CN113089641B

CN113089641B - Mortar injection equipment

Info

Publication number: CN113089641B
Application number: CN202110423280.7A
Authority: CN
Inventors: 苏会兰
Original assignee: Edesenberg New Materials Co ltd
Current assignee: Edesenberg New Materials Co ltd
Priority date: 2021-04-20
Filing date: 2021-04-20
Publication date: 2022-09-27
Anticipated expiration: 2041-04-20
Also published as: CN113089641A

Abstract

The invention discloses grouting equipment, which relates to the technical field of grouting equipment and comprises an equipment main body, a grouting head, a clamping mechanism, a rotating mechanism and a vibrating mechanism, wherein a feeding hole is formed in the top end of the equipment main body; the invention can effectively remove the bubbles in the mortar through the cooperation of the mechanisms, can drive the mortar to vibrate through the vibration of the vibration ring block, discharges the bubbles in the mortar, and simultaneously can enable the mortar to enter the deep part of the gap, thereby effectively improving the grouting quality.

Description

Mortar injection equipment

Technical Field

The invention relates to the technical field of grouting equipment, in particular to sand grouting equipment.

Background

Grouting is a method for improving the physical and mechanical properties of a rock-soil foundation by injecting certain curable grout into cracks or pores of the foundation by a proper method and by means of replacement, filling, extrusion and the like, wherein in the step of foundation grouting, prepared chemical grout or cement grout is injected into gaps of a soil body through a grouting pipe and is combined with the soil body to carry out a physicochemical reaction, so that the strength is improved; the inside in-process of slip casting hole is being poured into the mortar to current slip casting equipment, and its mortar is inside to have the bubble easily, and the bubble can influence the quality after the mortar solidifies, and the mortar can't flow to the depths in slip casting hole side clearance owing to do not have the promotion of external force in the slip casting hole to can't realize filling completely in clearance, very big influence ground intensity.

For example, chinese patent No. 201520148578.1 discloses a grouting machine for reducing slurry bubbles, which comprises a grouting machine main body, wherein the grouting machine main body comprises a feeding end and a discharging end, and further comprises a hollow cavity, the upper end of the hollow cavity is the feeding end, and the lower end of the hollow cavity is the discharging end; two gears which are meshed with each other are also arranged in the hollow cavity, the gears are provided with a double-layer structure and respectively comprise an inner layer and an outer layer, the hardness of the inner layer is greater than that of the outer layer, and the outer layer is coated on the outer wall of the inner layer; the feeding end is communicated with the upper end of the joint of the two gears, and the discharging end is communicated with the lower end of the joint of the two gears; through being equipped with two intermeshing's gear in traditional slip casting machine, through the bilayer structure that the gear adopted to the mixed effect of even thick liquids reduces the bubble in the thick liquids, prevents the easy wearing and tearing phenomenon that traditional stereoplasm gear leads to.

However, although the above invention solves the problem of bubbles, bubbles are inevitably generated at the discharge port, and the present invention provides a mortar injection apparatus to solve the above technical problem in order to solve the problems that bubbles exist inside mortar and mortar cannot enter deep into a gap.

Disclosure of Invention

Aiming at the problems, the invention provides mortar grouting equipment, which realizes the discharge of bubbles in mortar through the matching of an equipment main body, a grouting head, a locking mechanism, a rotating mechanism and a vibrating mechanism, and simultaneously enables the mortar to enter the deep part of a gap, thereby effectively improving the technical effect of grouting quality; the problem of current slip casting equipment pour into the mortar into the inside in-process of slip casting hole with the mortar, its mortar is inside to have the bubble easily, and the bubble can influence the quality after the mortar solidifies, and the mortar can't flow to the depths in slip casting hole side clearance owing to there is not the promotion of external force in the slip casting hole to can't realize filling completely in clearance, very big influence the ground intensity is solved.

The technical scheme adopted by the invention is as follows: a mortar injection apparatus comprising: equipment principal, conveying pipeline, equipment principal's top is provided with the feed inlet, equipment principal's bottom is provided with the conveying pipeline, still includes: the grouting device comprises a grouting head, a rotating mechanism and a vibrating mechanism, wherein the grouting head is fixedly arranged at one end of the conveying pipe, which is far away from the device main body; a discharge port is formed in one end, far away from the conveying pipe, of the grouting head, a butt-joint chute is formed in one end, close to the conveying pipe, of the grouting head, a conveying bin is arranged inside the grouting head, and two transmission bins are symmetrically arranged outside the grouting head around the conveying bin; an installation groove is formed in the conveying bin; the rotating mechanism is arranged in the mounting groove; the vibration mechanism is connected with the grouting head in a sliding manner; the rear end of the vibration mechanism is movably connected with the rotating mechanism, the front end of the vibration mechanism penetrates through the transmission bin and is provided with a vibration ring block, and the vibration sliding block is sleeved on the discharge port.

Further, the rotating mechanism includes: the rotating column, the arc-shaped blade and the eccentric rotating disk are arranged on the rotating shaft; the rotating column is rotatably arranged in the mounting groove through a bearing, and the surface of the rotating column is provided with a plurality of arc-shaped blades; at least two eccentric rotating disks are fixedly arranged at the top and the bottom of the rotating column.

Further, the vibration mechanism includes: a transmission rod, a sliding column and a compression spring; one end of the transmission rod is rotationally connected with the eccentric rotating disc through a pin shaft, one end of the sliding column is rotationally connected with the other end of the transmission rod through a pin shaft, and the other end of the sliding column penetrates through the transmission bin and is fixedly connected with the vibrating ring block; the compression spring is sleeved on the sliding column, one end of the compression spring is connected with the transmission bin, and the other end of the compression spring is connected with the sliding column; the vibration ring block is connected with the discharge port in a sliding mode, and a plurality of mortar through holes are formed in the surface of the vibration ring block.

Further, the present invention also includes: the clamping and locking mechanism comprises a connecting clamping block, a telescopic column, a telescopic spring and a limiting block; at least two accommodating grooves are formed in the contact position of the material conveying pipe and the grouting head; the telescopic column is slidably arranged in the accommodating groove; the telescopic spring is sleeved on the telescopic column, and one end of the telescopic spring is fixedly connected with the accommodating groove; a connecting clamping block is fixedly arranged at one end of the telescopic column close to the grouting head, and a limiting block is fixedly arranged at the other end of the telescopic column; when the conveying pipe is connected with the grouting head, the connecting clamping block is clamped into the butt-joint sliding groove to play a role in fixing.

Furthermore, the number of the sliding columns is two, and the two sliding columns are symmetrically distributed by taking the grouting head as the center.

Furthermore, the size of the outer wall of the limiting block is matched with the size of the inner wall of the accommodating groove, the outer wall of one side, away from the connecting clamping block, of the limiting block is of an arc-shaped structure, and the arc-shaped track of the connecting clamping block is matched with the track of the inner wall of the conveying pipe.

Due to the adoption of the technical scheme, the invention has the following advantages:

(1) according to the invention, through the matching action of the equipment main body, the grouting head, the locking mechanism, the rotating mechanism and the vibrating mechanism, bubbles in mortar can be effectively eliminated, so that the bubbles in the mortar are discharged, and meanwhile, the mortar can enter the deep part of the gap, thereby effectively improving the grouting quality.

(2) According to the invention, through the design, when mortar passes through the mounting groove, the arc-shaped blades can be pushed, so that the rotation of the rotating column is realized, the connecting rod and the vibrating ring block can be driven to vibrate back and forth by driving the eccentric rotating disk to rotate, the potential energy of the mortar can be fully utilized, and the vibrating effect can be achieved.

(3) According to the invention, the clamping and locking mechanism is designed, so that the rapid installation and disassembly of the conveying pipe and the grouting head can be realized, the conveying pipe and the grouting head can be fixed mutually through the mutual clamping of the connecting clamping block and the rotating groove and the mutual clamping of the telescopic column and the fixed clamping groove, and the telescopic column can not be contracted through the extrusion force of mortar in the conveying pipe to the limiting block, so that the phenomenon that the grouting head is loosened in the grouting process is effectively avoided, and the motion stability of equipment is effectively improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic structural view of a grouting head and a delivery pipe according to the present invention.

Fig. 3 is a sectional view showing the internal part structure of the grouting head of the present invention.

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention.

Fig. 5 is an exploded view of the internal part structure of the grouting head of the present invention.

Fig. 6 is a structural sectional view of the grouting head of the present invention.

Fig. 7 is an exploded view of the structure of the rotating mechanism of the present invention.

Fig. 8 is an exploded view of the structure of the vibration mechanism of the present invention.

Fig. 9 is a sectional exploded view of the feed delivery conduit and latch mechanism of the present invention.

FIG. 10 is an enlarged view of the structure at B in FIG. 9 according to the present invention.

Reference numerals: 1-a device body; 2-a feed inlet; 3-a material conveying pipe; 301-a receiving groove; 4-grouting head; 401-a transportation bin; 4011-docking chute; 402-a drive bin; 403-mounting grooves; 5-a discharge hole; 6-a locking mechanism; 601-connecting a fixture block; 602-a telescopic column; 604-a telescoping spring; 605-a limiting block; 7-a rotating mechanism; 701-rotating a column; 702-a curved blade; 705-eccentric rotating disk; 8-a vibration mechanism; 801-transmission rod; 803-sliding columns; 804-a compression spring; 805-a vibrating ring block; 8051-mortar via device body.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "left", "right", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Example, as shown in fig. 1-10, a sand grouting apparatus includes: equipment main part 1, conveying pipeline 3, the top of equipment main part 1 is provided with feed inlet 2, and the bottom of equipment main part 1 is provided with conveying pipeline 3, still includes: the grouting head 4, the rotating mechanism 7 and the vibrating mechanism 8 are fixedly arranged at one end of the conveying pipe 3 far away from the equipment main body 1; a discharge port 5 is arranged at one end of the grouting head 4 far away from the conveying pipe 3, a butt-joint chute 4011 is arranged at one end close to the conveying pipe 3, a conveying bin 401 is arranged inside the grouting head 4, and two transmission bins 402 are symmetrically arranged outside the grouting head around the conveying bin 401; a mounting groove 403 is arranged in the conveying bin 401; the rotating mechanism 7 is arranged in the mounting groove 403; the vibration mechanism 8 is connected with the grouting head 4 in a sliding way; the rear end of the vibration mechanism 8 is movably connected with the rotating mechanism 7, the front end of the vibration mechanism passes through the transmission bin 402 and is provided with a vibration ring block 805, and the vibration ring block 805 is sleeved on the discharge hole 5.

In order to fully utilize the potential energy of the mortar movement and provide power for the vibrating mechanism 8, in an alternative embodiment of the invention, as shown in fig. 3, 4, 5 and 7, the rotating mechanism 7 comprises: a rotating column 701, an arc-shaped blade 702 and an eccentric rotating disk 705; the rotating column 701 is rotatably installed inside the installation groove 403 through a bearing, and the surface of the rotating column is provided with a plurality of arc-shaped blades 702; at least two eccentric rotating discs 705 are fixedly arranged at the top and the bottom of the rotating column 701; the rotating mechanism 7 can fully utilize the power of the movement of the mortar and convert the power of the movement of the mortar into rotating power so as to provide power for the vibrating mechanism 8; the invention can also directly adopt the motor to drive the eccentric wheel to rotate to provide power for the vibration mechanism 8, but compared with the scheme, firstly, the motor is not waterproof, secondly, the motor is used as power and needs to be electrified, and the complexity of the structure is increased.

In order to remove air bubbles in mortar and enable the mortar to enter the deep part of the gap on the inner wall side surface of a grouting hole, in an optional embodiment of the invention, as shown in fig. 2, 3, 4, 5 and 8, a vibration mechanism 8 comprises: a transmission rod 801, a sliding column 803, a compression spring 804 and a vibration ring block 805; one end of a transmission rod 801 is rotationally connected with an eccentric rotating disc 705 through a pin shaft, one end of a sliding column 803 is rotationally connected with the other end of the transmission rod 801 through a pin shaft, and the other end of the sliding column penetrates through a transmission bin 402 and is fixedly connected with a vibration ring block 805; the compression spring 804 is sleeved on the sliding column 803, and one end of the compression spring is connected with the transmission bin 402 while the other end is connected with the sliding column 803; the vibrating ring block 805 is connected with the discharge port 5 in a sliding manner, and the surface of the vibrating ring block is provided with a plurality of mortar through holes 8051; the eccentric rotating disc 705 can drive the sliding column 803 to slide back and forth through the transmission rod 801 when rotating, the sliding column 803 can drive the vibrating ring block 805 to vibrate repeatedly, the mortar in the grouting hole can be vibrated through the vibration of the vibrating ring block 805 in the vibrating mechanism 8, so that bubbles in the mortar are discharged, and meanwhile, the mortar can enter the deep side gap of the inner wall of the grouting hole, so that the gap is completely filled, the mortar through holes 8051 on the vibrating ring block 805 can reduce the resistance of the vibrating ring block 805, so that the vibration of the vibrating ring block 805 is smoother, and the grouting quality and efficiency can be effectively improved through the structural design.

In order to facilitate the connection and the disconnection of the feed delivery pipe 3 and the grouting head 4, in an alternative embodiment of the invention, as shown in fig. 9 and 10, the invention further comprises: the locking mechanism 6 comprises a connecting clamping block 601, a telescopic column 602, a telescopic spring 604 and a limiting block 605; at least two accommodating grooves 301 are arranged at the contact position of the material conveying pipe 3 and the grouting head 4; the telescopic column 602 is slidably mounted inside the accommodating groove 301; the telescopic spring 604 is sleeved on the telescopic column 602, and one end of the telescopic spring is fixedly connected with the accommodating groove 301; one end of the telescopic column 602 close to the grouting head 4 is fixedly provided with a connecting clamping block 601, and the other end is fixedly provided with a limiting block 605; when the material conveying pipe 3 is connected with the grouting head 4, the connecting clamping block 601 is clamped into the butt-joint sliding groove 4011 to play a role in fixing; the material conveying pipe 3 and the grouting head 4 can be connected and fixed by mutually clamping the connecting clamping block 601 and the butt-joint sliding groove 4011.

In an alternative embodiment of the present invention, as shown in fig. 5, two sliding columns 803 are provided, and the two sliding columns 803 are symmetrically distributed with the grouting head 4 as the center; the advantage of this design is that the motion of the vibrating ring 805 is made more stable by this structure.

In an optional embodiment of the invention, as shown in fig. 9 and 10, the size of the outer wall of the limiting block 605 is matched with the size of the inner wall of the accommodating groove 301, the outer wall of one side of the limiting block 605, which is far away from the connecting fixture block 601, is of an arc structure, and the arc track of the connecting fixture block 601 is matched with the track of the inner wall of the material conveying pipe 3; the advantage of design like this is that, stopper 605 can be accomodate to accomodating inside groove 301, and stopper 605 designs into the arcwall face and can make it can not influence the inside mortar of conveying pipeline 3 and carry.

Working principle of the invention

When the mortar injection equipment is used, a grouting head 4 and a conveying pipe 3 are connected and installed, a connecting clamping block 601 on the conveying pipe 3 is inserted into a butt joint sliding groove 4011 in the inner wall of a conveying bin 401 in an aligning mode, the connecting clamping block 601 can move to the inside of the butt joint sliding groove 4011 along the inner wall track of the butt joint sliding groove 4011, in the process, a telescopic spring 604 can be extruded by a telescopic column 602 to be in a compression state, then the grouting head 4 is rotated to enable the butt joint sliding groove 4011 and the connecting clamping block 601 to rotate relatively, when the connecting clamping block 601 completely enters the butt joint sliding groove 4011, the telescopic column 602 can automatically reset under the action of the telescopic spring 604, at the moment, the connecting clamping block 601 can be fixed inside the butt joint sliding groove 4011, namely, the grouting head 4 is fixedly connected with the conveying pipe 3;

after the grouting head 4 is installed, the grouting head 4 can be inserted into a drilled grouting hole, stirred mortar enters the equipment main body 1 through the feeding hole 2, an external power supply is switched on and the equipment main body is started to operate, the equipment main body 1 can input the mortar into the grouting head 4 through the conveying pipe 3 and inject the mortar into the grouting hole through the discharging hole 5 to realize grouting operation of the mortar, when the mortar enters the conveying pipe 3, the mortar can extrude the limiting block 605 in the accommodating groove 301, so that the limiting block 605 cannot move out of the accommodating groove 301, the telescopic column 602 cannot perform telescopic motion at the moment, namely the telescopic column 602 cannot be separated from the connecting chute 4011, the grouting head 4 can be effectively prevented from loosening in the grouting process through the function, and the operation stability of the equipment is effectively improved; when mortar passes through the mortar conveying bin 401 in the grouting head 4, the mortar can pass through the mounting groove 403, the mortar can contact the arc-shaped blade 702 and generate a thrust force on the arc-shaped blade, the arc-shaped blade 702 can drive the rotating column 701 to rotate through the thrust force, the rotating column 701 drives the eccentric rotating disc 705 to rotate, the eccentric rotating disc 705 can drive the sliding column 803 to slide back and forth through the transmission of the transmission rod 801, the sliding column 803 can drive the vibrating ring 805 to vibrate repeatedly, the mortar in the grouting hole can be vibrated through the vibration of the vibrating ring 805, so that air bubbles in the mortar are extruded and discharged from the mortar, meanwhile, the vibration force can form a thrust force on the mortar, the thrust force can push the mortar to enter the deep part of the gap on the inner side surface of the grouting hole, the full filling of the gap is realized, and the mortar through holes 8051 on the vibrating ring 805 can reduce the resistance on the vibrating ring 805, therefore, the vibration of the vibration ring block 805 is smoother, and the grouting quality and efficiency can be effectively improved through the structural design.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. A grouting apparatus comprising: equipment main part (1), conveying pipeline (3), the top of equipment main part (1) is provided with feed inlet (2), the bottom of equipment main part (1) is provided with conveying pipeline (3), its characterized in that still includes: the grouting device comprises a grouting head (4), a rotating mechanism (7) and a vibrating mechanism (8), wherein the grouting head (4) is fixedly installed at one end, far away from the equipment main body (1), of the conveying pipe (3); a discharge hole (5) is formed in one end, far away from the conveying pipe (3), of the grouting head (4), a butt-joint chute (4011) is formed in one end, close to the conveying pipe (3), of the grouting head (4), a conveying bin (401) is arranged inside the grouting head (4), and two transmission bins (402) are symmetrically arranged outside the grouting head and surround the conveying bin (401); a mounting groove (403) is formed in the conveying bin (401); the rotating mechanism (7) is arranged in the mounting groove (403); the vibration mechanism (8) is connected with the grouting head (4) in a sliding manner; the rear end of the vibration mechanism (8) is movably connected with the rotating mechanism (7), the front end of the vibration mechanism penetrates through the transmission bin (402) and is provided with a vibration ring block (805), and the vibration sliding block (805) is sleeved on the discharge hole (5);

the rotating mechanism (7) comprises: the device comprises a rotating column (701), an arc-shaped blade (702) and an eccentric rotating disk (705); the rotating column (701) is rotatably arranged in the mounting groove (403) through a bearing, and the surface of the rotating column is provided with a plurality of arc-shaped blades (702); the number of the eccentric rotating discs (705) is two, and the eccentric rotating discs are respectively and fixedly arranged at the top and the bottom of the rotating column (701);

the vibration mechanism (8) includes: the device comprises a transmission rod (801), a sliding column (803) and a compression spring (804); one end of the transmission rod (801) is rotatably connected with the eccentric rotating disc (705) through a pin shaft, one end of the sliding column (803) is rotatably connected with the other end of the transmission rod (801) through a pin shaft, and the other end of the sliding column penetrates through the transmission bin (402) and is fixedly connected with the vibration ring block (805); the compression spring (804) is sleeved on the sliding column (803), one end of the compression spring is connected with the transmission bin (402), and the other end of the compression spring is connected with the sliding column (803); the vibrating ring block (805) is connected with the discharge hole (5) in a sliding manner, and a plurality of mortar through holes (8051) are formed in the surface of the vibrating ring block;

the mortar injection equipment further comprises: the locking mechanism (6) comprises a connecting clamping block (601), a telescopic column (602), a telescopic spring (604) and a limiting block (605); at least two accommodating grooves (301) are formed in the contact position of the material conveying pipe (3) and the grouting head (4); the telescopic column (602) is slidably mounted inside the accommodating groove (301); the telescopic spring (604) is sleeved on the telescopic column (602), and one end of the telescopic spring is fixedly connected with the accommodating groove (301); one end of the telescopic column (602), which is close to the grouting head (4), is fixedly provided with a connecting fixture block (601), and the other end is fixedly provided with a limiting block (605); when the conveying pipe (3) is connected with the grouting head (4), the connecting clamping block (601) is clamped into the butt-joint sliding groove (4011) to play a role in fixing;

when the grouting device is used, a grouting head (4) and a conveying pipe (3) are connected and installed, a connecting clamping block (601) on the conveying pipe (3) is inserted into a butt joint sliding groove (4011) in the inner wall of a conveying bin (401) in an aligning mode, the connecting clamping block (601) can move to the inside of the butt joint sliding groove (4011) along the track of the inner wall of the butt joint sliding groove (4011), a telescopic spring (604) can be extruded by a telescopic column (602) to be in a compression state in the process, then the grouting head (4) is rotated to enable the butt joint sliding groove (4011) and the connecting clamping block (601) to rotate relatively, when the connecting clamping block (601) completely enters the butt joint sliding groove (4011), the telescopic column (602) can automatically reset under the action of the telescopic spring (604), the connecting clamping block (601) can be fixed inside the butt joint sliding groove (4011), and the grouting head (4) and the conveying pipe (3) form fixed connection; after the grouting head (4) is installed, the grouting head (4) can be inserted into a drilled grouting hole, stirred mortar enters the equipment main body (1) through the feeding hole (2), an external power supply is switched on and the equipment main body is started to operate, the equipment main body (1) can input the mortar into the grouting head (4) through the conveying pipe (3) and the mortar is poured into the grouting hole through the discharging hole (5) to realize the grouting operation of the mortar, when the mortar enters the conveying pipe (3), the mortar can extrude the limiting block (605) in the accommodating groove (301) of the mortar, so that the limiting block (605) cannot be moved out of the accommodating groove (301), at the moment, the telescopic column (602) cannot perform telescopic motion, namely, the telescopic column (602) cannot be separated from the connecting chute (4011), and the grouting head (4) can be effectively prevented from loosening in the grouting process through the function, the stability of equipment operation is effectively improved; when mortar passes through a mortar conveying bin (401) in a grouting head (4), the mortar can pass through an installation groove (403), the mortar is contacted with an arc-shaped blade (702) and generates a thrust force to the arc-shaped blade, a rotating column (701) can be driven to rotate by the thrust force through the arc-shaped blade (702), the rotating column (701) drives an eccentric rotating disc (705) to rotate, the eccentric rotating disc (705) can drive a sliding column (803) to slide back and forth through the transmission of a transmission rod (801), meanwhile, the sliding column (803) can drive a vibrating ring block (805) to vibrate repeatedly, the mortar in a grouting hole can be vibrated through the vibration of the vibrating ring block (805), so that air bubbles in the mortar are extruded to be discharged from the mortar, meanwhile, the vibration force can form a thrust force to the mortar, and the thrust force can push the mortar to enter the deep part of a gap on the inner side surface of the grouting hole, therefore, the gaps are fully filled, in addition, the resistance of the vibration ring block (805) can be reduced through the mortar through hole (8051) in the vibration ring block (805), so that the vibration of the vibration ring block (805) is smoother, and the grouting quality and efficiency can be effectively improved through the structural design.

2. The mortar injection equipment according to claim 1, wherein the number of the sliding columns (803) is two, and the two sliding columns (803) are symmetrically distributed by taking the grouting head (4) as a center.

3. The mortar injection equipment as claimed in claim 2, wherein the outer wall of the limiting block (605) is matched with the inner wall of the accommodating groove (301), and the outer wall of the limiting block (605) far away from the connecting fixture block (601) is in an arc structure, and the arc track of the outer wall is matched with the inner wall track of the conveying pipeline (3).