CN111841415A - Macromolecular material processing is with feed mechanism that has automatic ratio - Google Patents

Abstract

The invention discloses a feeding mechanism with automatic proportioning for high polymer material processing, and belongs to the field of high polymer material processing. A feeding mechanism with automatic proportioning for high polymer material processing comprises a box body, wherein a limiting rod is fixedly connected to the outer wall of the top wall of the box body, and a transverse plate is fixedly connected to the outer wall of the top of the limiting rod; the outer wall of the top of the transverse plate is connected with an air cylinder, the output end of the air cylinder is connected with a sliding plate, the bottom of the sliding plate is provided with a connecting rod, and the bottom of the connecting rod is provided with a fixed disc; the outer wall of the top of the box body is provided with a placing cylinder, the fixed disc is in threaded connection with a supporting rod, and the bottom of the supporting rod is provided with a round hole; the inner wall of the bottom of the placing barrel is also provided with an annular plate, and the annular plate is provided with a through hole corresponding to the position of the supporting rod; the invention has convenient operation, can lead the materials or the additives to be added quantitatively according to the proportion, reduces the labor intensity and improves the working efficiency.

Description

Macromolecular material processing is with feed mechanism that has automatic ratio

Technical Field

The invention relates to the technical field of high polymer material processing, in particular to a feeding mechanism with automatic proportioning for high polymer material processing.

Background

The polymer material is a material composed of compounds with relatively high molecular mass, and many natural materials contacted by people are usually composed of polymer materials, such as natural rubber, cotton, human organs and the like, and also artificially synthesized chemical fibers, plastics, rubber and the like, so the natural materials are generally called to be adopted in a large amount in life, and the polymers which form industrial production scale are general polymer materials, namely functional polymers with special purposes and functions.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a feeding mechanism with automatic proportioning for processing a high polymer material.

In order to achieve the purpose, the invention adopts the following technical scheme:

a feeding mechanism with automatic proportioning for high polymer material processing comprises a box body, wherein a limiting rod is fixedly connected to the outer wall of the top wall of the box body, and a transverse plate is fixedly connected to the outer wall of the top of the limiting rod;

the outer wall of the top of the transverse plate is connected with an air cylinder, the output end of the air cylinder is connected with a sliding plate, the bottom of the sliding plate is provided with a connecting rod, and the bottom of the connecting rod is provided with a fixed disc;

the outer wall of the top of the box body is provided with a placing cylinder, the fixed disc is connected in the placing cylinder in a sliding mode, the fixed disc is connected with a supporting rod in a threaded mode, and the bottom of the supporting rod is provided with a round hole;

the inner wall of the bottom of the placing cylinder is also provided with an annular plate, the annular plate is provided with a through hole corresponding to the position of the supporting rod, and the bottom of the through hole is directly reduced to be larger than the diameter of the top of the through hole;

the top of box is equipped with the shrinkage pool that is linked together with the through-hole, the inner wall of box still is equipped with the compounding mechanism corresponding with the shrinkage pool.

Preferably, the outer wall of the supporting rod is further in threaded connection with two nuts, the two nuts respectively abut against the outer walls of the top and the bottom of the fixed disc, the top of the supporting rod is further provided with a handle, and the bottom of the round hole is provided with a notch.

Preferably, be equipped with the slider in the through-hole, the top of slider sets up to be toper, the bottom of slider is connected with the slide bar, the inner wall fixedly connected with fixed block of shrinkage pool, slide bar sliding connection is on the fixed block.

Preferably, a spring is arranged between the sliding block and the fixed block and sleeved on the outer wall of the sliding rod, and a connecting pipe is arranged between the annular plate and the inner wall of the box body.

Preferably, compounding mechanism mainly includes first motor, agitator tank, first puddler and second puddler, the inner wall at the box is connected to first motor, just the top inner wall of box still is equipped with the protective sheath that is used for protecting first motor, the output of first motor is connected with first axis of rotation, first puddler rotates the outer wall of connection at first axis of rotation, second puddler fixed connection is at the outer wall of first puddler, still be equipped with on the second puddler and dial the movable plate.

Preferably, first axis of rotation rotates the inner wall of connection at the agitator tank, agitator tank fixed connection is at the inner wall of box, the inner wall of box still be equipped with shrinkage pool matched with swash plate, the swash plate links to each other with the agitator tank is fixed.

Preferably, the end of the first stirring rod, which is far away from the first rotating shaft, is provided with a gear, the outer wall of the stirring box is also provided with an auxiliary groove, and the inner wall of the auxiliary groove is provided with a rack which is meshed with the gear.

Preferably, the inner wall of the auxiliary tank is further provided with a baffle, and the bottom of the baffle is provided with a brush matched with the first stirring rod.

Preferably, the inner wall of box still is equipped with the backup pad, be equipped with the inlet pipe between backup pad and the agitator tank.

Preferably, the outer wall of box still is equipped with the second motor, the output of second motor is connected with the second axis of rotation, the outer wall of second axis of rotation is equipped with the third puddler, the lateral wall of box is equipped with the outlet pipe.

Compared with the prior art, the invention provides a feeding mechanism with automatic proportioning for high polymer material processing, which has the following beneficial effects:

1. the feeding mechanism with automatic proportioning for processing the high polymer materials is used, when in use, the air cylinder is started to drive the sliding plate to move, the sliding plate slides on the outer wall of the limiting rod, the sliding plate can slide more stably, then the connecting rod can be driven to move downwards, so that the connecting rod drives the fixed disk to move, the supporting rod can rotate in advance, then the supporting rod can be in threaded connection with the fixed disk, so that the fixed disk moves downwards or upwards, the depth of the supporting rod extending into the through hole is controlled, then the nut is rotated to be abutted against the outer walls of the upper end and the lower end of the fixed disk, so that the position of the supporting rod is fixed, then an additive or a material to be added is placed into the placing cylinder, the additive or the material is placed on the annular plate, then the supporting rod moves downwards, the fault additive enters the circular hole, at the moment, the supporting rod continues to move and, after the slider slides to the position of through-hole bottom broad diameter, the material in the round hole or additive can flow from scarce inslot to in the connecting pipe gets into the box, the spring then can make the bracing piece not support the slider when, the slider can automatic re-setting, makes things convenient for used repeatedly.

2. The processing tool for the high polymer material is provided with a feeding mechanism with automatic proportioning, when an additive enters a box body, the additive enters a stirring box through an inclined plate, then the first motor is started, so that the first rotating shaft drives the first stirring rod to move, the first stirring rod drives the gear to move while moving, so that the first stirring rod is meshed with the rack in the auxiliary groove, the first stirring rod rotates, the second stirring rod is driven to rotate while the first stirring rod rotates, then the stirring plate is driven to rotate, the materials are evenly stirred, a plurality of supporting rods can be arranged on the placing cylinders, a plurality of supporting rods can be arranged, can conveniently inject different dosages and different types of additives, the brush on the baffle can lead the first stirring rod to conveniently rotate, meanwhile, the materials can not fall into the auxiliary groove, and then can enter the bottom of the box body through the feeding pipe.

3. This macromolecular material processing is with feed mechanism who has automatic ratio starts the second motor, makes it drive the third puddler through the second axis of rotation and rotates to carry out further stirring to the macromolecular material of bottom of the box, then can discharge it through the outlet pipe.

Drawings

FIG. 1 is a schematic structural diagram of a feeding mechanism with automatic proportioning for processing a high molecular material according to the present invention;

FIG. 2 is a schematic structural diagram of the inside of a feeding mechanism with automatic proportioning for processing a high molecular material provided by the present invention;

FIG. 3 is a schematic structural diagram of the inside of a stirring box of a feeding mechanism with automatic proportioning for processing a high molecular material according to the present invention;

FIG. 4 is a schematic structural diagram of a top view of a fixing plate of a feeding mechanism with automatic proportioning for processing polymer materials according to the present invention;

FIG. 5 is a schematic structural diagram of a top view of a composition stirring box of a feeding machine with automatic proportioning for processing a high molecular material according to the present invention;

fig. 6 is a schematic structural diagram of a portion a in a composition 3 of a feeding machine with automatic proportioning for processing a high molecular material according to the present invention.

In the figure: 1. a box body; 101. a limiting rod; 102. a transverse plate; 103. a water outlet pipe; 104. a first motor; 105. a first rotating shaft; 2. a cylinder; 201. a slide plate; 202. a connecting rod; 203. fixing the disc; 3. placing the cylinder; 301. an annular plate; 302. a through hole; 303. a slider; 304. a slide bar; 305. a spring; 306. a connecting pipe; 307. a fixed block; 4. a support bar; 401. a circular hole; 402. notching; 403. a nut; 404. a handle; 5. a sloping plate; 501. a stirring box; 502. an auxiliary groove; 503. a first stirring rod; 504. a second stirring rod; 505. a poking plate; 506. a gear; 507. a rack; 508. a brush; 509. a baffle plate; 6. a support plate; 601. a feed pipe; 7. a second motor; 701. a second rotating shaft; 702. and a third stirring rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-6, a feeding mechanism with automatic proportioning for high polymer material processing comprises a box body 1, wherein a limiting rod 101 is fixedly connected to the outer wall of the top wall of the box body 1, and a transverse plate 102 is fixedly connected to the outer wall of the top of the limiting rod 101;

the outer wall of the top of the transverse plate 102 is connected with an air cylinder 2, the output end of the air cylinder 2 is connected with a sliding plate 201, the bottom of the sliding plate 201 is provided with a connecting rod 202, and the bottom of the connecting rod 202 is provided with a fixed plate 203;

a placing cylinder 3 is arranged on the outer wall of the top of the box body 1, a fixed disc 203 is connected in the placing cylinder 3 in a sliding mode, a supporting rod 4 is connected to the fixed disc 203 in a threaded mode, and a round hole 401 is formed in the bottom of the supporting rod 4;

the inner wall of the bottom of the placing barrel 3 is also provided with an annular plate 301, the annular plate 301 is provided with a through hole 302 corresponding to the position of the support rod 4, and the bottom of the through hole 302 is directly reduced to be larger than the diameter of the top of the through hole 302;

the top of box 1 is equipped with the shrinkage pool that is linked together with through-hole 302, and the inner wall of box 1 still is equipped with the compounding mechanism corresponding with the shrinkage pool.

The outer wall of the support rod 4 is further connected with two nuts 403 in a threaded manner, the two nuts 403 are respectively abutted to the outer walls of the top and the bottom of the fixed disk 203, the top of the support rod 4 is further provided with a handle 404, and the bottom of the circular hole 401 is provided with a notch 402.

A sliding block 303 is arranged in the through hole 302, the top of the sliding block 303 is tapered, the bottom of the sliding block 303 is connected with a sliding rod 304, the inner wall of the concave hole is fixedly connected with a fixed block 307, and the sliding rod 304 is connected to the fixed block 307 in a sliding mode.

A spring 305 is arranged between the sliding block 303 and the fixed block 307, the spring 305 is sleeved on the outer wall of the sliding rod 304, and a connecting pipe 306 is arranged between the annular plate 301 and the inner wall of the box body 1.

The mixing mechanism mainly comprises a first motor 104, a stirring box 501, a first stirring rod 503 and a second stirring rod 504, the first motor 104 is connected to the inner wall of the box body 1, the inner wall of the top of the box body 1 is further provided with a protective sleeve for protecting the first motor 104, the output end of the first motor 104 is connected with a first rotating shaft 105, the first stirring rod 503 is rotatably connected to the outer wall of the first rotating shaft 105, the second stirring rod 504 is fixedly connected to the outer wall of the first stirring rod 503, and a stirring plate 505 is further arranged on the second stirring rod 504.

First axis of rotation 105 rotates the inner wall of connection at agitator tank 501, and agitator tank 501 fixed connection is at the inner wall of box 1, and the inner wall of box 1 still is equipped with shrinkage pool matched with swash plate 5, and swash plate 5 links to each other with agitator tank 501 is fixed.

The end of the first stirring rod 503 far from the first rotating shaft 105 is provided with a gear 506, the outer wall of the stirring box 501 is also provided with an auxiliary groove 502, and the inner wall of the auxiliary groove 502 is provided with a rack 507 engaged with the gear 506.

The inner wall of the auxiliary tank 502 is further provided with a baffle 509, and the bottom of the baffle 509 is provided with a brush 508 which is matched with the first stirring rod 503.

The inner wall of box 1 still is equipped with backup pad 6, is equipped with inlet pipe 601 between backup pad 6 and agitator tank 501.

The outer wall of box 1 still is equipped with second motor 7, and the output of second motor 7 is connected with second axis of rotation 701, and the outer wall of second axis of rotation 701 is equipped with third puddler 702, and the lateral wall of box 1 is equipped with outlet pipe 103.

In the invention, when in use, the cylinder 2 is started to drive the sliding plate 201 to move, the sliding plate 201 slides on the outer wall of the limiting rod 101, the sliding plate can slide more stably, then the connecting rod 202 can be driven to move downwards, so that the connecting rod 201 drives the fixed disk 203 to move, the supporting rod 4 can be rotated in advance, then the supporting rod 4 can be in threaded connection with the fixed disk 203, so that the fixed disk 203 moves downwards or upwards, the depth of the supporting rod 4 extending into the through hole 302 is controlled, then the nut 403 is rotated, the nut 403 is abutted against the outer walls of the upper end and the lower end of the fixed disk 203, so that the position of the supporting rod 4 is fixed, then an additive or a material to be added is put into the placing barrel 3 and is placed on the annular plate 301, then the supporting rod 4 moves downwards, the recycling additive enters the round hole 401, at the moment, the supporting rod 4 continues to move to be matched with the sliding block, after slider 303 slided the position of through-hole 302 bottom broad diameter, material or additive in the round hole 401 can flow out from scarce groove 402 to in getting into box 1 through connecting pipe 306, spring 305 then can make bracing piece 4 not support slider 303, slider 303 can automatic re-setting, convenient used repeatedly, the quantity that accessible control bracing piece 4 stretches out, thereby control reinforced proportion, convenient regulation.

Example 2:

referring to fig. 1-6, a feeding mechanism with automatic proportioning for high polymer material processing comprises a box body 1, wherein a limiting rod 101 is fixedly connected to the outer wall of the top wall of the box body 1, and a transverse plate 102 is fixedly connected to the outer wall of the top of the limiting rod 101;

the outer wall of the top of the transverse plate 102 is connected with an air cylinder 2, the output end of the air cylinder 2 is connected with a sliding plate 201, the bottom of the sliding plate 201 is provided with a connecting rod 202, and the bottom of the connecting rod 202 is provided with a fixed plate 203;

a placing cylinder 3 is arranged on the outer wall of the top of the box body 1, a fixed disc 203 is connected in the placing cylinder 3 in a sliding mode, a supporting rod 4 is connected to the fixed disc 203 in a threaded mode, and a round hole 401 is formed in the bottom of the supporting rod 4;

the inner wall of the bottom of the placing barrel 3 is also provided with an annular plate 301, the annular plate 301 is provided with a through hole 302 corresponding to the position of the support rod 4, and the bottom of the through hole 302 is directly reduced to be larger than the diameter of the top of the through hole 302;

the top of box 1 is equipped with the shrinkage pool that is linked together with through-hole 302, and the inner wall of box 1 still is equipped with the compounding mechanism corresponding with the shrinkage pool.

The outer wall of the support rod 4 is further connected with two nuts 403 in a threaded manner, the two nuts 403 are respectively abutted to the outer walls of the top and the bottom of the fixed disk 203, the top of the support rod 4 is further provided with a handle 404, and the bottom of the circular hole 401 is provided with a notch 402.

A sliding block 303 is arranged in the through hole 302, the top of the sliding block 303 is tapered, the bottom of the sliding block 303 is connected with a sliding rod 304, the inner wall of the concave hole is fixedly connected with a fixed block 307, and the sliding rod 304 is connected to the fixed block 307 in a sliding mode.

A spring 305 is arranged between the sliding block 303 and the fixed block 307, the spring 305 is sleeved on the outer wall of the sliding rod 304, and a connecting pipe 306 is arranged between the annular plate 301 and the inner wall of the box body 1.

Mixing mechanism mainly includes first motor 104, agitator tank 501, first puddler 503 and second puddler 504, first motor 104 is connected at the inner wall of box 1, and the top inner wall of box 1 still is equipped with the protective sheath that is used for protecting first motor 104, the output of first motor 104 is connected with first axis of rotation 105, first puddler 503 rotates the outer wall of connecting at first axis of rotation 105, second puddler 504 fixed connection is at the outer wall of first puddler 503, still be equipped with on the second puddler 504 and dial movable plate 505, the area of stirring can be increased, reinforcing stirring effect.

First axis of rotation 105 rotates the inner wall of connection at agitator tank 501, and agitator tank 501 fixed connection is at the inner wall of box 1, and the inner wall of box 1 still is equipped with shrinkage pool matched with swash plate 5, and swash plate 5 links to each other with agitator tank 501 is fixed, and swash plate 5 can make the material conveniently fall into in agitator tank 501.

The end of the first stirring rod 503 far from the first rotating shaft 105 is provided with a gear 506, the outer wall of the stirring box 501 is also provided with an auxiliary groove 502, and the inner wall of the auxiliary groove 502 is provided with a rack 507 engaged with the gear 506.

The inner wall of the auxiliary tank 502 is further provided with a baffle 509, the bottom of the baffle 509 is provided with a brush 508 matched with the first stirring rod 503, and the brush 508 can prevent materials from entering the auxiliary tank 502 and can not influence the movement of the first stirring rod 503.

The inner wall of box 1 still is equipped with backup pad 6, is equipped with inlet pipe 601 between backup pad 6 and agitator tank 501.

The outer wall of box 1 still is equipped with second motor 7, and the output of second motor 7 is connected with second axis of rotation 701, and the outer wall of second axis of rotation 701 is equipped with third puddler 702, and the lateral wall of box 1 is equipped with outlet pipe 103.

In the invention, after the additive enters the box body 1, the additive enters the stirring box 501 through the inclined plate 5, then, the first motor 104 is activated, so that the first rotating shaft 105 drives the first stirring rod 503 to move, the first stirring rod 503 moves and drives the gear 506 to move at the same time, so that it is engaged with the rack 507 in the auxiliary tank 502, and the first stirring rod 503 is rotated, and the rotation of the first stirring rod 503 simultaneously drives the second stirring rod 504 to rotate, and then drives the toggle plate 505 to rotate, the materials are evenly stirred, a plurality of placing cylinders 3 can be arranged, a plurality of supporting rods 4 can be arranged, different dosages and different kinds of additives can be conveniently injected, the brush 508 on the baffle 509 can facilitate the rotation of the first stirring rod 503, at the same time, the material will not fall into the auxiliary tank 502, and then the material will enter the bottom of the tank 1 through the feeding pipe 601.

The second motor 7 is started to drive the third stirring rod 702 to rotate through the second rotating shaft 701, so that the high polymer material at the bottom of the box body 1 is further stirred, and then can be discharged through the water outlet pipe 103, and valves are arranged on the water outlet pipe 103 and the feeding pipe 601, so that the control is convenient.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A feeding mechanism with automatic proportioning for high polymer material processing comprises a box body (1), and is characterized in that a limiting rod (101) is fixedly connected to the outer wall of the top wall of the box body (1), and a transverse plate (102) is fixedly connected to the outer wall of the top of the limiting rod (101);

the outer wall of the top of the transverse plate (102) is connected with an air cylinder (2), the output end of the air cylinder (2) is connected with a sliding plate (201), the bottom of the sliding plate (201) is provided with a connecting rod (202), and the bottom of the connecting rod (202) is provided with a fixed plate (203);

a placing barrel (3) is arranged on the outer wall of the top of the box body (1), the fixed disc (203) is connected in the placing barrel (3) in a sliding mode, a supporting rod (4) is connected to the fixed disc (203) in a threaded mode, and a round hole (401) is formed in the bottom of the supporting rod (4);

the inner wall of the bottom of the placing barrel (3) is also provided with an annular plate (301), the annular plate (301) is provided with a through hole (302) corresponding to the position of the supporting rod (4), and the bottom of the through hole (302) is directly reduced to be larger than the diameter of the top of the through hole;

the top of box (1) is equipped with the shrinkage pool that is linked together with through-hole (302), the inner wall of box (1) still is equipped with the compounding mechanism corresponding with the shrinkage pool.

2. The feeding mechanism with the automatic proportioning function for the high polymer material processing according to claim 1, wherein two nuts (403) are further connected to the outer wall of the supporting rod (4) in a threaded manner, the two nuts (403) respectively abut against the outer walls of the top and the bottom of the fixed disk (203), a handle (404) is further arranged at the top of the supporting rod (4), and a notch (402) is formed in the bottom of the circular hole (401).

3. The feeding mechanism with the automatic proportioning function for the high polymer material processing according to claim 2, wherein a sliding block (303) is arranged in the through hole (302), the top of the sliding block (303) is arranged to be tapered, the bottom of the sliding block (303) is connected with a sliding rod (304), a fixed block (307) is fixedly connected to the inner wall of the concave hole, and the sliding rod (304) is slidably connected to the fixed block (307).

4. The feeding mechanism with the automatic proportioning function for the high polymer material processing according to claim 3, wherein a spring (305) is arranged between the sliding block (303) and the fixed block (307), the spring (305) is sleeved on the outer wall of the sliding rod (304), and a connecting pipe (306) is arranged between the annular plate (301) and the inner wall of the box body (1).

5. The feeding mechanism with the automatic proportioning function for the high polymer material processing tool is characterized by mainly comprising a first motor (104), a stirring box (501), a first stirring rod (503) and a second stirring rod (504), wherein the first motor (104) is connected to the inner wall of the box body (1), a protective sleeve for protecting the first motor (104) is further arranged on the inner wall of the top of the box body (1), the output end of the first motor (104) is connected with a first rotating shaft (105), the first stirring rod (503) is rotatably connected to the outer wall of the first rotating shaft (105), the second stirring rod (504) is fixedly connected to the outer wall of the first stirring rod (503), and a stirring plate (505) is further arranged on the second stirring rod (504).

6. The feeding mechanism with the automatic proportioning function for the polymer material processing tool according to claim 5, wherein the first rotating shaft (105) is rotatably connected to an inner wall of the stirring box (501), the stirring box (501) is fixedly connected to the inner wall of the box body (1), an inclined plate (5) matched with the concave hole is further arranged on the inner wall of the box body (1), and the inclined plate (5) is fixedly connected with the stirring box (501).

7. The feeding mechanism with the automatic proportioning function for the high polymer material processing tool according to claim 6, wherein a gear (506) is arranged at one end, away from the first rotating shaft (105), of the first stirring rod (503), an auxiliary groove (502) is further arranged on the outer wall of the stirring box (501), and a rack (507) meshed with the gear (506) is arranged on the inner wall of the auxiliary groove (502).

8. The feeding mechanism with automatic proportioning for the high polymer material processing according to claim 7, wherein a baffle (509) is further arranged on the inner wall of the auxiliary tank (502), and a brush (508) matched with the first stirring rod (503) is arranged at the bottom of the baffle (509).

9. The feeding mechanism with automatic proportioning for the high polymer material processing according to claim 8, wherein a supporting plate (6) is further arranged on the inner wall of the box body (1), and a feeding pipe (601) is arranged between the supporting plate (6) and the stirring box (501).

10. The feeding mechanism with the automatic proportioning function for the high polymer material processing tool according to claim 9, wherein a second motor (7) is further arranged on an outer wall of the box body (1), an output end of the second motor (7) is connected with a second rotating shaft (701), a third stirring rod (702) is arranged on an outer wall of the second rotating shaft (701), and a water outlet pipe (103) is arranged on a side wall of the box body (1).

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