CN218553888U - Special kneading machine of experiment of high accuracy - Google Patents

Abstract

The utility model relates to a kneading machine field specifically is a special kneading machine of experiment of high accuracy, including block terminal, kneading mechanism, feed mechanism and moving mechanism, the kneading mechanism that is used for carrying out the high accuracy experiment to different materials is installed to the block terminal upper end, kneading mechanism installs the feed mechanism that is used for carrying out the high-efficient material loading according to different material positions in the upper end, the moving mechanism that is used for the independent removal and slows down jolting is installed to the block terminal lower extreme, the utility model discloses a kneading mechanism carries out the experiment processing to different materials, and the factor data in the various course of working of record of accurate simultaneously increases the effect of experiment, is convenient for carry out the efficient material loading to the raw materials that different directions need add through feed mechanism, is convenient for directly move the kneading machine through moving mechanism and experiments or removes the position material loading that needs, has improved the practicality of kneading machine.

Description

Special kneading machine of experiment of high accuracy

Technical Field

The utility model relates to a kneading machine field specifically is a special kneading machine of experiment of kind of high accuracy.

Background

The vacuum kneader is one of the kneaders, is mainly used in the chemical production fields of silicone rubber, glass cement, butyl rubber, hot melt adhesive and the like, and needs to process the products for experiments before various products are put into mass production formally, so that the kneader special for experimental product processing property needs to be used.

Patent CN202111229929.8 discloses a special vacuum kneading machine of experiment of high accuracy, this kneading machine is through the fan that sets up, the back is opened to the fan, the outside cold air suction air inlet duct of kneading machine is gone into through the heat dissipation chamber to the suction that produces, the air gets into in the heat dissipation chamber through the air inlet duct and rotates the strip and cooperate, thereby make and rotate the strip and drive the air and in heat dissipation intracavity rotation, air after the rotation takes the heat to get into the air flue and blows to the outside through the fan, through the heat dissipation mechanism that sets up, can make the air take the heat of inside out of wherein through the both sides and the bottom of kneading machine body, thereby play rapid cooling's effect.

The above kneader has some disadvantages: the aforesaid kneading machine pan feeding process for experiments will be carried the material of being experimented with the help of other feeder equipment and get into in the kneading machine, has reduced the efficiency of carrying different materials, and foretell kneading machine self can't directly move simultaneously, experiments or move and need operating personnel transport or remove with the help of other haulage equipment before the material bucket of experimenting before moving the experimental facilities that needs, has increased the cost and has consumed time at the in-process of transport.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a special kneading machine of experiment of high accuracy for solve present experiment with kneading machine pan feeding process will be carried the material by the experiment with the help of other feeder equipment and get into in the kneading machine, the efficiency of carrying different materials is reduced, simultaneously foretell kneading machine self can't directly move, experiment or remove to need operating personnel transport or remove with the help of other transportation equipment before the material bucket of being experimented before removing the experimental facilities to needs, the problem that the cost just consumes time at the in-process of transport has been increased.

Therefore, the utility model provides a special kneading machine of experiment of high accuracy, including block terminal, kneading mechanism, feed mechanism and moving mechanism, the kneading mechanism that is used for carrying out the high accuracy experiment to different materials is installed to the block terminal upper end, kneading mechanism installs the feed mechanism that is used for according to the high-efficient material loading of different material positions in the upper end, the moving mechanism that is used for the independent movement and slows down jolting is installed to the block terminal lower extreme.

Preferably: kneading mechanism includes the roof, and is two sets of roof fixed mounting is in block terminal left side upper end, install kneading machine body between the roof, kneading machine body right-hand member fixedly connected with motor, the fixed thermometer that is provided with in kneading machine body front side, kneading machine body right side upper end fixed mounting has the manometer.

Preferably: the feeding mechanism comprises a feeding pipe and a second slot, the feeding pipe is rotatably installed on the upper end side wall of the left side of the kneading machine body, a fixing ring is sleeved on the side wall of the feeding pipe, a first slot is formed inside the fixing ring, a second slot is formed in the upper end wall of the kneading machine body outside the feeding pipe, an insertion rod is embedded in the first slot and the second slot in an inserting mode, a feeding pipe is fixedly installed at the upper end of the feeding pipe, a second motor is fixedly installed at the right end of the feeding pipe, and the left end of the second motor penetrates through a spiral rod fixedly connected with the inside of the feeding pipe.

Preferably: the moving mechanism comprises four groups of hanging plates which are fixedly arranged at four corners of the lower end of the distribution box, an inner groove is formed in the lower end of each hanging plate, a sliding rod is fixedly arranged in the inner groove, a sliding sleeve is sleeved on the side wall of the sliding rod, springs are fixedly connected to the upper side and the lower side of the sliding sleeve, a moving wheel is rotatably arranged on the outer wall of the sliding sleeve, a first spiral groove is formed in the moving wheel, a second spiral groove is formed in the upper end of each hanging plate, and bolts are arranged in the first spiral groove and the second spiral groove in a meshed mode.

Preferably: the first slot is evenly provided with a plurality of groups and is distributed annularly.

Preferably: the sliding sleeve is fixedly connected with one end of the spring, and the other end of the spring is fixedly connected with the inner wall of the inner groove.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a upwards stimulate the inserted bar and make it move from first slot and second slot in upwards breaking away from, manual rotation pan feeding pipe drives the conveying pipe and disclose the direction of the position control conveying pipe of placing according to the raw materials, insert the inserted bar in first slot and the second slot after the regulation, accomplish the fixed to the conveying pipe, control second motor operation drives the hob that runs through conveying pipe internal connection and rotates, it is internal with the kneading machine with the raw materials through the conveying pipe that inserts in the raw materials bucket, control first motor operation drives the inside kneader rod rotation that runs through the kneading machine body, thereby knead the processing to the raw materials, the thermometer shows in real time so that record the test is carried out to the kneading temperature of the material best of experiment to kneading temperature in the kneading machine body in the process of processing, the reading of manometer also is convenient for the record to the kneading process pressure test of experiment material for the inside real-time reading of kneading machine body, make each item of kneading machine in the in-process of function data obtain more accurate record, the in-process of experiment need move the raw materials that need be poked to various needs to be experimental, be poked the experiment next door to the raw materials of the experiment, be convenient for getting into different raw materials and move the quick transfer and the bolt and move the next door and the swing of the spiral shell and has just reduced the swing of the spiral shell and has just moved the swing and has just moved the spiral shell and has just moved the swing and has reduced the swing of the spiral shell and has just moved when the spiral shell and has just moved.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1 according to the present invention;

fig. 3 is a partial front sectional view of the moving mechanism of the present invention.

In the figure:

1. a distribution box; 201. a top plate; 202. a kneader body; 203. a first motor; 204. a thermometer; 205. a pressure gauge; 301. a feeding pipe; 302. a fixing ring; 303. a first slot; 304. a second slot; 305. inserting a rod; 306. a feed pipe; 307. a second motor; 401. a hanging plate; 402. an inner tank; 403. a slide bar; 404. a sliding sleeve; 405. a spring; 406. a moving wheel; 407. a first screw groove; 408. a second screw groove; 409. and (4) bolts.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-3, which are preferred embodiments of the present invention, a kneader specially used for high precision experiments includes a distribution box 1, a kneading mechanism, a feeding mechanism and a moving mechanism, wherein the kneading mechanism for performing high precision experiments on different materials is installed at the upper end of the distribution box 1, the feeding mechanism for efficiently feeding materials according to different material positions is installed at the upper end of the kneading mechanism, and the moving mechanism for moving independently and slowing down jolt is installed at the lower end of the distribution box 1.

The kneading mechanism comprises top plates 201, two groups of the top plates 201 are fixedly arranged at the upper end of the left side of the distribution box 1, a kneading machine body 202 is arranged between the top plates 201, the right end of the kneading machine body 202 is fixedly connected with a first motor 203, the front side of the kneading machine body 202 is fixedly provided with a thermometer 204, and the upper end of the right side of the kneading machine body 201 is fixedly provided with a pressure gauge 205; send the raw materials into kneader body 202 through the conveying pipe 306 that inserts in the raw materials bucket in, control first motor 203 operation drives and runs through the inside kneading rod rotation of kneader body 202, thereby to the raw materials processing of kneading, the thermometer 204 shows in real time so that the best kneading temperature of the material to the experiment carries out the record test in the in-process of handling in kneading machine body 202, simultaneously the reading of manometer 205 is also convenient for the record to the process pressure test of kneading of experimental materials for the inside real-time reading of kneader body 202, make each item data of kneader in the in-process of operation obtain more accurate record.

The feeding mechanism comprises a feeding pipe 301 and a second slot 304, the feeding pipe 301 is rotatably mounted on the side wall of the upper end of the left side of the kneader body 202, a fixing ring 302 is sleeved on the side wall of the feeding pipe 301, a first slot 303 is formed inside the fixing ring 302, the second slot 304 is formed in the upper side wall of the kneader body 202 outside the feeding pipe 301, an insertion rod 305 is inserted and embedded inside the first slot 303 and the second slot 304, a feeding pipe 306 is fixedly mounted at the upper end of the feeding pipe 301, a second motor 307 is fixedly mounted at the right end of the feeding pipe 306, and a screw rod is fixedly connected to the left end of the second motor 307 penetrating through the inside of the feeding pipe 306; the insertion rod 305 is upwards pulled to move upwards and separate from the first slot 303 and the second slot 304, the feeding pipe 301 is manually rotated to drive the feeding pipe 306 to adjust the direction of the feeding pipe 306 according to the position where raw materials are poked, the insertion rod 305 is inserted into the first slot 303 and the second slot 304 after adjustment, the feeding pipe 306 is fixed, and the second motor 307 is controlled to rotate to drive the spiral rod penetrating through the internal connection of the feeding pipe 306 to rotate.

The moving mechanism comprises hanging plates 401, four groups of the hanging plates 401 are fixedly arranged at four corners of the lower end of the distribution box 1, an inner groove 402 is formed in the lower end of each hanging plate 401, a sliding rod 403 is fixedly arranged in each inner groove 402, a sliding sleeve 404 is sleeved on the side wall of each sliding rod 403, springs 405 are fixedly connected to the upper side and the lower side of each sliding sleeve 404, a moving wheel 406 is rotatably arranged on the outer wall of each sliding sleeve 404, a first spiral groove 407 is formed in each moving wheel 406, a second spiral groove 408 is formed in the upper end of each hanging plate 401, and bolts 409 are arranged in each first spiral groove 407 and each second spiral groove 408 in a meshed mode; the bolt 409 is twisted outwards to be engaged and taken out in the first spiral groove 407 and the second spiral groove 408, the kneader body 202 is directly pushed to move under the rotation of the moving wheel 406, and when jolting during the moving process, the sliding sleeve 404 is driven to move up and down to extrude or the tension spring 405 is driven to convert kinetic energy into elastic potential energy, so that the amplitude of the up-and-down swing of the sliding sleeve 404 is reduced, the moving floating degree of the kneader body 202 is also reduced, and the stability of the kneader is improved.

A plurality of groups of first slots 303 are uniformly arranged and distributed in a ring shape; the feeding operation of the raw material barrel placed in multiple directions is facilitated.

The sliding sleeve 404 is fixedly connected with one end of a spring 405, and the other end of the spring 405 is fixedly connected with the inner wall of the inner groove 402, so that the bumping kinetic energy is effectively converted into elastic potential energy to reduce bumping.

The utility model discloses a work flow and principle: the inserted rod 305 is pulled upwards to move upwards and separate from the first slot 303 and the second slot 304, the feeding pipe 301 is rotated manually to drive the feeding pipe 306 to adjust the direction of the feeding pipe 306 according to the position where the raw material is placed, the inserted rod 305 is inserted into the first slot 303 and the second slot 304 after adjustment to fix the feeding pipe 306, the second motor 307 is controlled to operate to drive the spiral rod penetrating through the internal connection of the feeding pipe 306 to rotate, the raw material is fed into the kneader body 202 through the feeding pipe 306 inserted into the raw material barrel, the first motor 203 is controlled to operate to drive the kneading rod penetrating through the internal part of the kneader body 202 to rotate, so that the raw material is kneaded, the thermometer 204 displays the temperature in the kneader body 202 in real time in the process of the kneading process so as to record and test the optimal kneading temperature of the experimental material, meanwhile, the reading of the pressure gauge 205 is the real-time reading inside the kneader body 202, which is convenient for recording the kneading process pressure test of the experimental materials, so that each item of data of the kneader in the operation process is more accurately recorded, the kneader body 202 needs to be moved to the side of various raw materials to be tested in the experiment process, so that different raw materials can be rapidly conveyed into the kneader for testing, at the moment, the bolt 409 is outwards twisted to be engaged and taken out in the first spiral groove 407 and the second spiral groove 408, the kneader body 202 is directly pushed to move under the rotation of the moving wheel 406, when the kneader body moves in a bumping process, the sliding sleeve 404 is driven to move up and down to extrude or the tension spring 405 converts kinetic energy into elastic potential energy, thereby reducing the amplitude of the up-and-down swinging of the sliding sleeve 404, and reducing the floating degree of the movement of the kneader body 202.

The above description is provided for further details of the present invention, and it should not be assumed that the present invention is limited to these descriptions, and it will be appreciated by those skilled in the art that various modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. A special kneading machine of experiment of high accuracy which characterized in that: the high-precision feeding device comprises a distribution box (1), a kneading mechanism, a feeding mechanism and a moving mechanism, wherein the kneading mechanism used for carrying out high-precision experiments on different materials is installed at the upper end of the distribution box (1), the feeding mechanism used for efficiently feeding materials according to different material positions is installed at the upper end of the kneading mechanism, and the moving mechanism used for independently moving and slowing down jolt is installed at the lower end of the distribution box (1).

2. The kneader special for high-precision experiments and according to claim 1, wherein: kneading the mechanism and including roof (201), two sets of roof (201) fixed mounting is in block terminal (1) left side upper end, install kneading machine body (202) between roof (201), kneading machine body (202) right-hand member fixedly connected with first motor (203), kneading machine body (202) front side is fixed and is provided with thermometer (204), kneading machine body (202) right side upper end fixed mounting has manometer (205).

3. The kneader special for high-precision experiments and according to claim 1, wherein: feed mechanism includes pan feeding pipe (301) and second slot (304), pan feeding pipe (301) are rotated and are installed at kneading machine body (202) left side upper end lateral wall, pan feeding pipe (301) lateral wall cover is equipped with solid fixed ring (302), gu fixed ring (302) inside first slot (303) have been seted up, lateral wall on pan feeding pipe (301) outside kneading machine body (202) is seted up in second slot (304), first slot (303) and second slot (304) inside are inserted and are inlayed inserted pole (305), pan feeding pipe (301) upper end fixed mounting has conveying pipe (306), conveying pipe (306) right-hand member fixed mounting has second motor (307) and second motor (307) left end to run through conveying pipe (306) inside fixedly connected with hob.

4. The kneader special for high-precision experiments and according to claim 1, wherein: the moving mechanism comprises a vertical plate (401), four groups of vertical plates (401) are fixedly mounted at four corners of the lower end of a distribution box (1), an inner groove (402) is formed in the lower end of the vertical plate (401), a sliding rod (403) is fixedly mounted in the inner groove (402), a sliding sleeve (404) is sleeved on the side wall of the sliding rod (403), springs (405) are fixedly connected to the upper side and the lower side of the sliding sleeve (404), a moving wheel (406) is mounted on the outer wall of the sliding sleeve (404) in a rotating mode, a first spiral groove (407) is formed in the moving wheel (406), a second spiral groove (408) is formed in the upper end of the vertical plate (401), and bolts (409) are mounted in the first spiral groove (407) and the second spiral groove (408) in an internal meshing mode.

5. The kneader special for high-precision experiments and according to claim 3, wherein: the first slots (303) are uniformly provided with a plurality of groups and are distributed annularly.

6. The high-precision kneader special for experiments according to claim 4, characterized in that: the sliding sleeve (404) is fixedly connected with one end of a spring (405), and the other end of the spring (405) is fixedly connected with the inner wall of the inner groove (402).

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