阅读说明：本技术 一种混凝土养护剂制备工艺 (Preparation process of concrete curing agent ) 是由 王萍 于 2021-07-03 设计创作，主要内容包括：本发明属于混凝土养护剂加工技术领域,具体而言,涉及一种混凝土养护剂制备工艺；本发明提供了一种混凝土养护剂制备工艺,包括以下步骤：a：将养护剂材料装入筛分装置中的贮存部内进行存放；b：利用捞动部在贮存部内转动后抬起,将结块的材料捞出；c：根据养护剂材料内结块的大小,利用捞动部对其进行打碎；所述筛分装置包括贮存部和捞动部,贮存部和地面之间通过支撑组件相连,捞动部安装在贮存部内,捞动部与贮存部之间的相对位置能够进行改变,贮存部上安装有能够自动密封的移出组件；本发明便于将结块的材料进行捞出收集。(The invention belongs to the technical field of concrete curing agent processing, and particularly relates to a preparation process of a concrete curing agent; the invention provides a preparation process of a concrete curing agent, which comprises the following steps: a: putting the curing agent material into a storage part of a screening device for storage; b: the scooping part is rotated in the storage part and then lifted up, and the caked materials are scooped out; c: according to the size of the agglomerates in the curing agent material, the curing agent material is smashed by using the fishing part; the screening device comprises a storage part and a dragging part, the storage part is connected with the ground through a support component, the dragging part is installed in the storage part, the relative position between the dragging part and the storage part can be changed, and a moving-out component capable of automatically sealing is installed on the storage part; the invention is convenient for fishing out and collecting the caked materials.)

1. A preparation process of a concrete curing agent is characterized by comprising the following steps: the method comprises the following steps:

a: putting the curing agent material into a storage part of a screening device for storage;

b: the scooping part is rotated in the storage part and then lifted up, and the caked materials are scooped out;

c: according to the size of the caking in the curing agent material, the caking is smashed by the dragging part.

2. The process for preparing a concrete curing agent according to claim 1, wherein: the screening plant includes the storage portion and drags for the portion, links to each other through supporting component between storage portion and the ground, drags for the portion to install in the storage portion, drags for the relative position between portion and the storage portion and can change, installs the subassembly that shifts out that can self-sealing on the storage portion.

3. The process for preparing a concrete curing agent according to claim 2, wherein: the storage part comprises a storage barrel (101), the storage barrel (101) is connected with a dragging part in a sliding mode, and a discharging cover is arranged at the lower end of the side part of the storage barrel (101).

4. The process for preparing a concrete curing agent according to claim 3, wherein: drag for the portion and include hollow rotary drum (303) and drag for board (304), drag for board (304) and be equipped with a plurality ofly, drag for the outside that board (304) evenly installed in hollow rotary drum (303) a plurality ofly, drag for and be equipped with a plurality of small openings on board (304), hollow rotary drum (303) are connected with containing barrel (101) through coupling assembling.

5. The process for preparing a concrete curing agent according to claim 4, wherein: the distance between the virtual axis of the hollow drum (303) and the virtual axis of the storage barrel (101) can be changed in a state that the two are parallel to each other.

6. The process for preparing a concrete curing agent according to claim 4, wherein: the angle between the lower end of the hollow rotating drum (303) and the bottom of the containing barrel (101) can be changed.

7. The process for preparing a concrete curing agent according to claim 6, wherein: coupling assembling includes slider (201), baffle (202) and lift post (203), be equipped with spout (102) on containing bucket (101), slider (201) slide in spout (102), two baffles (202) are installed to the symmetry on slider (201), two baffles (202) are located the upper and lower both ends of containing bucket (101) bottom respectively, sliding connection has lift post (203) in slider (201), lift post (203) are connected with hollow rotary drum (303), install lift drive assembly between lift post (203) and articulated seat (302) that are located the downside.

8. The process for preparing a concrete curing agent according to any one of claims 3 to 7, wherein: install solid post (301) in hollow rotary drum (303), solid post (301) are connected with lift post (203), and hollow rotary drum (303) can rotate on solid post (301), installs between solid post (301) and the hollow rotary drum (303) and rotates drive assembly.

9. The process for preparing a concrete curing agent according to claim 8, wherein: the supporting component comprises supporting columns (601) and a contact plate (602), the supporting columns (601) are arranged in a plurality of numbers, the supporting columns (601) are uniformly installed at the bottom of the containing barrel (101), the contact plate (602) is installed on the supporting columns (601), and the contact plate (602) is in contact with the ground.

10. The process for preparing a concrete curing agent according to claim 9, wherein: the supporting component comprises supporting columns (601) and a contact plate (602), the supporting columns (601) are provided with a plurality of supporting columns (601), the supporting columns (601) are uniformly installed at the bottom of the containing barrel (101), the contact plate (602) is installed on the supporting columns (601), the contact plate (602) is provided with a height adjusting component, and the height adjusting component is in contact with the ground.

Technical Field

The invention belongs to the technical field of concrete curing agent processing, and particularly relates to a preparation process of a concrete curing agent.

Background

The invention discloses a concrete curing agent and a preparation method thereof, wherein the concrete curing agent has the application number of 201610119486.X, and comprises the following components in percentage by weight: 60-70% of modified nano silicon dioxide solution; 20-30% of ethanol; 2-4% of tetramethoxysilane or tetraethoxysilane; 1-2% of 1mol/L nitric acid; 4-6% of deionized water, wherein the preparation method comprises the steps of weighing nano silicon dioxide dispersion, adding the nano silicon dioxide dispersion into ethanol, adding tetramethoxysilane or tetraethoxysilane, adding deionized water and 1mol/L nitric acid, heating to 60 ℃, stirring and reacting for 3 hours to complete the preparation, the prepared concrete curing agent can avoid the defects of cracking, peeling and the like of the traditional water-retaining curing coating, and meanwhile, the coating does not need to be removed after the curing is completed, and adverse effects on the pasting reprocessing of the surface of the coating or engineering construction application are avoided; however, the invention is not convenient for fishing out the agglomerated materials for collection.

Disclosure of Invention

The present invention has been made in view of the above circumstances, and an object thereof is to provide a process for producing a concrete curing agent, which enables a caked material to be fished out and collected.

The invention provides a preparation process of a concrete curing agent, which comprises the following steps:

a: putting the curing agent material into a storage part of a screening device for storage;

b: the scooping part is rotated in the storage part and then lifted up, and the caked materials are scooped out;

c: according to the size of the caking in the curing agent material, the caking is smashed by the dragging part.

The screening plant includes the storage portion and drags for the portion, links to each other through supporting component between storage portion and the ground, drags for the portion to install in the storage portion, drags for the relative position between portion and the storage portion and can change, installs the subassembly that shifts out that can self-sealing on the storage portion.

The supporting component can select a plurality of supporting columns to support the device, and set the plurality of supporting columns into a telescopic structure, so that the positions between the top ends of the plurality of supporting columns and the ground can be adjusted, and then the angle between the storage part and the ground can be adjusted by adjusting the supporting component.

The density of the fished-out curing agent material can be detected, so that whether the curing agent material contains water or not is judged, and whether the curing agent material is a dry block or a block when meeting water is judged.

The storage part comprises a storage barrel, the storage barrel is connected with a dragging part in a sliding mode, and a discharging cover is arranged at the lower end of the side part of the storage barrel.

Drag for the portion and include hollow rotary drum and drag for the board, drag for the board and be equipped with a plurality ofly, drag for the board and evenly install in the outside of hollow rotary drum a plurality ofly, drag for and be equipped with a plurality of small openings on the board, hollow rotary drum passes through coupling assembling and is connected with the storage bucket.

The distance between the virtual axis of the hollow rotary drum and the virtual axis of the containing barrel can be changed in a state that the virtual axes are parallel to each other.

The invention has the beneficial effects that:

the fishing part is movably connected in the storage part, and the curing agent materials agglomerated in the storage part can be fished out through the fishing part, so that the processing quality and the storage effect of the device are improved conveniently; the density of the fished curing agent material can be detected, so that whether the curing agent material contains water or not is judged, and whether the curing agent material is dry or meets water for blocking is judged; the curing agent material is filtered or smashed through the dragging part, so that the preparation effect of the curing agent material by the device is realized.

Drawings

The following drawings are only intended to illustrate and explain the invention schematically, wherein:

FIG. 1 is a schematic structural view of a first embodiment of a reservoir according to the present invention;

FIG. 2 is a schematic structural diagram of a first embodiment of the scooping portion of the present invention;

FIG. 3 is a schematic structural view of a second embodiment of the scooping portion of the present invention;

FIG. 4 is a schematic structural view of a second embodiment of the reservoir of the present invention;

FIG. 5 is a schematic structural view of the storage barrel of the present invention;

FIG. 6 is a schematic view of the structure of the collection box of the present invention;

FIG. 7 is a schematic structural view of a scoop plate of the present invention;

FIG. 8 is a schematic structural view of the support post of the present invention;

FIG. 9 is a schematic view of the construction of the skateboard of the present invention;

fig. 10 is a schematic view of the threaded rod of the present invention.

In the figure:

a storage barrel 101;

a chute 102;

extending the support arm 103;

a slide rail 104;

a carrier strip 105;

a slider 201;

a baffle 202;

a lifting column 203;

a solid column 301;

a hinge base 302;

a hollow drum 303;

fishing the plate 304;

a mounting block 401;

a reduction motor 402;

a gear 403;

an annulus gear 404;

an arc seat 501;

a chute 502;

a cross arm 503;

a connecting strip 504;

a support column 601;

a contact plate 602;

a threaded rod 603;

a fixture block 604;

a collection box 701;

a slide bar 702;

a slot 703;

a hinge base 801;

a bi-directional screw 802;

a slide plate 803;

a clamping arm 804;

and a support bar 805.

Detailed Description

The following describes embodiments of the present invention with reference to specific examples.

See fig. 1-3, fig. 5:

supporting the storage part through the supporting component to enable the device to be installed on a use place;

according to the requirement of the device for processing the curing agent material, the device can be installed in a construction site for use, and in order to enable the support component to adapt to various use scenes of the ground of the construction site, the support component can be arranged into a structure capable of changing the angle between the storage part and the ground;

the inclination angle of the storage part is changed through the supporting assembly, so that the effect of discharging the curing agent material by the device can be improved, and the convenience of the device is improved;

furthermore, the support assembly can change the inclination angle of the storage part, so that the storage part and the horizontal plane are kept flush, and the problem that the curing agent material is accumulated at the corner in the storage part to cause insufficient processing can be avoided;

the fishing part is movably connected in the storage part, and the curing agent materials agglomerated in the storage part can be fished out through the fishing part, so that the processing quality and the storage effect of the device are improved conveniently;

the curing agent material is filtered or smashed through the dragging part, so that the preparation effect of the curing agent material by the device is realized;

the shifting-out component is arranged on the storage part and is used for containing the caking curing agent materials fished out by the fishing-out part;

the shifting-out component is provided with an opening, and the opening can be automatically sealed according to the relative position between the shifting-out component and the storage part, so that the shifting-out component can automatically unload materials at a specified position.

As shown in figures 1-2 and 4:

the containing barrel 101 is used for storing the curing agent materials, and the dragging part is controlled to move relative to the bottom of the containing barrel 101, so that the dragging part has the function of dragging the agglomerated part of the curing agent materials in the containing barrel 101;

the control drags for the lateral part of moving relative containing barrel 101 to the realization is dragged for the effect that the maintenance agent material of moving in to containing barrel 101 rolled through dragging for the portion, realizes then that the device carries out the function of preparing to the maintenance agent material, makes the multiple maintenance agent material granule in the containing barrel 101 more fine and smooth.

As shown in fig. 2:

by utilizing the connecting component, the hollow rotary drum 303 can move relative to the bottom of the storage barrel 101, so that the curing agent materials in the storage barrel 101 can be fished out by the fishing plate 304, fine curing agent materials leak from the leakage holes, and larger curing agent materials are intercepted, thereby realizing the effect of filtering the curing agent materials in the storage barrel 101 and facilitating the fishing out of the agglomerated curing agent materials;

the middle part of dragging for board 304 is equipped with the pit, can improve and drag for the board 304 and to the effect of reserving of curing agent material.

As shown in fig. 3:

utilize coupling assembling, enable the lateral part of hollow rotary drum 303 relative containing barrel 101 to remove, can make and drag for board 304 to press the curing agent material in containing barrel 101 to move and smash to it is more exquisite to make the granularity between the multiple curing agent material in containing barrel 101, and can improve the mixed effect between the multiple curing agent material in containing barrel 101.

See FIGS. 2-5 for an illustration:

the angle between the lower end of the hollow drum 303 and the bottom of the receiving tub 101 can be changed.

The angle between the lower end of the hollow rotary drum 303 and the bottom of the storage barrel 101 is changed, so that the fishing plate 304 on the hollow rotary drum 303 is inclined, and the agglomerated curing agent material fished out by the fishing plate 304 is conveniently discharged into the removing assembly.

As shown in fig. 2 and 4:

coupling assembling includes slider 201, baffle 202 and lift post 203, is equipped with spout 102 on the containing bucket 101, and slider 201 slides in spout 102, and two baffles 202 are installed to the symmetry on the slider 201, and two baffles 202 are located the upper and lower both ends of containing bucket 101 bottom respectively, and sliding connection has lift post 203 in slider 201, and lift post 203 is connected with hollow rotary drum 303, installs the lift drive subassembly between lift post 203 and the articulated seat 302 that is located the downside.

The control slide block 201 slides in the sliding chute 102, so that the hollow rotating drum 303 can move relative to the side part of the containing barrel 101, and the function of crushing the curing agent materials is realized conveniently;

the design of the baffle 202 can prevent the curing agent material from leaking when the sliding block 201 slides in the sliding groove 102;

the lifting column 203 can slide on the sliding block 201, so that the hollow rotary drum 303 can move relative to the bottom of the containing barrel 101, and the agglomerated curing agent material can be conveniently fished out by the device;

the telescopic link can be selected for use to the lift drive assembly, makes the stiff end and the lift post 203 fixed connection of telescopic link, makes the expansion end and the baffle 202 fixed connection of telescopic link, stretches out and draws back through control telescopic link, can make lift post 203 slide on slider 201.

See FIGS. 2-3 for an illustration:

the lifting type solid column lifting device comprises a hollow rotary drum 303, wherein a solid column 301 is installed in the hollow rotary drum 303, the solid column 301 is connected with a lifting column 203, the hollow rotary drum 303 can rotate on the solid column 301, and a rotary driving assembly is installed between the solid column 301 and the hollow rotary drum 303.

The hollow rotary drum 303 is controlled to rotate on the solid column 301 by taking the axis of the hollow rotary drum 303 as the shaft, so that the hollow rotary drum 303 drives the fishing plate 304 to sweep the curing agent material in the storage barrel 101, and the effect of fishing the curing agent material in the storage barrel 101 by the device is improved;

the fishing plate 304 is obliquely installed, so that when the fishing plate 304 rotates by taking the axis of the hollow rotary drum 303 as an axis, the contact area between the fishing plate 304 and the curing agent material is increased, and the processing effect of the device is further improved.

As shown in fig. 5:

the supporting component comprises a plurality of supporting columns 601 and a contact plate 602, the supporting columns 601 are uniformly arranged at the bottom of the containing barrel 101, the contact plate 602 is arranged on the supporting columns 601, and the contact plate 602 is in contact with the ground.

The support column 601 is used for supporting the storage barrel 101;

the contact plate 602 is used to increase the contact area between the device and the ground.

See FIGS. 8-10 for an illustration:

the supporting component comprises a plurality of supporting columns 601 and a contact plate 602, the supporting columns 601 are arranged in a plurality of numbers, the supporting columns 601 are uniformly installed at the bottom of the containing barrel 101, the contact plate 602 is installed on the supporting columns 601, and the height adjusting component is installed on the contact plate 602 and is in contact with the ground.

All install the altitude mixture control subassembly on every contact plate 602, the altitude mixture control subassembly can change the distance between contact plate 602 and the ground, adjusts a plurality of altitude mixture control subassemblies, makes a plurality of contact plates 602 all keep the parallel and level with the horizontal plane to make the steady effect of device increase, then make the device can be applicable to multiple use scene.

As shown in fig. 3:

the rotation driving component comprises a mounting frame 401, a speed reducing motor 402, a gear 403 and an inner gear ring 404, the mounting frame 401 is fixedly connected to the solid column 301, the speed reducing motor 402 is mounted on the mounting frame 401, the gear 403 is fixedly connected to an output shaft of the speed reducing motor 402, the gear 403 is in transmission connection with the inner gear ring 404, and the inner gear ring 404 is fixedly connected to the hollow rotary drum 303.

By starting the speed reduction motor 402 to rotate, the gear 403 can rotate by taking the axis of the gear 403 as a shaft, so that the inner gear ring 404 is driven to rotate by taking the axis of the gear 403 as the shaft, and the rotation directions of the gear 403 and the inner gear ring 404 are opposite;

when the ring gear 404 rotates around its axis, it can drive the hollow rotating drum 303 to rotate around its axis, so that the hollow rotating drum 303 drives the scooping plate 304 to sweep the curing agent in the storage barrel 101.

See fig. 3-5, fig. 7:

screening plant still includes articulated seat 302, arc seat 501, spout 502, xarm 503 and connecting strip 504, be connected through articulated seat 302 between solid post 301 and the lift post 203, articulated seat 302 and solid post 301 fixed connection, articulated seat 302 is connected with lift post 203 is articulated, fixedly connected with arc seat 501 on the mounting bracket 401, be provided with spout 502 on the arc seat 501, sliding connection has two xarms 503 in the spout 502, the both ends of two xarms 503 are all connected through connecting strip 504, two connecting strip 504 symmetry fixed connection are on containing bucket 101.

The telescopic rod is started to extend and retract, the lifting column 203 can drive the hinge base 302 to lift, the cross arm 503 slides in the sliding groove 502 at the moment, and the sliding groove 502 is arc-shaped, so that the hinge base 302 can rotate on the lifting column 203 in the lifting process of the hinge base 302, and the angle of the hollow rotary drum 303 is inclined at the moment, so that the massive curing agent materials fished by the fishing plate 304 can slide down;

when the virtual axis of the hollow rotary drum 303 inclines relative to the virtual axis of the storage barrel 101, the speed reduction motor is started to rotate, so that the dropping effect of the large curing agent materials fished out by the fishing plate 304 is improved.

See fig. 1, 6-7 for an illustration:

the moving-out assembly comprises a support arm 103, a slide rail 104, a support strip 105, a collection box 701, a slide strip 702 and a slot 703, the support arm 103 is fixedly connected to the side of the collection barrel 101, the slide rail 104 is arranged on the support arm 103, the slide rail 104 penetrates through the collection barrel 101, the slide strip 702 is fixedly connected to the lower end of the collection box 701, the slide strip 702 is slidably connected into the slide rail 104, the support strip 105 is fixedly connected to the support arm 103, the support strip 105 is attached to the lower end of the slide strip 702, and the slot 703 is arranged on the collection box 701.

The collection box 701 is slid, so that when the virtual axis of the hollow rotary drum 303 is inclined relative to the virtual axis of the storage barrel 101, the collection box 701 can collect large blocks of curing agent materials falling off from the fishing plate 304;

the collecting box 701 is provided with a discharge port, the supporting strip 105 is provided with a matching port, the relative position between the slide strip 702 and the extending supporting arm 103 is changed, and the discharge port and the matching port can be aligned or staggered, so that the collecting box 701 has an automatic sealing function, and the collecting box 701 can automatically discharge materials at a specified position.

See FIGS. 8-10 for an illustration:

the height adjusting assembly comprises a threaded rod 603, clamping blocks 604, hinged seats 801, a bidirectional screw 802, a sliding plate 803, clamping arms 804 and supporting strips 805, the threaded rod 603 is connected to a contact plate 602 in a threaded transmission manner, the clamping blocks 604 are arranged at the lower end of the threaded rod 603, the clamping blocks 604 are distributed in a staggered manner, the two hinged seats 801 are symmetrically and fixedly connected to the contact plate 602, the bidirectional screw 802 is hinged to the two hinged seats 801, the sliding plate 803 is connected to two ends of the bidirectional screw 802 in a threaded transmission manner, the clamping arms 804 are mounted on the sliding plate 803, the clamping arms 804 are matched with the lateral portions of the threaded rod 603, the two supporting strips 805 are fixedly connected to the contact plate 602, the 805 are attached to the sliding plate 803, the two supporting strips 805 are symmetrically mounted on two sides of the bidirectional screw 802.

The plurality of threaded rods 603 are controlled to rotate by taking the axes of the threaded rods 603 as axes respectively, so that the fixture blocks 604 are drilled into the ground, and the device can be supported on the ground under the supporting action of the plurality of threaded rods 603;

the multiple clamping blocks 604 are distributed in a spiral mode, the clamping blocks 604 are installed in an inclined mode, the self-locking effect of the threaded rods 603 can be improved due to the design, the multiple threaded rods 603 can be conveniently adjusted after the device is initially placed on the ground, the multiple threaded rods 603 can not interfere with one another under the self-locking effect of the clamping blocks 604, and the stabilizing effect of the device in the using process is improved;

turning the bi-directional screw 802 enables the clamping arm 804 to clamp the threaded rod 603 and then enables the position between the device and the ground to be maintained.