阅读说明：本技术 一种腻子粉及其加工系统与加工方法 (Putty powder and processing system and processing method thereof ) 是由 李龙啸 于 2020-05-28 设计创作，主要内容包括：本发明涉及腻子粉加工,更具体的说是一种腻子粉及其加工系统与加工方法,包括装置支架、搅拌支架、搅拌机构Ⅰ、出料机构、搅拌机构Ⅱ、传动机构、供料机构、收纳机构和传感器,搅拌机构Ⅱ先驱动传动机构转动半圈,不同的原料分别掉落在对应的不同深度的供料槽内；出料机构向下进行运动使得搅拌支架内的腻子粉落出；出料机构将搅拌支架的底部进行闭合,搅拌机构Ⅱ在推动传动机构转动半圈,供料槽内的不同种类和不同重量的腻子粉原料掉落在搅拌支架内；搅拌机构Ⅱ往复运动可以连续高效的加工腻子粉；一种腻子粉,按重量百分比由18％～20％生石灰粉、5％甲醛吸收剂、6％～7％棉花纤维粉、纳米二氧化钛4％～6％、49％～51％方解石粉余量抗裂固化胶粉组成。(The invention relates to putty powder processing, in particular to putty powder and a processing system and a processing method thereof, which comprise a device bracket, a stirring mechanism I, a discharging mechanism, a stirring mechanism II, a transmission mechanism, a feeding mechanism, a receiving mechanism and a sensor, wherein the stirring mechanism II drives the transmission mechanism to rotate for a half circle, and different raw materials respectively fall into feeding tanks with different corresponding depths; the discharging mechanism moves downwards to enable putty powder in the stirring support to fall out; the discharging mechanism closes the bottom of the stirring support, the stirring mechanism II pushes the transmission mechanism to rotate for a half circle, and putty powder raw materials of different types and different weights in the feeding tank fall into the stirring support; the stirring mechanism II reciprocates to continuously and efficiently process putty powder; the putty powder consists of quicklime powder 18-20 wt%, formaldehyde absorbent 5 wt%, cotton fiber powder 6-7 wt%, nanometer titania 4-6 wt%, calcite powder 49-51 wt% and other anti-cracking cured rubber powder.)

1. The utility model provides a putty powder system of processing, includes device support (1), stirring support (2), rabbling mechanism I (3), discharge mechanism (4), rabbling mechanism II (5), drive mechanism (6), feed mechanism (7), receiving mechanism (8) and sensor (9), its characterized in that: the device is characterized in that a stirring support (2) is fixedly connected onto a device support (1), a stirring mechanism I (3) is fixedly connected onto the stirring support (2), a discharging mechanism (4) is connected to the lower end of the stirring support (2) in a sliding manner, the discharging mechanism (4) is fixedly connected onto the device support (1), a stirring mechanism II (5) is connected onto the device support (1), the stirring mechanism II (5) can be inserted into the stirring support (2), a transmission mechanism (6) is rotatably connected onto the device support (1), the stirring mechanism II (5) can be in transmission connection with the transmission mechanism (6), a plurality of feeding mechanisms (7) are arranged, the plurality of feeding mechanisms (7) are fixedly connected onto the device support (1), the plurality of feeding mechanisms (7) are communicated with the stirring support (2), the plurality of stirring supports (2) are in transmission connection, the transmission mechanism (6) is in transmission connection with one of the feeding mechanisms (7), fixedly connected with sensor (9) on device support (1), sensor (9) are connected with discharge mechanism (4), and rabbling mechanism II (5) can extrude sensor (9), and receiving mechanism (8) fixed connection is between rabbling support (2) and rabbling mechanism II (5).

2. The putty powder processing system of claim 1, characterized in that: device support (1) is including collateral branch frame I (101), collateral branch frame II (102), connecting plate (103), slip track (104), rotate support (105) and feeding support (106), fixedly connected with connecting plate (103) between the lower extreme of collateral branch frame I (101) and collateral branch frame II (102), fixedly connected with slip track (104) between the both sides of collateral branch frame I (101) and collateral branch frame II (102), fixedly connected with rotates support (105) between the upper end of collateral branch frame I (101) and collateral branch frame II (102), a plurality of feeding supports (106) of fixedly connected with between the rear side of collateral branch frame I (101) and collateral branch frame II (102) upper end, drive mechanism (6) rotate to be connected on rotating support (105), sensor (9) fixed connection is on connecting plate (103), sensor (9) are located the front side of drive mechanism (6).

3. The putty powder processing system of claim 2, wherein: stirring support (2) are including churn (201), rectangle cavity I (202) and rectangle cavity II (203), the lower extreme fixedly connected with rectangle cavity I (202) of churn (201), the lower extreme fixedly connected with rectangle cavity II (203) of rectangle cavity I (202), churn (201) fixed connection is on collateral branch frame II (102), the width of rectangle cavity II (203) is greater than the width of rectangle cavity I (202).

4. The putty powder processing system of claim 3, characterized in that: rabbling mechanism I (3) include agitator motor I (301), agitator disk (302) and puddler (303), agitator motor I (301) fixed connection is in the rear end of churn (201), fixedly connected with agitator disk (302) on the output shaft of churn (201), a plurality of puddlers of fixedly connected with (303) on agitator disk (302).

5. The putty powder processing system of claim 4, characterized in that: discharge mechanism (4) are including telescopic machanism I (401) and discharge baffle (402), and telescopic machanism I (401) fixed connection is on connecting plate (103), and telescopic machanism I (401) is served fixedly connected with discharge baffle (402), and the upper end slope of discharge baffle (402) sets up, and discharge baffle (402) sliding connection is in rectangle cavity I (202).

6. The putty powder processing system of claim 5, characterized in that: the stirring mechanism II (5) comprises a telescopic mechanism II (501), a sliding support (502), a stirring motor II (503), a rack (504), a boat-shaped push plate (505), a covering disc (506), a gear ring (507), a rotating rod (508) and a spiral stirring shaft (509), the telescopic mechanism II (501) is fixedly connected to the side support I (101), the telescopic end of the telescopic mechanism II (501) is fixedly connected with the sliding support (502), the sliding support (502) is fixedly connected with the stirring motor II (503), the upper end and the lower end of the stirring motor II (503) are respectively fixedly connected with the rack (504) and the boat-shaped push plate (505), the sliding support (502) is fixedly connected with the covering disc (506), the covering disc (506) is fixedly connected with the gear ring (507), the output shaft of the stirring motor II (503) is fixedly connected with the rotating rod (508), the rotating rod (508) is rotatably connected with the two spiral stirring shaft (509), two spiral stirring shafts (509) are in meshing transmission with a gear ring (507), a sliding support (502) is in sliding connection between two sliding rails (104), a covering disc (506) can be covered on the stirring drum (201), a rack (504) can be in meshing transmission with a transmission mechanism (6), the rack (504) pushes the transmission mechanism (6) to rotate for a half circle at each time, a ship-shaped push plate (505) can extrude a sensor (9), and the sensor (9) is in electric control connection with a telescopic mechanism I (401).

7. The putty powder processing system of claim 6, characterized in that: the feeding mechanism (7) comprises a feeding box (701), arc baffles (702), feeding rotary drums (703), a feeding groove (704), a telescopic mechanism III (705), a feeding bottom plate (706) and a feeding pipeline (707), wherein the feeding box (701) is internally and fixedly connected with the two arc baffles (702), the feeding rotary drum (703) is rotatably connected between the two arc baffles (702), the feeding groove (704) is arranged on the feeding rotary drum (703), the telescopic mechanism III (705) is fixedly connected in the feeding groove (704), the telescopic end of the telescopic mechanism III (705) is fixedly connected with the feeding bottom plate (706), the feeding bottom plate (706) is slidably connected in the feeding groove (704), the feeding pipeline (707) is fixedly connected on the feeding box (701), the feeding mechanism (7) is provided with a plurality of feeding rotary drums (703) which are in transmission connection, the transmission ratio among the feeding rotary drums (703) is one, one of the feeding rotating cylinders (703) is in transmission connection with the transmission mechanism (6), the transmission ratio between the feeding rotating cylinder (703) and the transmission mechanism (6) is one, the feeding boxes (701) are respectively and fixedly connected onto the feeding supports (106), and the feeding pipelines (707) are communicated with the stirring cylinder (201).

8. The putty powder processing system of claim 7, wherein: the containing mechanism (8) comprises a containing box (801) and a sliding box (802), the containing box (801) is fixedly connected to the rectangular cavity II (203), the sliding box (802) is connected to the containing box (801) in a sliding mode, and the sliding box (802) is fixedly connected to the sliding support (502).

9. The method for processing putty powder by using the putty powder processing system as claimed in claim 8, which is characterized in that: the method comprises the following steps:

the method comprises the following steps: different putty powder raw materials are respectively placed in different feeding mechanisms (7);

step two: the stirring mechanism II (5) is pulled out from the stirring support (2), the stirring mechanism II (5) drives the transmission mechanism (6) to rotate for a half circle, the transmission mechanism (6) drives the plurality of feeding rotary drums (703) to rotate for a half circle, the plurality of feeding grooves (704) move to the upper side, and different raw materials respectively fall into the feeding grooves (704) with different depths;

step three: the stirring mechanism II (5) extrudes the sensor (9), the sensor (9) drives the discharging mechanism (4) to move, and the discharging mechanism (4) moves downwards to enable putty powder in the stirring support (2) to fall out;

step four: the stirring mechanism II (5) moves towards the stirring support (2), the sensor (9) is extruded by the discharging mechanism (4) to move upwards again, the discharging mechanism (4) closes the bottom of the stirring support (2), the stirring mechanism II (5) pushes the transmission mechanism (6) to rotate for a half circle, the transmission mechanism (6) drives the plurality of feeding rotary drums (703) to rotate for a half circle, the plurality of feeding grooves (704) move to the lower side, and putty powder raw materials of different types and different weights in the feeding grooves (704) fall into the stirring support (2);

step five: and starting the stirring mechanism I (3) and the stirring mechanism II (5) to stir the putty powder raw materials in the stirring support (2).

10. The putty powder processed by the putty powder processing system of claim 8, wherein: the anti-cracking and curing adhesive powder comprises, by weight, 18% -20% of quicklime powder, 5% of formaldehyde absorbent, 6% -7% of cotton fiber powder, 4% -6% of nano titanium dioxide, 49% -51% of calcite powder and the balance anti-cracking and curing adhesive powder.

Technical Field

The invention relates to putty powder processing, in particular to putty powder and a processing system and a processing method thereof.

Background

For example, a putty powder production and processing device disclosed in publication No. CN110026108A comprises a box body, wherein a stirring cavity which penetrates through the box body from top to bottom is arranged in the box body, a containing cavity is communicated and arranged in the lower end wall of the stirring cavity, a supporting table for placing raw materials is fixedly arranged on the left end face of the box body, a supporting frame which is abutted against the ground is fixedly arranged on the lower end face of the supporting table, a stirring device for stirring putty powder is arranged in the upper end face of the box body, a discharging device for controlling the putty powder to topple over and preventing the putty powder from being blocked is arranged on the lower side of the stirring device, and the equipment adopts a stirring device; the invention has the disadvantage that the putty powder can not be continuously and efficiently processed.

Disclosure of Invention

The invention aims to provide a putty powder processing system which can continuously and efficiently process putty powder.

The purpose of the invention is realized by the following technical scheme:

a putty powder processing system comprises a device support, a stirring mechanism I, a discharging mechanism, a stirring mechanism II, a transmission mechanism, a feeding mechanism, a storage mechanism and a sensor, wherein the stirring support is fixedly connected to the device support, the stirring mechanism I is fixedly connected to the stirring support, the discharging mechanism is slidably connected to the lower end of the stirring support, the discharging mechanism is fixedly connected to the device support, the stirring mechanism II is connected to the device support, the stirring mechanism II can be inserted into the stirring support, the transmission mechanism is rotatably connected to the device support, the stirring mechanism II can be in transmission connection with the transmission mechanism, the feeding mechanism is provided with a plurality of feeding mechanisms, the plurality of feeding mechanisms are fixedly connected to the device support, the plurality of feeding mechanisms are communicated with the stirring support, the plurality of stirring supports are in transmission connection, the transmission mechanism is in transmission connection with one of the feeding mechanisms, and the sensor is fixedly connected, the sensor is connected with the discharging mechanism, the stirring mechanism II can extrude the sensor, and the containing mechanism is fixedly connected between the stirring support and the stirring mechanism II.

As further optimization of the technical scheme, the putty powder processing system comprises a device support, a side support I, a side support II, a connecting plate, a sliding rail, a rotating support and a feeding support, wherein the connecting plate is fixedly connected between the lower ends of the side support I and the side support II, the sliding rail is fixedly connected between the two sides of the side support I and the side support II, the rotating support is fixedly connected between the upper ends of the side support I and the side support II, a plurality of feeding supports are fixedly connected between the rear sides of the upper ends of the side support I and the side support II, a transmission mechanism is rotatably connected onto the rotating support, a sensor is fixedly connected onto the connecting plate, and the sensor is located on the front side of the transmission mechanism.

According to the putty powder processing system, the stirring support comprises a stirring cylinder, a rectangular cavity I and a rectangular cavity II, the lower end of the stirring cylinder is fixedly connected with the rectangular cavity I, the lower end of the rectangular cavity I is fixedly connected with the rectangular cavity II, the stirring cylinder is fixedly connected to the side support II, and the width of the rectangular cavity II is larger than that of the rectangular cavity I.

As further optimization of the technical scheme, the putty powder processing system comprises a stirring mechanism I, a stirring disc and stirring rods, wherein the stirring mechanism I is fixedly connected to the rear end of a stirring cylinder, the stirring disc is fixedly connected to an output shaft of the stirring cylinder, and the stirring rods are fixedly connected to the stirring disc.

As the further optimization of the technical scheme, the putty powder processing system comprises the telescopic mechanism I and the discharge baffle, wherein the telescopic mechanism I is fixedly connected to the connecting plate, the telescopic end of the telescopic mechanism I is fixedly connected with the discharge baffle, the upper end of the discharge baffle is obliquely arranged, and the discharge baffle is slidably connected into the rectangular cavity I.

As a further optimization of the technical scheme, the putty powder processing system comprises a telescopic mechanism II, a sliding support, a stirring motor II, a rack, a boat-shaped push plate, a covering disc, a gear ring, a rotating rod and spiral stirring shafts, wherein the telescopic mechanism II is fixedly connected to a side support I, the sliding support is fixedly connected to the telescopic end of the telescopic mechanism II, the stirring motor II is fixedly connected to the sliding support, the rack and the boat-shaped push plate are respectively and fixedly connected to the upper end and the lower end of the stirring motor II, the covering disc is fixedly connected to the sliding support, the gear ring is fixedly connected to the covering disc, the rotating rod is fixedly connected to the output shaft of the stirring motor II, the two spiral stirring shafts are rotatably connected to the rotating rod, the two spiral stirring shafts are in meshing transmission with the gear ring, the sliding support is slidably connected between the two sliding rails, and the covering disc can be covered on a stirring, the rack can be meshed with the transmission mechanism for transmission, the rack pushes the transmission mechanism to rotate for a half circle at each time, the ship-shaped push plate can extrude the sensor, and the sensor is electrically connected with the telescopic mechanism I.

As a further optimization of the technical scheme, the putty powder processing system comprises a feeding mechanism, arc baffles, feeding rotary drums, a feeding groove, a telescopic mechanism III, a feeding bottom plate and a feeding pipeline, wherein the two arc baffles are fixedly connected in the feeding mechanism, the feeding rotary drum is rotatably connected between the two arc baffles, the feeding rotary drum is provided with the feeding groove, the telescopic mechanism III is fixedly connected in the feeding groove, the telescopic end of the telescopic mechanism III is fixedly connected with the feeding bottom plate, the feeding bottom plate is slidably connected in the feeding groove, the feeding pipeline is fixedly connected on the feeding box, the feeding mechanism is provided with a plurality of feeding rotary drums, the plurality of feeding rotary drums are in transmission connection, the transmission ratio among the plurality of feeding rotary drums is one, one feeding rotary drum is in transmission connection with the transmission mechanism, the transmission ratio among the feeding rotary drums and the transmission mechanism is one, the plurality of feeding boxes are respectively and fixedly connected on a plurality of feeding supports, and the plurality of feeding pipelines are communicated with the mixing drum.

According to the putty powder processing system, the containing mechanism comprises the containing box and the sliding box, the containing box is fixedly connected to the rectangular cavity II, the sliding box is connected to the containing box in a sliding mode, and the sliding box is fixedly connected to the sliding support.

A putty powder processing method comprises the following steps:

the method comprises the following steps: putting different putty powder raw materials into different feeding mechanisms respectively;

step two: the stirring mechanism II is pulled out of the stirring support, the stirring mechanism II drives the transmission mechanism to rotate for a half circle, the transmission mechanism drives the plurality of feeding rotary drums to rotate for a half circle, the plurality of feeding grooves move to the upper side, and different raw materials respectively fall into the feeding grooves with different corresponding depths;

step three: the stirring mechanism II extrudes the sensor, the sensor drives the discharging mechanism to move, and the discharging mechanism moves downwards to enable putty powder in the stirring support to fall out;

step four: the stirring mechanism II moves towards the stirring support, the sensor is extruded by the discharging mechanism again to move upwards, the discharging mechanism closes the bottom of the stirring support, the stirring mechanism II pushes the transmission mechanism to rotate for a half circle, the transmission mechanism drives the plurality of feeding rotary drums to rotate for a half circle, the plurality of feeding grooves move to the lower side, and putty powder raw materials of different types and different weights in the feeding grooves fall into the stirring support;

step five: and starting the stirring mechanism I and the stirring mechanism II to stir the putty powder raw materials in the stirring support.

The putty powder consists of quicklime powder 18-20 wt%, formaldehyde absorbent 5 wt%, cotton fiber powder 6-7 wt%, nanometer titania 4-6 wt%, calcite powder 49-51 wt% and other anti-cracking cured rubber powder.

The putty powder and the processing system and the processing method thereof have the beneficial effects that:

according to the putty powder and the processing system and the processing method thereof, different putty powder raw materials can be respectively placed in different feeding mechanisms; the stirring mechanism II is pulled out of the stirring support, the stirring mechanism II drives the transmission mechanism to rotate for a half circle, the transmission mechanism drives the plurality of feeding rotary drums to rotate for a half circle, the plurality of feeding grooves move to the upper side, and different raw materials respectively fall into the feeding grooves with different corresponding depths; the stirring mechanism II extrudes the sensor, the sensor drives the discharging mechanism to move, and the discharging mechanism moves downwards to enable putty powder in the stirring support to fall out; the stirring mechanism II moves towards the stirring support, the sensor is extruded by the discharging mechanism again to move upwards, the discharging mechanism closes the bottom of the stirring support, the stirring mechanism II pushes the transmission mechanism to rotate for a half circle, the transmission mechanism drives the plurality of feeding rotary drums to rotate for a half circle, the plurality of feeding grooves move to the lower side, and putty powder raw materials of different types and different weights in the feeding grooves fall into the stirring support; starting stirring mechanism I and stirring mechanism II and stirring the putty powder raw materials in the stirring support, II reciprocating motion of stirring mechanism can high efficiency processing putty powder in succession.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

FIG. 1 is a schematic view of the overall structure of the putty powder processing system of the present invention;

FIG. 2 is a schematic structural view of a cross-sectional view of a putty powder processing system of the present invention;

FIG. 3 is a schematic view of the device support structure of the present invention;

FIG. 4 is a schematic view of the stirring support structure of the present invention;

FIG. 5 is a schematic structural diagram of a stirring mechanism I of the present invention;

FIG. 6 is a schematic structural view of the discharge mechanism of the present invention;

FIG. 7 is a schematic structural diagram of a stirring mechanism II of the present invention;

FIG. 8 is a schematic view of the transmission mechanism of the present invention;

FIG. 9 is a first schematic structural view of the feeding mechanism of the present invention;

FIG. 10 is a second schematic structural view of the feeding mechanism of the present invention;

FIG. 11 is a third schematic structural view of the feeding mechanism of the present invention;

fig. 12 is a schematic structural view of the storage mechanism of the present invention.

In the figure: a device holder 1; a side bracket I101; a side bracket II 102; a connecting plate 103; a slide rail 104; a rotating bracket 105; a feed support 106; a stirring support 2; a mixing drum 201; a rectangular cavity I202; a rectangular cavity II 203; a stirring mechanism I3; a stirring motor I301; a stir plate 302; a stirring rod 303; a discharging mechanism 4; a telescoping mechanism I401; a discharge baffle 402; a stirring mechanism II 5; a telescoping mechanism II 501; a sliding bracket 502; a stirring motor II 503; a rack 504; a boat-shaped push plate 505; a cover tray 506; a ring gear 507; rotating the rod 508; a helical stirring shaft 509; a transmission mechanism 6; a feeding mechanism 7; a supply tank 701; a circular arc baffle 702; a feed drum 703; a supply tank 704; a telescoping mechanism III 705; a feed shoe 706; a feed conduit 707; a storage mechanism 8; a storage box 801; a slide box 802; and a sensor 9.

Detailed Description

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