CN213837724U - Anchor clamps for engineering construction - Google Patents

Abstract

The utility model discloses an anchor clamps for engineering construction, including flexible drive arrangement, flexible final controlling element, main frame, the tight drive arrangement of clamp and the tight final controlling element of clamp, flexible drive arrangement locates on the main frame, flexible final controlling element locates on the flexible drive arrangement, the tight final controlling element of clamp is located on the main frame, the tight drive arrangement of clamp is located on the tight final controlling element of clamp. The utility model belongs to the technical field of building engineering, in particular to a clamp for engineering construction; the utility model discloses use extending structure can adjust the length of right angle arm, press from both sides tight structure and can press from both sides tight fixedly to the template, effectively solved stand pouring die anchor clamps size on the existing market can not adjust, the centre gripping is not fastened to and the problem that drops is ageing easily after the live time is long.

Description

Anchor clamps for engineering construction

Technical Field

The utility model belongs to the technical field of building engineering, specifically indicate an anchor clamps for engineering construction.

Background

The stand is pour and is a very important step in the building foundation engineering, the intensity that supports the stand has directly influenced building self intensity and rigidity, stand is pour and generally need to prop up steel framework earlier, then install the mould outside, then pour concrete toward the mould, because the stand mould mostly uses the plank to directly assemble the completion, at the in-process of installation mould, need press from both sides tight fixed to the mould, traditional mounting fixture directly uses the reinforcing bar to bend and forms, this kind of anchor clamps lean on pretightning force and frictional force to fix, the direction of elasticity is not perpendicular to the mould face, and long time elasticity can descend, it drops even the landing injury people's condition emergence of anchor clamps disappearance during field application, along with building engineering mechanization, the improvement of standardization level, above problem all need to be solved urgently.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides an anchor clamps for engineering construction uses extending structure can adjust the length of right angle arm, and it is fixed that the clamp tight structure can press from both sides the clamp tightly to the template, has effectively solved stand pouring die anchor clamps size on the existing market can not be adjusted, the centre gripping is not fastened to and the problem that the easy ageing comes off after the live time is long.

The utility model adopts the following technical scheme: the utility model relates to a fixture for engineering construction, including flexible drive arrangement, flexible actuating device, main frame, clamping drive arrangement and clamping actuating device, flexible drive arrangement locates on the main frame, flexible actuating device locates on the flexible drive arrangement, clamping actuating device locates on the main frame, clamping drive arrangement locates on clamping actuating device; the telescopic driving device comprises a motor mounting seat, a telescopic driving motor, a telescopic driving bevel gear, a telescopic driven bevel gear, a telescopic rotating shaft and a telescopic motor switch, the motor mounting seat is arranged on the main frame, the telescopic driving motor is arranged on the motor mounting seat, the telescopic driving motor is connected with the motor mounting seat through bolts, the telescopic driving bevel gear is arranged on the telescopic driving motor, the telescopic driven bevel gear is meshed with the telescopic driving bevel gear and is connected with the telescopic driving bevel gear, the telescopic driven bevel gear is arranged on the telescopic rotating shaft, the telescopic motor switch is arranged on the motor mounting seat, the telescopic motor switch is fixedly connected with the motor mounting seat, and the telescopic motor switch is electrically connected with the telescopic driving motor.

Further, flexible final controlling element includes flexible swivel bearing, flexible initiative straight-teeth gear, flexible driven rack and telescopic bearing frame, flexible swivel bearing's inner circle is located on the flexible axis of rotation, be equipped with the rotation rocking arm on the telescopic bearing frame, flexible swivel bearing's outer lane is located in the bearing frame centre bore, flexible initiative straight-teeth gear is located on the flexible axis of rotation, flexible driven rack is located on the main frame, flexible initiative straight-teeth gear and flexible driven rack meshing are connected.

Further, the main frame comprises a right-angle square steel sleeve, a square telescopic rod, a rotary rocker arm and a rocker arm limiting plate, wherein the right-angle square steel sleeve is provided with a square avoidance groove, the telescopic driving straight gear is arranged in the square avoidance groove, the motor mounting seat is arranged on the right-angle square steel sleeve, the motor mounting seat is fixedly connected with the right-angle square steel sleeve, the telescopic bearing seat is arranged on the right-angle square steel sleeve, the telescopic bearing seat is fixedly connected with the right-angle square steel sleeve, the rotary rocker arm is clamped and slidably arranged in the right-angle square steel sleeve, the square telescopic rod is provided with a square mounting groove, the telescopic driven rack is arranged in the square mounting groove, the telescopic driven rack is fixedly connected with the square mounting groove, the square telescopic rod is provided with a telescopic rod step shaft, the rotary rocker arm is provided with an end hinge hole, and the rotary rocker arm, the rotary rocker arm is provided with a large round hole and a small round hole, the rocker arm limiting plate is arranged on the square telescopic rod, and the rocker arm limiting plate is fixedly connected with the square telescopic rod.

Further, the clamping driving device comprises a clamping driving motor, a clamping driving bevel gear, a clamping driven bevel gear, a clamping adapter sleeve, a ball nut, a clamping rotating bearing, a clamping bearing mounting seat and a clamping motor switch, wherein the clamping driving motor is arranged on a rotating rocker arm, the clamping driving motor is connected with the rotating rocker arm through a bolt, the clamping driving bevel gear is arranged on the clamping driving motor, the clamping driven bevel gear is meshed with the clamping driving bevel gear, the clamping adapter sleeve is arranged on the clamping driven bevel gear, the clamping adapter sleeve and the clamping driven bevel gear are coaxially arranged, the ball nut is arranged on the clamping adapter sleeve, the ball nut and the clamping adapter sleeve are coaxially arranged, an inner ring of the clamping rotating bearing is arranged on the ball nut, and the clamping bearing mounting seat is arranged in a large circular hole, the clamping device is characterized in that a mounting seat center hole is formed in the clamping bearing mounting seat, the outer ring of the clamping rotating bearing is arranged in the mounting seat center hole, the clamping motor switch is arranged on the rotating rocker arm, and the clamping motor switch is electrically connected with the clamping driving motor.

Further, press from both sides tight final controlling element and include ball, press from both sides tight ring flange, pressure sensor, linear guide rail and linear bearing, ball locates in the ball nut, ball and ball nut mesh are connected, press from both sides tight ring flange and locate ball's tip, press from both sides tight ring flange and ball rigid coupling, pressure sensor locates on pressing from both sides tight ring flange, linear guide rail is located on pressing from both sides tight ring flange, linear guide rail and the tight rigid coupling of clamp ring flange, linear bearing block slides and locates on the linear guide rail, linear bearing locates in the little round hole, linear bearing and little round hole rigid coupling.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme anchor clamps for engineering construction, square telescopic link can stretch out and draw back the regulation according to the different specifications of stand to adapt to different work scenes, rotate the rocking arm and can rotate, accomplish keeping away the position in the installation, press from both sides tight ring flange and press from both sides tight template under the drive of pressing from both sides tight driving motor, at this in-process, when pressure sensor detected pressure and reached certain numerical value, will control and press from both sides tight driving motor stall.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is a front view of the clamp for engineering construction;

FIG. 3 is a perspective view of the clamp for engineering construction according to the present invention;

FIG. 4 is a partial view of a jig for engineering construction according to the present invention;

fig. 5 is a view of the utility model relates to a local view of anchor clamps for engineering construction two.

Wherein, 1, a telescopic driving device, 2, a telescopic actuating device, 3, a main frame, 4, a clamping driving device, 5, a clamping actuating device, 6, a motor mounting seat, 7, a telescopic driving motor, 8, a telescopic driving bevel gear, 9, a telescopic driven bevel gear, 10, a telescopic rotating shaft, 11, a telescopic motor switch, 12, a telescopic rotating bearing, 13, a telescopic driving straight gear, 14, a telescopic driven rack, 15, a telescopic bearing seat, 16, a bearing seat center hole, 17, a right-angle square steel sleeve, 18, a square telescopic rod, 19, a rotating rocker arm, 20, a rocker arm limiting plate, 21, a square clearance groove, 22, a square mounting groove, 23, a telescopic rod step shaft, 24, an end hinge hole, 25, a large round hole, 26, a small round hole, 27, a clamping driving motor, 28, a clamping driving bevel gear, 29, a clamping driven bevel gear, 30 and a clamping adapter sleeve, 31. the device comprises a ball nut, a 32 clamping rotating bearing, a 33 clamping bearing mounting seat, a 34 clamping motor switch, a 35 mounting seat central hole, a 36, a ball screw, a 37, a clamping flange, a 38, a pressure sensor, a 39, a linear guide rail, a 40 and a linear bearing.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

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 some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-5, the utility model relates to a clamp for engineering construction, which comprises a telescopic driving device 1, a telescopic actuating device 2, a main frame 3, a clamping driving device 4 and a clamping actuating device 5, wherein the telescopic driving device 1 is arranged on the main frame 3, the telescopic actuating device 2 is arranged on the telescopic driving device 1, the clamping actuating device 5 is arranged on the main frame 3, and the clamping driving device 4 is arranged on the clamping actuating device 5; the telescopic driving device 1 comprises a motor mounting seat 6, a telescopic driving motor 7, a telescopic driving bevel gear 8, a telescopic driven bevel gear 9, a telescopic rotating shaft 10 and a telescopic motor switch 11, the motor mounting seat 6 is arranged on the main frame 3, the telescopic driving motor 7 is arranged on the motor mounting seat 6, the telescopic driving motor 7 is connected with the motor mounting seat 6 through bolts, the telescopic driving bevel gear 8 is arranged on the telescopic driving motor 7, the telescopic driven bevel gear 9 is meshed with the telescopic driving bevel gear 8 and is connected with the telescopic driving bevel gear 9, the telescopic driven bevel gear 9 is arranged on the telescopic rotating shaft 10, the telescopic motor switch 11 is arranged on the motor mounting seat 6, the telescopic motor switch 11 is fixedly connected with the motor mounting seat 6, and the telescopic motor switch 11 is electrically connected with the telescopic driving motor 7.

Flexible final controlling element 2 includes flexible swivel bearing 12, flexible initiative straight-teeth gear 13, flexible driven rack 14 and telescopic bearing frame 15, flexible swivel bearing 12's inner circle is located on flexible axis of rotation 10, be equipped with rotation rocking arm 19 on the telescopic bearing frame 15, the bearing frame centre bore 16 is located to flexible swivel bearing 12's outer lane, flexible initiative straight-teeth gear 13 is located on flexible axis of rotation 10, flexible driven rack 14 is located on main frame 3, flexible initiative straight-teeth gear 13 is connected with the meshing of flexible driven rack 14.

The main frame 3 comprises a right-angle square steel sleeve 17, a square telescopic rod 18, a rotary rocker arm 19 and a rocker arm limiting plate 20, wherein a square avoidance groove 21 is formed in the right-angle square steel sleeve 17, a telescopic driving straight gear 13 is arranged in the square avoidance groove 21, a motor mounting seat 6 is arranged on the right-angle square steel sleeve 17, the motor mounting seat 6 is fixedly connected with the right-angle square steel sleeve 17, a telescopic bearing seat 15 is arranged on the right-angle square steel sleeve 17, the telescopic bearing seat 15 is fixedly connected with the right-angle square steel sleeve 17, the rotary rocker arm 19 is clamped and slidably arranged in the right-angle square steel sleeve 17, a square mounting groove 22 is formed in the square telescopic rod 18, a telescopic driven rack 14 is arranged in the square mounting groove 22, the telescopic driven rack 14 is fixedly connected with the square mounting groove 22, a telescopic rod step shaft 23 is arranged on the square telescopic rod 18, and a tip end portion hinge hole 24 is formed in the rotary rocker arm 19, the rotating rocker arm 19 is rotatably connected with the telescopic rod step shaft 23 through the end part hinge hole 24, the rotating rocker arm 19 is provided with a large round hole 25 and a small round hole 26, the rocker arm limiting plate 20 is arranged on the square telescopic rod 18, and the rocker arm limiting plate 20 is fixedly connected with the square telescopic rod 18.

The clamping driving device 4 comprises a clamping driving motor 27, a clamping driving bevel gear 28, a clamping driven bevel gear 29, a clamping adapter sleeve 30, a ball nut 31, a clamping rotating bearing 32, a clamping bearing mounting seat 33 and a clamping motor switch 34, wherein the clamping driving motor 27 is arranged on a rotating rocker arm 19, the clamping driving motor 27 is in bolt connection with the rotating rocker arm 19, the clamping driving bevel gear 28 is arranged on the clamping driving motor 27, the clamping driven bevel gear 29 is in meshing connection with the clamping driving bevel gear 28, the clamping adapter sleeve 30 is arranged on the clamping driven bevel gear 29, the clamping adapter sleeve 30 and the clamping driven bevel gear 29 are coaxially arranged, the ball nut 31 is arranged on the clamping adapter sleeve 30, the ball nut 31 and the clamping adapter sleeve 30 are coaxially arranged, and the inner ring of the clamping rotating bearing 32 is arranged on the ball nut 31, the clamping bearing mounting seat 33 is arranged in the large round hole 25, a mounting seat center hole 35 is formed in the clamping bearing mounting seat 33, the outer ring of the clamping rotating bearing 32 is arranged in the mounting seat center hole 35, the clamping motor switch 34 is arranged on the rotating rocker arm 19, and the clamping motor switch 34 is electrically connected with the clamping driving motor 27.

The clamping executing device 5 comprises a ball screw 36, a clamping flange 37, a pressure sensor 38, a linear guide rail 39 and a linear bearing 40, wherein the ball screw 36 is arranged in a ball nut 31, the ball screw 36 is meshed with the ball nut 31 and connected, the clamping flange 37 is arranged at the end part of the ball screw 36, the clamping flange 37 is fixedly connected with the ball screw 36, the pressure sensor 38 is arranged on the clamping flange 37, the linear guide rail 39 is fixedly connected with the clamping flange 37, the linear bearing 40 is arranged on the linear guide rail 39 in a clamping and sliding manner, the linear bearing 40 is arranged in a small round hole 26, and the linear bearing 40 is fixedly connected with the small round hole 26.

When the telescopic device is used, a user firstly clamps the inner right angle of a right-angle square steel sleeve 17 on one right angle of a template, then presses a telescopic motor switch 11 to start a telescopic driving motor 7, drives a telescopic driving straight gear 13 to rotate under the transmission of a telescopic driving bevel gear 8 and a telescopic driven bevel gear 9, because the telescopic driving straight gear 13 is meshed with a telescopic driven rack 14, the telescopic driven rack 14 drives a square telescopic rod 18 to telescopically slide, adjusts the square telescopic rod 18 to a proper position according to the specification of an upright column, then closes the telescopic driving motor 7 to complete the adjustment of the telescopic device, then rotates a rotary rocker arm 19 to a limit position contacting with a rocker arm limit plate 20, then presses a clamping motor switch 34 to start a clamping driving motor 27, and drives a ball nut 31 to rotate under the transmission of a clamping driving bevel gear 28 and a clamping driven bevel gear 29, because ball nut 31 and ball 36 mesh are connected, so press from both sides tight driving motor 27 and can drive when rotatory and press from both sides tight ring flange 37 and compress tightly fixedly, when pressure sensor 38 received the pressure of setting for numerical value, can transmit signal and give the control unit, make and press from both sides tight driving motor 27 stall, it is fixed to accomplish the clamp of mould, it is above that the utility model discloses holistic work flow, repeat this step when using next time can.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (5)

1. The utility model provides a anchor clamps for engineering construction which characterized in that: the telescopic actuating device is arranged on the main frame, the telescopic actuating device is arranged on the telescopic actuating device, the clamping actuating device is arranged on the main frame, and the clamping actuating device is arranged on the clamping actuating device; the telescopic driving device comprises a motor mounting seat, a telescopic driving motor, a telescopic driving bevel gear, a telescopic driven bevel gear, a telescopic rotating shaft and a telescopic motor switch, the motor mounting seat is arranged on the main frame, the telescopic driving motor is arranged on the motor mounting seat, the telescopic driving motor is connected with the motor mounting seat through bolts, the telescopic driving bevel gear is arranged on the telescopic driving motor, the telescopic driven bevel gear is meshed with the telescopic driving bevel gear and is connected with the telescopic driving bevel gear, the telescopic driven bevel gear is arranged on the telescopic rotating shaft, the telescopic motor switch is arranged on the motor mounting seat, the telescopic motor switch is fixedly connected with the motor mounting seat, and the telescopic motor switch is electrically connected with the telescopic driving motor.

2. The jig for engineering construction according to claim 1, characterized in that: the telescopic executing device comprises a telescopic rotating bearing, a telescopic driving straight gear, a telescopic driven rack and a telescopic bearing seat, wherein the inner ring of the telescopic rotating bearing is arranged on a telescopic rotating shaft, a rotating rocker arm is arranged on the telescopic bearing seat, the outer ring of the telescopic rotating bearing is arranged in a bearing seat center hole, the telescopic driving straight gear is arranged on the telescopic rotating shaft, the telescopic driven rack is arranged on the main frame, and the telescopic driving straight gear is meshed with the telescopic driven rack and is connected with the telescopic driven rack.

3. The jig for engineering construction according to claim 2, characterized in that: the main frame comprises a right-angle square steel sleeve, a square telescopic rod, a rotating rocker arm and a rocker arm limiting plate, wherein a square avoidance groove is arranged on the right-angle square steel sleeve, a telescopic driving straight gear is arranged in the square avoidance groove, a motor mounting seat is arranged on the right-angle square steel sleeve, the motor mounting seat is fixedly connected with the right-angle square steel sleeve, a telescopic bearing seat is arranged on the right-angle square steel sleeve, the telescopic bearing seat is fixedly connected with the right-angle square steel sleeve, the rotating rocker arm is clamped and slidably arranged in the right-angle square steel sleeve, a square mounting groove is arranged on the square telescopic rod, a telescopic driven rack is arranged in the square mounting groove, the telescopic driven rack is fixedly connected with the square mounting groove, a telescopic rod step shaft is arranged on the square telescopic rod, an end part hinge hole is arranged on the rotating rocker arm, and the rotating rocker arm is rotatably connected with the telescopic rod step shaft through the end part hinge hole, the rotary rocker arm is provided with a large round hole and a small round hole, the rocker arm limiting plate is arranged on the square telescopic rod, and the rocker arm limiting plate is fixedly connected with the square telescopic rod.

4. The jig for engineering construction according to claim 3, characterized in that: the clamping driving device comprises a clamping driving motor, a clamping driving bevel gear, a clamping driven bevel gear, a clamping transfer sleeve, a ball nut, a clamping rotating bearing, a clamping bearing mounting seat and a clamping motor switch, wherein the clamping driving motor is arranged on a rotating rocker arm and is in bolted connection with the rotating rocker arm, the clamping driving bevel gear is arranged on the clamping driving motor, the clamping driven bevel gear is in meshed connection with the clamping driving bevel gear, the clamping transfer sleeve is arranged on the clamping driven bevel gear, the clamping transfer sleeve and the clamping driven bevel gear are coaxially arranged, the ball nut is arranged on the clamping transfer sleeve, the ball nut and the clamping transfer sleeve are coaxially arranged, an inner ring of the clamping rotating bearing is arranged on the ball nut, the clamping bearing mounting seat is arranged in a large circular hole, and a mounting seat central hole is formed in the clamping bearing mounting seat, the outer ring of the clamping rotating bearing is arranged in a center hole of the mounting seat, the clamping motor switch is arranged on the rotating rocker arm, and the clamping motor switch is electrically connected with the clamping driving motor.

5. The jig for engineering construction according to claim 4, characterized in that: the clamping execution device comprises a ball screw, a clamping flange plate, a pressure sensor, a linear guide rail and a linear bearing, wherein the ball screw is arranged in a ball nut, the ball screw is meshed with the ball nut and connected, the clamping flange plate is arranged at the end part of the ball screw, the clamping flange plate and the ball screw are fixedly connected, the pressure sensor is arranged on the clamping flange plate, the linear guide rail and the clamping flange plate are fixedly connected, the linear bearing is slidably arranged on the linear guide rail in a clamping manner, the linear bearing is arranged in a small round hole, and the linear bearing is fixedly connected with the small round hole.

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