CN215963811U

CN215963811U - Amino molding plastic's reducing mechanism

Info

Publication number: CN215963811U
Application number: CN202122269604.4U
Authority: CN
Inventors: 张明富; 邵俊
Original assignee: Anhui Jingxian Yasheng Plastic Products Co ltd
Current assignee: Anhui Jingxian Yasheng Plastic Products Co ltd
Priority date: 2021-09-18
Filing date: 2021-09-18
Publication date: 2022-03-08
Anticipated expiration: 2031-09-18

Abstract

The utility model provides a crushing device for amino molding plastic. The amino molding compound crushing device comprises: a fixed box; the drying assembly is fixedly connected to one side of the top of the fixed box and comprises a supporting block, and the supporting block is fixedly connected to one side of the top of the fixed box. According to the smashing device for the amino molding plastic, the drying range can be effectively expanded by controlling the positive and negative rotation of the asynchronous motor in the drying assembly and matching between the lead screw and the moving block, so that the amino molding plastic in the conveying process can be dried more fully, the subsequent smashing effect is effectively improved, the quality of the amino molding plastic is improved, in addition, the smashed amino molding plastic can be well screened through the discharging assembly, and the amino molding plastic which meets the specification and does not meet the specification can be effectively distinguished and collected.

Description

Amino molding plastic's reducing mechanism

Technical Field

The utility model relates to the field of amino molding compound processing, in particular to a crushing device for amino molding compound.

Background

The amino molding compound is a chemical raw material prepared by taking urea-formaldehyde resin or melamine-formaldehyde resin as a base material and adding cellulose, a hardening agent and other additives, is mainly used for pressing into structural components such as tableware, an electric switch and the like, and needs to be subjected to the procedures of drying, crushing, screening and the like when being processed, wherein a crushing device is needed when being crushed.

In the prior art, the crushing device for the amino-based membrane plastic cannot fully dry the amino-based membrane plastic when meeting the influence of a humid environment, so that the overall quality of the crushed amino-based membrane plastic is reduced.

Therefore, it is necessary to provide a crushing device for amino molding compound to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a crushing device for amino molding plastic, which solves the problem that the crushing device for amino molding plastic in the prior art cannot sufficiently dry the amino molding plastic when affected by a humid environment.

In order to solve the above technical problems, the present invention provides an amino molding compound pulverizing apparatus, comprising: a fixed box;

the drying component is fixedly connected to one side of the top of the fixed box and comprises a supporting block, the supporting block is fixedly connected to one side of the top of the fixed box, the top of the supporting block is fixedly connected with a drying bin, the top of the inner wall of the drying bin is fixedly connected with a strip-shaped box, the back of the strip-shaped box is fixedly connected with an asynchronous motor through a first base, an output shaft of the asynchronous motor is fixedly connected with a lead screw, one end of the lead screw penetrates through the strip-shaped box and extends to the inside of the strip-shaped box, one end of the lead screw is rotatably connected with the front side of the inner wall of the strip-shaped box, a moving block is in threaded connection with the surface of the lead screw, the top of the moving block is in sliding connection with the top of the inner wall of the strip-shaped box, the bottom of the moving block penetrates through the strip-shaped box and extends to the outside of the strip-shaped box, and a mounting plate is fixedly connected with the bottom of the moving block, the top of the drying bin is fixedly connected with a dryer, the air outlet end of the dryer is communicated with an air outlet pipe, and the bottom end of the air outlet pipe sequentially penetrates through the drying bin and the mounting plate and extends to the outside of the mounting plate;

the crushing assembly is fixedly connected to the top of the fixing box;

and the discharging component is connected to the bottom of the inner wall of the fixed box in a sliding manner.

Preferably, the equal fixedly connected with U-shaped plate in both sides at stoving storehouse inner wall top, two equal swivelling joint has the pivot, two between the top at the front and the back of U-shaped plate inner wall the equal fixedly connected with transfer gear in surface of pivot, two set up conveyer belt in addition between the transfer gear top, one the outside that the U-shaped plate just extended to the U-shaped plate is run through to the one end of pivot, one U-shaped plate back bottom is through second base fixedly connected with AC motor, AC motor's output shaft and one the one end fixed connection of pivot.

Preferably, crushing unit is including smashing frame and feed inlet, smash frame fixed connection in the top of fixed case, the feed inlet is seted up in the top of fixed case just is located smash the frame under, the equal fixedly connected with stock guide in top of smashing the frame both sides, smash all through third base fixedly connected with servo motor of both sides of frame back bottom.

Preferably, two equal fixedly connected with axis of rotation of servo motor's output shaft, two the axis of rotation all runs through crushing frame and extends to the inside of crushing frame.

Preferably, two the axis of rotation both ends are rotated with the positive both sides of smashing the frame inner wall respectively and are connected, two the equal fixedly connected with in surface that the axis of rotation is located smash the frame inside smashes the wheel.

Preferably, the discharging assembly comprises a first material receiving box and a second material receiving box, the first material receiving box is slidably connected between the tops of two sides of the inner wall of the fixed box, the second material receiving box is slidably connected to the bottom of the inner wall of the fixed box, and the front face of the first material receiving box penetrates through the fixed box and extends to the outside of the fixed box.

Preferably, a screening plate penetrates through the bottom of the first material receiving box, vibrating machines are fixedly connected to two sides of the bottom of the screening plate, and the front face of the second material receiving box penetrates through the fixed box and extends to the outside of the fixed box.

Compared with the related art, the crushing device for the amino molding compound provided by the utility model has the following beneficial effects:

the utility model provides a smashing device for amino molding plastic, which can effectively enlarge the drying range by controlling the positive and negative rotation of an asynchronous motor in a drying assembly and matching between a screw rod and a moving block, so that the amino molding plastic in the conveying process can be dried more fully, the subsequent smashing effect is effectively improved, the quality of the amino molding plastic is improved, in addition, the smashed amino molding plastic can be well screened by a discharging assembly, and the amino molding plastic which meets the specification and does not meet the specification can be well distinguished and collected.

Drawings

FIG. 1 is a schematic structural diagram of an amino molding compound pulverizing apparatus according to a preferred embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the drying assembly shown in FIG. 1;

FIG. 3 is a schematic view of the size reduction assembly of FIG. 1;

fig. 4 is a schematic structural diagram of the discharging group shown in fig. 1.

Reference numbers in the figures: 1. the drying device comprises a fixed box, 2, a drying component, 201, a supporting block, 202, a drying bin, 203, a strip-shaped box, 204, an asynchronous motor, 205, a screw rod, 206, a moving block, 207, a mounting plate, 208, a dryer, 209, an air outlet pipe, 210, a U-shaped plate, 211, a rotating shaft, 212, a conveying wheel, 213, a conveying belt, 214, an alternating current motor, 3, a crushing component, 301, a crushing frame, 302, a feeding hole, 303, a material guide plate, 304, a servo motor, 305, a rotating shaft, 306, a crushing wheel, 4, a discharging component, 401, a first material receiving box, 402, a second material receiving box, 403, a screening plate, 404 and a vibrator.

Detailed Description

The utility model is further described with reference to the following figures and embodiments.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of a pulverizing device for amino molding compound according to the present invention; FIG. 2 is a schematic structural diagram of the drying assembly shown in FIG. 1; FIG. 3 is a schematic view of the size reduction assembly of FIG. 1; fig. 4 is a schematic structural diagram of the discharging group shown in fig. 1. Amino moulding plastic's reducing mechanism includes: a stationary box 1;

the drying component 2, the drying component 2 is fixedly connected to one side of the top of the fixed box 1, the drying component 2 comprises a supporting block 201, the supporting block 201 is fixedly connected to one side of the top of the fixed box 1, the top of the supporting block 201 is fixedly connected with a drying bin 202, the top of the inner wall of the drying bin 202 is fixedly connected with a strip-shaped box 203, the back of the strip-shaped box 203 is fixedly connected with an asynchronous motor 204 through a first base, an output shaft of the asynchronous motor 204 is fixedly connected with a lead screw 205, one end of the lead screw 205 penetrates through the strip-shaped box 203 and extends into the strip-shaped box 203, one end of the lead screw 205 is rotatably connected with the front of the inner wall of the strip-shaped box 203, the surface of the lead screw 205 is in threaded connection with a moving block 206, the top of the moving block 206 is in sliding connection with the top of the inner wall of the strip-shaped box 203, the bottom of the moving block 206 penetrates through the strip-shaped box 203 and extends to the outside of the strip-shaped box 203, the bottom of the moving block 206 is fixedly connected with a mounting plate 207, the top of the drying bin 202 is fixedly connected with a dryer 208, the air outlet end of the dryer 208 is communicated with an air outlet pipe 209, the bottom end of the air outlet pipe 209 sequentially penetrates through the drying bin 202 and the mounting plate 207 and extends to the outside of the mounting plate 207, the asynchronous motor 204 needs to be externally connected with a power supply, the outside is provided with a control switch, the dryer 208 needs to be externally connected with the power supply and is provided with the control switch, by starting the dryer 208, the dryer 208 guides the hot dry air to the surface of the amino film plastic on the conveyor belt 213 through the air outlet pipe 209, drying the waste paper, controlling the asynchronous motor 204 to rotate forwards and backwards by starting the asynchronous motor 204, thereby driving the screw 205 to rotate forward and backward, and driving the moving block 206 to move forward and backward, thereby driving the mounting plate 207 to move back and forth, so that the air outlet pipe 209 moves back and forth, and the conveyor belt 213 conveys the amino-film plastic into the crushing frame 301;

the crushing assembly 3 is fixedly connected to the top of the fixed box 1;

discharging component 4, discharging component 4 sliding connection is in the bottom of fixed case 1 inner wall.

The two sides of the top of the inner wall of the drying bin 202 are fixedly connected with U-shaped plates 210, rotating shafts 211 are respectively and rotatably connected between the front and the back of the inner wall of the two U-shaped plates 210, the surfaces of the two rotating shafts 211 are respectively and fixedly connected with a transmission wheel 212, a transmission belt 213 is arranged between the tops of the two transmission wheels 212, one end of one rotating shaft 211 penetrates through the U-shaped plates 210 and extends to the outside of the U-shaped plates 210, the bottom of the back of one U-shaped plate 210 is fixedly connected with an alternating current motor 214 through a second base, an output shaft of the alternating current motor 214 is fixedly connected with one end of one rotating shaft 211, the alternating current motor 214 needs an external power supply, a control switch is arranged on the outside, amino molding compound is gradually conveyed onto the transmission belt 213 through an external feeding structure, then the alternating current motor 214 is started, the alternating current motor 214 drives the rotating shafts 211 to rotate, thereby driving the transmission wheels 212 to rotate, thereby driving the transmission belt 213 to move, thereby conveying the ammonia-based film plastic on the conveyor belt 213.

Crushing unit 3 is including smashing frame 301 and feed inlet 302, smash frame 301 fixed connection in the top of fixed box 1, feed inlet 302 is seted up at the top of fixed box 1 and is located and smashes frame 301 under, the equal fixedly connected with stock guide 303 in top of smashing frame 301 both sides, smash all through third base fixedly connected with servo motor 304 of the both sides of frame 301 back bottom, servo motor 304 needs the external power supply outside to be provided with control switch.

The equal fixedly connected with axis of rotation 305 of output shaft of two servo motor 304, two axis of rotation 305 all run through crushing frame 301 and extend to the inside of smashing frame 301, through starting two servo motor 304, control two servo motor 304 and just rotate backward to make and take two axis of rotation 305 and rotate in opposite directions, thereby drive two crushing wheel 306 and rotate in opposite directions, thereby make two crushing wheel 306 carry out shredding to amino membrane plastics.

Two ends of the two rotating shafts 305 are respectively connected with two sides of the front surface of the inner wall of the crushing frame 301 in a rotating manner, and the surfaces of the two rotating shafts 305 inside the crushing frame 301 are fixedly connected with crushing wheels 306.

Ejection of compact subassembly 4 includes first material receiving box 401 and second material receiving box 402, and first material receiving box 401 sliding connection is between the top of fixed case 1 inner wall both sides, and second material receiving box 402 sliding connection is in the bottom of fixed case 1 inner wall, and fixed case 1 just extends to the outside of fixed case 1 is run through in the front of first material receiving box 401, and the amino membrane plastic that finishes smashing can enter into the first material receiving box 401 in fixed case 1 through feed inlet 302.

First material receiving box 401 bottom is run through there is screening board 403, the equal fixedly connected with bobbing machine 404 in both sides of screening board 403 bottom, the front of second material receiving box 402 runs through fixed case 1 and extends to the outside of fixed case 1, bobbing machine 404 needs external power supply, the outside is provided with control switch, through starting bobbing machine 404, bobbing machine 404 drives the bottom of first material receiving box 401 and shakes, thereby make the amino membrane plastics that accord with the specification after smashing enter into second material receiving box 402 through screening board 403 and collect.

The working principle of the amino molding compound crushing device provided by the utility model is as follows:

the amino molding compound is gradually conveyed to the conveyor belt 213 through an external feeding structure, then the alternating current motor 214 is started, the alternating current motor 214 drives the rotating shaft 211 to rotate, so as to drive the conveyor belt 212 to rotate, so as to drive the conveyor belt 213 to move, so as to convey the amino-based film plastic on the conveyor belt 213, then the dryer 208 is started, the dryer 208 guides dry hot air to the surface of the amino-based film plastic on the conveyor belt 213 through the air outlet pipe 209 to dry the amino-based film plastic, then the asynchronous motor 204 is started to control the asynchronous motor 204 to rotate positively and negatively, so as to drive the screw 205 to rotate positively and negatively, so as to drive the moving block 206 to move forwards and backwards, so as to drive the mounting plate 207 to move forwards and backwards, so that the air outlet pipe 209 moves forwards and backwards, and the conveyor belt 213 conveys the amino-based film plastic into the crushing frame 301, simultaneously through starting two servo motor 304, control two servo motor 304 and carry out the positive and negative rotation, thereby make and take two axis of rotation 305 to rotate in opposite directions, thereby drive two crushing wheels 306 and rotate in opposite directions, thereby make two crushing wheels 306 carry out shredding to amino membrane plastics, the last amino membrane plastics that finish of smashing can enter into the first material receiving box 401 in fixed case 1 through feed inlet 302, the rethread starts bobbing machine 404, bobbing machine 404 drives the bottom of first material receiving box 401 and shakes, thereby make the amino membrane plastics that accord with the specification after smashing enter into the second material receiving box 402 through screening board 403 and collect.

through the positive and negative rotation of asynchronous motor 204 in the control stoving subassembly 2, the cooperation between rethread lead screw 205 and the movable block 206, thereby can effectually enlarge the stoving scope, thereby it is more abundant to make to dry the amino membrane plastics in transportation process again, the effectual subsequent crushing effect that has improved, the quality of amino membrane plastics has been improved, in addition can be fine through ejection of compact subassembly 4 to the amino membrane plastics after smashing carry out screening process, thereby can be fine with the effectual differentiation of carrying on that is not conform to the specification collect.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides an amino molding plastic's reducing mechanism which characterized in that includes: a stationary box (1);

the drying component (2) is fixedly connected to one side of the top of the fixed box (1), the drying component (2) comprises a supporting block (201), the supporting block (201) is fixedly connected to one side of the top of the fixed box (1), the top of the supporting block (201) is fixedly connected with a drying bin (202), the top of the inner wall of the drying bin (202) is fixedly connected with a strip-shaped box (203), the back of the strip-shaped box (203) is fixedly connected with an asynchronous motor (204) through a first base, an output shaft of the asynchronous motor (204) is fixedly connected with a lead screw (205), one end of the lead screw (205) penetrates through the strip-shaped box (203) and extends into the strip-shaped box (203), one end of the lead screw (205) is rotatably connected with the front of the inner wall of the strip-shaped box (203), and a moving block (206) is in threaded connection with the surface of the lead screw (205), the top of the moving block (206) is connected with the top of the inner wall of the bar-shaped box (203) in a sliding mode, the bottom of the moving block (206) penetrates through the bar-shaped box (203) and extends to the outside of the bar-shaped box (203), the bottom of the moving block (206) is fixedly connected with a mounting plate (207), the top of the drying bin (202) is fixedly connected with a dryer (208), an air outlet end of the dryer (208) is communicated with an air outlet pipe (209), and the bottom end of the air outlet pipe (209) penetrates through the drying bin (202) and the mounting plate (207) in sequence and extends to the outside of the mounting plate (207);

the crushing assembly (3), the crushing assembly (3) is fixedly connected to the top of the fixed box (1);

the discharging component (4), the discharging component (4) is connected to the bottom of the inner wall of the fixed box (1) in a sliding mode.

2. The amino molding compound smashing device according to claim 1, wherein U-shaped plates (210) are fixedly connected to two sides of the top of the inner wall of the drying bin (202), rotating shafts (211) are rotatably connected between the front and the back of the inner wall of the two U-shaped plates (210), conveying wheels (212) are fixedly connected to the surfaces of the two rotating shafts (211), a conveying belt (213) is further arranged between the tops of the two conveying wheels (212), one end of each rotating shaft (211) penetrates through the U-shaped plates (210) and extends to the outside of the U-shaped plates (210), an alternating current motor (214) is fixedly connected to the bottom of the back of the U-shaped plates (210) through a second base, and an output shaft of the alternating current motor (214) is fixedly connected with one end of the rotating shaft (211).

3. The amino molding compound crushing device according to claim 1, wherein the crushing assembly (3) comprises a crushing frame (301) and a feeding hole (302), the crushing frame (301) is fixedly connected to the top of the fixed box (1), the feeding hole (302) is arranged at the top of the fixed box (1) and is located right below the crushing frame (301), the top parts of two sides of the crushing frame (301) are fixedly connected with a material guide plate (303), and the two sides of the bottom of the back of the crushing frame (301) are fixedly connected with a servo motor (304) through a third base.

4. The amino molding compound crushing device as claimed in claim 3, wherein the output shafts of the two servo motors (304) are fixedly connected with rotating shafts (305), and the two rotating shafts (305) penetrate through the crushing frame (301) and extend to the inside of the crushing frame (301).

5. The amino molding compound crushing device as claimed in claim 4, wherein two ends of the two rotating shafts (305) are respectively and rotatably connected with two sides of the front surface of the inner wall of the crushing frame (301), and the surfaces of the two rotating shafts (305) inside the crushing frame (301) are both fixedly connected with crushing wheels (306).

6. The amino molding compound smashing device according to claim 1, wherein the discharging component (4) comprises a first material receiving box (401) and a second material receiving box (402), the first material receiving box (401) is slidably connected between the tops of two sides of the inner wall of the fixed box (1), the second material receiving box (402) is slidably connected to the bottom of the inner wall of the fixed box (1), and the front surface of the first material receiving box (401) penetrates through the fixed box (1) and extends to the outside of the fixed box (1).

7. The amino molding compound smashing device according to claim 6, wherein a sieving plate (403) penetrates through the bottom of the first material receiving box (401), vibrating machines (404) are fixedly connected to two sides of the bottom of the sieving plate (403), and the front surface of the second material receiving box (402) penetrates through the fixing box (1) and extends to the outside of the fixing box (1).