CN114182602A - Floor mud mixing arrangement for building site - Google Patents

Abstract

The invention relates to a mud mixing device, in particular to a floor mud mixing device for a building site. The invention provides a floor slurry mixing device for a building site, which can realize automatic slurry stirring, automatic slurry conveying and automatic slurry knocking. A floor mud mixing device for construction sites, comprising: the connecting frame is internally provided with a first connecting rod; the first connecting rod is rotatably provided with a rotary connecting barrel; the upper part of the connecting frame is provided with a stirring mechanism; the pushing mechanism is arranged on the connecting frame. According to the invention, the handle drives the sliding connecting rod to rotate, the sliding connecting rod drives the rotary stirring rod to rotate, the first spring is deformed in a torsional mode, and the rotary stirring rod stirs slurry in the rotary connecting barrel, so that the effect of stirring the slurry by the rotary stirring rod is realized.

Description

Floor mud mixing arrangement for building site

Technical Field

The invention relates to a mud mixing device, in particular to a floor mud mixing device for a building site.

Background

Roads are infrastructures for various trackless vehicles and pedestrians to pass through, and are classified into roads, urban roads, country roads, factory roads, forestry roads, examination roads, competition roads, automobile test roads, workshop roads, school roads and the like according to the use characteristics of the roads, and ancient China also has posthouse roads.

The slurry consists of water, cement, additive and admixture, and has the advantages of high cementing performance, high stone strength, convenient slurry making, high cement price, thick grains, easy filling of fine pores, poor slurry stability, easy precipitation, and capacity of blocking some penetration sections prematurely, resulting in poor grouting effect.

The conventional slurry stirring and mixing mode is that a user pours slurry into a bucket, then clear water is added, and then the slurry is stirred by means of a tool, so that the slurry is prevented from being excessively converted into paste, the stirred slurry needs to be manually carried by a worker, the work task of the worker is increased, and the worker also needs to knock the slurry intermittently to prevent the slurry from being condensed.

Therefore, the floor slurry mixing device for the building site is designed to realize automatic slurry stirring, automatic slurry conveying and automatic slurry knocking.

Disclosure of Invention

In order to overcome the defects that the traditional slurry mixing device cannot automatically stir slurry, convey slurry and knock slurry, the invention provides the floor slurry mixing device for the building site, which can automatically stir slurry, convey slurry and knock slurry.

The invention is realized in this way, a floor mud mixing device for construction site, comprising:

the first connecting rod is arranged inside the connecting frame;

the first connecting rod is rotatably provided with a rotary connecting barrel;

the upper part of the connecting frame is provided with a stirring mechanism;

the pushing mechanism is arranged on the connecting frame.

The rabbling mechanism includes:

the upper part of the connecting frame is provided with a sliding connecting plate;

the middle part of the sliding connecting plate is provided with a sliding connecting rod in a sliding way;

the sliding connecting rod is rotatably provided with a rotating stirring rod;

the handle is arranged at the top of the rotary stirring rod;

the sliding connection rod is wound with a first spring, and two ends of the first spring are connected with the sliding connection plate and the sliding connection rod respectively.

In a preferred embodiment of the present invention, the pusher mechanism comprises:

the inclined plane pushing rod is arranged inside the connecting frame;

the first straight gear is arranged on each of the two sides of the rotary connecting barrel;

the first rack is arranged on each of the two sides of the sliding connecting rod and matched with the first straight gear;

the lower part of the rotary connecting barrel is provided with a first sliding sleeve;

the middle part of the first sliding sleeve is provided with a pushing rod in a sliding manner, the pushing rod is connected with the connecting frame in a sliding manner, and the pushing rod is matched with the inclined plane pushing rod;

the second spring is wound on the material pushing rod, and two ends of the second spring are respectively connected with the first sliding sleeve and the material pushing rod;

the material receiving barrel is arranged inside the connecting frame.

As a preferred aspect of the present invention, a lock mechanism includes:

the sliding connecting plate is provided with a second connecting rod;

the first locking rod is arranged on the second connecting rod in a sliding mode;

the second connecting rod is wound with a second spring, and two ends of the second spring are respectively connected with the second connecting rod and the first locking rod;

and the lower part of the first locking rod is provided with a second locking rod which is matched with the sliding connecting rod.

As a preferred technical solution of the present invention, the automatic driving mechanism includes:

the motor is arranged at the upper part of the connecting frame;

the rotary stirring rod is provided with a second straight gear;

the upper part of the sliding connecting plate is rotatably provided with a rotating shaft;

a third straight gear is arranged on the rotating shaft and meshed with the second straight gear;

and the transmission assembly is connected between the motor output shaft and the rotating shaft.

As a preferable aspect of the present invention, the intermittent unlocking mechanism includes:

the sliding connecting plate is provided with a third connecting rod;

the third connecting rod is provided with a second rack in a sliding manner;

the gear-lacking wheel is arranged on the rotating shaft and matched with the second rack.

As a preferred technical solution of the present invention, the driving reset mechanism includes:

the fixing plate is arranged at the lower part of the connecting frame;

the fixed plate is provided with a winding wheel in a rotating mode;

the lower part of the connecting frame is rotatably provided with a roller;

the pull rope is connected between the reel and the second rack and is connected with the roller in a sliding manner;

the first rack on one side is provided with a third rack;

and a fourth straight gear is arranged in the middle of the reel and matched with the third rack.

As a preferable aspect of the present invention, the vibration mechanism includes:

the connecting frame is provided with a fourth connecting rod;

the fourth connecting rod is provided with a sliding driving rod in a sliding manner, and the sliding driving rod is matched with the rotary connecting barrel;

the fourth spring is wound on the fourth connecting rod, and two ends of the fourth spring are respectively connected with the fourth connecting rod and the sliding driving rod;

the fifth connecting rods are arranged on the two sides of the connecting frame;

the sliding vibration rods are arranged on the two fifth connecting rods in a sliding manner and are matched with the sliding driving rods;

and the two fifth connecting rods are wound with fifth springs, and the two ends of each fifth spring are respectively connected with the fifth connecting rods and the sliding vibration rod.

In a preferred embodiment of the present invention, the material of the rotating stirring rod is alloy steel.

The invention provides a floor mud mixing device for a construction site. The method has the following beneficial effects:

1. according to the invention, the handle drives the sliding connecting rod to rotate, the sliding connecting rod drives the rotary stirring rod to rotate, the first spring is deformed in a torsional mode, and the rotary stirring rod stirs slurry in the rotary connecting barrel, so that the effect of stirring the slurry by the rotary stirring rod is realized;

2. according to the invention, the pushing rod is driven to move inwards by rotating to be in contact fit with the inclined plane pushing rod, the second spring is compressed, and the pushing rod pushes residual slurry in the rotary connection barrel, so that the slurry completely falls into the receiving barrel, and the effect of pushing the slurry by the pushing rod is realized;

3. according to the invention, the second locking rod moves rightwards to be in contact with the sliding connecting rod, so that the sliding connecting rod is locked by the second locking rod, the sliding connecting rod is prevented from being shifted, and the effect of locking the sliding connecting rod by the second locking rod is realized;

4. according to the invention, the sliding vibration rod moves inwards to be in contact with the material receiving barrel, and then the sliding vibration rod knocks the material receiving barrel, so that slurry is prevented from being condensed, and the effect of knocking the material receiving barrel by the sliding vibration rod is realized.

Drawings

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

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a schematic perspective view of a first part of the stirring mechanism of the present invention.

Fig. 4 is a schematic perspective view of a second part of the stirring mechanism of the present invention.

Fig. 5 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 6 is a schematic perspective view of the locking mechanism of the present invention.

Fig. 7 is a schematic three-dimensional structure diagram of the automatic driving mechanism of the present invention.

Fig. 8 is a schematic perspective view of the intermittent unlocking mechanism of the present invention.

Fig. 9 is a schematic perspective view of a first part of the driving reset mechanism of the present invention.

Fig. 10 is a schematic perspective view of a second part of the driving reset mechanism of the present invention.

Fig. 11 is a schematic perspective view of a first part of the vibration mechanism of the present invention.

Fig. 12 is a perspective view of a second part of the vibration mechanism of the present invention.

Wherein: 1-connecting frame, 2-first connecting rod, 3-rotary connecting barrel, 4-stirring mechanism, 41-sliding connecting plate, 42-sliding connecting rod, 43-first spring, 44-rotary stirring rod, 45-handle, 5-pushing mechanism, 51-inclined pushing rod, 52-first straight gear, 53-first rack, 54-first sliding sleeve, 55-pushing rod, 56-second spring, 57-receiving barrel, 6-locking mechanism, 61-second connecting rod, 62-first locking rod, 63-third spring, 64-second locking rod, 7-automatic driving mechanism, 71-motor, 72-second straight gear, 73-third straight gear, 74-transmission component and 75-rotating shaft, 8-intermittent unlocking mechanism, 81-third connecting rod, 82-second rack, 83-missing gear, 9-driving reset mechanism, 91-fixed plate, 92-reel, 93-roller, 94-pull rope, 95-third rack, 96-fourth straight gear, 10-vibration mechanism, 101-fourth connecting rod, 102-sliding driving rod, 103-fourth spring, 104-fifth connecting rod, 105-sliding vibration rod, 106-fifth spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 12, the present invention provides a technical solution: the utility model provides a floor mud mixing arrangement for building site, is equipped with head rod 2 including splice frame 1, head rod 2, swivelling joint bucket 3, rabbling mechanism 4 and pushing equipment 5 on the inside right side of splice frame 1, and the swivelling joint bucket 3 that rotates on the head rod 2 is equipped with, and 1 upper portion of splice frame is equipped with rabbling mechanism 4, is equipped with pushing equipment 5 on the splice frame 1.

The stirring mechanism 4 comprises a sliding connection plate 41, a sliding connection rod 42, a first spring 43, a rotary stirring rod 44 and a handle 45, the sliding connection plate 41 is arranged on the upper portion of the connection frame 1, the sliding connection rod 42 is arranged in the middle of the sliding connection plate 41 in a sliding mode, the rotary stirring rod 44 is arranged on the sliding connection rod 42 in a rotating mode, the handle 45 is arranged at the top of the rotary stirring rod 44, the first spring 43 is wound on the sliding connection rod 42, and two ends of the first spring 43 are connected with the sliding connection plate 41 and the sliding connection rod 42 respectively.

The pushing mechanism 5 comprises an inclined plane pushing rod 51, a first straight gear 52, a first rack 53, a first sliding sleeve 54, a pushing rod 55, a second spring 56 and a material receiving barrel 57, the inclined plane pushing rod 51 is arranged on the right side inside the connecting frame 1, the first straight gear 52 is arranged on each of the front side and the rear side of the rotary connecting barrel 3, the first racks 53 are arranged on each of the front side and the rear side of the sliding connecting rod 42, the first racks 53 are matched with the first straight gear 52, the first sliding sleeve 54 is arranged on the lower portion of the rotary connecting barrel 3, the pushing rod 55 is slidably arranged in the middle of the first sliding sleeve 54, the pushing rod 55 is slidably connected with the connecting frame 1, the pushing rod 55 is matched with the inclined plane pushing rod 51, the second spring 56 is wound on the pushing rod 55, two ends of the second spring 56 are respectively connected with the first sliding sleeve 54 and the pushing rod 55, and the material receiving barrel 57 is arranged on the left side inside the connecting frame 1.

The locking mechanism 6 comprises a second connecting rod 61, a first locking rod 62, a third spring 63 and a second locking rod 64, the second connecting rod 61 is arranged on the left side of the sliding connecting plate 41, the first locking rod 62 is arranged on the right side of the second connecting rod 61 in a sliding mode, the third spring 63 is wound on the second connecting rod 61, two ends of the third spring 63 are respectively connected with the second connecting rod 61 and the first locking rod 62, the second locking rod 64 is arranged on the lower portion of the first locking rod 62, and the second locking rod 64 is matched with the sliding connecting rod 42.

Still including automatic drive mechanism 7, automatic drive mechanism 7 is including motor 71, second spur gear 72, third spur gear 73, transmission assembly 74 and pivot 75, motor 71 is installed on connection frame 1 rear side upper portion, be equipped with second spur gear 72 on the rotatory puddler 44, sliding connection board 41 right side upper portion rotary type is equipped with pivot 75, be equipped with third spur gear 73 on the pivot 75, third spur gear 73 and second spur gear 72 mesh, be connected with transmission assembly 74 between motor 71 output shaft and the pivot 75, transmission assembly 74 comprises two belt pulleys and a belt, two belt pulleys are established respectively on motor 71 output shaft and pivot 75, the belt is around between two belt pulleys.

The intermittent unlocking mechanism 8 comprises a third connecting rod 81, a second rack 82 and a missing gear 83, the third connecting rod 81 is arranged on the front side of the sliding connecting plate 41, the second rack 82 is arranged on the third connecting rod 81 in a sliding mode, the missing gear 83 is arranged on the rotating shaft 75, and the missing gear 83 is matched with the second rack 82.

Still including driving canceling release mechanical system 9, it is including fixed plate 91 to drive canceling release mechanical system 9, reel 92, gyro wheel 93, stay cord 94, third rack 95 and fourth straight- tooth gear 96, 1 right side lower part of connection frame is equipped with fixed plate 91, the last rotation type of fixed plate 91 is equipped with reel 92, 1 right side lower part rotary type of connection frame is equipped with gyro wheel 93, be connected with stay cord 94 between reel 92 and the second rack 82, stay cord 94 and gyro wheel 93 sliding connection, be equipped with third rack 95 on the first rack 53 of rear side, reel 92 front side middle part is equipped with fourth straight-tooth gear 96, fourth straight-tooth gear 96 and the cooperation of third rack 95.

The vibration device comprises a vibration mechanism 10, the vibration mechanism 10 comprises a fourth connecting rod 101, a sliding driving rod 102, a fourth spring 103, a fifth connecting rod 104, a sliding vibration rod 105 and a fifth spring 106, the fourth connecting rod 101 is arranged on the left side of a connecting frame 1, the sliding driving rod 102 is arranged on the fourth connecting rod 101 in a sliding mode, the sliding driving rod 102 is matched with a rotary connecting barrel 3, the fourth spring 103 is wound on the fourth connecting rod 101, the two ends of the fourth spring 103 are respectively connected with the fourth connecting rod 101 and the sliding driving rod 102, the fifth connecting rod 104 is arranged on the front side and the rear side of the left part of the connecting frame 1, the sliding vibration rods 105 are arranged on the two fifth connecting rods 104 in a sliding mode, the sliding vibration rods 105 are matched with the sliding driving rod 102, the fifth springs 106 are wound on the two fifth connecting rods 104, and the two ends of the fifth springs 106 are respectively connected with the fifth connecting rods 104 and the sliding vibration rods 105.

The working principle of the present invention is that when one wants to mix floor mud, the floor mud mixing device for construction site can be used, first, the user pours the mud into the rotary connection barrel 3, after the slurry is poured, the user rotates the stirring mechanism 4, the stirring mechanism 4 stirs the slurry in the rotary connecting barrel 3, after the slurry is stirred, the user pulls the stirring mechanism 4 upwards, the stirring mechanism 4 moves upwards to be matched with the material pushing mechanism 5, thereby driving the pushing mechanism 5 to rotate, the pushing mechanism 5 driving the rotary connecting barrel 3 to rotate, so that the slurry in the rotary connecting barrel 3 is poured into the pushing mechanism 5, after the slurry is poured into the rotary connecting barrel, a user loosens the stirring mechanism 4, the stirring mechanism 4 moves downwards, and after the stirring mechanism 4 moves downwards and is separated from the pushing mechanism 5, the pushing mechanism 5 rotates reversely to return to the original position.

After the user pours mud into swivelling joint bucket 3, the user rotates handle 45 and makes rotatory puddler 44, rotatory puddler 44 stirs the mud in the swivelling joint bucket 3, the mud stirring is accomplished the back, user handle 45, thereby drive rotatory puddler 44 stall, for preventing the mud from condensing, user upwards stimulates handle 45, handle 45 drives sliding connection pole 42 and rotatory puddler 44 upward movement, first spring 43 is compressed, user unclamp handle 45 afterwards, first spring 43 resets, thereby drive handle 45, sliding connection pole 42 and rotatory puddler 44 downstream, rotatory puddler 44 downstream is to contacting with mud after, make rotatory puddler 44 carry out the secondary stirring to mud.

After the slurry is stirred, when the sliding connecting rod 42 moves upwards, the sliding connecting rod 42 drives the first rack 53 to move upwards, the first rack 53 moves upwards to be in contact fit with the first straight gear 52, so as to drive the first straight gear 52 to rotate, the first straight gear 52 drives the rotary connecting barrel 3 to rotate, the rotary connecting barrel 3 drives the first sliding sleeve 54 to rotate, the first sliding sleeve 54 drives the pushing rod 55 to rotate, the pushing rod 55 drives the second spring 56 to rotate, when the rotary connecting barrel 3 rotates to a certain degree, the slurry falls into the receiving barrel 57 through the rotary connecting barrel 3, when the pushing rod 55 rotates to be in contact fit with the inclined plane pushing rod 51, so as to drive the pushing rod 55 to move inwards, the second spring 56 is compressed, the pushing rod 55 pushes the slurry remained in the rotary connecting barrel 3, so that the slurry all falls into the receiving barrel 57, and after all the slurry falls, when the sliding connecting rod 42 moves downwards, the sliding connecting rod 42 drives the first rack 53 to move downwards, the first rack 53 moves downwards to be in contact fit with the first straight gear 52, so that the first straight gear 52 is driven to rotate reversely, the first straight gear 52 drives the rotary connecting barrel 3, the first sliding sleeve 54, the material pushing rod 55 and the second spring 56 to rotate reversely, and after the material pushing rod 55 rotates reversely to separate from the inclined plane pushing rod 51, the second spring 56 resets, so that the material pushing rod 55 is driven to move outwards to a recovery position.

The user pushes the first locking lever 62 leftward, the first locking lever 62 drives the second locking lever 64 to move leftward, the third spring 63 is compressed, when the sliding link 42 moves upward to a designated position, the user releases the first locking lever 62, the third spring 63 is reset, thereby driving the first locking lever 62 and the second locking lever 64 to move rightward, the second locking lever 64 moves rightward to contact with the sliding link 42, so that the second locking lever 64 locks the sliding link 42, preventing the sliding link 42 from being positionally displaced, then the user pushes the first locking lever 62 leftward, the first locking lever 62 drives the second locking lever 64 to move leftward, the third spring 63 is compressed, the second locking lever 64 moves leftward to disengage the sliding link 42, the sliding link 42 can continue to move, after the sliding link 42 moves to a return position, the user releases the first locking lever 62, the third spring 63 is reset, thereby bringing the first and second locking levers 62 and 64 to the right to return to the home position.

After the slurry is poured into the rotary connection barrel 3, a user starts the motor 71, an output shaft of the motor 71 drives the transmission assembly 74 to rotate, the transmission assembly 74 drives the rotating shaft 75 to rotate, the rotating shaft 75 drives the third straight gear 73 to rotate, the third straight gear 73 is meshed with the second straight gear 72, so that the second straight gear 72 is driven to rotate, the second straight gear 72 drives the rotary stirring rod 44 to rotate, the rotary stirring rod 44 automatically stirs the slurry, manual operation of the user is reduced, after the slurry stirring is completed, the motor 71 is turned off, and the actions are stopped.

After the second locking lever 64 locks the sliding connecting rod 42, when the rotating shaft 75 rotates, the rotating shaft 75 drives the gear-lacking 83 to rotate, the toothed part of the gear-lacking 83 rotates to contact and match with the second rack 82, thereby driving the second rack 82 to move leftwards, after the toothed part of the gear-lacking 83 rotates to separate from the second rack 82, the second rack 82 is stationary, the above actions are repeated, when the second rack 82 moves leftwards to contact with the second locking lever 64, thereby driving the first locking lever 62 and the second locking lever 64 to move leftwards, the third spring 63 is compressed, so that the second locking lever 64 separates from the sliding connecting rod 42, the locking of the second locking lever 64 to the sliding connecting rod 42 is released, when the rotating shaft 75 rotates reversely, the gear-lacking 83 rotates reversely, thereby contacting and matching with the second rack 82, thereby driving the second rack 82 to move rightwards, after the toothed portion of the missing gear 83 rotates reversely to disengage the second rack 82, the second rack 82 is stationary, and when the second rack 82 moves rightward to disengage the second locking lever 64, the third spring 63 is reset, so that the first locking lever 62 and the second locking lever 64 are driven to move rightward, and the second locking lever 64 moves rightward to contact the sliding connecting rod 42, so that the sliding connecting rod 42 is locked by the second locking lever 64.

After the second locking rod 64 is unlocked to the sliding connecting rod 42, when the first rack 53 moves upwards, the first rack 53 drives the third rack 95 to move upwards, the third rack 95 moves upwards to be in contact fit with the fourth spur gear 96 so as to drive the fourth spur gear 96 to rotate, the fourth spur gear 96 drives the reel 92 to rotate, the reel 92 pulls the pull rope 94, the pull rope 94 drives the roller 93 to rotate, the pull rope 94 drives the second rack 82 to move rightwards, so that the second rack 82 moves rightwards to be separated from the second locking rod 64, the third spring 63 is reset in a compression state so as to drive the first locking rod 62 and the second locking rod 64 to move rightwards, and the second locking rod 64 moves rightwards to be in contact with the sliding connecting rod 42 so that the second locking rod 64 locks the sliding connecting rod 42.

When the rotary connecting barrel 3 rotates, the rotary connecting barrel 3 rotates to contact and match with the sliding driving rod 102, so as to drive the sliding driving rod 102 to move leftwards, the fourth spring 103 is compressed, the convex part of the sliding driving rod 102 moves leftwards to contact and match with the sliding vibration rod 105, so as to drive the sliding vibration rod 105 to move outwards and backwards, the fifth spring 106 is compressed, after the convex part of the sliding driving rod 102 moves leftwards to separate from the sliding vibration rod 105, the fifth spring 106 resets, so as to drive the sliding vibration rod 105 to move inwards, after the sliding vibration rod 105 moves inwards to contact with the material receiving barrel 57, the sliding vibration rod 105 knocks the material receiving barrel 57, so as to prevent slurry from coagulating, when the rotary connecting barrel 3 rotates reversely, after the rotary connecting barrel 3 rotates reversely to separate from the sliding driving rod 102, the fourth spring 103 resets, so as to drive the sliding driving rod 102 to move rightwards, the convex part of the sliding driving rod 102 moves rightwards to be in contact fit with the sliding vibration rod 105, so that the sliding vibration rod 105 is driven to move backwards towards the outer side, the fifth spring 106 is compressed, after the convex part of the sliding driving rod 102 moves rightwards to be separated from the sliding vibration rod 105, the fifth spring 106 resets, so that the sliding vibration rod 105 is driven to move towards the inner side, and after the sliding vibration rod 105 moves towards the inner side to be in contact with the material receiving barrel 57, the sliding vibration rod 105 strikes the material receiving barrel 57.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (8)

1. The utility model provides a building site uses floor mud mixing arrangement, characterized by includes:

the connecting frame (1), the inside of the connecting frame (1) is provided with a first connecting rod (2);

the first connecting rod (2) is rotatably provided with a rotary connecting barrel (3);

the upper part of the connecting frame (1) is provided with a stirring mechanism (4);

the connecting frame (1) is provided with a material pushing mechanism (5);

the stirring mechanism (4) comprises:

the upper part of the connecting frame (1) is provided with a sliding connecting plate (41);

the middle part of the sliding connecting plate (41) is provided with a sliding connecting rod (42) in a sliding way;

the rotary stirring rod (44) is rotatably arranged on the sliding connecting rod (42);

the top of the rotary stirring rod (44) is provided with a handle (45);

the first spring (43) is wound on the sliding connecting rod (42), and two ends of the first spring (43) are respectively connected with the sliding connecting plate (41) and the sliding connecting rod (42).

2. A floor slurry mixing apparatus for construction sites according to claim 1, wherein the pushing means (5) comprises:

the connecting frame (1) is internally provided with an inclined plane push rod (51);

the first straight gear (52) is arranged on each of the two sides of the rotary connecting barrel (3);

the first rack (53) is arranged on each of the two sides of the sliding connecting rod (42), and the first rack (53) is matched with the first straight gear (52);

the first sliding sleeve (54) is arranged at the lower part of the rotary connecting barrel (3);

the material pushing rod (55) is arranged in the middle of the first sliding sleeve (54) in a sliding mode, the material pushing rod (55) is connected with the connecting frame (1) in a sliding mode, and the material pushing rod (55) is matched with the inclined plane pushing rod (51);

the second spring (56) is wound on the material pushing rod (55), and two ends of the second spring (56) are respectively connected with the first sliding sleeve (54) and the material pushing rod (55);

a receiving barrel (57), and the receiving barrel (57) is arranged in the connecting frame (1).

3. A floor slurry mixing apparatus for construction sites according to claim 2, further comprising a locking mechanism (6), wherein the locking mechanism (6) comprises:

the sliding connecting plate (41) is provided with a second connecting rod (61);

the first locking rod (62) is arranged on the second connecting rod (61) in a sliding mode;

the third spring (63) is wound on the second connecting rod (61), and two ends of the third spring (63) are respectively connected with the second connecting rod (61) and the first locking rod (62);

and the lower part of the first locking rod (62) is provided with a second locking rod (64), and the second locking rod (64) is matched with the sliding connecting rod (42).

4. A floor slurry mixing apparatus for construction sites according to claim 3, further comprising an automatic driving mechanism (7), wherein the automatic driving mechanism (7) comprises:

the motor (71) is mounted at the upper part of the connecting frame (1);

the second straight gear (72) is arranged on the rotary stirring rod (44);

the upper part of the sliding connecting plate (41) is rotatably provided with a rotating shaft (75);

the third straight gear (73) is arranged on the rotating shaft (75), and the third straight gear (73) is meshed with the second straight gear (72);

the transmission assembly (74) is connected between the output shaft of the motor (71) and the rotating shaft (75).

5. The floor slurry mixing apparatus for construction sites according to claim 4, further comprising an intermittent unlocking mechanism (8), wherein the intermittent unlocking mechanism (8) comprises:

the third connecting rod (81) is arranged on the sliding connecting plate (41);

the second rack (82) is arranged on the third connecting rod (81) in a sliding mode;

the gear (83) is absent, the rotating shaft (75) is provided with the gear (83), and the gear (83) is absent to be matched with the second rack (82).

6. The floor slurry mixing device for construction sites as claimed in claim 5, further comprising a driving reset mechanism (9), wherein the driving reset mechanism (9) comprises:

the fixing plate (91) is arranged at the lower part of the connecting frame (1);

a reel (92), wherein the reel (92) is rotatably arranged on the fixing plate (91);

the lower part of the connecting frame (1) is rotatably provided with a roller (93);

the pull rope (94), the pull rope (94) is connected between the reel (92) and the second rack (82), and the pull rope (94) is connected with the roller (93) in a sliding manner;

a third rack (95), wherein the first rack (53) on one side is provided with the third rack (95);

and a fourth straight gear (96), wherein the middle part of the reel (92) is provided with the fourth straight gear (96), and the fourth straight gear (96) is matched with the third rack (95).

7. The floor slurry mixing apparatus for construction sites according to claim 6, further comprising a vibration mechanism (10), wherein the vibration mechanism (10) comprises:

the fourth connecting rod (101) is arranged on the connecting frame (1);

the fourth connecting rod (101) is provided with a sliding driving rod (102) in a sliding manner, and the sliding driving rod (102) is matched with the rotary connecting barrel (3);

the fourth spring (103) is wound on the fourth connecting rod (101), and two ends of the fourth spring (103) are respectively connected with the fourth connecting rod (101) and the sliding driving rod (102);

the fifth connecting rods (104) are arranged on the two sides of the connecting frame (1);

the sliding vibration rods (105) are arranged on the two fifth connecting rods (104) in a sliding manner, and the sliding vibration rods (105) are matched with the sliding driving rods (102);

and the fifth springs (106) are wound on the two fifth connecting rods (104), and two ends of each fifth spring (106) are respectively connected with the fifth connecting rod (104) and the sliding vibration rod (105).

8. A floor slurry mixing apparatus for construction sites according to claim 1 wherein the rotary stirring rod (44) is made of alloy steel.

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