CN115091624A - A fluting device for building built-in fitting - Google Patents

Abstract

The invention relates to the field of building construction, and particularly discloses a slotting device for a building embedded part, which comprises: a centering table; the positioning support assembly is connected with the middle-placed platform; the dust removal device is connected with the positioning support assembly; the slotting and drilling device is connected with the positioning support assembly; the positioning device is connected with the positioning support assembly; wherein the positioning device comprises: the gas collecting bin assembly is connected with one end, far away from the slotting and drilling device, of the positioning support assembly; the dust removal device is used for removing dust and simultaneously drives the slotting and drilling device to carry out dustless punching and slotting, meanwhile, the dust removal device is matched with the gas collecting bin assembly and the supercharging limiting assembly to complete longitudinal pressurization and fixation of an external support, stability during slotting and drilling is further improved, and manual support is not needed.

Description

A fluting device for building built-in fitting

Technical Field

The invention relates to the building construction industry, in particular to a slotting device for a building embedded part.

Background

The building embedded parts are mostly made of steel products, and some stainless steel products are also provided, so that planning and requirements are generally carried out during building design, the building embedded parts are various in variety, uniform specifications are not provided, and the building embedded parts are generally customized according to design requirements.

When the building construction, need carry out the landfill of building built-in fitting, when burying the landfill fluting at present, the cooperation is supported to the most manpower that needs of current equipment, wastes time and energy, consequently, for solving this problem, needs to develop a fluting device for building built-in fitting urgently.

Disclosure of Invention

The invention aims to provide a slotting device for building embedded parts, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a grooving apparatus for construction embedments, comprising:

a centering table;

the positioning support assembly is connected with the middle-placed platform;

the dust removal device is connected with the positioning support assembly and is used for negative pressure collection of slotted raised dust;

the slotting and drilling device is connected with the positioning support assembly and is used for slotting and driving the embedded part;

the positioning device is connected with the positioning support assembly;

wherein the positioning device comprises:

the gas collecting bin assembly is connected with one end, far away from the slotting and drilling device, of the positioning support assembly;

and the pressurizing limiting component is connected with the gas collection bin component and is used for pressurizing and fixing the positioning support component.

Compared with the prior art, the invention has the beneficial effects that: this device reasonable in design, dust collector when removing dust, the linkage drives fluting drilling equipment and carries out dustless fluting that punches, simultaneously, and the vertical pressurization of accomplishing outside support is fixed with the spacing subassembly of pressure boost, and stability when further having improved fluting drilling need not the manual support of manpower, and labour saving and time saving has higher practicality and market prospect, is fit for using widely on a large scale.

Drawings

Fig. 1 is a perspective view of a grooving apparatus for a construction embedment in an embodiment of the present invention.

Fig. 2 is a schematic external structural view of a grooving apparatus for a building embedded part according to an embodiment of the present invention.

Fig. 3 is a partial structural diagram of a portion a in fig. 1.

Fig. 4 is a schematic structural diagram of a center table in a grooving apparatus for a building embedded part according to an embodiment of the present invention.

In the figure: 1-a middle placing table, 2-a positioning support assembly, 3-a dust removing device, 4-a slotting and drilling device, 5-a positioning device, 6-a gas collecting bin assembly, 7-a pressurizing limiting assembly, 201-a middle placing bin, 202-a connecting frame, 203-a support, 204-a groove, 301-a fixed bin, 302-a first driving piece, 303-a filtering piece, 304-a blade, 401-a linkage telescopic shaft, 402-a sleeve bearing, 403-a connecting tube bin, 404-a first elastic piece, 405-an alloy punching sleeve, 406-a first sliding plate, 407-an adjusting frame, 408-a second driving piece, 409-a ring frame, 601-a gas collecting bin, 602-a fixed seat, 603-a second elastic piece, 604-a blocking pressing plate and 701-a pressurizing tube, 702-second slide, 703-third elastic element, 704-driving frame, 705-rubber sphere.

Detailed Description

The technical solutions in the embodiments of the present invention will be 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 of the 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.

A grooving apparatus for a construction embedment, in one embodiment of the present invention, as shown in fig. 1 to 4, comprises: a centering table 1; the positioning support assembly 2 is connected with the middle placing table 1; the dust removal device 3 is connected with the positioning support assembly 2 and is used for collecting the negative pressure of the slotted raised dust; the slotting and drilling device 4 is connected with the positioning support assembly 2 and is used for slotting and driving the embedded part; the positioning device 5 is connected with the positioning support assembly 2; wherein the positioning device 5 comprises: the gas collecting bin assembly 6 is connected with one end, far away from the slotting and drilling device 4, of the positioning support assembly 2; and the pressurizing limiting component 7 is connected with the gas collecting bin component 6 and is used for pressurizing and fixing the positioning support component 2.

In one embodiment of the invention:

as shown in fig. 1 and 2, the positioning seat assembly 2 includes: the middle-placed cabin 201, wherein the middle-placed cabin 201 is fixedly connected with the middle-placed platform 1; at least four connecting frames 202, wherein one end of each connecting frame 202 is movably connected with the middle-placed cabin 201; one end of the bracket 203 is movably connected with the middle-placed table 1 and is movably connected with one end of the connecting frame 202 far away from the middle-placed cabin 201; the groove 204 is arranged outside the bracket 203 and used for connecting and limiting the pressurization limiting component 7;

when slotting, place the device and wait the fluting position top, manually pull open four supports 203, erect the device and adorn directly over waiting the fluting position, operation dust collector 3, dust collector 3 can drive fluting drilling equipment 4 operation, punches the processing to the fluting position, and simultaneously, gas collection storehouse subassembly 6 and the cooperation of the spacing subassembly 7 of pressure boost cover the location support subassembly 2 outside, further improve the stability of device when slotting.

In one embodiment of the invention:

as shown in fig. 1, the dust removing device 3 includes: the fixed bin 301 is connected with the interior of the middle bin 201; a first driving element 302, wherein the first driving element 302 is connected with the fixed bin 301; the first driving piece 302 selects an electric roller shaft; the filtering piece 303, the filtering piece 303 is connected with the interior of the middle-placed cabin 201; the filtering piece 303 adopts an HEPA filter element; a plurality of blades 304, the plurality of blades 304 being connected to the first driver 302;

the upper and lower parts of the middle-placed bin 201 and the fixed bin 301 are both provided with openings, and the blades 304 can be driven to rotate by the first driving piece 302, so that negative pressure is formed inside the fixed bin 301 and the middle-placed bin 201, dust generated when the slotting device 4 slots is collected, and is filtered by the filter piece 303;

in the present application, the first driving member 302 is not limited to an electric roller, and a linear motor, an electric cylinder, or an air cylinder may be used, as long as the blade 304 can be driven to rotate, and is not limited in particular.

In one embodiment of the invention:

as shown in fig. 1 and 3, the slot-drilling apparatus 4 includes: a linkage telescopic shaft 401, wherein the linkage telescopic shaft 401 penetrates through the filter element 303 and is connected with the first driving element 302; the sleeve bearing 402 is connected with the linkage telescopic shaft 401; the connecting pipe bin 403 is connected with one end, far away from the first driving piece 302, of the linkage telescopic shaft 401; the first elastic piece 404, the first elastic piece 404 is connected with the inside of the connecting pipe bin 403; the first elastic piece 404 is a spring; the alloy punching sleeve 405 is connected with one end, far away from the linkage telescopic shaft 401, of the connecting pipe bin 403; a sliding plate 406, wherein the sliding plate 406 is slidably connected with the inside of the connecting tube bin 403 and is connected with the first elastic member 404; the adjusting frame 407, the adjusting frame 407 is connected with the sliding plate 406 through the connecting pipe bin 403;

a slot (not shown in the figure) is arranged on the outer side of the connecting pipe bin 403 and used for limiting the movement of the adjusting frame 407, when the first driving piece 302 rotates, the connecting pipe bin 403 and the alloy punching sleeve 405 can be driven to synchronously rotate by matching with the linkage telescopic shaft 401, and the bottom end of the alloy punching sleeve 405 is arranged by adopting an inclined opening.

In one embodiment of the invention:

as shown in fig. 1 and 2, the slotting and drilling device 4 further includes: at least two second driving members 408, wherein the second driving members 408 are fixedly connected with the bottom side of the middle-placed cabin 201; the second driving member 408 is an electric telescopic frame; the ring frame 409 is fixedly connected with one end, far away from the middle-placed bin 201, of the second driving piece 408, sleeved on the outer side of the linkage telescopic shaft 401 and abutted against the top side of the sleeve bearing 402;

a ball (not shown in the figure) is arranged at the joint of the ring frame 409 and the sleeve bearing 402, when the alloy punching sleeve 405 rotates, the second driving piece 408 runs to match the ring frame 409 and the sleeve bearing 402, the telescopic shaft 401 is linked to stretch, the alloy punching sleeve 405 at the bottom punches and slots the slot position, after punching is completed, a soil layer enters the alloy punching sleeve 405 and the connecting pipe bin 403, the adjusting frame 407 is pulled, and partial soil layer inside the alloy punching sleeve 405 and the connecting pipe bin 403 is led out to the outside;

in this application, the second driving member 408 is not limited to an electric telescopic frame, and may be driven by a linear motor, an electric cylinder, or an air cylinder, as long as the movement adjustment of the ring frame 409 can be achieved, and is not limited specifically herein.

In one embodiment of the invention:

as shown in fig. 1 and 2, the gas collecting bin assembly 6 includes: the gas collecting bin 601 is fixedly connected with the top side of the middle bin 201; the fixed seat 602, the fixed seat 602 is fixedly connected with the inside of the gas collecting bin 601; the second elastic member 603, the second elastic member 603 is fixedly connected with the fixing base 602; the second elastic member 603 is a spring; the blocking plate 604 is fixedly connected with the second elastic piece 603, and is abutted against the gas collecting bin 601;

an opening (not shown in the figure) is arranged on the top side of the gas collecting bin 601, when the inside of the fixed bin 301 is pressurized, gas enters the inside of the gas collecting bin 601, part of the gas is introduced into the pressurizing limiting component 7, and when the gas pressure inside the gas collecting bin 601 is too high, the blocking plate 604 is pushed to move in a jacking mode by matching with the second elastic piece 603, so that the pressure inside the gas collecting bin 601 is released.

In one embodiment of the invention:

as shown in fig. 1 and 2, the pressure-increasing limiting assembly 7 includes: one end of each of the pressure pipes 701 is connected with the gas collection bin 601, and the other end of each of the pressure pipes 701 is connected with the middle-placed platform 1 in a penetrating manner; a second sliding plate 702, said second sliding plate 702 being slidably connected to the inside of the pressure inlet duct 701; a third elastic member 703, wherein the third elastic member 703 is connected to the second sliding plate 702; the third elastic member 703 is a spring; the transmission frame 704 is connected with one end of the third elastic element 703 far away from the second sliding plate 702; the rubber ball 705 is connected with one end of the transmission frame 704 far away from the third elastic element 703;

when the internal pressure of the pressure increasing pipe 701 rises, the second sliding plate 702 is driven to move downwards, the transmission frame 704 and the rubber ball 705 are driven to move downwards to jack up and move downwards, and the transmission frame and the base frame of the groove 204 on the outer side of the bracket 203 give a downward acting force to the bracket 203, so that the support stability of the bracket 203 is further improved, and the pressure increasing pipe 701 is provided with a convex frame (not shown in the figure) for limiting the movement of the transmission frame 704.

The working principle of the invention is as follows: when slotting is carried out, the device is placed above a position to be slotted, the four supports 203 are pulled open manually, the device is erected and installed right above the position to be slotted, the dust removal device 3 is operated, the dust removal device 3 can drive the slotting and drilling device 4 to operate, the slotting position is punched, meanwhile, the gas collection bin assembly 6 is matched with the pressurizing limiting assembly 7 to press and cover the outside of the positioning support assembly 2, the stability of the device is further improved when slotting is carried out, the upper portion and the lower portion of the middle-placed bin 201 and the upper portion and the lower portion of the fixed bin 301 are both arranged in an open mode, the blades 304 can be driven to rotate under the driving of the first driving piece 302, negative pressure is formed inside the fixed bin 301 and the middle-placed bin 201, dust generated when slotting is carried out on the slotting and drilling device 4 is collected and filtered through the filtering piece 303, the first driving piece 302 is not limited to an electric roll shaft device, and can also adopt a linear motor, An electric cylinder or an air cylinder for driving, and the like, as long as the blade 304 can be driven to rotate, and the specific limitation is not limited herein, a slot (not shown in the figure) is arranged on the outer side of the connecting pipe bin 403 and is used for limiting the movement of the adjusting frame 407, when the first driving member 302 rotates, the connecting pipe bin 403 and the alloy punching sleeve 405 can be driven to rotate synchronously by matching with the linkage telescopic shaft 401, and the bottom end of the alloy punching sleeve 405 is provided with an inclined opening;

a ball (not shown in the figure) is arranged at the joint of the ring frame 409 and the sleeve bearing 402, when the alloy punching sleeve 405 rotates, the second driving piece 408 runs to match the ring frame 409 and the sleeve bearing 402, the telescopic shaft 401 is linked to stretch, the alloy punching sleeve 405 at the bottom punches and slots the slot position, after punching is completed, soil layers enter the alloy punching sleeve 405 and the connecting pipe bin 403, the adjusting frame 407 is pulled to guide partial soil layers inside the alloy punching sleeve 405 and the connecting pipe bin 403 to the outside, an opening (not shown in the figure) is arranged at the top side of the gas collecting bin 601, when the inside of the fixed bin 301 is pressurized, gas enters the gas collecting bin 601, partial gas is guided into the pressurizing limiting component 7, when the internal air pressure of the gas collecting bin 601 is overhigh, the blocking plate 604 is pushed to move by matching with the second elastic piece 603, the pressure inside the gas collecting bin 601 is released, and when the internal pressure of the pressurizing pipe 701 rises, the second sliding plate 702 is driven to move downwards, the driving frame 704 and the rubber ball 705 are driven to move upwards, and the driving frame and the rubber ball 705 and the groove 204 at the outer side of the bracket 203 are driven to act downwards to give a downward acting force to the bracket 203, so that the supporting stability of the bracket 203 is further improved, and a convex frame (not shown in the figure) is arranged on the pressure increasing pipe 701 and is used for limiting the movement of the driving frame 704.

To sum up, this device dust collector 3 when removing dust, the linkage drives fluting drilling equipment 4 and carries out dustless fluting that punches, and simultaneously, cooperation gas collection storehouse subassembly 6 and the spacing subassembly 7 of pressure boost accomplish the vertical pressurization of outside support 203 and fix, and stability when further having improved fluting drilling need not the manual support of manpower, labour saving and time saving.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. A grooving apparatus for building embedments, comprising:

a centering table;

the positioning support assembly is connected with the middle-placed platform;

the dust removal device is connected with the positioning support assembly and is used for collecting the slotted raised dust under negative pressure;

the slotting and drilling device is connected with the positioning support assembly and is used for slotting and driving the embedded part;

the positioning device is connected with the positioning support assembly;

wherein, the positioner includes:

the gas collecting bin assembly is connected with one end, far away from the slotting and drilling device, of the positioning support assembly;

and the pressurizing limiting component is connected with the gas collection bin component and is used for pressurizing and fixing the positioning support component.

2. The grooving apparatus for a building embedment of claim 1, wherein the positioning bracket assembly includes:

the middle-placed cabin is fixedly connected with the middle-placed platform;

one end of each connecting frame is movably connected with the middle-placed cabin;

one end of the bracket is movably connected with the middle-placed platform and is movably connected with one end of the connecting frame, which is far away from the middle-placed cabin;

the groove is arranged outside the support and used for connecting and limiting the pressurizing limiting component.

3. The grooving apparatus for construction embedments of claim 2, wherein the dust removal device includes:

the fixed bin is connected with the interior of the middle bin;

the first driving piece is connected with the fixed bin;

the filtering piece is connected with the interior of the middle-placed cabin;

the blades are connected with the first driving piece.

4. The grooving apparatus for building embedments of claim 3, wherein the grooving drill apparatus comprises:

the linkage telescopic shaft penetrates through the filter element and is connected with the first driving element;

the sleeve joint bearing is connected with the linkage telescopic shaft;

the connecting pipe bin is connected with one end, far away from the first driving piece, of the linkage telescopic shaft;

the first elastic piece is connected with the inside of the connecting pipe bin;

the alloy punching sleeve is connected with one end, far away from the linkage telescopic shaft, of the connecting pipe bin;

the sliding plate is connected with the inside of the connecting pipe bin in a sliding manner and is connected with the first elastic piece;

the adjusting frame is connected with the sliding plate through the connecting pipe bin.

5. The grooving apparatus for building embedments of claim 2, wherein the grooving drilling apparatus further comprises:

the second driving pieces are fixedly connected with the bottom side of the middle-placed bin;

and the ring frame is fixedly connected with one end, far away from the middle-placed cabin, of the second driving piece, sleeved outside the linkage telescopic shaft and abutted against the top side of the sleeved bearing.

6. The grooving apparatus for building embedments of claim 2, wherein the gas collecting pocket assembly includes:

the gas collecting bin is fixedly connected with the top side of the middle-placed bin;

the fixed seat is fixedly connected with the inside of the gas collection bin;

the second elastic piece is fixedly connected with the fixed seat;

and the blocking plate is fixedly connected with the second elastic piece and is abutted against the gas collecting bin.

7. The grooving apparatus for building embedments of claim 6, wherein the pressurization limiting assembly includes:

one end of each of the pressurizing pipes is connected with the gas collecting bin, and the other end of each of the pressurizing pipes is in penetrating connection with the middle-placed platform;

the second sliding plate is connected with the inside of the pressure charging pipe in a sliding manner;

the third elastic piece is connected with the second sliding plate;

the transmission frame is connected with one end, far away from the second sliding plate, of the third elastic piece;

and the rubber ball body is connected with one end of the transmission frame, which is far away from the third elastic part.

Images