Building design engineering is with consolidating construction equipment
Technical Field
The invention relates to the technical field of constructional engineering, in particular to a reinforcement construction device for constructional design engineering.
Background
The planting bar is the connection technology of the effect of the holding force of the structural glue locking key for anchoring behind a steel bar in the earthquake-resistant reinforcing engineering of the building structure, is the best choice for the reinforcing of the structural planting bar and the fastening application of heavy load, and the construction planting bar technology is a simple and effective concrete structure connection anchoring technology, can be implanted with common steel bars or bolt type anchor rods, and can be widely applied to the existing construction reinforcing and reconstruction engineering, such as: repairing the steel bar which is lost or deviates from the designed position in the construction, and expanding the reinforcing bar of the cross-section component.
Through retrieving, for example, patent with patent number CN108560945A discloses a reinforcement construction equipment for architectural design engineering, which comprises a bottom plate, wherein a gluing device, a fixing device and a laying device are sequentially installed on the bottom plate from front to back, the gluing device comprises a gluing support frame installed on the bottom plate, a gluing moving groove is arranged on the gluing support frame, a gluing moving mechanism is installed on the gluing support frame, the gluing moving mechanism is located in the gluing moving groove, and a gluing executing mechanism is arranged at the lower end of the gluing moving mechanism. The invention can solve the problems that in the existing steel bonding reinforcement building process, the prepared glue solution needs to be manually coated on a steel plate, the steel plate needs to be manually adhered on a specified working surface, the pungent peculiar smell in the glue solution harms the health of a human body, the glue solution is not uniformly coated manually, the effect of the steel bonding reinforcement building is influenced, the environment of the working surface of the building needing reinforcement is complex, the steel plate which is adhered by manual vibration and compaction is complex, and the working range of the steel plate which is adhered manually is limited.
For another example, patent No. CN108487663A discloses a building reinforcing construction equipment, which includes a bottom plate, a tensioning conveying device is installed on the bottom plate, a gluing device is installed at the rear side of the bottom plate, the gluing device is located above the tensioning conveying device, a cutting and collecting device is installed at the front side of the bottom plate, the tensioning conveying device includes a winding roller, a first adjusting roller, a first limiting roller, a second adjusting roller and a winding roller which are sequentially installed on the bottom plate from the front to the back, and a carbon fiber cloth body is wound on the winding roller. The invention can solve the problems that in the existing process of manually processing the carbon fiber cloth, the carbon fiber cloth needs to be manually cut according to the processing size, glue solution needs to be manually coated on the carbon fiber cloth, the carbon fiber cloth after being coated with the glue needs to be manually stacked, the manual gluing is not uniform, the house reinforcing effect is influenced, the operation of manually stacking the carbon fiber cloth is complicated, the space required by stacking is large, the space utilization rate is low, and the like.
However, current architectural design engineering is with consolidating construction equipment generally is panel rubber coating structure, does not set up the structure that can concentrate on same device with bar planting in-process drilling, hole washing and injecting glue function, and the practicality of device is relatively poor, does not set up the structure that can improve granule cleaning efficiency in the drilling, does not set up the structure that can effectively accomodate, protect the drill bit, and the security of device is relatively poor.
Therefore, the existing requirements are not met, and a reinforcement construction device for building design engineering is provided for the requirements.
Disclosure of Invention
Problem (A)
The invention aims to provide a reinforcement construction device for building design engineering, which aims to solve the problems that the reinforcement construction device for building design engineering of the existing device proposed in the background technology is generally a plate gluing structure, a structure capable of integrating the functions of drilling, hole washing and glue injection in the bar planting process into the same device is not arranged, the practicability of the device is poor, a structure capable of improving the cleaning efficiency of particles in the drilling hole is not arranged, a structure capable of effectively accommodating and protecting a drill bit is not arranged, and the safety of the device is poor.
(II) technical scheme
In order to achieve the purpose, the invention provides the following technical scheme: a reinforcement construction equipment for architectural design engineering comprises a fixed handle; the curved side surface at the top of the fixed handle is fixedly connected with a main switch; the top of the fixed handle is fixedly connected with a main body; a mode adjusting table is fixedly connected to the right side in the main body; the mode adjusting platform circuit is coupled with the main switch circuit; the left side of the mode adjusting table is fixedly connected with a storage battery; the storage battery circuit is coupled with the mode adjusting platform circuit; the top of the main body is fixedly connected with a dust cover; the right side of the main body is fixedly connected with an elastic clamping ring through welding; the top of the main body is provided with a glue squeezing structure; the glue squeezing structure is tubular; the glue squeezing structure comprises a glue outlet hole, a hinged cover, a shifting piece, an anode magnetic sheet, a fixed plate and a cathode magnetic sheet; the glue outlet hole is positioned at the tail end of the left side of the glue extruding structure; the top of the glue squeezing structure is provided with a hinged cover through hinge connection; the edge of the left side of the hinged cover is fixedly connected with a shifting piece through welding; positive magnetic sheets are arranged on two sides of the poking sheet; the number of the positive pole magnetic sheets is two; the positive magnetic sheet is positioned at the edge of the side surface of the hinged cover; the bottom surface of the positive pole magnetic sheet is parallel to the top surface of the main body; the right edge of the curved side surface of the glue squeezing structure is fixedly connected with a fixing plate; the side surface of the fixed plate is fixed with the left side of the main body through a bolt; the number of the fixing plates is two; the fixing plate is in an inverted L shape; the top plane of the fixed plate is fixedly connected with a negative magnetic sheet; the negative pole magnetic sheet is attached to the positive pole magnetic sheet through magnetic force.
Preferably, the glue squeezing structure further comprises a guide rail A and a glue squeezing motor; the right side of the glue squeezing structure is fixedly connected with a guide rail A; the bottom of the guide rail A is fixed with the top surface of the main body; the top of the guide rail A is provided with a glue extruding motor through sliding connection.
Preferably, the glue squeezing structure further comprises a threaded rod, a movable bearing, a push sheet and a reset switch; the right side of the glue squeezing motor is provided with a threaded rod through coaxial connection; the threaded rod and the right side of the glue squeezing structure form threaded transmission; the tail end of the left side of the threaded rod is provided with a movable bearing through coaxial connection; the left end of the movable bearing is provided with a push sheet through hinge connection; the right side of the glue squeezing motor is fixedly connected with a reset switch; the reset switch circuit is coupled to the mode adjustment stage circuit.
Preferably, an acetone needle cylinder is arranged inside the glue extruding structure; the needle head on the left side of the acetone syringe is in sliding connection with the glue outlet hole; the right piston handle of the acetone syringe is parallel to the surface angle of the push sheet.
Preferably, the inner curved side surface of the elastic clamping ring is provided with a brush; the rod part on the side surface of the brush is connected with the elastic snap ring in an interference fit manner; the tail end of the side surface of the brush is fixedly connected with a drill bit connecting pipe.
Preferably, a drilling structure is arranged on the left side in the main body; the drilling structure comprises a guide rail B, a drilling motor, a hinge rod and a sliding handle; the top surface in the main body is fixedly connected with a guide rail B through a bolt; the top of the guide rail B is provided with a drilling motor through sliding connection; the drilling motor circuit is coupled with the mode adjusting table circuit; a drill bit is coaxially connected to the left side of the drilling motor; the right side of the drilling motor is provided with a hinge rod through hinge connection; the tail end of the left side of the hinged rod is connected with a sliding grip through interference fit.
Preferably, the drilling structure further comprises a limiting plate, a sliding groove, a vertical groove, an insertion block and a lifting rod; the left side of the main body is fixedly connected with a limiting plate through a bolt; the limiting plate is internally and fixedly connected with a chute; the sliding chutes penetrate through the two sides of the limiting plate; two ends of the sliding chute are fixedly connected with vertical grooves; the number of the vertical slots is set to two groups; the hinge rod is in sliding connection with the sliding groove; an inserting block is arranged above the vertical groove; the inserting blocks form sliding connection in the limiting plates, and the opposite surfaces of the tops of the two groups of inserting blocks are fixedly connected with lifting rods; the insert block and the vertical groove form a limiting structure.
Preferably, the inner curved side surface of the drill bit connecting pipe is matched with the outer shape of the drill bit, and the drill bit connecting pipe can be in threaded connection with the drill bit.
(III) advantageous effects
The invention provides a reinforcement construction device for building design engineering, which is characterized in that a drilling structure is arranged, a sliding handle is held to push forwards, a hinge rod drives a drilling motor to slide forwards on the top of a guide rail B, a drill bit moves outwards, the side surface of the hinge rod is contacted with an insert block, the insert block is lifted up to remove the limit by lifting a lifting rod upwards, the hinge rod can be pushed to the front end of a sliding groove, the drill bit can completely extend out of a main body, the hinge rod is bent downwards and then pulled backwards, the hinge rod can be fixed in a vertical groove, the lifting rod is pressed downwards, the bottom surface of the insert block can slide to the side surface of the vertical groove, the position of the hinge rod can be fixed, the position of the drill bit is fixed, and the drill bit is not easy to deviate in the drilling process; after drilling is finished, the sliding handle can be pulled backwards, the drill bit is stored in the device, the size of the device is reduced, the drill bit is effectively protected, accidental injury during working is prevented, and safety of the device is improved.
Secondly, the setting of drill bit takeover can be after drilling finishes, can take out the brush from the elasticity snap ring is inside, can take over the drill bit and aim at the drill bit, through rotatory butt joint, can make brush and drill bit obtain fixing, can use the brush to when clearing up in the drilling, make the brush rotate through starting drilling motor, through the sliding handle of front and back push-and-pull, make the brush take out the granule dust in the drilling internal rotation, can improve cleaning efficiency.
Moreover, the glue extruding motor is arranged, building glue is placed in the glue extruding structure, a user presses the main switch through fingers to enable the glue extruding motor to be started, the glue extruding motor slides to the left side through the transmission of the threaded rod and the right side thread of the glue extruding structure, the pushing piece at the left side end of the threaded rod is enabled to extrude the glue, the glue is extruded into the drill hole, the steel bar is inserted into the drill hole after glue injection is finished, bar planting reinforcement is completed, and the stability of glue injection can be improved; through the cooperation of the drilling structure, the glue extruding structure, the acetone needle cylinder and the brush, the drilling, hole washing and glue injecting functions in the bar planting process can be concentrated in the same device, and the practicability of the device is improved.
Drawings
FIG. 1 is a schematic diagram of a right side perspective view of the device as a whole according to an embodiment of the present invention;
FIG. 2 is a schematic diagram of the right side perspective view of the device when the hinged cover is opened according to the embodiment of the present invention;
FIG. 3 is a schematic diagram of a left side perspective view of the device according to an embodiment of the present invention;
FIG. 4 is a schematic perspective exploded view of the apparatus according to the embodiment of the present invention;
FIG. 5 is an enlarged view of a portion of FIG. 4 in accordance with an embodiment of the present invention;
FIG. 6 is a schematic perspective view of a glue-extruding structure according to an embodiment of the present invention;
FIG. 7 is a schematic perspective view of a drilling structure according to an embodiment of the present invention;
FIG. 8 is a schematic perspective view of an embodiment of an elastic snap ring according to the present invention;
in fig. 1 to 8, the correspondence between the part names or lines and the reference numbers is:
1. fixing the grip; 101. a main switch; 2. a main body; 201. a mode adjustment stage; 202. a storage battery; 203. a dust cover; 204. an elastic snap ring; 3. a glue squeezing structure; 301. a glue outlet hole; 302. a hinged cover; 303. a shifting sheet; 304. a positive electrode magnetic sheet; 305. a fixing plate; 306. a negative pole magnetic sheet; 307. a guide rail A; 308. a glue squeezing motor; 309. a threaded rod; 310. a movable bearing; 311. pushing the sheet; 312. a reset switch; 4. an acetone syringe; 5. a brush; 501. a drill bit adapter; 6. drilling a hole structure; 601. a guide rail B; 602. a drilling motor; 603. a hinged lever; 604. sliding the grip; 605. a limiting plate; 606. a chute; 607. a vertical slot; 608. inserting a block; 609. and (5) lifting the rod.
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.
In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Referring to fig. 1 to 8, an embodiment of the present invention includes: a reinforcement construction equipment for architectural design engineering comprises a fixed handle 1; the curved side surface at the top of the fixed grip 1 is fixedly connected with a main switch 101; the top of the fixed handle 1 is fixedly connected with a main body 2; a mode adjusting table 201 is fixedly connected to the right side inside the main body 2; the mode adjusting station 201 circuit is coupled with the main switch 101 circuit; a storage battery 202 is fixedly connected to the left side of the mode adjusting table 201; the battery 202 circuit is coupled with the mode adjusting station 201 circuit; the top of the main body 2 is fixedly connected with a dust cover 203; the right side of the main body 2 is fixedly connected with an elastic snap ring 204 through welding; the top of the main body 2 is provided with a glue extruding structure 3; the glue extruding structure 3 is tubular; the glue squeezing structure 3 comprises a glue outlet hole 301, a hinged cover 302, a shifting piece 303, an anode magnetic piece 304, a fixed plate 305 and a cathode magnetic piece 306; the glue outlet hole 301 is positioned at the tail end of the left side of the glue extruding structure 3; the top of the glue squeezing structure 3 is provided with a hinged cover 302 through hinge connection; the edge of the left side of the hinged cover 302 is fixedly connected with a shifting piece 303 through welding; positive pole magnetic sheets 304 are arranged on two sides of the poking sheet 303; the number of positive pole magnetic pieces 304 is set as two groups; the positive pole magnetic sheet 304 is positioned at the edge of the side face of the hinge cover 302; the bottom surface of the positive pole magnetic sheet 304 is parallel to the top surface of the main body 2; the right edge of the curved side surface of the glue-extruding structure 3 is fixedly connected with a fixing plate 305; the side surface of the fixed plate 305 is fixed with the left side of the main body 2 through a bolt; the fixing plates 305 are provided in two groups in number; the fixing plate 305 is in an inverted "L" shape; the top plane of the fixed plate 305 is fixedly connected with a negative magnetic sheet 306; the negative magnetic sheet 306 is attached to the positive magnetic sheet 304 by magnetic force; the glue squeezing structure 3 further comprises a guide rail A307 and a glue squeezing motor 308; the right side of the glue squeezing structure 3 is fixedly connected with a guide rail A307; the bottom of the guide rail A307 is fixed with the top surface of the main body 2; the top of the guide rail A307 is provided with a glue extruding motor 308 through sliding connection; the glue squeezing structure 3 further comprises a threaded rod 309, a movable bearing 310, a push sheet 311 and a reset switch 312; the right side of the glue squeezing motor 308 is provided with a threaded rod 309 through coaxial connection; the threaded rod 309 and the right side of the glue squeezing structure 3 form thread transmission; the tail end of the left side of the threaded rod 309 is provided with a movable bearing 310 through coaxial connection; the left end of the movable bearing 310 is provided with a push sheet 311 through hinge connection; the right side of the glue extruding motor 308 is fixedly connected with a reset switch 312; the reset switch 312 circuit is electrically coupled to the mode adjustment stage 201; an acetone needle cylinder 4 is arranged in the glue extruding structure 3; the needle head at the left side of the acetone syringe 4 is in sliding connection with the glue outlet hole 301; the right piston handle of the acetone syringe 4 is parallel to the surface angle of the push sheet 311; the brush 5 is arranged on the inner curved side surface of the elastic snap ring 204; the rod part on the side surface of the brush 5 is connected with the elastic snap ring 204 in an interference fit manner; the end of the side surface of the brush 5 is fixedly connected with a drill bit connecting pipe 501; a drilling structure 6 is arranged on the left side inside the main body 2; the drilling structure 6 comprises a guide rail B601, a drilling motor 602, a hinged rod 603 and a sliding grip 604; the top surface of the interior of the main body 2 is fixedly connected with a guide rail B601 through a bolt; the top of the guide rail B601 is provided with a drilling motor 602 through sliding connection; the drilling motor 602 circuit is coupled with the mode adjustment stage 201 circuit; a drill bit is coaxially connected to the left side of the drilling motor 602; the right side of the drilling motor 602 is provided with a hinge rod 603 through hinge connection; the left end of the hinged rod 603 is provided with a sliding grip 604 in an interference fit connection.
Wherein, the drilling structure 6 further comprises a limiting plate 605, a sliding groove 606, a vertical groove 607, an insert block 608 and a lifting rod 609; the left side of the main body 2 is fixedly connected with a limit plate 605 through a bolt; the limiting plate 605 is fixedly connected with a chute 606 inside; the sliding grooves 606 penetrate through two sides of the limiting plate 605; two ends of the sliding groove 606 are fixedly connected with vertical grooves 607; the number of vertical slots 607 is set to two; the hinge rod 603 forms a sliding connection with the sliding groove 606; an insert block 608 is arranged above the vertical groove 607; the inserting blocks 608 form sliding connection in the limiting plate 605, and the opposite surfaces of the tops of the two groups of inserting blocks 608 are fixedly connected with lifting rods 609; the insert block 608 and the vertical groove 607 form a limiting structure, the drilling motor 602 can slide on the top of the guide rail B601 by holding the sliding handle 604 to push and pull forwards, so that the drill bit is completely accommodated and extended, holding the sliding handle 604 to push forwards, making the side surface of the hinge rod 603 contact the insert block 608, lifting the insert block 608 by pulling the lifting rod 609 upwards to remove the limiting, making the hinge rod 603 push to the front end of the sliding groove 606, so that the drill bit can completely extend out of the main body 2, bending the hinge rod 603 downwards and then pulling backwards, making the hinge rod 603 fixed in the vertical groove 607, pressing the lifting rod 609 downwards, making the bottom surface of the insert block 608 slide to the side surface of the vertical groove 607, and making the position of the hinge rod 603 fixed, so that the drill bit is fixed and is not easy to deviate from the position during drilling.
Wherein, the curved side in the drill bit takeover 501 is identical with the drill bit external shape, and drill bit takeover 501 can form threaded connection with the drill bit, takes out brush 5 from inside the snap ring 204 after, can aim at the drill bit with drill bit takeover 501, through rotatory butt joint, can make brush 5 and drill bit obtain fixedly, can use brush 5 when clearing up in to drilling, makes brush 5 rotate through starting drilling motor 602, can improve cleaning efficiency.
The working principle is as follows:
when the device is used, firstly, a drilling step in a bar planting process is carried out, a user firstly holds the main body 2, holds the sliding handle 604 to push forwards, enables the hinged rod 603 to drive the drilling motor 602 to slide forwards on the top of the guide rail B601, enables the drill bit to move outwards, enables the side surface of the hinged rod 603 to contact the insert block 608, enables the insert block 608 to be lifted and relieved from limiting by lifting the lifting rod 609 upwards, enables the hinged rod 603 to be pushed to the front end of the sliding groove 606, enables the drill bit to extend out of the main body 2 completely, bends the hinged rod 603 downwards and then pulls backwards, enables the hinged rod 603 to be fixed in the vertical groove 607, enables the bottom surface of the insert block 608 to slide to the side surface of the vertical groove 607, can complete position fixing on the hinged rod 603, enables the position of the drill bit to be fixed, is not easy to deviate from the position in the drilling process, the user holds the fixed handle 1 with one hand and holds the sliding handle 604 with the other hand, the drilling is completed by the forward moving device, after the drilling is completed, the hole is washed, after the brush 5 is taken out from the elastic clamping ring 204, the drill bit connecting pipe 501 can be aligned to the drill bit, the brush 5 and the drill bit can be fixed by rotary butt joint, when the brush 5 is used for cleaning the drilled hole, the brush 5 is rotated by starting the drilling motor 602, after the cleaning is completed, the drill bit is accommodated, the acetone needle cylinder 4 is arranged in the glue extruding structure 3, after the needle head is inserted into the drilled hole, the glue extruding motor 308 is started by the mode adjusting platform 201, a user presses the main switch 101 by fingers to start the glue extruding motor 308, the threaded rod 309 is rotated, the glue extruding motor 308 slides to the left side by the transmission of the threaded rod 309 and the right side thread of the glue extruding structure 3, the tail end push sheet 311 at the left side of the threaded rod 309 drives the piston handle at the left side of the acetone needle cylinder 4 to move to the left side, so that the liquid in the needle cylinder is extruded into the drilled hole, accomplish after the hole washing and take out acetone cylinder 4, place crowded gluey structure 3 with building glue in, the user makes crowded gluey motor 308 start through finger press master switch 101, through threaded rod 309 and crowded gluey structure 3 right side screw thread transmission, makes crowded gluey motor 308 slide to the left side, makes threaded rod 309 left side end push jack 311 extrusion glue, makes in glue extrusion advances the drilling, inserts the drilling with the reinforcing bar after the injecting glue, accomplishes the bar planting and consolidates.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.