanism 9, the material pushing mechanism 9 is arranged on the left side of the lower portion of the material placing frame 3, the material pushing mechanism 9 comprises a third sliding sleeve 91, a fourth sliding rod 92, a second pushing block 93, a fourth spring 94, a fourth connecting block 95 and a hand pull rod 96, the left side of the lower portion of the material placing frame 3 is provided with the two third sliding sleeves 91, the lower portion of the third sliding sleeve 91 is slidably provided with the fourth sliding rod 92, the right sides of the two fourth sliding rods 92 are connected with the second pushing block 93, the left sides of the two fourth sliding rods 92 are connected with a fourth connecting block 95, the fourth sliding rod 92 is wound with the fourth spring 94, the fourth spring 94 is connected with the third sliding sleeves 91 and the fourth connecting block 95, and the top of the fourth connecting block 95 is provided with the two hand pull rods 96.

In the initial state, the second pushing block 93 is positioned below the first baffle 51, when the first baffle 51 moves downwards, people manually pull the hand lever 96 leftwards, the hand lever 96 drives the fourth connecting block 95 to move leftwards, the fourth spring 94 stretches, the fourth connecting block 95 drives the fourth sliding rod 92 to move leftwards, the fourth sliding rod 92 drives the second pushing block 93 to move leftwards, when the first baffle 51 is matched with the material receiving frame 2, people release the hand lever 96, the fourth spring 94 restores the initial state, so that the second pushing block 93 moves rightwards, the second pushing block 93 pushes the PTFE on the first baffle 51 to the filter screen 4, the filter screen 4 filters the organic solution into the material receiving frame 2, when the first baffle 51 moves upwards, the hand lever 96 is pulled leftwards again, so that the second pushing block 93 cannot block the ascending route of the first baffle 51, when the first baffle 51 is matched with the material discharging frame 3 again, and (3) loosening the hand lever 96 to enable the second push block 93 to move rightwards to the initial position, and repeating the steps when the equipment is used again.

The material receiving frame is characterized by further comprising a pushing mechanism 10, the pushing mechanism 10 is arranged on the left side in the material receiving frame 2, the pushing mechanism 10 is matched with the blanking mechanism 5 and the material pushing mechanism 9, the pushing mechanism 10 comprises a fourth sliding sleeve 101, a fifth sliding rod 102, a U-shaped block 103 and a fifth spring 104, two fourth sliding sleeves 101 are arranged on the left side in the material receiving frame 2, the fifth sliding rod 102 is arranged in the fourth sliding sleeve 101 in a sliding mode, the U-shaped block 103 is arranged at the top of the fifth sliding rod 102, the U-shaped block 103 is matched with the first baffle 51 and the second pushing block 93, the fifth sliding rod 102 is wound with the fifth spring 104, and the fifth spring 104 is connected with the fourth sliding sleeves 101 and the U-shaped block 103.

In an initial state, the U-shaped block 103 is matched with the second pushing block 93, the fourth spring 94 is in a stretching state, when the first baffle 51 moves downwards to be matched with the U-shaped block 103, the first baffle 51 pushes the U-shaped block 103 to move downwards, the fifth spring 104 is compressed, the U-shaped block 103 does not clamp the second pushing block 93, the fourth spring 94 restores the initial state, so that the second pushing block 93 pushes the PTFE on the first baffle 51 to the filter screen 4, then the hand lever 96 is pulled leftwards, the second pushing block 93 moves leftwards, when the first baffle 51 moves upwards to be not matched with the U-shaped block 103, the fifth spring 104 restores the initial state, the fifth spring 104 drives the U-shaped block 103 to move upwards, at the moment, the U-shaped block 103 is matched with the second pushing block 93 again, a user releases the hand lever 96, and the steps are repeated when the device is used again.

The present application is described in detail above, and the principles and embodiments of the present application are described herein by using specific examples, which are only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.