阅读说明：本技术 一种保温水泥砂浆及其加工方法 (Heat-insulating cement mortar and processing method thereof ) 是由 陈肖飞 于 2021-08-16 设计创作，主要内容包括：本发明涉及建筑领域,更具体的说是一种保温水泥砂浆及其加工方法。加工方法包括以下步骤：S1：使用玻化微珠处理装置处理玻化微珠；S2：将处理后的玻化微珠与水泥混合；S3：在玻化微珠与水泥内再加入熟石灰、珍珠岩粉、玻化微珠、乳胶粉、膨胀剂。使用保温水泥砂浆的加工方法加工出的保温水泥砂浆由以下份数重量的原料组成：水泥20份、熟石灰2份、珍珠岩粉4份、玻化微珠7份、乳胶粉4份、膨胀剂5份、水30份。(The invention relates to the field of buildings, in particular to heat-insulating cement mortar and a processing method thereof. The processing method comprises the following steps: s1: processing the vitrified micro bubbles by using a vitrified micro bubble processing device; s2: mixing the treated vitrified micro bubbles with cement; s3: adding hydrated lime, perlite powder, vitrified micro bubbles, latex powder and expanding agent into the vitrified micro bubbles and cement. The heat-insulating cement mortar processed by the processing method of the heat-insulating cement mortar consists of the following raw materials in parts by weight: 20 parts of cement, 2 parts of hydrated lime, 4 parts of perlite powder, 7 parts of vitrified micro-beads, 4 parts of latex powder, 5 parts of expanding agent and 30 parts of water.)

1. The processing method of the heat-preservation cement mortar is characterized by comprising the following steps: the method comprises the following steps:

s1: processing the vitrified micro bubbles by using a vitrified micro bubble processing device;

s2: mixing the treated vitrified micro bubbles with cement;

s3: adding hydrated lime, perlite powder, vitrified micro bubbles, latex powder and expanding agent into the vitrified micro bubbles and cement.

2. The processing method of the heat preservation cement mortar according to claim 1, which is characterized in that: the vitrified micro bubble processing device comprises a flat plate (101), fold line grooves (102), a blocking edge I (104) and a grinding stone (301), wherein the flat plate (101) is provided with a plurality of fold line grooves (102), the edge of the upper side of the flat plate (101) is provided with the blocking edge I (104), and the grinding stone (301) is arranged on the upper side of the flat plate (101).

3. The processing method of the heat preservation cement mortar according to claim 2, characterized in that: the vitrified micro bubble processing device also comprises a hole groove (103), and a plurality of hole grooves (103) are arranged on the flat plate (101).

4. The processing method of the heat preservation cement mortar according to claim 3, which is characterized in that: the hole grooves (103) are uniformly distributed among the folding line grooves (102).

5. The processing method of the heat preservation cement mortar according to claim 3, which is characterized in that: the vitrified micro bubble processing apparatus further comprises a square frame (303), angle irons (304) and fastening screws (305), the angle irons (304) are arranged at two ends of the upper side of the square frame (303), the grinding stones (301) are arranged between the two angle irons (304), the fastening screws (305) are connected to the two angle irons (304) in a threaded mode, and the grinding stones (301) are fixed by the fastening screws (305) propping against the grinding stones (301).

6. The processing method of the heat preservation cement mortar according to claim 5, characterized in that: the vitrified micro bubble processing device also comprises a blocking edge II (302), the edge of the lower side of the square frame (303) is provided with the blocking edge II (302), and the blocking edge II (302) is positioned at the outer side of the blocking edge I (104).

7. The processing method of the heat preservation cement mortar according to claim 6, which is characterized in that: vitrified micro bubble processing apparatus still includes ball (201), elastic sheet (202), flat post (203) and articulated seat (206), and ball (201) set up the downside at dull and stereotyped (101), is connected with flat post (203) through elastic sheet (202) on ball (201), and the downside of dull and stereotyped (101) is provided with articulated seat (206), and the middle part of flat post (203) articulates on articulated seat (206).

8. The processing method of heat preservation cement mortar according to claim 7, characterized in that: the vitrified micro bubble processing apparatus further comprises an inclined column (204) and a stop block (205), the right end of the flat column (203) is provided with the inclined column (204), the stop block (205) is fixedly connected with the upper side of the flat column (203), the stop block (205) is positioned on the right side of the hinged seat (206), and the right side of the baffle edge II (302) is in contact with the inclined plane on the upper side of the inclined column (204).

9. The processing method of heat preservation cement mortar according to claim 8, characterized in that: vitrified micro bubble processing apparatus is still including rotating seat (105), nose bar (106), articulated post (107) and spacing post (108), and the downside rear portion of dull and stereotyped (101) is provided with rotates seat (105), and the front portion of articulated post (107) rotates to be connected on rotating seat (105), and the front side fixedly connected with nose bar (106) of articulated post (107), two spacing posts (108) about the downside fixedly connected with of dull and stereotyped (101), nose bar (106) are located between two spacing posts (108).

10. The processing method of heat preservation cement mortar according to claim 9, characterized in that: the heat-insulating cement mortar processed by the processing method of the heat-insulating cement mortar consists of the following raw materials in parts by weight: 20 parts of cement, 2 parts of hydrated lime, 4 parts of perlite powder, 7 parts of vitrified micro-beads, 4 parts of latex powder, 5 parts of expanding agent and 30 parts of water.

Technical Field

The invention relates to the field of buildings, in particular to heat-insulating cement mortar and a processing method thereof.

Background

The heat-insulating mortar is prepared by mixing various light materials as aggregate, cement as a cementing material and some modified additives, and stirring and mixing the materials by a production enterprise. A building material for building surface insulating layer. The inorganic heat-insulating mortar material heat-insulating system is fireproof and does not burn. The fireproof door can be widely used in intensive houses, public buildings, large public places, flammable and explosive places and places with strict fire prevention requirements.

The vitrified micro bubbles in the heat-insulating cement mortar in the prior art are easy to be bonded with cement to cause the situation of insufficient tightness.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the heat-insulating cement mortar and the processing method thereof, and the heat-insulating cement mortar has the beneficial effect that the vitrified micro bubbles in the heat-insulating cement mortar are tightly combined with cement.

A processing method of heat preservation cement mortar comprises the following steps:

s1: processing the vitrified micro bubbles by using a vitrified micro bubble processing device;

s2: mixing the treated vitrified micro bubbles with cement;

s3: adding hydrated lime, perlite powder, vitrified micro bubbles, latex powder and expanding agent into the vitrified micro bubbles and cement.

The vitrified micro bubble processing device comprises a flat plate, fold line grooves, a baffle edge I and a grinding stone, wherein the flat plate is provided with a plurality of fold line grooves, the upper side edge of the flat plate is provided with the baffle edge I, and the grinding stone is arranged on the upper side of the flat plate.

The vitrified micro bubble processing device also comprises a hole groove, and a plurality of hole grooves are arranged on the flat plate.

The vitrified micro bubble processing device further comprises a square frame, angle irons and fastening screws, the angle irons are arranged at two ends of the upper side of the square frame, the grinding stones are arranged between the two angle irons, the fastening screws are connected to the two angle irons in a threaded mode, and the fastening screws are abutted to the grinding stones to fix the grinding stones.

The heat-insulating cement mortar processed by the processing method of the heat-insulating cement mortar consists of the following raw materials in parts by weight: 20 parts of cement, 2 parts of hydrated lime, 4 parts of perlite powder, 7 parts of vitrified micro-beads, 4 parts of latex powder, 5 parts of expanding agent and 30 parts of water.

Drawings

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

FIG. 1 is a flow chart of a method for processing heat-insulating cement mortar;

FIG. 2 is a first schematic structural diagram of a vitrified microbead processing apparatus;

FIG. 3 is a schematic structural diagram of a vitrified small ball processing apparatus II;

FIG. 4 is a schematic structural view of a flat plate;

FIG. 5 is a schematic view of the structure of a plate and a sphere;

FIG. 6 is a first schematic structural diagram of a grinding stone;

FIG. 7 is a second schematic structural view of a grinding stone;

FIG. 8 is a first structural view of a gantry I;

FIG. 9 is a second schematic structural view of the gantry I;

fig. 10 is a schematic structural view of a vertical bar.

In the figure: a plate 101; a folding groove 102; a hole groove 103; a blocking edge I104; a rotary base 105; an extension bar 106; a hinge post 107; a stopper post 108;

a sphere 201; an elastic sheet 202; a flat column 203; a diagonal post 204; a stopper 205; a hinge base 206;

a grindstone 301; a ledge II 302; a block 303; angle iron 304; a fastening screw 305;

a gantry I401; a gantry II 402; a motor 403; a rotating rod 404; a sliding sleeve 405; a flat bar 406; a slide rail 407;

a vertical bar 501; a telescopic rod I502; a lifting base 503; a telescopic rod II 504; a barrier 505; a catch pin 506; a round bar 507; and a push rod 508.

Detailed Description

A processing method of heat preservation cement mortar comprises the following steps:

s1: processing the vitrified micro bubbles by using a vitrified micro bubble processing device;

s2: mixing the treated vitrified micro bubbles with cement;

s3: adding hydrated lime, perlite powder, vitrified micro bubbles, latex powder and expanding agent into the vitrified micro bubbles and cement.

Referring to fig. 4-5, an embodiment of the present invention is provided, which solves the main technical problem of polishing the surface of the vitrified small ball, and further,

because the vitrified micro bubble processing device comprises the flat plate 101, the folding line grooves 102, the baffle edges I104 and the grinding stones 301, the plurality of folding line grooves 102 are arranged on the flat plate 101 from front to back, the baffle edges I104 are arranged on the edge of the upper side of the flat plate 101, the grinding stones 301 are positioned on the upper side of the flat plate 101, the vitrified micro bubbles are placed on the upper side of the flat plate 101, the baffle edges I104 can prevent the vitrified micro bubbles from sliding off from the upper side of the flat plate 101, the grinding stones 301 are pressed on the plurality of vitrified micro bubbles, and then the grinding stones 301 are continuously moved, the surfaces of the vitrified micro bubbles can be polished at the moment, the binding degree between the vitrified micro bubbles and cement is improved, and the folding line grooves 102 are arranged on the flat plate 101, so that the rolled distance of the vitrified micro bubbles on the flat plate 101 can be prevented from being too large, and the polishing of the vitrified micro bubbles is prevented from being influenced due to the too large rolled distance of the vitrified micro bubbles. The coarse vitrified micro bubbles can be tightly combined with cement.

Referring to fig. 4-5, an embodiment of the present invention is provided to further prevent the vitrified small balls from rolling too far on the flat plate 101, and further,

because the vitrified small ball processing apparatus also includes the hole slot 103, a plurality of hole slots 103 are evenly distributed on the flat plate 101, and a plurality of hole slots 103 cooperate with a plurality of folding line slots 102 to further prevent the vitrified small ball from rolling too far on the flat plate 101, and prevent from influencing the polishing of the vitrified small ball because the vitrified small ball rolls too far.

Referring to fig. 4-5, an embodiment of the present invention is provided to further prevent the vitrified small balls from rolling too far on the flat plate 101, and further,

because the plurality of hole grooves 103 are uniformly distributed among the plurality of folding line grooves 102, the plurality of hole grooves 103 are matched with the plurality of folding line grooves 102 to further prevent the vitrified micro bubbles from rolling too far on the flat plate 101, and the vitrified micro bubbles are prevented from being polished due to the influence of the too long vitrified micro bubbles rolling distance.

Referring to fig. 6-7, an embodiment of the present invention is provided to solve the main technical problem of facilitating replacement of the grinding stone 301, and further,

because the vitrified micro bubble processing apparatus still includes square frame 303, angle bar 304 and fastening screw 305, two angle bars 304 set up respectively at the upside both ends of square frame 303, the stone mill 301 presss from both sides between two angle bars 304, equal threaded connection has fastening screw 305 on two angle bars 304, fastening screw 305 can push up on stone mill 301 and fix stone mill 301, and then can lift off stone mill 301 from between two angle bars 304 through the mode of loosening a plurality of fastening screws 305, and then conveniently change stone mill 301.

Referring to fig. 2-7, an embodiment of the present invention is provided to solve the main technical problem of preventing the grinding effect from being affected by the too large relative displacement distance between the grinding stone 301 and the flat plate 101, and further,

because vitrified micro bubble processing apparatus still includes keeping off along II302, keep off along II302 setting at the lower side edge of square frame 303, keep off along II302 setting in keeping off along I104's the outside, can drive grindstone 301 constantly at the upside removal of a plurality of vitrified micro bubbles through the mode of constantly moving square frame 303 at will, and when keeping off along II302 touch and keep off along I104, grindstone 301 can't continue to move, prevent that the relative displacement distance between grindstone 301 and the dull and stereotyped 101 from too big influence effect of polishing.

Referring to fig. 4-5, an embodiment of the present invention is provided to solve the main technical problem of preventing the vitrified small balls from affecting the polishing effect on the accumulation at a certain position, and further,

because vitrified micro bubble processing apparatus still includes ball 201, elastic sheet 202, flat column 203 and articulated seat 206, ball 201 is located dull and stereotyped 101's downside, link to each other through having elastic sheet 202 between ball 201 and the flat column 203, articulated seat 206 sets up the downside at dull and stereotyped 101, the middle part of flat column 203 is articulated with articulated seat 206, and then can control flat column 203 and rotate on articulated seat 206, and then drive ball 201 through elastic sheet 202 and constantly vibrate from top to bottom, and then make ball 201 constantly strike the downside at dull and stereotyped 101, the vitrified micro bubble to dull and stereotyped 101 upside shakes constantly, prevent that vitrified micro bubble from piling up the influence effect of polishing in certain position.

Referring to fig. 2-7, an embodiment of the present invention is provided, which solves the main technical problem of continuously knocking the lower side of the flat plate 101 while the grindstone 301 grinds the vitrified micro bubbles, and further,

because vitrified micro bubble processing apparatus still includes batter post 204 and dog 205, batter post 204 sets up the right-hand member at flat post 203, the upside of flat post 203 has set up dog 205, articulated seat 206 is located the left side of dog 205, keep off along the right side of II302 and the upside inclined plane of batter post 204 contacts, and then when grindstone 301 and square frame 303 are continuous horizontal migration, keep off along II302 can constantly be in the inclined plane department on batter post 204 and remove, and then constantly push down the right-hand member of flat post 203, and then drive ball 201 and constantly strike the downside of dull and stereotyped 101, constantly strike the downside of dull and stereotyped 101 when grindstone 301 polishes vitrified micro bubble, prevent vitrified micro bubble from locating to piling up in a certain position.

Referring to fig. 2-7, an embodiment of the present invention is provided to solve the main technical problem of preventing the grinding stone 301 from rubbing the vitrified small ball too much to crush the vitrified portion, and further,

because the vitrified micro bubble processing device also comprises a rotating seat 105, an extension bar 106, a hinged column 107 and a limiting column 108, the rotating seat 105 is arranged at the rear part of the lower side of the flat plate 101, the front part of the hinged column 107 is rotatably connected on the rotating seat 105, the extension bar 106 is fixedly connected at the front side of the hinged column 107, the two limiting columns 108 are fixedly connected at the lower side of the flat plate 101, the extension bar 106 is arranged between the two limiting columns 108, the flat plate 101 can rotate horizontally on the hinge post 107 through the rotating seat 105, and the extension bar 106 can move between the two limiting posts 108, so that the flat plate 101 is prevented from rotating horizontally on the hinge post 107 by an excessive angle, and then when the grindstone 301 moves and polishes on the upper side of the flat plate 101, the flat plate 101 can horizontally rotate by a small angle, so that the vitrified micro bubbles can be polished more conveniently, and the vitrified position is prevented from being crushed due to overlarge friction generated between the grindstone 301 and the vitrified micro bubbles.

The heat-insulating cement mortar processed by the processing method of the heat-insulating cement mortar consists of the following raw materials in parts by weight: 20 parts of cement, 2 parts of hydrated lime, 4 parts of perlite powder, 7 parts of vitrified micro-beads, 4 parts of latex powder, 5 parts of expanding agent and 30 parts of water.

The vitrified micro bubble processing device also comprises a door-shaped frame I401, a door-shaped frame II402, a motor 403, a rotating rod 404, a sliding sleeve 405, a flat rod 406 and a sliding rail 407, the lower side of the door-shaped frame I401 is provided with the sliding rail 407, the sliding sleeve 405 is connected on the sliding rail 407 in the left-right direction in a sliding way, the flat rod 406 is connected on the sliding sleeve 405 in the front-back direction in a sliding way, the left end and the right end of the door-shaped frame I401 are respectively and fixedly connected at the middle parts of the two angle irons 304, the front end and the back end of the door-shaped frame II402 are respectively and fixedly connected at the front end and the back end of the flat rod 406, the middle part of the upper side of the door-shaped frame II402 is fixedly connected with the motor 403, the rotating rod 404 is fixedly connected on the output shaft of the motor 403, and the other end of the rotating rod 404 is hinged on the door-shaped frame I401.

The motor 403 drives the rotating rod 404 to rotate circumferentially, and then drives the door-shaped frame I401 to move horizontally back and forth and left and right, at this time, the sliding sleeve 405 slides on the sliding rail 407, the sliding sleeve 405 slides on the flat rod 406, and then the grinding stone 301 is continuously driven to move horizontally back and forth and left and right to polish the vitrified micro bubbles on the upper side of the flat plate 101.

The vitrified micro bubble processing device also comprises a vertical bar 501, a telescopic rod I502, a lifting seat 503, a telescopic rod II504, a blocking piece 505, a blocking pin 506, a round rod 507 and a mandril 508, wherein the upper end of the vertical bar 501 is fixedly connected with the mandril 508, the lower side of the mandril 508 is fixedly connected with two round rods 507, the two round rods 507 are vertically and slidably connected with a portal frame II402, the lower ends of the two round rods 507 are fixedly connected with the blocking pin 506, the two round rods 507 are respectively sleeved with a compression spring, the two compression springs are respectively positioned between the portal frame II402 and the mandril 508, the lifting seat 503 is slidably connected with the vertical bar 501, the vertical bar 501 is fixedly connected with the telescopic rod I502, the movable end of the telescopic rod I502 is fixedly connected with the lifting seat 503, the rear end of the hinged column 107 is hinged on the lifting seat 503, the upper side of the lifting seat 503 is fixedly connected with the blocking piece 505, the blocking piece 505 is blocked at the upper side of the hinged column 107, so that the column 107 cannot continuously move upwards after rotating to the horizontal direction, the downside fixedly connected with telescopic link II504 of lift seat 503, the upper end top of telescopic link II504 is at the downside of articulated post 107.

The telescopic link I502 drives the lift seat 503 vertical slip on vertical retort 501 when flexible, and then drives articulated post 107 and panel 101 and reciprocate, and then can upwards move dull and stereotyped 101 after placing the vitrification microballon at the upside of panel 101, make vitrification microballon and grindstone 301 contact, door shape frame II402 can be vertical slip on two round bars 507, two compression springs give door shape frame II402 power down, and then make grindstone 301 press and polish the vitrification microballon on a plurality of vitrification microballons, the position of panel 101 is higher, the compression degree to two compression springs is big more, the dynamics of grindstone 301 pressure on the vitrification microballon is big more, and then the dynamics of polishing is big more. After the vitrified micro bubbles are polished, the telescopic rod II504 is shortened and then the hinged column 107 rotates downwards on the lifting seat 503 under the action of gravity, so that the front end of the flat plate 101 inclines downwards, and the vitrified micro bubbles are poured out.