CN115229991A

CN115229991A - Building construction equipment

Info

Publication number: CN115229991A
Application number: CN202210851143.8A
Authority: CN
Inventors: 贾申; 徐西会; 王庆建
Original assignee: Shandong Jindi Construction Engineering Co ltd
Current assignee: Shandong Jindi Construction Engineering Co ltd
Priority date: 2022-07-20
Filing date: 2022-07-20
Publication date: 2022-10-25

Abstract

The application relates to building construction equipment which comprises a main body, a drilling mechanism and a dust falling mechanism, wherein a placing cavity is formed in the main body, the drilling mechanism and the dust falling mechanism are arranged in the placing cavity, the building construction equipment also comprises a stabilizing mechanism, the stabilizing mechanism comprises a sucker, a connecting frame and a first connecting assembly, and the sucker is arranged on the connecting frame and can be adsorbed on a wall surface to be drilled; the main body is connected with the connecting frame through the first connecting assembly. This application has the effect of reducing the influence to the drilling effect.

Description

Building construction equipment

Technical Field

The application relates to the technical field of building construction, in particular to building construction equipment.

Background

The building construction refers to the production activities in the engineering construction implementation stage, and is the construction process of various buildings, namely the process of changing various lines on the design drawing into a real object in a designated place.

At present, chinese patent with the publication number CN216707942U discloses a green energy-saving building construction equipment, including the U-shaped mount, the spout has all been seted up to both ends face about the U-shaped mount inner wall, U-shaped mount middle part is equipped with the piece of accepting, both ends face all is equipped with the slider about the piece of accepting, the terminal surface middle part is equipped with the handle before the piece of accepting, it is equipped with the protecting box to accept the piece right-hand member, be equipped with the motor in the protecting box, motor output end portion is equipped with the main shaft, the main shaft right-hand member is connected with the drill bit, U-shaped mount inner wall front side is equipped with the dust fall subassembly. When drilling, an operator is required to hold the handle to enable the U-shaped fixing frame to abut against a wall surface for drilling, and then the drill bit performs drilling operation on the wall surface.

In the process of implementing the application, the inventor finds that at least the following problems exist in the technology: when an operator holds the handle to enable the U-shaped fixing frame to abut against the wall body and shake, the position of the U-shaped fixing frame can change, the position of a drill bit in the U-shaped fixing frame can also change, and after the position of the drill bit changes, drilling can be affected, so that the drilling effect is poor.

Disclosure of Invention

In order to reduce the influence to the drilling effect, this application provides a building construction equipment.

The application provides a construction equipment adopts following technical scheme:

a building construction device comprises a main body, a drilling mechanism and a dust falling mechanism, wherein a placing cavity is formed in the main body, the drilling mechanism and the dust falling mechanism are both arranged in the placing cavity, the building construction device also comprises a stabilizing mechanism, the stabilizing mechanism comprises a sucker, a connecting frame and a first connecting assembly, and the sucker is arranged on the connecting frame and can be adsorbed on a wall surface to be drilled; the main body is connected with the connecting frame through the first connecting assembly.

By adopting the technical scheme, the main body is connected to the connecting frame through the first connecting assembly, the connecting frame limits the main body, then the sucker is adsorbed on a wall surface needing drilling, then the drilling mechanism is used for drilling on the wall surface, and the dust falling mechanism can reduce dust during drilling by the drilling mechanism; when drilling holes below fixed objects such as tables connected with the wall, operators adsorb the suckers on the wall, and the problem that the operators need to support the main body with force to drill holes when squatting is solved; therefore, the arranged stabilizing mechanism can limit the main body, and the phenomenon of poor drilling effect caused by shaking of the main body is reduced; and the dust fall mechanism that sets up can reduce the production of dust to reach green's effect.

Optionally, the first connecting assembly includes a guide block and a guide block, the guide block is arranged on the connecting frame, a guide groove is formed in the guide block, the guide block is arranged on the main body, and the guide block can slide in the guide groove.

By adopting the technical scheme, the guide block on the main body slides into the guide groove of the guide block, so that the connection between the main body and the connecting frame is realized; and can define a path of movement of the body.

Optionally, a driving mechanism is arranged on the guide block, the driving mechanism includes an adjusting block, a fixing bolt, a first motor, a helical gear and a helical rack, the adjusting block is slidably arranged on the connecting frame, and the fixing bolt penetrates through the adjusting block and is in threaded connection with the guide block; the first motor is arranged on the adjusting block, and the helical gear is arranged on the first motor; the helical rack is arranged on the guide block and meshed with the helical gear.

By adopting the technical scheme, after the helical rack and the guide block enter the guide groove, the adjusting block is moved towards the direction close to the helical gear, the first motor on the adjusting block drives the helical gear to move towards the direction close to the helical rack, so that the helical gear is meshed with the helical rack, and then the fixing bolt penetrates through the adjusting block and is in threaded connection with the guide block; then start first motor, the output shaft of first motor drives helical gear and rotates, and the helical rack with helical gear meshing will drive the guide block motion, and the guide block will drive the main part and move on the link frame.

Optionally, an adjusting mechanism connected with the guide block is arranged on the guide block, the adjusting mechanism includes a positioning rod, an adjusting block and a positioning bolt, and a clamping groove is formed in the guide block; the adjusting block is arranged on the guide block in a sliding mode, and a first through hole communicated with the guide groove is formed in the adjusting block; the positioning rod penetrates through the first through hole and is clamped with the clamping groove; the positioning bolt penetrates through the adjusting block and is in threaded connection with the guide block.

By adopting the technical scheme, in order to enable the helical gear to be better meshed with the helical gear, one end of the positioning rod is firstly connected with the clamping groove in a clamped mode through the first through hole, then the adjusting block is moved according to the position of the helical gear, the adjusting block drives the positioning rod to move, the positioning rod drives the guide block to move, the position of the helical gear on the guide block changes, and the helical gear can be better meshed with the helical gear.

Optionally, a standard mechanism is arranged on the adjusting block, the standard mechanism includes a moving block, a telescopic rod and a connecting bolt, the moving block is slidably arranged on the adjusting block, the telescopic rod is arranged on the moving block, and the connecting bolt penetrates through the moving block and is in threaded connection with the adjusting block.

By adopting the technical scheme, the moving block is moved according to the positions of two adjacent teeth on one side, which is meshed with the helical rack, of the helical gear, and after the position of the moving block is determined, the connecting bolt penetrates through the moving block to be in threaded connection with the adjusting block; then moving the telescopic rod, and then moving the helical rack to enable one end of the telescopic rod, which is far away from the moving block, to extend between two adjacent teeth of the helical rack; then moving the adjusting block towards the direction close to the helical rack to enable the helical gear on the first motor to be meshed with the helical rack; finally, the telescopic rod does not collide the helical rack any more; the standard mechanism can adjust the helical rack better according to the position of the helical gear, so that the helical gear is meshed with the helical rack better.

Optionally, a second connecting assembly connected to the main body is disposed on the guide block, the second connecting assembly includes a connecting sleeve, a limiting block and a mounting bolt, the connecting sleeve is sleeved on the main body, and the guide block is disposed on the connecting sleeve; the limiting block is arranged at one end, far away from the placing cavity, of the main body, and the limiting block abuts against the connecting sleeve; the mounting bolt penetrates through the limiting block and is in threaded connection with the connecting sleeve.

By adopting the technical scheme, one end of the main body, which is far away from the placing cavity, penetrates through the connecting sleeve, then the limiting block is abutted against the connecting sleeve, and finally the mounting bolt penetrates through the limiting block to be in threaded connection with the connecting sleeve; the connection of the main body and the connecting sleeve is realized.

Optionally, the connecting frame includes a first frame body, a second frame body, a third frame body, a first adjusting assembly and a second adjusting assembly, the first frame body is provided with a second through hole, and the suction cup is arranged on the first frame body; the second frame body is arranged on the first frame body in a sliding mode, and a third through hole communicated with the second through hole is formed in the second frame body; the third frame body is arranged on the second frame body in a sliding mode, and a fourth through hole communicated with the third through hole is formed in the third frame body; the main body is connected with the third frame body through the first connecting assembly, and the main body can penetrate through the fourth through hole, the third through hole and the second through hole; the first adjusting assembly is arranged on the first frame body and connected with the second frame body; the second adjusting assembly is arranged on the second frame body and connected with the third frame body.

By adopting the technical scheme, the sucker is adsorbed on the wall surface needing drilling, the position needing drilling is located in the projection range of the second through hole, the first adjusting assembly is started according to the position needing drilling, and the first adjusting assembly drives the second frame body to move relative to the first frame body; starting a second adjusting assembly, wherein the second adjusting assembly drives a third frame body to move relative to a second frame body, so that the drilling mechanism is aligned to the position to be drilled; then starting to enable the main body to move towards the direction close to the wall body, enabling the main body to abut against the wall body, and finally drilling the wall body by using a drilling mechanism; therefore, the connecting frame can reduce the time for manually adjusting the drilling mechanism to align the position needing drilling, thereby improving the efficiency.

Optionally, a waste collecting mechanism is arranged in the main body and comprises a collecting box and an arc-shaped collecting plate, the collecting box is arranged on the main body, the arc-shaped collecting plate is arranged on the collecting box, and the arc-shaped collecting plate can abut against a wall surface to be drilled.

Through adopting above-mentioned technical scheme, the piece that the drilling produced and the sewage that the dust fall formed get into in the collection box along arc collecting plate.

Optionally, the drilling mechanism includes a moving block, a second motor, a drill rod and a moving assembly, the moving block is slidably disposed on the main body, the second motor is disposed on the moving block, and the drill rod is disposed on an output shaft of the second motor; the moving component is arranged on the main body and connected with the moving block.

Through adopting above-mentioned technical scheme, the removal subassembly drives the motion piece towards the direction motion near the wall, makes the motion piece drive the drilling rod towards the direction motion near the wall, then starts the second motor, and the second motor drives the drilling rod motion, and the drilling rod will be realized holing at the wall.

Optionally, the dust settling mechanism includes a water storage barrel, a connection pipe, a nozzle, a push plate and a push rod, the water storage barrel is arranged on the main body, the connection pipe is arranged on the water storage barrel, the nozzle is arranged on the connection pipe, and water sprayed from the nozzle is sprayed to the drill hole of the drill rod; the push plate slides and sets up in the water storage section of thick bamboo, the one end setting of push rod is in on the push plate and other one end sets up on the motion piece.

Through adopting above-mentioned technical scheme, when the motion piece moved, the push rod on the motion piece will drive the push pedal motion, and the push pedal promotes the water that is located a water storage section of thick bamboo and moves towards the direction of connecting pipe, makes water enter into the shower nozzle through the connecting pipe in, spout the position of drilling rod drilling in the shower nozzle.

In summary, the present application includes at least one of the following beneficial technical effects:

1. therefore, the arranged stabilizing mechanism can limit the main body, and the phenomenon of poor drilling effect caused by shaking of the main body is reduced; the dust falling mechanism can reduce the generation of dust, thereby achieving the effect of green and environmental protection;

2. therefore, the connecting frame can reduce the time for manually adjusting the drilling mechanism to align the position needing drilling, thereby improving the efficiency.

Drawings

FIG. 1 is a schematic structural view of a construction equipment according to an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a connection frame in an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a second connecting assembly according to an embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of an adjustment mechanism in an embodiment of the present application;

fig. 5 is a schematic structural diagram of a standard mechanism in an embodiment of the present application.

Reference numerals: 1. a main body; 11. a placement chamber; 2. a drilling mechanism; 21. a motion block; 22. a second motor; 23. a drill stem; 24. a moving assembly; 241. a third screw; 242. a fifth motor; 3. a dust falling mechanism; 31. a water storage cylinder; 32. a connecting pipe; 33. a spray head; 34. a push rod; 4. a stabilizing mechanism; 41. a suction cup; 42. a first connection assembly; 421. a guide block; 422. a guide block; 43. a second connection assembly; 431. connecting sleeves; 432. a limiting block; 433. installing a bolt; 5. a connecting frame; 51. a first frame body; 511. a second through hole; 52. a second frame body; 521. a third through hole; 53. a third frame body; 531. a fourth via hole; 54. a first adjustment assembly; 541. a first screw; 542. a third motor; 55. a second adjustment assembly; 551. a second screw; 552. a fourth motor; 56. a first slider; 57. a second slider; 6. a drive mechanism; 61. a regulating block; 62. fixing the bolt; 63. a first motor; 64. a helical gear; 65. a helical rack; 7. an adjustment mechanism; 71. positioning a rod; 72. an adjusting block; 73. positioning the bolt; 8. a standard organization; 81. a moving block; 82. a connecting bolt; 83. a telescopic rod; 831. a main rod; 832. an auxiliary rod; 833. reinforcing the bolt; 84. an extension block; 9. a waste collection mechanism; 91. a collection box; 92. an arc-shaped collecting plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses building construction equipment.

Referring to fig. 1, the construction equipment includes a securing mechanism 4, and a main body 1 is provided on the securing mechanism 4.

Referring to fig. 1 and 2, the stabilizing mechanism 4 includes a connecting frame 5, the connecting frame 5 includes a first frame body 51, a second through hole 511 is provided on the first frame body 51, a suction cup 41 is fixedly connected to one side of the first frame body 51, a first sliding groove is provided on one side of the first frame body 51 away from the suction cup 41, a first sliding block 56 is connected to the first sliding groove in a sliding manner, a second frame body 52 is fixedly connected to the first sliding block 56, and a third through hole 521 communicated with the second through hole 511 is provided on the second frame body 52. A first adjusting assembly 54 is arranged on the first frame 51, the first adjusting assembly 54 comprises a first screw 541 rotatably connected in the first sliding groove, and the first screw 541 passes through the first sliding block 56 and is in threaded connection with the first sliding block 56; a third motor 542 is fixedly connected to the first frame 51, and an output shaft of the third motor 542 is connected to one end of the first screw 541.

A second sliding groove is formed in one side, away from the first frame body 51, of the second frame body 52, a second sliding block 57 is connected in the second sliding groove in a sliding mode, a third frame body 53 is fixedly connected to the second sliding block 57, and a fourth through hole 531 communicated with the third through hole 521 is formed in the third frame body 53. A second adjusting assembly 55 is arranged on the second frame 52, the second adjusting assembly 55 comprises a second screw 551 rotatably connected in the second sliding groove, and the second screw 551 passes through the second sliding block 57 and is in threaded connection with the second sliding block 57; a fourth motor 552 is fixedly connected to the second frame 52, and an output shaft of the fourth motor 552 is connected to one end of the second screw 551.

The third motor 542 is started, the output shaft of the third motor 542 drives the first screw 541 to rotate, the first screw 541 drives the first sliding block 56 to slide in the first sliding groove, and the first sliding block 56 drives the second frame 52 to move relative to the first frame 51; when the fourth motor 552 is started, the output shaft of the fourth motor 552 drives the second screw 551 to rotate, the second screw 551 drives the second slider 57 to slide in the second sliding slot, and the second slider 57 drives the third frame 53 to move relative to the second frame 52.

Referring to fig. 1 and 3, a second connecting assembly 43 is disposed on the main body 1, the second connecting assembly 43 includes a connecting sleeve 431, the main body 1 passes through the connecting sleeve 431, a limiting block 432 abutting against the connecting sleeve 431 is fixedly connected to one end of the main body 1, and the limiting block 432 is disposed on the limiting block 432 and is in threaded connection with the connecting sleeve 431.

Referring to fig. 1, the third frame 53 is provided with a first connecting assembly 42, the first connecting assembly 42 includes a guiding block 421 fixedly connected to the third frame 53, and the guiding block 421 is provided with a guiding groove; the connecting sleeve 431 is fixedly connected with a guide block 422 which slides with the guide groove.

Referring to fig. 1 and 4, a driving mechanism 6 is arranged on the guide block 421, a fourth chute is formed in the guide block 421, the driving mechanism 6 includes an adjusting block 61 slidably arranged on the fourth chute, a first motor 63 is fixedly connected to the adjusting block 61, and a helical gear 64 is keyed on an output shaft of the first motor 63; a helical rack 65 meshed with the helical gear 64 is fixedly connected to the guide block 422; the adjusting block 61 is provided with a fixing bolt 62 which passes through the adjusting block 61 and is in threaded connection with the guide block 421.

Firstly, the guide block 422 and the helical rack 65 slide into the guide groove, and one end of the main body 1, which is far away from the limiting block 432, is positioned in the fourth through hole 531; then, the adjusting block 61 is moved towards the direction close to the guide block 422, the first motor 63 on the adjusting block 61 drives the bevel gear 64 to move towards the direction close to the guide block 422, so that the bevel gear 64 is meshed with the bevel rack 65, and then the fixing bolt 62 penetrates through the adjusting block 61 to be in threaded connection with the guide block 421; then, the first motor 63 is started, the output shaft of the first motor 63 drives the helical gear 64 to rotate, the helical gear 64 drives the helical rack 65 to move, the helical rack 65 drives the guide block 422 to move, the guide block 422 drives the connecting sleeve 431 to move, and the main body 1 connected with the connecting sleeve 431 moves.

Referring to fig. 1 and 4, in order to make the helical gear 64 better engage with the helical rack 65, the guide block 421 is provided with the adjusting mechanism 7, the guide block 422 is provided with a slot, and the guide block 421 is provided with a slide hole communicating with the guide slot.

The adjusting mechanism 7 comprises an adjusting block 72 connected to the guide block 421 in a sliding manner, a first through hole communicated with the sliding hole is formed in the adjusting block 72, a positioning rod 71 is arranged on the adjusting block 72, and one end of the positioning rod 71 passes through the first through hole and the sliding hole to be clamped with the clamping groove; the adjusting block 72 is provided with a positioning bolt 73 which passes through the adjusting block 72 and is in threaded connection with the guide block 421.

When the helical gear 64 is required to be meshed with the helical rack 65, one end of the positioning rod 71 passes through the first through hole and the sliding hole to be clamped with the clamping groove, then the adjusting block 72 is moved, the adjusting block 72 drives the positioning rod 71 to move, the positioning rod 71 drives the guide block 422 to move, the guide block 422 drives the helical rack 65 to move, and after the position of the helical rack 65 is adjusted, the positioning bolt 73 passes through the adjusting block 72 to be in threaded connection with the guide block 421; then, the adjusting block 61 is moved towards the direction close to the helical rack 65, and the first motor 63 on the adjusting block 61 drives the helical gear 64 to move towards the direction close to the helical rack 65 and to be meshed with the helical rack 65; finally, the positioning rod 71 is separated from the clamping groove.

Referring to fig. 4 and 5, in order to enable the helical gear 64 to be better meshed with the helical rack 65, a standard mechanism 8 is arranged on the adjusting block 61, the standard mechanism 8 includes an extending block 84 fixedly connected to the adjusting block 61, scale marks are arranged on the extending block 84, a fifth sliding groove is formed in the extending block 84, a moving block 81 is connected to the fifth sliding groove in a sliding manner, an expansion link 83 is fixedly connected to the moving block 81, the expansion link 83 includes a main rod 831 fixedly connected to the moving block 81, a groove is formed in one end of the main rod 831, which is far away from the moving block 81, a secondary rod 832 is connected to the groove in a sliding manner, and a reinforcing bolt 833 passing through the main rod 831 and in threaded connection with the secondary rod 832 is arranged on the main rod 831; the moving block 81 is provided with a connecting bolt 82 screwed with the adjusting block 61.

Firstly, moving block 81 is moved according to the positions of two adjacent teeth on one side of helical gear 64 to be meshed with helical rack 65, and after the position of moving block 81 is determined, connecting bolt 82 is threaded with extending block 84 through moving block 81; then pulling the secondary rod 832 in a direction away from the main rod 831, and then moving the helical rack 65, so that one end of the secondary rod 832, which is away from the main rod 831, can extend between two adjacent teeth of the helical rack 65; then, the adjusting block 61 is moved towards the direction close to the helical rack 65, so that the helical gear 64 on the first motor 63 is meshed with the helical rack 65; finally, the sub-rod 832 is extended into the recess of the main rod 831, and the reinforcing bolt 833 is screwed to the sub-rod 832 through the main rod 831.

Referring to fig. 1 and 3, a placing cavity 11 is opened at one end of the main body 1 far from the limiting block 432, a third sliding groove is opened on the side wall of the placing cavity 11, a drilling mechanism 2 is arranged on the main body 1, the drilling mechanism 2 comprises a moving block 21 connected in the third sliding groove in a sliding manner, a second motor 22 is fixedly connected to the moving block 21, and a drill rod 23 is connected to an output shaft of the second motor 22. The main body 1 is provided with a moving assembly 24, the moving assembly 24 comprises a third screw 241 rotatably connected in a third sliding chute, and the third screw 241 penetrates through the moving block 21 and is in threaded connection with the moving block 21; a fifth motor 242 is fixedly connected to the main body 1, and an output shaft of the fifth motor 242 is connected to one end of the third screw 241.

When the fifth motor 242 is started, the output shaft of the fifth motor 242 drives the third screw 241 to rotate, the third screw 241 drives the moving block 21 to slide in the third sliding groove, the second motor 22 on the moving block 21 drives the drill rod 23 to move, the second motor 22 is started, and the second motor 22 drives the drill rod 23 to rotate, so that drilling is realized.

Referring to fig. 1 and 3, a dust falling mechanism 3 is arranged on the main body 1, the dust falling mechanism 3 includes a water storage cylinder 31 fixedly connected to the side wall of the placing cavity 11, the water storage cylinder 31 is located on one side of the placing cavity 11 far away from the third chute, a connecting pipe 32 is connected to the water storage cylinder 31, and a spray head 33 is connected to the connecting pipe 32; a push plate is connected to the water storage cylinder 31 in a sliding manner, a push rod 34 is fixedly connected to one side of the push plate, which is far away from the connecting pipe 32, and one end of the push rod 34, which is far away from the push plate, penetrates out of the water storage cylinder 31 and is fixedly connected to the motion block 21.

When the moving block 21 moves, the push rod 34 on the moving block 21 drives the push plate to move, and the push plate pushes the water in the water storage tank 31 to move towards the connecting pipe 32, so that the water enters the spray head 33 through the connecting pipe 32 and is sprayed to the position of drilling the hole in the drill rod 23 from the spray head 33.

Referring to fig. 1 and 3, a waste collecting mechanism 9 is arranged on the side wall of the placing cavity 11 far from one end of the limiting block 432, the waste collecting mechanism 9 comprises a collecting box 91 fixedly connected to the side wall of the placing cavity 11, an arc-shaped collecting plate 92 is obliquely arranged on the collecting box 91, and the arc-shaped collecting plate 92 is far from one side of the drill rod 23 far from the spray head 33.

The implementation principle of the building construction equipment in the embodiment of the application is as follows: one end of the main body 1 far away from the limiting block 432 penetrates through the connecting sleeve 431, the limiting block 432 is abutted against the side wall of the connecting sleeve 431, and finally the mounting bolt 433 penetrates through the limiting block 432 to be in threaded connection with the connecting sleeve 431.

Then, the guide block 422 and the helical rack 65 on the connecting sleeve 431 slide into the bottom guide groove, and one end of the main body 1, which is far away from one end of the limiting block 432, is positioned in the fourth through hole 531; then, the moving block 81 is moved according to the positions of the two adjacent teeth on the side where the helical gear 64 is to be engaged with the helical rack 65, after the position of the moving block 81 is determined, the connecting bolt 82 is threaded with the extending block 84 through the moving block 81, and then the sub-rod 832 is pulled in a direction away from the main rod 831 so that the sub-rod 832 can abut against the helical gear 64. One end of the positioning rod 71 passes through the first through hole and the sliding hole to be clamped with the clamping groove, then the adjusting block 72 is moved, the adjusting block 72 drives the positioning rod 71 to move, the positioning rod 71 drives the guide block 422 to move, the guide block 422 drives the helical rack 65 to move, and one end of the auxiliary rod 832, which is far away from the main rod 831, can be located between two adjacent teeth of the helical rack 65; the guide block 421 is then threaded through the adjustment block 72 with the set bolt 73. Moving the adjusting block 61 toward the direction close to the helical rack 65 to enable the helical gear 64 on the first motor 63 to be meshed with the helical rack 65; when the helical gear 64 is engaged with the helical rack 65, the fixing bolt 62 is screwed with the guide block 421 through the adjusting block 61, the sub-rod 832 is extended into the groove of the main rod 831, and the reinforcing bolt 833 is screwed with the sub-rod 832 through the main rod 831. Finally, the positioning rod 71 is separated from the card slot.

Sucking the sucking disc 41 on the wall surface needing drilling, wherein the position needing drilling is located in the projection range of the second through hole 511; and the collecting chamber 91 is located on the side of the main body 1 close to the ground, and the height of the end of the arc-shaped collecting plate 92 far away from the collecting chamber 91 relative to the ground is higher than that of the end of the collecting chamber 91 relative to the ground.

Then, according to the position to be drilled, the third motor 542 and the fourth motor 552 are started to change the positions of the second frame 52 and the third frame 53, so that the drill rod 23 can be aligned with the position to be drilled.

Then start first motor 63, the output shaft of first motor 63 drives helical gear 64 and rotates, helical gear 64 drives helical rack 65 and removes, helical rack 65 drives guide block 422 and slides in the guide slot of guide block 421, guide block 422 drives adapter sleeve 431 and moves, adapter sleeve 431 drives main part 1 and moves, make main part 1 keep away from the side of limiting block 432 and pass fourth through-hole 531, third through-hole 521 and second through-hole 511 in proper order, then make main part 1 keep away from the wall that needs drilling is contradicted to the one end of limiting block 432, and arc collection board 92 also contradicts the wall that needs drilling.

Finally, the fifth motor 242 and the second motor 22 are started to enable the drill rod 23 to drill a hole in the wall surface, water sprayed from the spray head 33 is sprayed to the drilling position, and debris generated by drilling and sewage formed by dustfall enter the collection box 91 along the arc-shaped collection plate 92.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The building construction equipment comprises a main body (1), a drilling mechanism (2) and a dust falling mechanism (3), wherein a placing cavity (11) is formed in the main body (1), the drilling mechanism (2) and the dust falling mechanism (3) are arranged in the placing cavity (11), the building construction equipment is characterized by further comprising a stabilizing mechanism (4), the stabilizing mechanism (4) comprises a sucker (41), a connecting frame (5) and a first connecting assembly (42), and the sucker (41) is arranged on the connecting frame (5) and can be adsorbed on a wall surface to be drilled; the main body (1) is connected with the connecting frame (5) through the first connecting component (42).

2. The building construction equipment according to claim 1 characterized in that said first connection assembly (42) comprises a guide block (421) and a guide block (422),

the guide block (421) is arranged on the connecting frame (5), a guide groove is arranged on the guide block (421),

the guide block (422) is arranged on the main body (1), and the guide block (422) can slide in the guide groove.

3. The building construction equipment according to claim 2, characterized in that a driving mechanism (6) is arranged on the guide block (421), the driving mechanism (6) comprises an adjusting block (61), a fixing bolt (62), a first motor (63), a helical gear (64) and a helical rack (65), the adjusting block (61) is arranged on the connecting frame (5) in a sliding manner, and the fixing bolt (62) penetrates through the adjusting block (61) to be in threaded connection with the guide block (421);

the first motor (63) is arranged on the adjusting block (61), and the bevel gear (64) is arranged on the first motor (63);

the helical rack (65) is arranged on the guide block (422), and the helical rack (65) is meshed with the helical gear (64).

4. The building construction equipment according to claim 3, wherein the guide block (421) is provided with an adjusting mechanism (7) connected with the guide block (422), the adjusting mechanism (7) comprises a positioning rod (71), an adjusting block (72) and a positioning bolt (73), and the guide block (422) is provided with a clamping groove;

the adjusting block (72) is arranged on the guide block (421) in a sliding manner, and a first through hole communicated with the guide groove is formed in the adjusting block (72);

the positioning rod (71) penetrates through the first through hole and is clamped with the clamping groove;

the positioning bolt (73) penetrates through the adjusting block (72) to be in threaded connection with the guide block (421).

5. The building construction equipment according to claim 3, characterized in that a standard mechanism (8) is arranged on the adjusting block (61), the standard mechanism (8) comprises a moving block (81), a telescopic rod (83) and a connecting bolt (82), the moving block (81) is slidably arranged on the adjusting block (61), the telescopic rod (83) is arranged on the moving block (81), and the connecting bolt (82) penetrates through the moving block (81) to be in threaded connection with the adjusting block (61).

6. A building construction equipment according to claim 3, characterized in that the guide block (422) is provided with a second connecting assembly (43) connected with the main body (1), the second connecting assembly (43) comprises a connecting sleeve (431), a limiting block (432) and a mounting bolt (433), the connecting sleeve (431) is sleeved on the main body (1), and the guide block (422) is provided on the connecting sleeve (431);

the limiting block (432) is arranged at one end of the main body (1) far away from the placing cavity (11), and the limiting block (432) abuts against the connecting sleeve (431);

the mounting bolt (433) penetrates through the limiting block (432) to be in threaded connection with the connecting sleeve (431).

7. The building construction equipment according to claim 1, wherein the connecting frame (5) comprises a first frame body (51), a second frame body (52), a third frame body (53), a first adjusting component (54) and a second adjusting component (55), a second through hole (511) is formed in the first frame body (51), and the suction cup (41) is arranged on the first frame body (51);

the second frame body (52) is arranged on the first frame body (51) in a sliding mode, and a third through hole (521) communicated with the second through hole (511) is formed in the second frame body (52);

the third frame body (53) is arranged on the second frame body (52) in a sliding manner, and a fourth through hole (531) communicated with the third through hole (521) is formed in the third frame body (53); the main body (1) is connected with the third frame body (53) through the first connecting component (42), and the main body (1) can pass through the fourth through hole (531), the third through hole (521) and the second through hole (511);

the first adjusting component (54) is arranged on the first frame body (51) and is connected with the second frame body (52);

the second adjustment assembly (55) is provided on the second frame body (52) and connected to the third frame body (53).

8. A construction equipment according to claim 1, wherein a scrap collecting mechanism (9) is provided in the main body (1), said scrap collecting mechanism (9) comprising a collecting box (91) and an arc-shaped collecting plate (92), said collecting box (91) being provided on the main body (1), said arc-shaped collecting plate (92) being provided on said collecting box (91), said arc-shaped collecting plate (92) being capable of abutting against a wall surface to be drilled.

9. A building construction equipment according to claim 1 characterized in that the drilling mechanism (2) comprises a motion block (21), a second motor (22), a drill rod (23) and a moving assembly (24), the motion block (21) is slidably arranged on the main body (1), the second motor (22) is arranged on the motion block (21), the drill rod (23) is arranged on an output shaft of the second motor (22);

the moving assembly (24) is arranged on the main body (1) and is connected with the moving block (21).

10. The building construction equipment according to claim 9, wherein the dust falling mechanism (3) comprises a water storage cylinder (31), a connecting pipe (32), a spray head (33), a push plate and a push rod (34), the water storage cylinder (31) is arranged on the main body (1), the connecting pipe (32) is arranged on the water storage cylinder (31), the spray head (33) is arranged on the connecting pipe (32), and water sprayed from the spray head (33) is sprayed to the drill hole of the drill rod (23);

the push plate slides and sets up in water storage cylinder (31), the one end setting of push rod (34) is in on the push plate and other one end sets up on motion piece (21).