CN115653297A - Aluminum formwork reinforcing system and construction method - Google Patents

Abstract

The application relates to the field of building construction, in particular to an aluminum formwork reinforcing system and a construction method. The key points of the technical scheme are as follows: comprises a frame body which is fixedly arranged on a floor; at least two groups of clamping mechanisms are respectively and movably arranged on the frame body and can clamp and fix the edges of two adjacent aluminum templates, and a plurality of groups of clamping mechanisms are sequentially arranged at intervals along the edges of the two adjacent aluminum templates; the power input mechanism is arranged on the frame body and used for inputting power; and locate drive mechanism on the support body, drive mechanism respectively with power input mechanism and multiunit fixture is connected for with power certainly power input mechanism department reposition of redundant personnel and transmission are organized at most among the fixture, so that the multiunit fixture synchronous start centre gripping action, this application has the assembly stability of reinforcing aluminium template to play the effect of consolidating and the reinforcement to the aluminium template of unstability.

Description

Aluminum formwork reinforcing system and construction method

Technical Field

The application relates to the field of building construction, in particular to an aluminum formwork reinforcing system and a construction method.

Background

In the field of building construction, a reinforced concrete structure is a building structure type which is widely used, in the building process, a main body part is formed by adopting a pouring forming mode generally, and a building template plays a role in providing construction efficiency and reducing construction cost in the process.

At present, the aluminium template is in the process of buildding, roughly through following flow, at first will carry out the unwrapping wire operation, ligature vertical wall body reinforcing bar afterwards and with the positioning bar welding, splice the template body immediately, fix different templates through the pin, will support at last and install to template department, inspection template installation error, the template installation back, can enclose at the template and establish the space of formation and pour the concrete, realize building shaping.

Aiming at the related technologies, at present, partial problems still exist in the actual use process of the aluminum formwork system, for example, errors occur in the design process or the actual use process of partial aluminum formworks, the supporting force of the formworks is insufficient, and the unstable formwork explosion situation is generated, and at the moment, temporary supporting or remediation is difficult to perform, and the stability of the aluminum formworks in the actual use process also has an improved and improved space.

Disclosure of Invention

In order to strengthen the assembly stability of the aluminum template and further strengthen and reinforce the unstable aluminum template, the application provides an aluminum template reinforcing system and a construction method.

In a first aspect, the application provides an aluminum formwork reinforcement system which adopts the following technical scheme:

an aluminum template reinforcing system comprises a frame body, a frame body and a reinforcing plate, wherein the frame body is fixedly arranged on a floor; the clamping mechanisms are at least two groups and are respectively movably arranged on the frame body, the edges of two adjacent aluminum templates can be clamped and fixed, and the plurality of groups of clamping mechanisms are sequentially arranged at intervals along the edges of the two adjacent aluminum templates; the power input mechanism is arranged on the frame body and used for inputting power; and the transmission mechanism is arranged on the frame body, is respectively connected with the power input mechanism and the plurality of groups of clamping mechanisms, and is used for shunting power from the power input mechanism and transmitting the power to the plurality of groups of clamping mechanisms so as to synchronously start the clamping actions of the plurality of groups of clamping mechanisms.

Through adopting above-mentioned technical scheme, under the sight of aluminum mould board unstability, can fix the support body on the floor, start power input mechanism this moment, power input mechanism accessible drive mechanism carries out power transmission to a plurality of groups fixture, and a plurality of groups fixture carries out the multiple spot centre gripping through the mode of centre gripping along the border position of two adjacent aluminum mould boards, consolidates the junction of aluminum mould board, and the assembly stability of aluminum mould board obtains promoting.

Preferably, the clamping mechanism comprises a driving disc, the driving disc is rotatably mounted on the frame body, a first spiral tooth is arranged on the surface of one side of the clamping mechanism, the driving disc is connected with the transmission mechanism, and the transmission mechanism is used for driving the driving disc to rotate; the main clamping arms are respectively slidably mounted on the frame body, meshed with the driving disc through the first spiral teeth and respectively close to two opposite sides of the periphery of the driving disc, and the two main clamping arms are used for clamping the edges of two adjacent aluminum templates.

Through adopting above-mentioned technical scheme, the driving-disc can drive main arm lock and slide at the support body at the pivoted in-process, and at this in-process, along with the change of driving-disc rotation direction, two main arm locks can be close to each other or keep away from, and at the in-process that two main arm locks are close to each other, can carry out the centre gripping with the edge of two adjacent aluminium templates to play the effect of consolidating the aluminium template.

Preferably, the clamping mechanism further comprises at least two auxiliary clamping arms, a second spiral tooth is arranged on one side surface of the driving disc, which faces away from the first spiral tooth, the auxiliary clamping arms are respectively slidably mounted on the frame body, the auxiliary clamping arms are meshed with the driving disc through the second spiral tooth, multiple sets of the auxiliary clamping arms are respectively close to two opposite sides of the periphery of the driving disc, and the multiple sets of the auxiliary clamping arms are respectively buckled at the edges of the other two aluminum templates, which are located at two opposite sides of the two adjacent aluminum templates.

Through adopting above-mentioned technical scheme, vice double-layered arm lock is in two other aluminium template departments, can press from both sides two aluminium templates that are located the outside towards two aluminium template departments that main double-layered arm was held tightly on the one hand, and the whole clamping stability of aluminium template system can promote, and in addition, vice arm lock can further utilize all the other aluminium templates to consolidate reinforceing the reinforceing system self, and the effect of strutting obtains further promotion.

Preferably, the transmission mechanism comprises a main transmission part connected with the power input mechanism; the sub-transmission part is matched with the clamping mechanisms in number, is respectively connected with the main transmission part and the clamping mechanisms, and is used for transmitting the torque in the main transmission part to the clamping mechanisms.

Through adopting above-mentioned technical scheme, power at first transmits to main drive division department, realizes power reposition of redundant personnel through multiunit sub-drive division afterwards, and is rational in infrastructure and practical.

Preferably, final drive portion includes final drive shaft, first main bevel gear and second main bevel gear, final drive shaft rotate install in the support body and with power input mechanism connects, and power input mechanism is used for the drive final drive shaft rotates, first main bevel gear fixed mounting in final drive shaft, second main bevel gear fixed mounting in sub-transmission portion, sub-transmission portion rotate install in the support body.

Through adopting above-mentioned technical scheme, power input mechanism drive final drive shaft rotates, and final drive shaft pivoted in-process drives first main bevel gear and rotates and then drive second main bevel gear and rotate, and second main bevel gear shunts power to fixture department, and power transmission is swift stable.

Preferably, the sub-transmission part comprises a sub-transmission shaft and a straight gear, the sub-transmission shaft is fixedly connected with the second main bevel gear, the straight gear is fixedly connected with the sub-transmission shaft, a gear ring is arranged at the clamping mechanism, and the straight gear is meshed with the gear ring.

By adopting the technical scheme, the power at the second main bevel gear can be transmitted to the straight gear through the sub-transmission shaft, the straight gear drives the gear ring to rotate, the power is divided into the clamping mechanism, and the power transmission is fast and stable.

Preferably, the power input mechanism comprises a motor, a worm and a worm wheel, the motor is fixedly installed on the frame body, the worm is rotatably installed on the frame body, one end of the worm is connected with an output shaft of the motor, and the worm wheel is fixedly installed on the transmission mechanism and meshed with the worm wheel.

Through adopting above-mentioned technical scheme, but worm wheel and worm increase the moment of torsion, in addition fixture's clamping-force can promote, simultaneously, worm wheel and worm still can provide self-locking function to drive mechanism and fixture to reduce drive mechanism not hard up and lead to the influence to fixture clamping stability, fixture's clamping stability obtains further promotion.

Preferably, the support body includes anchor, base, mount pad and bracing, the anchor runs through the base, the base via the anchor is fixed in floor department, mount pad fixed mounting is in the base top, fixture the power input mechanism and drive mechanism set up respectively in mount pad department, the bracing respectively with the anchor and mount pad fixed connection.

Through adopting above-mentioned technical scheme, base, mount pad and bracing three form triangular support structure, and structure atress intensity is high, and simultaneously, the ground nail is with base fixed mounting in floor department, realizes carrying out further anchor to the reinforceing system, and the reinforcement effect obtains further promotion.

Preferably, the clamping device further comprises a buckling piece, the buckling piece is used for being fixedly installed on the aluminum template, and a buckling groove for the main clamping arm or the auxiliary clamping arm to be matched in an inserting mode is formed in the buckling piece.

Through adopting above-mentioned technical scheme, the fastener can be for main arm lock or vice arm lock provide the application of force point when the centre gripping, so be favorable to carrying out the centre gripping with the aluminium template fixed, stability when reinforcing system consolidates obtains further promotion.

In a second aspect, the present application provides an aluminum formwork reinforcement construction method, which adopts the following technical scheme:

an aluminum formwork reinforcing construction method comprises the following steps:

s1, checking an aluminum template and recording the position of an explosive die;

s2, fixedly mounting the buckling piece on the template;

s3, placing the frame body on a floor, and aligning the main clamping arm or the auxiliary clamping arm;

s4, starting the power input mechanism until the main clamping arm and the auxiliary clamping arm are inserted into the buckling piece, and stopping starting the power input mechanism;

and S5, passing the anchor through the base and fixedly installing the anchor on the floor.

Through adopting above-mentioned technical scheme, simple to operate is swift, can effectively consolidate the aluminium mould board, and the operation is simple and easy.

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

1. the power input mechanism is started to output power, the power is transmitted to the plurality of groups of clamping mechanisms through the transmission mechanism, the plurality of groups of clamping mechanisms perform multi-point clamping along the edge positions of two adjacent aluminum templates in a clamping mode, the joint of the aluminum templates is reinforced, and the assembly stability of the aluminum templates is finally improved;

2. the main clamping arm plays a role in clamping and fixing two adjacent aluminum templates, meanwhile, the auxiliary clamping arm can clamp and reinforce the rest of the templates towards the two aluminum templates clamped and fixed by the main clamping arm, and meanwhile, the auxiliary clamping arm is utilized to integrally stress and correlate the aluminum templates, so that the stability of the reinforcing system during installation is further improved;

3. both the main clamping arm and the auxiliary clamping arm can synchronously clamp the aluminum template under the driving of the turntable, and the clamping is efficient and quick.

Drawings

Fig. 1 is a schematic structural diagram of an aluminum form reinforcing system according to a preferred embodiment of the present application.

FIG. 2 is a schematic structural diagram of the clamping mechanism, the power input mechanism and the transmission mechanism according to a preferred embodiment of the present application.

FIG. 3 is a schematic view of a clamping mechanism according to a preferred embodiment of the present application.

FIG. 4 is a schematic view of the assembly of the clamping mechanism in a preferred embodiment of the present application.

FIG. 5 is a schematic view of a secondary clip arm and a fastener according to a preferred embodiment of the present application.

Description of reference numerals:

1. a frame body; 11. anchoring the bolts; 12. a base; 13. a mounting base; 14. bracing; 2. a clamping mechanism; 21. a drive disc; 211. a first helical tooth; 212. a second helical tooth; 22. a main clamping arm; 221. a first engaging tooth; 23. a secondary clamp arm; 231. a second engaging tooth; 24. a ring gear; 3. a power input mechanism; 31. a motor; 32. a worm; 33. a worm gear; 4. a transmission mechanism; 41. a main transmission part; 411. a main drive shaft; 412. a first main bevel gear; 413. a second main bevel gear; 42. a sub-transmission section; 421. a sub-transmission shaft; 422. a spur gear; 5. a fastener; 51. and (4) buckling the groove.

Detailed Description

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

The embodiment of the application discloses aluminum mould board reinforcerment system, be used for consolidating the operation when there is the possibility of breaking in the aluminum mould board, in this embodiment, the aluminum mould board chooses for use for regular structure aluminum mould board, it mainly includes platelike body, the body has respectively towards one side turn-ups structure of rolling over in the ascending both sides of the back of the body of horizontal direction, in the conventional installation of aluminum mould board, at first can be with the turn-ups coincide of two adjacent aluminum mould boards, squeeze into the turn-ups position department of two aluminum mould boards with the pin afterwards, the realization is fixed the aluminum mould board, then in actual work progress, because of assembly sight and user demand in the actual work progress exist differently, when the concrete pressure in the mould is too big, lead to pouring pressure too big easily, the pressure that the concrete brought can lead to the concrete to strut from the border position department of two aluminum mould boards, based on this, consolidate the seam department of aluminum mould board through adopting aluminum mould board reinforcerment system, here, the concrete erection mode of aluminum mould board no longer gives details here.

Referring to fig. 1 and 2, in order to perform reinforcing operation on an aluminum formwork, the system mainly includes a frame body 1, a clamping mechanism 2, a power input mechanism 3 and a transmission mechanism 4.

Wherein, 1 fixed mounting on the floor of support body, fixture 2, power input mechanism 3 and drive mechanism 4 install in 1 department of support body, support body 1 plays the supporting role for each mechanism, power input mechanism 3 is connected with drive mechanism 4, drive mechanism 4 then is connected with fixture 2, power input mechanism 3 transmits to fixture 2 department through drive mechanism 4, fixture 2 then is used for carrying out the centre gripping with the edge of mutual butt between two adjacent aluminium templates, with the joint strength between the promotion aluminium template, play reinforced effect.

In order to provide stable support for each mechanism, specifically, the frame body 1 includes an anchor 11, a base 12, a mounting seat 13 and an inclined strut 14, wherein the base 12 is rectangular plate-shaped in the embodiment, the base 12 is placed on the floor along the horizontal direction, a plurality of mounting holes are penetratingly arranged on the base 12, the specific number of the mounting holes can be correspondingly adjusted according to the actual situation, and is not limited herein; the anchor bolts 11 are used for fixedly mounting the base 12 on the floor, specifically, the anchor bolts 11 penetrate through the base 12 through the mounting holes and are fixed on the floor, so as to realize the fixed mounting of the base 12.

The mounting seat 13 is fixedly mounted on the top of the base 12, in this embodiment, the mounting seat 13 is in a column shape, and the inside of the mounting seat 13 is hollow, so that the clamping mechanism 2, the power input mechanism 3 and the transmission mechanism 4 are favorably arranged at the mounting seat 13, and meanwhile, two ends of the inclined strut 14 are fixedly connected with the anchor 11 and the mounting seat 13 respectively; at this time, the mounting seat 13, the base 12 and the inclined strut 14 form a triangular structure with good stress strength, and the mounting seat 13, the base 12 and the inclined strut 14 can be integrally connected to meet the stress strength of the structure.

Referring to fig. 2, the power input mechanism 3 is mainly used for inputting torque at the transmission mechanism 4, and the clamping mechanism 2 is driven to move by the torque.

Specifically, the power input mechanism 3 comprises a motor 31, a worm 32 and a worm wheel 33, the motor 31 is fixedly installed at the installation seat 13 of the frame body 1 and is located at one side of the installation seat 13, which is back to the aluminum formwork, an output shaft of the motor 31 is horizontally arranged, and the output shaft of the motor 31 extends into the installation seat 13; the worm 32 is rotatably installed at the frame body 1, wherein the worm 32 is arranged along the horizontal direction, one end of the worm 32 is rotatably installed at the installation seat 13 through a bearing, the other end of the worm 32 is connected with an output shaft of the motor 31 through a coupler, and at the moment, the motor 31 is started, and the motor 31 can drive the worm 32 to rotate; worm wheel 33 fixed mounting is on drive mechanism 4, and worm 32 meshes with worm wheel 33 mutually, and at this moment, at worm 32 pivoted in-process, through worm wheel 33 worm 32 meshing, moment of torsion when can increase the moment of torsion output satisfies the dynamics demand in the clamping process to, worm wheel 33 and worm 32 still can provide self-locking function to drive mechanism 4 and fixture 2, and power transmission's stability obtains further promotion.

Further, in order to improve the reinforcing stability of the aluminum mold plate, the number of the clamping mechanisms 2 is at least two, for example, three, four or five groups can be selected, three groups are selected in this embodiment as an example, the multiple groups of clamping mechanisms 2 are respectively movably arranged on the frame body 1, and are sequentially arranged along the edges of two adjacent aluminum mold plates at intervals, and the transmission mechanism 4 is mainly used for distributing the power output by the power input mechanism 3 to each clamping mechanism 2, so that the multiple groups of clamping mechanisms 2 can perform multi-point clamping on the edges of two adjacent aluminum mold plates, thereby improving the clamping effect.

Referring to fig. 2, the transmission mechanism 4 includes a main transmission portion 41 connected to the power input mechanism 3 and sub transmission portions 42 respectively connected to the main transmission portion 41 and the clamping mechanisms 2, wherein the sub transmission portions 42 are adapted to the specific number of the clamping mechanisms 2, in this embodiment, the number of the sub transmission portions 42 is three, the three sub transmission portions 42 are respectively connected to the three clamping mechanisms 2, at this time, the transmission mechanism 4 is respectively connected to the power input mechanism 3 and the multiple groups of clamping mechanisms 2, and can shunt and transmit power from the power input mechanism 3 to the multiple groups of clamping mechanisms 2, so that the multiple groups of clamping mechanisms 2 start clamping actions synchronously.

Specifically, the main transmission part 41 includes a main transmission shaft 411, a first main bevel gear 412 and a second main bevel gear 413, the main transmission shaft 411 is rotatably installed in the installation seat 13 of the frame body 1, wherein the main transmission shaft 411 is vertically arranged, and two ends of the main transmission shaft 411 are respectively rotatably installed in the installation seat 13 through bearings; the main transmission shaft 411 is connected with the power input mechanism 3, wherein the worm wheel 33 is fixedly installed at the main transmission shaft 411, and at this time, the worm wheel 33 can drive the main transmission shaft 411 to rotate in the rotating process, so as to realize the input of power.

In addition, the first main bevel gear 412 is fixedly installed at the main transmission shaft 411, meanwhile, the sub-transmission part 42 is rotatably installed on the frame body 1, the second main bevel gear 413 is installed at the sub-transmission part 42, and the first main bevel gear 412 is meshed with the second main bevel gear 413, at this time, in the rotating process of the first main bevel gear 412, the second main bevel gear 413 is driven to rotate, and the second main bevel gear 413 transmits power to the sub-transmission part 42.

With reference to fig. 2, the sub-transmission portion 42 includes a sub-transmission shaft 421 and a spur gear 422, wherein the sub-transmission shaft 421 is horizontally disposed, the sub-transmission shaft 421 is rotatably mounted on the mounting seat 13 of the frame body 1 through a bearing, the second main bevel gear 413 is fixedly mounted on the transmission shaft, and the sub-transmission shaft 421 is driven to rotate in the rotating process of the second main bevel gear 413. Meanwhile, the spur gear 422 is fixedly installed at the position of the sub-transmission shaft 421, and the spur gear 422 is connected with the clamping mechanism 2, so that torque power in the main transmission part 41 is transmitted to the clamping mechanism 2, and power is split.

Referring to fig. 3, further, in order to clamp and reinforce the aluminum mold plate, the clamping mechanism 2 includes a driving disc 21, a main clamping arm 22 and a sub-clamping arm 23.

The driving disc 21 is a disc structure in this embodiment, the driving disc 21 is rotatably mounted at the mounting seat 13, generally, a rotating shaft can be fixedly mounted at the driving disc 21, and the rotating mounting of the driving disc 21 is realized by rotatably mounting the rotating shaft at the mounting seat 13. The driving teeth are integrally formed at the peripheral position of the driving disc 21 and are connected end to form a gear ring 24 structure, the gear ring 24 is meshed with the straight gear 422, at the moment, the driving disc 21 is connected with the transmission mechanism 4, and the transmission mechanism 4 can drive the driving disc 21 to rotate.

Further, one side surface of the driving disc 21 has first spiral teeth 211, specifically, the first spiral teeth 211 are located at one side surface of the driving disc 21 close to the aluminum die plate, the number of the main clip arms 22 is at least two, in this embodiment, the number of the main clip arms 22 is set to two for example;

the main arm lock 22 includes the first section, the second section and the third section that connect gradually in this embodiment, two adjacent sections mutually perpendicular, and place along the level simultaneously, main arm 22 that presss from both sides is U-shaped structure this moment, the upper and lower both sides of the first section of main arm 22 are integrative to be linked respectively has the boss that slides, the boss that slides extends to both ends along the length direction of main arm lock 22, the longitudinal section of main arm lock 22 is the T word shape this moment, simultaneously, set up the spout that supplies main arm 22 to slide along the horizontal direction on mount pad 13, the opening profile of spout is unanimous with main arm 22 that presss from both sides, be T font structure equally, at this moment, with main first section sliding fit who presss from both sides arm 22 in the spout, realize the slidable mounting of main arm lock 22 on support body 1, main arm 22 can slide along the horizontal direction, can be close to or keep away from both sides for the turn-ups of aluminum mould board in the slip in-process.

Meanwhile, the two main clamping arms 22 are respectively close to two opposite sides of the periphery of the driving disc 21 in the horizontal direction when being arranged, a vertically arranged reference plane is assumed at the butt joint position of the two aluminum templates, and the two main clamping arms 22 are symmetrically arranged along the reference plane; the main clamping arm 22 is integrally connected with a first engaging tooth 221 capable of engaging with the first spiral tooth 211, at this time, the main clamping arm 22 is engaged with the driving disc 21 through the first spiral tooth 211, in the rotating process of the driving disc 21, the two main clamping arms 22 can be driven to approach or separate from each other, and in the process that the main clamping arms 22 approach each other, the edges of two adjacent aluminum templates can be clamped.

Referring to fig. 4, the sub-clip arms 23 are used to enhance the anchorage of the reinforcing system, and also can play a role in reinforcing the aluminum formwork, specifically, the number of the sub-clip arms 23 can be also at least two, and in this embodiment, the number of the sub-clip arms 23 is two for example; the structure of the auxiliary clamping arm 23 is similar to that of the main clamping arm 22, and the auxiliary clamping arm also comprises a first section, a second section and a third section which are vertically connected in sequence; the auxiliary clamping arm 23 is also placed in the horizontal direction, a T-shaped chute can be continuously formed in the mounting base 13, a sliding boss is arranged at the first section of the auxiliary clamping arm 23, the auxiliary clamping arm 23 is in sliding fit with the other chute, and the auxiliary clamping arm 23 is slidably mounted on the frame body 1.

Meanwhile, the multiple sets of auxiliary clamping arms 23 are also respectively close to two sides opposite to the periphery of the driving disc 21, and the multiple sets of auxiliary clamping arms 23 are also symmetrically arranged along the reference plane; and the surface of one side of the driving disc 21, which is back to the first spiral tooth 211, is provided with a second spiral tooth 212, and a first section of the sub-clip arm 23 is integrally formed with a second engaging tooth 231 engaged with the second spiral tooth 212, at this time, the sub-clip arm 23 is engaged with the driving disc 21 through the second spiral tooth 212, and in the rotating process of the driving disc 21, the two sub-clip arms 23 can be driven to approach or separate from each other, so as to realize the clipping action.

Referring back to fig. 1, the sub clip arm 23 is different from the main clip arm 22 in that the length of the first section of the sub clip arm 23 is longer than that of the main clip arm 22, and the end of the sub clip arm 23 does not clamp and reinforce the flanged portions of two aluminum templates clamped by the main clip arm 22; at this time, the end portions of the auxiliary clamp extend toward the edges of the two opposite sides of the two aluminum templates clamped by the main clamp arm 22, and are respectively buckled at the flanging positions of the other two aluminum templates, which are referred to herein as two aluminum templates, respectively located on the two opposite sides of the two aluminum templates clamped by the main clamp arm 22; indicate that multiunit vice arm lock 23 is used for the lock respectively in the edge that is located two other two aluminum mould boards of two adjacent aluminum mould board back of the body both sides, this moment, with vice arm lock 23 lock in two other aluminum mould board departments, can press from both sides two aluminum mould boards that are located the outside towards two aluminum mould board departments that main arm lock 22 held on the one hand, aluminum mould board system's whole centre gripping stability can promote, on the other hand, vice arm lock 23 can further utilize all the other aluminum mould boards with reinforcerment system self anchor, it obtains further promotion to strut the effect.

Further, in order to improve the stability when the main clamping arm 22 and the sub-clamping arm 23 are clamped, the fastening system further includes a fastener 5, the fastener 5 is disposed in a square shape in this embodiment, and the fastener 5 can be fixedly mounted at the flanging of the aluminum formwork, and can be generally mounted at the aluminum formwork by welding or screw fixing; meanwhile, the buckling groove 51 is formed in the side, back to the flanging, of the buckling piece 5 from outside to inside in a concave mode, the buckling groove 51 is used for enabling the main clamping arm 22 or the auxiliary clamping arm 23 to be matched in a plugging mode, when the main clamping arm 22 or the auxiliary clamping arm 23 is inserted into the buckling groove 51, buckling action is achieved, the aluminum formwork can be clamped and fixed conveniently, and stability of the reinforcing system during reinforcing is further improved.

The implementation principle of an aluminum mould plate reinforcing system in the embodiment of the application is as follows: under the scene of aluminium template unstability, can fix support body 1 on the floor to through starting power input mechanism 3, power input mechanism 3 accessible drive mechanism 4 carries out the multiple spot centre gripping to a plurality of groups fixture 2 in with power transmission, main arm 22 and the vice arm lock 23 of clamping among a plurality of groups fixture 2 carry out the multiple spot centre gripping through the mode of centre gripping along the marginal position of two adjacent aluminium templates, consolidate the junction of aluminium template, the assembly stability of aluminium template obtains promoting.

The embodiment also discloses an aluminum formwork reinforcing construction method, which comprises the following steps:

s1, pre-assembling an aluminum template, integrally assembling the aluminum template, then checking the aluminum template, and analyzing and recording the position of the explosive die.

S2, fixedly installing the buckling piece 5 on the aluminum template, recording the installation height of the frame body 1 at a corresponding position close to the aluminum template in the installation process so that the buckling groove 51 can be aligned with the main clamping arm 22 and the sub-clamping arm, and fixing the buckling piece at the flanging position of the aluminum template in a welding or screw fixing mode during specific installation.

S3, the frame body 1 is placed on the floor, the main clamping arm 22 or the auxiliary clamping arm 23 is aligned, and the power input mechanism 3 can be debugged at the moment, so that the main clamping arm 22 and the auxiliary clamping arm 23 can extend into the buckling groove 51.

And S4, starting the power input mechanism 3 until all the main clamping arms 22 and the auxiliary clamping arms 23 are inserted into the buckling piece 5, and stopping starting the power input mechanism 3.

And S5, the anchor 11 penetrates through the base 12 and is fixedly arranged on the floor, so that the integral reinforcement is completed, and the installation is convenient and quick.

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 (10)

1. The utility model provides an aluminum mould board reinforceing system which characterized in that: comprises a frame body (1) which is fixedly arranged on a floor;

the clamping mechanisms (2) are at least two groups, are respectively movably arranged on the frame body (1), can clamp and fix the edges of two adjacent aluminum templates, and a plurality of groups of clamping mechanisms (2) are sequentially arranged at intervals along the edges of the two adjacent aluminum templates;

the power input mechanism (3) is arranged on the frame body (1) and is used for inputting power;

and the transmission mechanism (4) is arranged on the frame body (1), the transmission mechanism (4) is respectively connected with the power input mechanism (3) and the clamping mechanisms (2) and used for distributing power from the power input mechanism (3) and transmitting the power to the clamping mechanisms (2) so as to enable the clamping mechanisms (2) to synchronously start clamping actions.

2. The aluminum formwork reinforcement system of claim 1, wherein: the clamping mechanism (2) comprises

The driving disc (21) is rotatably arranged on the frame body (1), a first spiral tooth (211) is arranged on one side surface of the driving disc (21), the driving disc (21) is connected with the transmission mechanism (4), and the transmission mechanism (4) is used for driving the driving disc (21) to rotate;

the main clamping arms (22) are respectively slidably mounted on the frame body (1), meshed with the driving disc (21) through the first spiral teeth (211) and respectively close to two opposite sides of the periphery of the driving disc (21), and the two main clamping arms (22) are used for clamping the edges of two adjacent aluminum templates.

3. The aluminum formwork reinforcing system of claim 2, wherein: fixture (2) still includes two at least vice arm lock (23), driving-disc (21) are back to one side surface of first helical tooth (211) has second helical tooth (212), vice arm lock (23) respectively sliding installation in support body (1), vice arm lock (23) pass through second helical tooth (212) meshing with driving-disc (21), multiunit vice arm lock (23) are close to respectively driving-disc (21) peripheral both sides of backing mutually, multiunit vice arm lock (23) are used for respectively the lock in the edge that lies in two adjacent aluminium mould board two other two aluminium mould boards that back mutually both sides mutually.

4. The aluminum formwork reinforcing system of claim 1, wherein: the transmission mechanism (4) comprises

A main transmission part (41) connected with the power input mechanism (3);

the sub-transmission part (42) is matched with the arrangement number of the clamping mechanisms (2), is respectively connected with the main transmission part (41) and the clamping mechanisms (2), and is used for transmitting the torque in the main transmission part (41) to the clamping mechanisms (2).

5. The aluminum formwork reinforcing system of claim 4, wherein: main drive portion (41) include final drive shaft (411), first main bevel gear (412) and second main bevel gear (413), final drive shaft (411) rotate install in support body (1) and with power input mechanism (3) are connected, and power input mechanism (3) are used for the drive final drive shaft (411) rotate, first main bevel gear (412) fixed mounting in final drive shaft (411), second main bevel gear (413) fixed mounting in sub-transmission portion (42), sub-transmission portion (42) rotate install in support body (1).

6. The aluminum formwork reinforcement system of claim 5, wherein: the sub-transmission part (42) comprises a sub-transmission shaft (421) and a spur gear (422), the sub-transmission shaft (421) is fixedly connected with the second main bevel gear (413), the spur gear (422) is fixedly connected with the sub-transmission shaft (421), a gear ring (24) is arranged at the clamping mechanism (2), and the spur gear (422) is meshed with the gear ring (24).

7. The aluminum formwork reinforcing system of claim 1, wherein: power input mechanism (3) include motor (31), worm (32) and worm wheel (33), motor (31) fixed mounting is in support body (1), worm (32) rotate to be installed in support body (1), and the one end of worm (32) with the output shaft of motor (31), worm wheel (33) fixed mounting in on drive mechanism (4), worm (32) with worm wheel (33) mesh mutually.

8. The aluminum formwork reinforcement system of claim 1, wherein: the support body (1) includes anchor (11), base (12), mount pad (13) and bracing (14), anchor (11) run through base (12), base (12) via anchor (11) are fixed in floor department, mount pad (13) fixed mounting is in base (12) top, fixture (2) power input mechanism (3) and drive mechanism (4) set up respectively in mount pad (13) department, bracing (14) respectively with anchor (11) and mount pad (13) fixed connection.

9. The aluminum form reinforcement system of claim 3, wherein: the aluminum template clamping device is characterized by further comprising a buckling piece (5), wherein the buckling piece (5) is fixedly installed on the aluminum template, and a buckling groove (51) for the main clamping arm (22) or the auxiliary clamping arm (23) to be matched in an inserting mode is formed in the buckling piece (5).

10. The construction method for the aluminum formwork reinforcement system according to any one of claims 1 to 9, comprising the steps of:

s1, checking an aluminum template and recording the position of an explosive die;

s2, fixedly installing the buckling piece (5) on the aluminum template;

s3, placing the frame body (1) on a floor, and aligning the main clamping arm (22) or the auxiliary clamping arm (23);

s4, starting the power input mechanism (3) until the main clamping arm (22) and the auxiliary clamping arm (23) are inserted into the buckling piece (5), and stopping starting the power input mechanism (3);

and S5, the anchor (11) penetrates through the base (12) and is fixedly arranged on the floor.

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