CN117962119A - Mixing arrangement is used in thermal insulation mortar preparation - Google Patents

Abstract

The invention relates to the field of heat-insulating mortar mixing, in particular to a mixing device for preparing heat-insulating mortar. The existing preparation device of the thermal insulation mortar has the defects that the light aggregate and the cement paste are not uniformly mixed, the quality of the mixed thermal insulation mortar is not good enough, a large amount of time is required to be consumed, and the preparation efficiency of the thermal insulation mortar is low. A mixing device for preparing thermal insulation mortar comprises a bracket; fixedly connected with compounding section of thick bamboo on the support, it has the discharge gate to open to mix section of thick bamboo bottom, all fixedly connected with limit case of compounding section of thick bamboo both sides, two the limit case is the symmetry setting, two all open two feed openings on the limit case, mix section of thick bamboo and two the limit case all communicates. The staff pour light aggregate and cement paste into the mixing drum to start the motor, can make the light aggregate that floats at the cement paste top layer mix into the cement paste bottom, make cement paste and light aggregate mix more evenly, thereby make the thermal insulation mortar quality that mixes out better.

Description

Mixing arrangement is used in thermal insulation mortar preparation

Technical Field

The invention relates to the field of heat-insulating mortar mixing, in particular to a mixing device for preparing heat-insulating mortar.

Background

The heat-insulating mortar is also called heat-insulating mortar, and is prepared by mixing various light materials as aggregate, cement as cementing material and some modifying additives through stirring by a production enterprise. A building material for constructing heat-insulating layer on building surface. The heat insulation material is mainly used for heat insulation of the building outer wall and has the advantages of convenience in construction, good durability and the like.

At present, most of the preparation devices of the thermal insulation mortar stir cement paste and lightweight aggregate through a stirrer, but the lightweight aggregate is light in weight and easily floats on the surface of the cement paste, so that the lightweight aggregate and the cement paste are not uniformly mixed, the quality of the mixed thermal insulation mortar is not good enough, and a large amount of time is required to stir the lightweight aggregate and the cement paste, so that the preparation efficiency of the thermal insulation mortar is low.

Disclosure of Invention

Aiming at the defects or shortcomings of the prior art, the invention provides the mixing device for preparing the thermal insulation mortar, which can ensure that cement paste and lightweight aggregate are mixed more uniformly, ensure that the quality of the mixed thermal insulation mortar is better, and improve the preparation efficiency of the thermal insulation mortar.

The technical proposal is as follows: the utility model provides a mixing arrangement for thermal insulation mortar preparation, includes the support, fixedly connected with compounding section of thick bamboo on the support, it has the discharge gate to open in compounding section of thick bamboo bottom, all fixedly connected with limit case of compounding section of thick bamboo both sides, two limit case is the symmetry setting, two all open on the limit case has two feed inlets, compounding section of thick bamboo with two limit case all communicates, compounding section of thick bamboo bottom fixedly connected with ejection of compact fill, compounding section of thick bamboo with ejection of compact fill intercommunication, it is connected with arc baffle to go out to slide on the hopper, arc baffle is located the ejection of compact fill below of compounding section of thick bamboo bottom, be provided with compounding mechanism on the compounding section of thick bamboo, compounding mechanism is used for mixing stirring cement paste and light aggregate, be provided with down pressing mechanism on the compounding section of thick bamboo, it is used for promoting light aggregate to get into cement paste bottom to press the mechanism for light aggregate and cement paste mix to make the thermal insulation mortar quality that mixes out better, be provided with pushing mechanism on the pressing mechanism, pushing mechanism is used for filtering and light aggregate surface layer of floating cement paste.

Further, the mixing mechanism comprises a rotating shaft, the rotating shaft is connected with the mixing barrel, a mixing paddle is fixedly connected to the rotating shaft and located in the mixing barrel, a motor is fixedly connected to the lower portion of the outer wall of the mixing barrel, and a transmission assembly I is connected between an output shaft of the motor and the rotating shaft.

Further, the first transmission assembly is composed of two belt pulleys and a belt, the belt pulley is fixedly connected to the output shaft of the motor, one end, away from the mixing paddle, of the rotating shaft is fixedly connected with the belt pulley, and the belt is wound between the two belt pulleys.

Further, push down the mechanism including a word trough plate, compounding section of thick bamboo outer wall lower part rotation type is connected with a word trough plate, it has the direction straight flute to open on the word trough plate, compounding section of thick bamboo top slidingtype is connected with the draw runner, fixedly connected with promotes the frame on the draw runner, it is equipped with the carriage to promote the frame to go up slidingtype, the carriage bottom is located in the direction straight flute on the word trough plate, two all slidingtype is connected with down the briquetting on the pressure box, two all fixedly connected with tripod on the briquetting down, two all be equipped with the extrusion inclined plane on the tripod.

Further, the automatic feeding device comprises a pushing mechanism, wherein the pushing mechanism is arranged on the sliding strip and comprises a pushing plate, the sliding strip is fixedly connected with the pushing plate, the pushing plate is positioned in the mixing barrel, and seven net plates are fixedly connected to the pushing plate.

Further, the automatic folding device comprises an opening and closing mechanism, wherein the opening and closing mechanism is arranged on the side box and comprises a first transverse shaft, two lower parts of the side box are all connected with the first transverse shaft in a rotating mode, two upper parts of the first transverse shaft are all fixedly connected with opening and closing plates, the opening and closing plates are located in a blanking opening of the lower parts of the side box, two upper ends of the first transverse shaft are all fixedly connected with first column gears, one of the first transverse shaft is provided with two first column gears, the first transverse shaft and the first column gears of the same group are connected with first torsion springs, the first torsion springs are sleeved on the first transverse shaft, two side box are all fixedly connected with two guide sleeves, two lower pressing blocks are all fixedly connected with two movable racks, one lower pressing block is provided with two movable racks, the movable racks are in a group, the movable racks are in sliding connection with the guide sleeves, and the first column gears are meshed with the movable racks.

Further, the automatic feeding device comprises a pressing mechanism, wherein the pressing mechanism is arranged on the lower pressing block, the pressing mechanism comprises a transverse shaft II, two transverse shafts II are connected to the lower pressing block in a rotating mode, the transverse shaft II passes through the side box, column gears II are fixedly connected to the two ends of the transverse shaft II, the column gears II are located outside the side box, the same transverse shaft II is provided with a group of column gears II, torsion springs II are connected between the side box and the same group of column gears II, the torsion springs II are sleeved on the transverse shaft II, fixed racks are fixedly connected to the side box, the same transverse shaft box is provided with a group of fixed racks, the lower part of the lower pressing block is fixedly connected with a pressing plate, two transmission assemblies II are connected between the transverse shaft II and the side box, the transmission assemblies II are located in the lower pressing block, the transmission assemblies are fixedly connected with two transmission wheels, and the transmission assemblies are connected with two transmission belts, and the transmission assemblies are fixedly connected with the transmission belts.

Further, the scraper is further included, the two sides of the pushing plate are connected with the scraper in a sliding mode, and three reset springs are connected between the pushing plate and the two scrapers.

The beneficial effects of the invention are as follows: firstly, staff pours light aggregate and cement paste into a mixing cylinder, cement paste can enter two side boxes through the feed opening at the lower parts of the two side boxes, then the staff starts a motor, the motor drives seven screen plates to horizontally reciprocate, when a slotted disc extrusion pushing frame horizontally moves, one of the transverse shafts drives one of the opening and closing plates to swing downwards for a while, one of the opening and closing plates can block the feed opening at the lower part of one of the side boxes, the seven screen plates push the seven screen plates to horizontally move, simultaneously, the seven screen plates can filter and push the light aggregate floating on the surface layer of the cement paste to enter one of the side boxes, when the slotted disc extrusion pushing frame horizontally moves reversely, one of the lower pressing blocks can push the light aggregate in one of the side boxes and the cement paste to return into the mixing cylinder, and sequentially reciprocate, so that the light aggregate floating on the surface layer of the cement paste is mixed into the bottom of the cement paste, and the light aggregate are mixed uniformly, and the quality of the mixed thermal insulation mortar is better.

When one of them tripod drives one of them briquetting and upwards moves, wherein a set of drive assembly second can drive one of them pressure flitch and upwards swing, when one of them tripod drives one of them briquetting and downwards moves and reset, wherein a set of drive assembly second reverse rotation can drive one of them pressure flitch and downwards swing and reset, and one of them pressure flitch resets and can further promote the lightweight aggregate that is located one of them limit incasement and get into in the compounding section of thick bamboo, and is reciprocal in proper order, can make the lightweight aggregate of limit incasement get into more thoroughly in the compounding section of thick bamboo and mix with the grout to improve thermal insulation mortar's preparation efficiency.

When the slide bar drives the pushing plate to horizontally reciprocate, the two scraping plates can scrape cement paste and light aggregate attached to the inner wall of the mixing cylinder, so that the cement paste and the light aggregate are mixed more uniformly, and the mixed thermal insulation mortar is better in quality.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a part of a three-dimensional structure of a mixing mechanism in an operation state of the invention.

Fig. 3 is a schematic perspective view of a pressing mechanism in an operating state of the present invention.

Fig. 4 is a schematic perspective view of a mixing mechanism in a partially cut-away view in an operational state of the present invention.

Fig. 5 is a schematic cross-sectional perspective view of the support, mixing barrel and lower press block in the working state of the invention.

Fig. 6 is a schematic perspective view of a part of a cross-section of a mixing mechanism and a pressing mechanism in the working state of the invention.

Fig. 7 is a schematic view of a part of the three-dimensional structure of the pressing mechanism and the pressing mechanism of the present invention.

Fig. 8 is a schematic cross-sectional perspective view of the opening and closing mechanism of the present invention.

FIG. 9 is a schematic cross-sectional perspective view of the lower press block and the press plate of the present invention.

Fig. 10 is an enlarged perspective view of fig. 9 a according to the present invention.

Fig. 11 is a partially disassembled perspective view of the pressing mechanism of the present invention.

Fig. 12 is a schematic view of a part of a three-dimensional structure of a pressing mechanism of the present invention.

Fig. 13 is a schematic diagram of a split three-dimensional structure of the pushing mechanism of the present invention.

Fig. 14 is a schematic perspective view of the scraper and return spring of the present invention.

Reference numerals: 1_support, 2_mixing drum, 3_side bin, 4_hopper, 5_arcuate shutter, 61_spindle, 62_mixing paddle, 63_motor, 64_drive component one, 71_straight bar, 72_slide, 73_push rack, 731_slide, 74_push block, 75_tripod, 81_push plate, 82_screen, 91_cross shaft one, 92_open plate, 93_column gear one, 931_torsion spring one, 94_guide sleeve, 95_movable rack, 101_cross shaft two, 102_column gear two, 1021_torsion spring two, 103_stationary rack, 104_press plate, 105_drive component two, 11_scraper, 12_return spring.

Detailed Description

Standard parts used in the invention can be purchased from the market, special-shaped parts can be customized according to the description of the specification and the drawings, and the specific connection modes of the parts adopt conventional means such as mature bolts, rivets, welding, pasting and the like in the prior art, and the detailed description is omitted.

Example 1: the utility model provides a mixing arrangement for heat preservation mortar preparation, is shown as fig. 1-13, including support 1, there is compounding section of thick bamboo 2 through bolted connection on the support 1, it has the discharge gate to open to compounding section of thick bamboo 2 bottom, compounding section of thick bamboo 2 both sides all welds there are limit case 3, two limit case 3 is the symmetry setting, two all open on the limit case 3 and have two feed openings, compounding section of thick bamboo 2 and two limit case 3 all communicate, compounding section of thick bamboo 2 bottom welding has ejection of compact fill 4, ejection of compact fill 4 is used for the ejection of compact mortar to the ejection of compact, compounding section of thick bamboo 2 with ejection of compact fill 4 intercommunication, the slip type is connected with arc baffle 5 on the ejection of compact fill 4, arc baffle 5 is located the ejection of compact fill 4 below of compounding section of thick bamboo 2 bottom, arc baffle 5 is used for blocking up the discharge gate of compounding section of thick bamboo 2 bottom, be provided with mixing mechanism on the compounding section of thick bamboo 2, mixing mechanism is used for carrying out the mixing stirring to grout and light aggregate, be provided with down the mechanism on compounding section of thick bamboo 2, it is used for pushing down the mechanism to get into light aggregate to push away from the mechanism, and the light aggregate to push away from the mechanism and make the light aggregate to get into the cement grout and the light aggregate to the top layer more evenly, the light aggregate layer is used for pushing the cement slurry to mix the mechanism.

The mixing mechanism comprises a rotating shaft 61, the rotating shaft 61 is rotatably connected with the mixing barrel 2, a mixing paddle 62 is connected to the rotating shaft 61 through a bolt, the mixing paddle 62 is positioned in the mixing barrel 2, the mixing paddle 62 is used for stirring lightweight aggregate and cement slurry in the mixing barrel 2, a motor 63 is connected to the lower portion of the outer wall of the mixing barrel 2 through a bolt, a transmission assembly I64 is connected between an output shaft of the motor 63 and the rotating shaft 61, the transmission assembly I64 consists of two belt pulleys and a belt, the output shaft of the motor 63 is connected with one belt pulley through a flat key, one end of the rotating shaft 61, which is far away from the mixing paddle 62, is connected with one belt pulley through a flat key, and the belt is wound between the two belt pulleys.

The pushing mechanism comprises a straight groove disc 71, the lower part of the outer wall of a mixing drum 2 is rotationally connected with the straight groove disc 71, guide straight grooves are formed in the straight groove disc 71, sliding bars 72 are slidably connected to the top of the mixing drum 2, pushing frames 73 are welded on the sliding bars 72, sliding frames 731 are slidably arranged on the pushing frames 73, the bottom ends of the sliding frames 731 are located in the guide straight grooves in the straight groove disc 71, two pressing blocks 74 are slidably connected to the pressing blocks, the pressing blocks 74 are used for pushing light aggregate to reenter cement paste, tripod 75 are welded on the pressing blocks 74, and extrusion inclined planes are arranged on the tripod 75.

The device is characterized by further comprising a pushing mechanism, wherein the pushing mechanism is arranged on the sliding strip 72 and comprises a pushing plate 81, the pushing plate 81 is welded on the sliding strip 72 and positioned in the mixing cylinder 2, seven screen plates 82 are connected onto the pushing plate 81 through bolts, and the screen plates 82 are used for filtering and pushing light aggregate floating on the surface layer of cement paste.

The automatic folding and unfolding device comprises a side box 3, and is characterized by further comprising an opening and unfolding mechanism, wherein the opening and unfolding mechanism is arranged on the side box 3 and comprises a first transverse shaft 91, the lower parts of the side box 3 are rotatably connected with the first transverse shaft 91, the first transverse shaft 91 is welded with an opening and unfolding plate 92, the opening and unfolding plate 92 is positioned in a feed opening at the lower part of the side box 3, the two ends of the first transverse shaft 91 are connected with a first column gear 93 through a flat key, one of the first transverse shaft 91 is provided with a first column gear 93, a first torsion spring 931 is connected between the first transverse shaft 91 and the first column gear 93 through a hook, the first torsion spring 931 is sleeved on the first transverse shaft 91, the two side box 3 is connected with two guide sleeves 94 through bolts, the two lower press blocks 74 are welded with two movable racks 95, the two movable racks 95 on the same lower press blocks 74 are in a group, the movable racks 95 are in sliding connection with the first column gear 93, and the movable racks 95 are meshed with the movable racks 95.

Initially, the arc baffle 5 plugs the discharge hole at the bottom of the mixing barrel 2, the two lower pressing blocks 74 plug the discharge holes at the middle parts of the two side tanks 3 respectively, firstly, a worker pours light aggregate and cement paste into the mixing barrel 2, the cement paste enters the two side tanks 3 through the discharge holes at the lower parts of the two side tanks 3, then the worker starts the motor 63, the output shaft of the motor 63 drives the transmission component I64 to rotate, the transmission component I64 rotates to drive the rotating shaft 61 to rotate, the rotating shaft 61 rotates to drive the mixing paddles 62 and the linear trough plates 71 to rotate, the mixing paddles 62 rotate to stir the cement paste and the light aggregate in the mixing barrel 2, the linear trough plates 71 rotate to squeeze the sliding frame 731 to reciprocate up and down and left and right on the pushing frame 73, the pushing frame 73 is driven to reciprocate horizontally by the sliding frame 731, the pushing frame 73 drives the sliding bar 72 to reciprocate horizontally, the sliding bar 72 horizontally reciprocates to drive the pushing plate 81 to horizontally reciprocate, the pushing plate 81 horizontally reciprocates to drive the seven screen plates 82 to horizontally reciprocate, when the linear groove disc 71 extrudes the pushing frame 73 to horizontally move, the top of the pushing frame 73 contacts with the pushing inclined surface on one of the triangular frames 75, the pushing frame 73 pushes one of the triangular frames 75 to move upwards, one of the triangular frames 75 moves upwards to drive one of the pressing blocks 74 to move upwards, one of the pressing blocks 74 can no longer block the blanking opening in the middle of one of the side boxes 3, one of the pressing blocks 74 can drive one of the movable racks 95 to move upwards, two of the two column gears 93 of one of the two groups of the movable racks 95 are respectively meshed, one of the movable racks 95 moves upwards to drive one of the column gears 93 to rotate, one of them a set of pillar gear one 93 rotates and can drive one of them cross axle one 91 and rotates, one of them cross axle one 91 rotates and can drive one of them opening plate 92 downward swing, one of them opening plate 92 can block up the feed opening of one of them limit case 3 lower part, when pushing plate 81 promotes seven otter board 82 all horizontal migration, seven otter board 82 can filter and promote the light aggregate that floats at the grout top layer and get into one of them limit case 3, when a word groove dish 71 extrusion pushing frame 73 reverse horizontal migration, pushing frame 73 can break away from the contact with one of them tripod 75, one of them tripod 75 and one of them lower briquetting 74 can all move down under the effect of gravity and reset, one of them lower briquetting 74 can block up the feed opening at one of them limit case 3 middle part again, one of them lower briquetting 74 downward movement can promote the light aggregate in one of them limit case 3 and the cement paste returns to the compounding section of thick bamboo 2 in proper order, can make the light aggregate that floats at the grout top layer mix bottom, thereby make mixed quality better, when the thermal insulation mortar mix the bottom 5, the arc-shaped mixing hopper can be accomplished to the heat preservation mortar mix the bottom can not be accomplished by the arc-shaped mixing hopper 2, the mixed mortar can be discharged out through the arc-shaped mixing hopper 2 after the work is accomplished, the bottom can stop up the arc-shaped mixing hopper is accomplished by the bottom 5.

Example 2: on the basis of embodiment 1, as shown in fig. 7-12, the device further comprises a pressing mechanism, the pressing mechanism is arranged on the lower pressing block 74, the pressing mechanism comprises a transverse shaft two 101, two transverse shafts two 101 are rotatably connected to the two lower pressing blocks 74, the transverse shaft two 101 passes through the side case 3, two ends of the transverse shaft two 101 are connected with a post gear two 102 through a flat key, the post gear two 102 is positioned outside the side case 3, two post gears two 102 on the same transverse shaft two 101 are in a group, a torsion spring two 1021 is connected between the side case 3 and the same group of two post gears two 102 through a hook, the torsion spring two 1021 is sleeved on the transverse shaft two 101, two fixed racks 103 are welded on the side case 3, two fixed racks 103 on the same side case 3 are in a group, the second column gear 102 is meshed with the fixed rack 103, the lower parts of the two lower pressing blocks 74 are all rotationally connected with pressing plates 104, the pressing plates 104 are used for further pushing lightweight aggregate into cement paste, two transmission assemblies II 105 are connected between the pressing plates 104 and the second transverse shafts 101, the transmission assemblies II 105 are located in the lower pressing blocks 74, the transmission assemblies II 105 are composed of two transmission wheels and a transmission belt, the two transverse shafts II 101 are connected with the two transmission wheels through flat keys, the two pressing plates 104 are connected with the two transmission wheels through flat keys, the two transmission wheels are in a group, a transmission belt is wound between the two transmission wheels of the same group, and the two transmission assemblies II 105 on the same second transverse shaft 101 are in a group.

Initially, the fixed racks 103 are engaged with the second torsion springs 102, the second torsion springs 1021 are in a twisted state, when one of the triangular frames 75 drives one of the lower press blocks 74 to move upwards, one of the lower press blocks 74 drives one of the second transverse shafts 101, one of the second sets of the second torsion springs 102, two of the second torsion springs 1021, two of the transmission assemblies 105 and the pressing plate 104 to move upwards, one of the second sets of the second torsion springs 102 rotates under the action of one of the fixed racks 103, the two torsion springs 1021 rebound, one of the second sets of the second torsion springs 102 rotates to drive one of the second transverse shafts 101 to rotate, one of the second transverse shafts 101 rotates to drive one of the transmission assemblies 105, one of the second transmission assemblies 105 drives one of the pressing plate 104 to swing upwards, then one of the two sets of two post gears 102 is disengaged from one of the two fixed racks 103, when one of the triangular frames 75 drives one of the lower pressing blocks 74 to move downwards for resetting, one of the lower pressing blocks 74 resets to drive one of the two transverse shafts 101, one of the two sets of post gears 102, two of the torsion springs 1021, two of the transmission assemblies 105 and the pressing plate 104 to move downwards for resetting, one of the two sets of two post gears 102 is engaged with one of the two fixed racks 103, one of the two sets of post gears 102 moves downwards to rotate reversely under the action of one of the fixed racks 103, the two torsion springs 1021 are twisted again, one of the two sets of post gears 102 rotates reversely to drive one of the two transverse shafts 101 to rotate reversely, one of the two transverse shafts 101 rotates reversely to drive one of the two transmission assemblies 105 to rotate reversely, one of them a set of drive assembly two 105 counter-rotating can drive one of them pressure flitch 104 down swing and reset, and one of them pressure flitch 104 resets and can further promote the lightweight aggregate that is located in one of them limit case 3 and get into compounding section of thick bamboo 2 in, and is reciprocal in proper order, can make the lightweight aggregate in the limit case 3 get into compounding section of thick bamboo 2 more thoroughly and mix with the grout to improve thermal insulation mortar's preparation efficiency.

Example 3: on the basis of the embodiment 2, as shown in fig. 13-14, the device further comprises a scraping plate 11, wherein both sides of the pushing plate 81 are slidably connected with the scraping plate 11, the scraping plate 11 is used for scraping off cement paste and lightweight aggregate attached to the inner wall of the mixing cylinder 2, and three reset springs 12 are connected between the pushing plate 81 and the two scraping plates 11 through hooks.

Initially, the two scraping plates 11 are in close contact with the inner wall of the mixing barrel 2 under the action of the return spring 12, when the sliding strip 72 drives the pushing plate 81 to horizontally reciprocate, the pushing plate 81 drives the two scraping plates 11 and the six return springs 12 to horizontally reciprocate, and the two scraping plates 11 scrape cement paste and lightweight aggregate attached to the inner wall of the mixing barrel 2, so that the cement paste and the lightweight aggregate are mixed more uniformly, and the mixed thermal insulation mortar is better in quality.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. A mixing arrangement for thermal insulation mortar preparation, characterized by: including support (1), fixedly connected with compounding section of thick bamboo (2) on support (1), it has the discharge gate to open in compounding section of thick bamboo (2) bottom, all fixedly connected with limit case (3) of compounding section of thick bamboo (2) both sides, two limit case (3) are the symmetry setting, two all open two feed openings on limit case (3), compounding section of thick bamboo (2) and two limit case (3) all communicate, compounding section of thick bamboo (2) bottom fixedly connected with goes out hopper (4), compounding section of thick bamboo (2) with ejection of compact hopper (4) intercommunication, slidingtype connection has arc baffle (5) on ejection of compact hopper (4), arc baffle (5) are located play hopper (4) below of compounding section of thick bamboo (2) bottom, be provided with compounding mechanism on compounding section of thick bamboo (2), compounding mechanism is used for carrying out mixing stirring to cement paste and light weight, be provided with down pressing mechanism on compounding section of thick bamboo (2), it is used for promoting light weight to get into light weight to press the bottom and make light weight to push away and construct the cement paste, make light weight cement paste and push away the cement paste and make the cement paste and mix the top layer to push away evenly and make the cement paste and mix the cement paste and make the cement paste to float on the surface layer.

2. A mixing device for preparing thermal insulation mortar according to claim 1, characterized in that: the mixing mechanism comprises a rotating shaft (61), the rotating shaft (61) is rotatably connected to the mixing barrel (2), a mixing paddle (62) is fixedly connected to the rotating shaft (61), the mixing paddle (62) is located in the mixing barrel (2), a motor (63) is fixedly connected to the lower portion of the outer wall of the mixing barrel (2), and a transmission assembly I (64) is connected between an output shaft of the motor (63) and the rotating shaft (61).

3. A mixing device for preparing thermal insulation mortar according to claim 2, characterized in that: the first transmission assembly (64) consists of two belt pulleys and a belt, the belt pulley is fixedly connected to an output shaft of the motor (63), one end, away from the mixing paddle (62), of the rotating shaft (61) is fixedly connected with the belt pulley, and the belt is wound between the two belt pulleys.

4. A mixing device for preparing thermal insulation mortar according to claim 1, characterized in that: the pushing mechanism comprises a straight groove disc (71), the lower part of the outer wall of a mixing drum (2) is rotationally connected with the straight groove disc (71), guide straight grooves are formed in the straight groove disc (71), sliding bars (72) are connected to the tops of the mixing drum (2) in a sliding mode, pushing frames (73) are fixedly connected to the sliding bars (72), sliding frames (731) are arranged on the pushing frames (73) in a sliding mode, the bottom ends of the sliding frames (731) are located in the guide straight grooves in the straight groove disc (71), two pressing blocks (74) are connected to the two pressing blocks in a sliding mode, triangular frames (75) are fixedly connected to the two pressing blocks (74), and extrusion inclined planes are formed in the triangular frames (75).

5. The mixing device for preparing thermal insulation mortar according to claim 4, wherein: the automatic feeding device is characterized by further comprising a pushing mechanism, wherein the pushing mechanism is arranged on the sliding strip (72) and comprises a pushing plate (81), the sliding strip (72) is fixedly connected with the pushing plate (81), the pushing plate (81) is positioned in the mixing barrel (2), and seven net plates (82) are fixedly connected to the pushing plate (81).

6. A mixing device for preparing thermal insulation mortar according to claim 1, characterized in that: still including opening and closing mechanism, the mechanism that opens and shuts sets up on limit case (3), the mechanism that opens and shuts is including cross axle one (91), two all rotate to be connected with in limit case (3) lower part cross axle one (91), two all fixedly connected with on cross axle one (91) open and shut board (92), open and shut board (92) are located in the feed opening of limit case (3) lower part, two cross axle one (91) both ends all fixedly connected with post gear one (93), one of them two on cross axle one (91) post gear one (93) are a set of, cross axle one (91) and two of same group all are connected with torsion spring one (931) between post gear one (93), torsion spring one (931) cover is in on cross axle one (91), two all fixedly connected with two uide bushing (94) on limit case (3), two all fixedly connected with on lower briquetting (74) two movable racks (95) are one movable rack (95) and one movable rack (95).

7. The mixing device for preparing thermal insulation mortar according to claim 4, wherein: the device comprises a lower pressing block (74), and is characterized by further comprising a pressing mechanism, wherein the pressing mechanism is arranged on the lower pressing block (74), the pressing mechanism comprises a transverse shaft II (101), two transverse shafts II (101) are rotatably connected to the lower pressing block (74), the transverse shaft II (101) penetrate through the side box (3), two ends of the transverse shaft II (101) are fixedly connected with a post gear II (102), the post gear II (102) is positioned outside the side box (3), the two post gears II (102) on the same transverse shaft II (101) are in a group, torsion springs II (1021) are connected between the side box (3) and the same group of two post gears II (102), the torsion springs II (1021) are sleeved on the transverse shaft II (101), two fixed racks (103) on the same side box (3) are fixedly connected, the two fixed racks (103) on the same side box (3) are in a group, the two post gears II (102) are in a group, the two transmission components (104) are in a transmission component (105) and are in a transmission component (105), the two transmission component (104) are in a transmission component (105) and are in a transmission component (105), two driving wheels are fixedly connected to the second transverse shaft (101), two driving wheels are fixedly connected to the pressing plate (104), two driving wheels are in a group, a driving belt is wound between the two driving wheels of the same group, and two driving assemblies (105) on the second transverse shaft (101) are in a group.

8. The mixing device for preparing thermal insulation mortar according to claim 5, wherein: the novel scraper blade is characterized by further comprising scraper blades (11), wherein the two sides of the pushing plate (81) are connected with the scraper blades (11) in a sliding mode, and three reset springs (12) are connected between the pushing plate (81) and the two scraper blades (11).