CN112354423A

CN112354423A - Mixer with automatic scraping mechanism

Info

Publication number: CN112354423A
Application number: CN202011009130.3A
Authority: CN
Inventors: 叶宏武
Original assignee: Ningbo Qianhong Automation Technology Co Ltd
Current assignee: Ningbo Qianhong Automation Technology Co Ltd
Priority date: 2020-09-23
Filing date: 2020-09-23
Publication date: 2021-02-12

Abstract

The invention relates to the field of stirring equipment, and discloses a stirring machine with an automatic scraping mechanism, which comprises a shell, a stirring shaft vertically arranged in the shell, and a motor arranged on the shell and used for driving the stirring shaft to rotate, and is characterized in that: go up and down to be provided with one on the casing inner wall and scrape material mechanism, scrape material mechanism and include that vertical direction sets up the annular frame on the casing inner wall and slope set up on the annular frame with the laminating of casing inner wall and scrape the doctor-bar that the material on the casing inner wall was scraped at scraping material mechanism lift in-process, be provided with between scraping material mechanism and (mixing) shaft and order about scraping material mechanism along with the rotation of (mixing) shaft and carry out reciprocating up-and-down motion's link gear, this mixer only needs a motor just can order about the (mixing) shaft simultaneously and rotate and drive the reciprocal lift of scraping material mechanism and scrape the material, avoid the casing inner wall to adsorb a large amount of materials, reduce material loss rate.

Description

Mixer with automatic scraping mechanism

Technical Field

The invention relates to the field of stirring equipment, in particular to a stirring machine with an automatic scraping mechanism.

Background

Stirring is an important link in industrial production and has very important significance in the fields of chemical industry, materials and the like.

In the field of injection molding.

Most of the existing stirring devices are material stirring devices disclosed in the publication No. CN207153543U, which generally comprise a stirring rod and a motor, wherein the motor drives the stirring rod to rotate, and stirring teeth are arranged on the stirring rod and distributed on two sides of the stirring rod. When the stirring device is used for stirring powdery materials or materials with humidity, the materials can be continuously contacted with the inner wall of the shell under the action of the centrifugal force of the stirring rod and are easily adhered to the inner wall of the shell, and on one hand, the materials adhered to the outer wall of the shell are continuously thickened, so that the total amount of the materials discharged after stirring is reduced; on the other hand, once different materials need to be stirred, the material residue adsorbed on the inner wall of the shell tends to pollute subsequent materials.

Disclosure of Invention

Aiming at the defects that the total amount of materials is reduced and other subsequent materials are polluted because the materials are adsorbed on the inner wall of the shell in the stirring mechanism in the prior art, the invention provides the stirrer with the automatic scraping mechanism, which can automatically scrape the materials on the inner wall of the shell in the stirring process.

In order to solve the technical problem, the invention is solved by the following technical scheme:

a stirring machine with an automatic material scraping mechanism comprises a shell, a stirring shaft vertically arranged in the shell and a motor arranged on the shell and used for driving the stirring shaft to rotate, wherein a material scraping mechanism is arranged on the inner wall of the shell in a lifting way and comprises an annular support vertically guided on the inner wall of the shell and a scraping blade obliquely arranged on the annular support and attached to the inner wall of the shell and used for scraping materials on the inner wall of the shell in the lifting process of the material scraping mechanism, a linkage mechanism which drives the material scraping mechanism to do reciprocating lifting motion along with the rotation of the stirring shaft is arranged between the material scraping mechanism and the stirring shaft, the linkage mechanism comprises a first winding disc and a second winding disc which are respectively and fixedly arranged at the upper end and the lower end of the stirring shaft, a first pull rope fixed between the first winding disc and the upper end of the annular support and a second pull rope fixed between the second winding disc and the, the winding direction of the first wire winding disc and the first pull rope is opposite to the winding direction of the second wire winding disc and the second pull rope, when the motor rotates forwards, the first wire winding disc winds the first pull rope and the second wire winding disc releases the second pull rope, and the scraping mechanism is in a rising scraping state; when the motor rotates reversely, the first wire winding disc releases the first pull rope and the second wire winding disc winds the second pull rope, and the scraping mechanism is in a descending and scraping state.

By adopting the scheme, the scraping mechanism is additionally arranged in the existing stirrer and is linked with the stirring shaft through the linkage mechanism, and the linkage mechanism adopts the first winding disc to wind the first pull rope and the second winding disc to release the second pull rope to realize the lifting of the scraping mechanism; and through the rolling of second take-up reel to the second stay cord and the decline that first reel was realized scraping the material mechanism to giving out of first stay cord, only need the motor carry on reciprocal just reversal can, just can realize through PLC control three-phase asynchronous machine among the prior art, the structure is very ingenious and can effectively practice thrift the energy consumption, this mixer only needs a motor just can order about the (mixing) shaft simultaneously and rotate and drive the reciprocal lift scraping material of scraping the material mechanism, avoid shells inner wall to adsorb a large amount of materials, reduce material loss rate and the influence degree to follow-up material.

Preferably, the annular support comprises a plurality of linking blocks, and the linking blocks comprise fixing blocks, matching grooves with one ends recessed, inserting blocks with one ends far away from the matching grooves and tensioning springs arranged between the inserting blocks and the bottoms of the matching grooves.

By adopting the scheme, the annular support can be suitable for shells with different sizes after being formed by mutually and elastically inserting the plurality of connecting blocks, and the applicability of the scraping mechanism is improved.

Preferably, the scraping blade comprises a fixed scraping blade and a follow-up scraping blade, the fixed scraping blade is arranged in a V shape from one side, far away from the inner wall of the shell, of the fixed block to one side, close to the shell, of the fixed blade and is attached to the inner wall of the shell, the follow-up scraping blade covers the outside of the fixed scraping blade, one end of the follow-up scraping blade is fixed on the fixed block on one side, and the other end of the follow-up scraping blade.

Adopt above-mentioned scheme, the effect of follow-up doctor-bar is that guarantee that the doctor-bar all covers in the circumference of casing, ensures to scrape the material on the shells inner wall to the utmost at the material scraping mechanism lift in-process, and the doctor-bar is behind "V" type setting, can both scrape the material scraping mechanism lift in-process, increases and scrapes material efficiency.

Preferably, a guide mechanism is arranged between the inner wall of the shell and the annular support, the guide mechanism comprises a guide groove vertically recessed in the inner wall of the shell and a sliding block convexly arranged on the annular support and matched with the guide groove, and the first pull rope and the second pull rope are respectively arranged on the upper end face and the lower end face of the sliding block.

By adopting the scheme, the lifting of the annular support is driven to be more stable by the arrangement of the guide mechanism, and the material scraping stability of the material scraping mechanism is improved.

Preferably, a traction mechanism is provided in the guide groove, and the traction mechanism includes a first fixed pulley through which the first rope passes and a second fixed pulley through which the second rope passes, provided at upper and lower ends of the guide groove, respectively.

By adopting the scheme, the traction mechanism can avoid the influence of the first pull rope and the second pull rope on the stirring mechanism and avoid winding on the stirring blade.

Preferably, a protection mechanism for placing the jamming of the linkage mechanism is arranged in the shell, the protection mechanism comprises a partition plate arranged below the shell and elastic sealing strips which are symmetrically arranged on two sides of the opening of the guide groove and are mutually attached, and the second winding roll is positioned below the partition plate.

By adopting the scheme, the protective mechanism is arranged to prevent the material from being infected with the linkage mechanism, so that the normal operation of the linkage mechanism is ensured.

Preferably, the upper end surface of the partition board is an inclined surface inclined downwards to one side, a discharge opening is formed in the side wall of the shell below the inclined surface, and a plug capable of opening or closing the discharge opening is arranged on the discharge opening.

By adopting the scheme, the upper end surface of the partition plate is arranged into the inclined surface, so that the material can be conveniently discharged.

Due to the adoption of the technical scheme, the invention has the following remarkable technical effects: a scraping mechanism is additionally arranged in the existing stirrer and is linked with a stirring shaft through a linkage mechanism, and the linkage mechanism adopts a first winding roll to wind a first pull rope and a second winding roll to release a second pull rope to realize the ascending of the scraping mechanism; the material scraping mechanism is lowered by winding the second pull rope through the second winding roll and releasing the first pull rope through the first winding roll, only the motor needs to rotate forwards and backwards in a reciprocating mode, the material scraping mechanism can be achieved by controlling the three-phase asynchronous motor through the PLC in the prior art, the structure is ingenious, and energy consumption can be effectively saved; the annular support is formed by mutually and elastically inserting a plurality of connecting blocks, so that the annular support can be suitable for shells with different sizes, and the applicability of the scraping mechanism is improved; the follow-up scraping blade has the effects that the scraping blade is completely covered on the circumferential direction of the shell, materials on the inner wall of the shell can be scraped to the maximum extent in the lifting process of the scraping mechanism, and the materials can be scraped in the lifting process of the scraping mechanism after the scraping blade is arranged in a V shape, so that the scraping efficiency is improved; the traction mechanism can avoid the influence of the first pull rope and the second pull rope on the stirring mechanism and avoid the first pull rope and the second pull rope from being wound on the stirring blade; protection machanism's setting is avoided the material to be infected with on the link gear, ensures link gear's normal function, and this mixer only needs a motor just can order about the (mixing) shaft simultaneously and rotate and drive the reciprocal lift of scraping the material mechanism and scrape the material, avoids shells inner wall to adsorb a large amount of materials, reduces material loss rate and to the influence degree to follow-up material.

Drawings

FIG. 1 is a top view of a blender with an automatic scraping mechanism according to the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is an enlarged view of A in FIG. 2;

FIG. 4 is an enlarged view of B in FIG. 2;

FIG. 5 is a cross-sectional view B-B of FIG. 1;

FIG. 6 is an enlarged view of C in FIG. 5;

fig. 7 is a cross-sectional view C-C of fig. 2.

The names of the parts indicated by the numerical references in the above figures are as follows: 1. a housing; 2. a motor; 3. a PLC; 4. a feeding port; 5. a discharge opening; 6. plugging; 7. a stirring shaft; 8. a guide groove; 9. an elastic seal; 10. stirring blades; 11. a first reel; 12. a first pull cord; 13. a second take-up reel; 14. a second pull cord; 15. a first fixed pulley; 16. a ring-shaped scaffold; 161. a fixed block; 162. a slider; 163. inserting a block; 164. a mating groove; 165. tensioning the spring; 17. fixing the scraping blade; 18. a second fixed pulley; 19. a partition plate; 20. follow-up scraping blades.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Examples

A stirrer with an automatic scraping mechanism is disclosed, and shown in fig. 1-7, and comprises a shell 1, a stirring mechanism vertically arranged in the shell 1, and a motor 2 arranged at the upper end of the shell 1 and used for driving a stirring shaft 7 to rotate, wherein a feeding opening 4 is arranged at the upper end of the shell 1, a discharging opening 5 is arranged at the lower end of the side wall of the shell 1, and a plug 6 capable of opening or closing the discharging opening 5 is arranged on the discharging opening 5. The stirring mechanism comprises a stirring shaft 7 and a stirring blade 10 arranged in the middle of the stirring shaft 7, wherein the stirring blade 10 is obliquely fixed on the stirring shaft 7 and is hollow with two open ends.

A material scraping mechanism is arranged on the inner wall of the shell 1 in a lifting manner, and particularly, as shown in fig. 2, the material scraping mechanism comprises an annular support 16 which is vertically guided and arranged on the inner wall of the shell 1 and a scraping blade which is obliquely arranged on the annular support 16 and is attached to the inner wall of the shell 1 and scrapes materials on the inner wall of the shell 1 in the lifting process of the material scraping mechanism.

A guide mechanism is arranged between the inner wall of the casing 1 and the annular support 16, and as shown in fig. 2 and 7, the guide mechanism includes a guide groove 8 vertically recessed on the inner wall of the casing 1 and a slider 162 protruding from the annular support 16 and engaged with the guide groove 8.

The annular support 16 is formed by mutually elastically inserting a plurality of connecting blocks, each connecting block comprises a fixing block 161, a matching groove 164 with one end of the fixing block 161 recessed, an inserting block 163 with one end of the fixing block 161 far away from the matching groove 164 and matching grooves 164 of the adjacent fixing block 161 penetrating and matching, and a tensioning spring 165 arranged between the bottom of the inserting block 163 and the bottom of the matching groove 164. The annular support 16 has the advantage that the annular support can be applied to shells 1 of different sizes after being formed by mutually elastically inserting and connecting a plurality of connecting blocks, and the applicability of the scraping mechanism is improved.

The wiper blade is shown in fig. 3 and fig. 6, and includes a fixed wiper blade 17 and a follow-up wiper blade 20, the fixed wiper blade 17 is arranged in a V shape from one side of the fixed block 161 far away from the inner wall of the casing 1 to one side close to the casing 1, and is attached to the inner wall of the casing 1, the follow-up wiper blade 20 covers the outside of the fixed wiper blade 17, one end of the follow-up wiper blade is fixed on the fixed block 161 at one side, and the other end of the follow-up wiper blade horizontally slides. Specifically, a through groove is horizontally arranged on the follow-up scraping blade 20, one end of the follow-up scraping blade 20 is fixed on the fixing block 161 on one side through a screw, a matching block matched with the through groove is arranged on the fixing block 161 adjacent to the follow-up scraping blade, the matching block moves relatively on the through groove along with the matching of the inserting block 163 and the matching groove 164, the follow-up scraping blade 20 has the function of ensuring that the scraping blade completely covers the circumferential direction of the shell 1 and ensuring that materials on the inner wall of the shell 1 can be scraped to the maximum extent, and after the scraping blade is arranged in a V shape, the materials can be scraped in the lifting process of the scraping mechanism, so that the scraping efficiency is improved.

A linkage mechanism which drives the scraping mechanism to perform reciprocating lifting movement along with the rotation of the stirring shaft is arranged between the scraping mechanism and the stirring shaft 7, and specifically, as shown in fig. 2-5, the linkage mechanism comprises a first winding disc 11 and a second winding disc 13 which are fixedly arranged at the upper end and the lower end of the stirring shaft 7 respectively, a first pull rope 12 of which two ends are connected with the upper ends of the first winding disc 11 and the annular bracket 16 respectively, and a second pull rope 14 of which two ends are connected with the lower ends of the second winding disc 13 and the annular bracket 16 respectively, the winding directions of the first winding disc 11 and the first pull rope 12 are opposite to the winding directions of the second winding disc 13 and the second pull rope 14, when the motor 2 rotates forwards, the first winding disc 11 winds the first pull rope 12 and the second winding disc 13 discharges the second pull rope 14, and the scraping mechanism is in a lifting scraping state; when the motor 2 rotates reversely, the first reel 11 pays out the first rope 12 and the second reel 13 winds up the second rope 14, and the scraping mechanism is in a descending and scraping state. The PLC3 is arranged at the upper end of the shell 1, the motor 2 in the scheme is a three-phase asynchronous motor 2, after the motor 2 is connected with the PLC3, the revolution required by the rolling of the first pull rope 12 and the second pull rope 14 is calculated through the program control of the PLC3, and the material scraping mechanism is ensured to be in a reciprocating lifting state while the forward and reverse rotation of the motor 2 is realized through software programming.

A protection mechanism for placing jamming of the linkage mechanism is arranged in the shell 1, and as shown in fig. 2-5, the protection mechanism comprises a partition plate 19 arranged below the shell 1 and elastic sealing strips 9 which are symmetrically arranged at two sides of an opening of the guide groove 8 and are mutually attached, and the second winding roll 13 is positioned below the partition plate 19, so that the elastic sealing strips 9 positioned at the upper end and the lower end of the sliding block 162 can always seal the guide groove 8, and materials are prevented from entering the guide groove 8; the partition 19 can accommodate the second winding roll 13 to prevent the material from being adsorbed on the second winding roll 13 in a large amount. Preferably, the upper end surface of the partition 19 is formed as a slope inclined downward, and the discharge opening 5 is formed in the side wall of the housing 1 below the slope to facilitate the discharge of the material.

According to the scheme, a scraping mechanism is additionally arranged in the existing stirrer and is linked with a stirring shaft 7 through a linkage mechanism, and the linkage mechanism adopts the winding of a first wire winding disc 11 on a first pull rope 12 and the release of a second wire winding disc 13 on a second pull rope 14 to realize the rising of the scraping mechanism; and through the second take-up reel 13 to the rolling of second stay cord 14 and first reel dish 11 to the decline of scraping the material mechanism of realization of emitting of first stay cord 12, only need motor 2 carry on reciprocal just reversing can, PLC3 control three-phase asynchronous machine 2 just can realize among the prior art, the structure is very ingenious and can effectively practice thrift the energy consumption, this mixer only needs motor 2 just can order about simultaneously (mixing) shaft 7 and rotate and drive the reciprocal lift scraping material of scraping the material mechanism, avoid the absorption of a large amount of materials of casing 1 inner wall, reduce material loss rate and the influence degree to follow-up material.

The PLC3 controls the forward and reverse of the three-phase asynchronous motor 2 to the prior art, and the details are not repeated.

Claims

1. The utility model provides a take automatic mixer of scraping material mechanism, includes casing (1), vertical setting (mixing) shaft (7) in casing (1) and sets up and be used for ordering about (mixing) shaft (7) pivoted motor (2) on casing (1), its characterized in that: a material scraping mechanism is arranged on the inner wall of the shell (1) in a lifting way, the material scraping mechanism comprises an annular support (16) which is vertically arranged on the inner wall of the shell (1) in a guiding way and a scraping blade which is obliquely arranged on the annular support (16) and is attached to the inner wall of the shell (1) in the lifting process of the material scraping mechanism to scrape the material on the inner wall of the shell (1), a linkage mechanism which drives the material scraping mechanism to do reciprocating lifting motion along with the rotation of a stirring shaft is arranged between the material scraping mechanism and the stirring shaft (7), the linkage mechanism comprises a first winding disc (11) and a second winding disc (13) which are respectively and fixedly arranged at the upper end and the lower end of the stirring shaft (7), a first pull rope (12) which is fixed between the first winding disc (11) and the upper end of the annular support (16) and a second pull rope (14) which is fixed between the second winding disc, the winding direction of the first winding disc (11) and the first pull rope (12) is opposite to the winding direction of the second winding disc (13) and the second pull rope (14), when the motor (2) rotates forwards, the first winding disc (11) winds the first pull rope (12) and the second winding disc (13) pays out the second pull rope (14), and the scraping mechanism is in a state of ascending and scraping; when the motor (2) rotates reversely, the first winding roll (11) releases the first pull rope (12) and the second winding roll (13) winds the second pull rope (14), and the scraping mechanism is in a descending and scraping state.

2. The stirring machine with the automatic scraping mechanism as claimed in claim 1, wherein: the annular support (16) is formed by a plurality of connection blocks which are elastically inserted and connected with each other, each connection block comprises a fixed block (161), a matching groove (164) with one end of the fixed block (161) sunken, an insertion block (163) which is inserted and matched with one matching groove (164) of the adjacent fixed block (161) and is far away from one end of the matching groove (164) of the fixed block (161), and a tensioning spring (165) which is arranged between the bottom of the insertion block (163) and the bottom of the matching groove (164).

3. The stirring machine with the automatic scraping mechanism as claimed in claim 2, wherein: the scraper comprises a fixed scraper (17) and a follow-up scraper (20), wherein the fixed scraper (17) is arranged in a V shape from one side of the fixed block (161) far away from the inner wall of the shell (1) to one side close to the shell (1) and is attached to the inner wall of the shell (1), the follow-up scraper (20) covers the outside of the fixed scraper (17) and one end of the follow-up scraper is fixed on the fixed block (161) at one side, and the other end of the follow-up scraper is horizontally arranged with the adjacent fixed block (161) in a sliding manner.

4. The stirring machine with the automatic scraping mechanism as claimed in claim 1, wherein: a guide mechanism is arranged between the inner wall of the shell (1) and the annular support (16), the guide mechanism comprises a guide groove (8) which is vertically sunken in the inner wall of the shell (1) and a sliding block (162) which is arranged on the annular support (16) in a protruding mode and matched with the guide groove (8), and the first pull rope (12) and the second pull rope (14) are arranged on the upper end face and the lower end face of the sliding block (162) respectively.

5. A mixer with automatic scraper mechanism according to claim 4, characterized in that: a traction mechanism is arranged in the guide groove (8), and the traction mechanism comprises a first fixed pulley (15) which is arranged at the upper end and the lower end of the guide groove (8) and is used for a first pull rope (12) to pass through and a second fixed pulley (18) which is arranged at the lower end of the guide groove (8) and is used for a second pull rope (14) to pass through.

6. A mixer with automatic scraper mechanism according to claim 5, characterized in that: be provided with the protection machanism who places the jamming of link gear in casing (1), protection machanism includes baffle (19) that set up in casing (1) below and in elastic seal (9) that are the form of laminating each other that guide way (8) open-ended bilateral symmetry set up, second take-up reel (13) are located baffle (19) below.

7. The stirring machine with the automatic scraping mechanism as claimed in claim 6, wherein: the upper end surface of the clapboard (19) is an inclined plane which inclines downwards to one side, a discharge opening (5) is arranged on the side wall of the shell (1) below the inclined plane, and a plug (6) which can open or close the discharge opening (5) is arranged on the discharge opening (5).