CN112282358A - Control method for supporting aluminum alloy building template - Google Patents

Abstract

The invention discloses a control method for supporting an aluminum alloy building template, which is realized based on a supporting column bracket structure, the supporting column bracket structure comprises a first supporting body, a second supporting body, a third supporting body and a supporting plate, a first chute is arranged in the first supporting body, a fixed seat is integrally formed at the bottom end of the first supporting body, a notch is arranged at the side of the first chute, the second supporting body is inserted into the first chute, a rack is integrally formed at the side of the second supporting body, a second chute is arranged at the upper end surface of the second supporting body, the height of the invention is adjustable through the transmission of a gear and the rack, the invention is very convenient and rapid, the supporting work efficiency is improved, the supporting area is increased through the connection of the third supporting body and the supporting plate, the operation is not required to be carried out by a worker, the supporting stability is improved, and the work safety is also improved, thereby improving the working efficiency.

Description

Control method for supporting aluminum alloy building template

The application is a divisional application of a Chinese invention patent application with the application number of 201911292159.4, which is filed on 2019, 12, month and 16 and is named as a support column bracket structure for an aluminum alloy building template.

Technical Field

The invention relates to the technical field of building template supporting devices, in particular to a control method for supporting an aluminum alloy building template.

Background

The aluminum template is fully called as an aluminum alloy template system for buildings; the aluminum formwork is a building formwork made of aluminum alloy, namely an aluminum alloy formwork which is manufactured by extruding an aluminum formwork through special equipment according to the manufacturing design of modulus, and is a complete and matched universal accessory consisting of an aluminum panel, a bracket and a connecting piece, can be combined and assembled into an integral formwork with different sizes and complex external dimensions, is a system formwork for assembly and industrial construction, overcomes the defects of the traditional formwork, greatly improves the construction efficiency, has 55 years of application history since 1962 in the birth of America, and is used in developed countries such as America, Canada and the like, and in the construction of new industrial countries such as mexico, brazil, malaysia, korea, india, the aluminum forms have been developed in china for only a few years and have been favored by many construction companies, such as the department of pancakes and the middle-building group, which use the aluminum form system.

Aluminum alloy template all needs to cooperate strutting arrangement to use usually, current bearing structure all carries out simple support with a support column, this wherein support column and template area of contact is less, on the one hand to the supporting effect relatively poor, some fill up a square slab between support column and template and increase the supporting area, but need step on to the eminence and place, can bring danger for work, on the other hand to the support column all through two cylinders support the distance through threaded connection control support, it is very inconvenient, the work efficiency is reduced, and the work efficiency is influenced.

Disclosure of Invention

The present invention is directed to a method for controlling a supporting aluminum alloy building panel to solve the above problems of the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a control method for supporting an aluminum alloy building formwork, the method being implemented based on a support post bracket structure comprising a first support body, a second support body, a third support body and a support plate; the first support body is internally provided with a first sliding chute, the bottom end of the first support body is integrally provided with a fixed seat, the side of the first sliding chute is provided with a notch, and the first sliding chute is spliced with a second support body;

a rack is integrally formed on the side of the second support body, a second sliding groove is formed in the upper end face of the second support body, and a third return spring is integrally formed in the rack meshed connection gear and the second sliding groove;

the gear is sleeved with a crank, one end of the crank is inserted into one fixing plate, the other end of the crank is arranged in the other fixing plate in a penetrating manner, and the fixing plates are symmetrically fixed on two sides of the notch through screws;

the crank is also sleeved with a disc, and first fixed circular grooves are formed in one side of one fixed plate at equal intervals;

the disc is provided with a first slot, one end of the first slot is provided with a first circular groove, the first slot is inserted with a first inserting block, the first circular groove is inserted with a fixed column, one side of the first inserting block is provided with a second fixed circular groove, the first inserting block is provided with a first reset spring in an integrated manner at the same end as the fixed column, the other end of the first reset spring is arranged in the first slot in an integrated manner, a fixed block is further arranged on the side of a notch of the first slot in the disc in an integrated manner, the fixed block is provided with a second circular groove, one end of the second circular groove is provided with a third circular groove, the second circular groove is inserted with a first inserting column, the third circular groove is inserted with a second inserting column, the first inserting column is provided with a second reset spring in an integrated manner at the same end as the second inserting column, and the other end of the second reset spring is arranged in the second circular groove in an integrated manner;

the other end of the third return spring is integrally formed at the bottom end of the sliding block, the four side edges of the sliding block are symmetrically provided with fixed square grooves, and the upper end surface of the sliding block is integrally formed with a third supporting body;

the four sides of the upper end surface of the third support body are integrally formed and symmetrically provided with first lugs, the first lugs are connected to one end of a connecting plate through pins, and the other end of the connecting plate is connected with a supporting plate through pins;

the upper end face of the supporting plate is provided with a groove, one side of the supporting plate is provided with a second lug, the upper end face of the second supporting body is symmetrically provided with a placing groove, the side of the placing groove is integrally provided with a connecting pipe, and the second lug on the supporting plate is also connected with the connecting pipe through a pin;

the second support body is provided with a second slot, one end of the second slot is provided with a third slot, the second slot is inserted with a second insert block, the third slot is inserted with a third insert block, one end of the third insert block is provided with a slope, the second insert block and the third insert block are integrally formed to be provided with a fourth reset spring, and the other end of the fourth reset spring is integrally formed to be arranged in the second slot.

Preferably, the fixed square groove and the third slot are arranged at corresponding positions and in the same number, and the cross section of the notch of the fixed square groove is in the same shape as that of the notch of the third slot and that of the third insert block.

Preferably, the fixed circular grooves are distributed annularly, and the fixed circular grooves correspond to the first circular grooves in arrangement positions, that is, when the first circular grooves reach the fixed circular grooves, the central lines of the fixed circular grooves and the first circular grooves are on the same straight line, and the diameter of the fixed circular grooves, the diameter of the first circular grooves and the diameter of the fixed columns are equal.

Preferably, the rack and the gear have the same tooth form angle and modulus, and the bottom end of the rack is integrally formed with a limiting block.

Preferably, the width of the rack is equal to the width of the notch in the first support body.

Preferably, the grooves correspond to the connecting plates in arrangement positions and are arranged in the same number, and the widths of the grooves are equal to the widths of the connecting plates.

Preferably, the slider is slidably connected in a second sliding groove in the second support body, and the cross-sectional shape of the slider is the same as the cross-sectional shape of the notch of the second sliding groove.

Compared with the prior art, the invention has the beneficial effects that:

1. the height of the invention can be adjusted through the transmission of the gear and the rack, which is very convenient and fast, and the supporting working efficiency is improved;

2. the supporting area is increased through the connection of the third supporting body and the supporting plate, workers are not required to ascend to operate, the supporting stability is improved, the working safety is improved, and the working benefit is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of the connection structure of the support plate of FIG. 1;

FIG. 3 is a schematic view of a connection structure of the second support and the third support;

FIG. 4 is a partially enlarged view of the connection structure of FIG. 3;

FIG. 5 is a partial cross-sectional view of a fixed structure of a rack and pinion drive;

fig. 6 is a partial sectional view of the slider and the second support fixing structure.

In the figure: the support device comprises a first support body 1, a second support body 2, a rack 3, a gear 4, a fixing plate 5, a crank 6, a disc 7, a first fixing circular groove 8, a first inserting block 9, a fixing column 10, a first return spring 11, a second fixing circular groove 12, a fixing block 13, a first inserting column 14, a second inserting column 15, a second return spring 16, a third return spring 17, a sliding block 18, a fixing square groove 19, a third support body 20, a connecting plate 21, a supporting plate 22, a groove 23, a second inserting block 24, a third inserting block 25 and a fourth return spring 26.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a control method for supporting an aluminum alloy building panel, the method being implemented based on a support post bracket structure comprising a first support 1, a second support 2, a third support 20 and a support plate 22;

a first sliding groove is formed in the first support body 1, a fixed seat is integrally formed at the bottom end of the first support body, a notch is formed in the side of the first sliding groove, and a second support body 2 is inserted into the first sliding groove;

a rack 3 is integrally formed on the side of the second support body 2, a second sliding groove is formed in the upper end face of the second support body 2, the rack 3 is meshed with a gear 4, and a third return spring 17 is integrally formed in the second sliding groove, wherein the rack 3 and the gear 4 are mainly used for transmission, so that the height of the second support body 2 is adjusted conveniently and quickly;

the gear 4 is sleeved with a crank 6, one end of the crank 6 is inserted into the fixed plate 5, the other end of the crank 6 is arranged in the other fixed plate 5 in a penetrating manner, and the fixed plates 5 are symmetrically fixed on two sides of the notch through screws;

the crank 6 is also sleeved with a disc 7, and first fixed circular grooves 8 are arranged on one side of one fixed plate 5 at equal intervals;

a first slot is arranged in the disc 7, a first circular groove is arranged at one end of the first slot, a first insert block 9 is inserted in the first slot, a fixed column 10 is inserted in the first circular groove, a second fixed circular groove 12 is arranged at one side of the first insert block 9, a first return spring 11 is integrally formed at the same end of the first insert block 9 and the fixed column 10, the other end of the first return spring 11 is integrally formed in the first slot, a fixed block 13 is further integrally formed at the side of the notch of the first slot in the disc 7, a second circular groove is arranged in the fixed block 13, a third circular groove is arranged at one end of the second circular groove, a first insert column 14 is inserted in the second circular groove, a second insert column 15 is inserted in the third circular groove, the second fixed circular groove 12 is used for realizing the insertion and fixation of the fixed column 10 in the first fixed circular groove 8 by the clamping connection of the second fixed circular groove 12 and the second insert column 15, the first inserting column 14 is provided with a second return spring 16 integrally formed at the same end as the second inserting column 15, and the other end of the second return spring 16 is integrally formed in a second circular groove, wherein the second circular groove is fixed mainly by the transmission of the multi-rack 3 and the gear 4 through the structures, so that the position of the second support body 2 is fixed, which is also very convenient;

the other end of the third return spring 17 is integrally formed at the bottom end of the sliding block 18, and four sides of the sliding block 18 are symmetrically provided with fixed square grooves 19, and the upper end surface is integrally formed with a third supporting body 20;

four edge sides of the upper end surface of the third support body 20 are integrally formed and symmetrically provided with first convex blocks, the first convex blocks are connected to one end of the connecting plate 21 through pins, and the other end of the connecting plate 21 is also connected with the supporting plate 22 through pins;

the upper end face of the supporting plate 22 is provided with a groove 23, one side of the supporting plate is provided with a second bump, the upper end face of the second supporting body 2 is symmetrically provided with a placing groove, the side of the placing groove is integrally provided with a connecting pipe, and the second bump on the supporting plate 22 is connected with the connecting pipe through a pin;

a second slot is arranged in the second support body 2, a third slot is arranged at one end of the second slot, a second insert block 24 is inserted into the second slot, a third insert block 25 is inserted into the third slot, a slope is arranged at one end of the third insert block 25, a fourth return spring 26 is integrally formed at the same end of the second insert block 24 and the third insert block 25, and the other end of the fourth return spring 26 is integrally formed in the second slot.

Further, the fixed square groove 19 corresponds to the third slot arrangement position and is provided with the same number of groups, and the notch cross-sectional shape of the fixed square groove 19 is the same as the notch cross-sectional shape of the third slot and the cross-sectional shape of the third insert 25, here, when the third support body 20 and the support plate 22 contact the formwork, the fixed square groove 19 reaches the third notch position, that is, the third insert 25 is inserted and fixed in the fixed square groove 19 under the action of the slope and the fourth return spring 26, and then the third support body 20 and the support plate 22 are supported more firmly on the formwork.

Further, 8 journey ring distributions of first fixed circular slot to first fixed circular slot 8 sets up the position with first circular slot and is corresponding, and when first circular slot reachd 8 positions of first fixed circular slot promptly, both central lines were on same straight line, and first fixed circular slot 8 diameter, first circular slot diameter and fixed column 10 diameter equal.

Further, rack 3 and gear 4 profile angle, modulus are the same to the bottom integrated into one piece of rack 3 is provided with the stopper, and the purpose that the stopper set up here is to prevent rack 3 and gear 4 separation, improves the safety in utilization.

Further, the width of the rack 3 and the width of the notch in the first support 1 are equal.

Further, the grooves 23 and the connecting plates 21 are arranged at corresponding positions and in the same number of groups, and the width of the grooves 23 is equal to that of the connecting plates 21.

Further, the slider 18 is slidably coupled in the second sliding groove of the second supporting body 2, and the cross-sectional shape of the slider 18 is the same as the cross-sectional shape of the notch of the second sliding groove, so that the lifting of the third supporting body 20 in the second sliding groove of the second supporting body 2 is more stable.

The working state is as follows: when the invention works, firstly, the crank 6 is rotated, the second support body 2 is controlled to ascend through the transmission of the gear 4 and the rack 3, when the third support body 20 contacts the template, the crank 6 is rotated, the third support body 20 slides to the second chute in the second support body 2 after being extruded, and through the connection of the connecting plate 21 and the pin, the support plate 22 and the third support body 20 finally support the template, and the third support body 20 is fixed through the fixed square groove 19 and the third inserting block 25 on the sliding block 18 arranged at the bottom end, when the third support body 20 and the support plate 22 both play a supporting role, namely the upper end surfaces of the third support body 20 and the support plate 22 are horizontal and on the same horizontal plane, the transmission of the rack 3 and the gear 4 is fixed through the disc 7 on the transmission mechanism of the rack 3 and the gear 4 and the first fixed circular groove 8 on the fixed plate 5, therefore, the invention is very convenient and fast, improves the efficiency of the supporting work, improves the stability of the supporting, improves the safety of the work and further improves the work benefit.

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.

Claims (7)

1. A control method for supporting an aluminum alloy building panel, said method being based on a support post bracket structure, characterized in that: the support column bracket structure comprises a first support body (1), a second support body (2), a third support body (20) and a support plate (22);

a first sliding groove is formed in the first supporting body (1), a fixed seat is integrally formed at the bottom end of the first supporting body, a notch is formed in the side of the first sliding groove, and a second supporting body (2) is inserted into the first sliding groove;

a rack (3) is integrally formed at the edge side of the second support body (2), a second sliding groove is formed in the upper end face of the second support body (2), the rack (3) is meshed with the connecting gear (4), and a third return spring (17) is integrally formed in the second sliding groove;

the gear (4) is sleeved on the crank (6), one end of the crank (6) is inserted into the fixing plate (5), the other end of the crank (6) is arranged in the other fixing plate (5) in a penetrating mode, and the fixing plates (5) are symmetrically fixed on two sides of the notch through screws;

the crank (6) is also sleeved with a disc (7), and one side of one fixed plate (5) is equidistantly provided with first fixed circular grooves (8);

the disc (7) is provided with a first slot, one end of the first slot is provided with a first circular groove, the first slot is inserted with a first inserting block (9), the first circular groove is inserted with a fixed column (10), one side of the first inserting block (9) is provided with a second fixed circular groove (12), the first inserting block (9) is provided with a first reset spring (11) in an integral forming mode at the same end with the fixed column (10), the other end of the first reset spring (11) is arranged in the first slot in an integral forming mode, a fixed block (13) is further arranged on the notch side of the first slot in the disc (7) in an integral forming mode, the fixed block (13) is provided with a second circular groove, one end of the second circular groove is provided with a third circular groove, the second circular groove is inserted with a first inserting column (14), the third circular groove is inserted with a second inserting column (15), the first inserting column (14) is provided with a second reset spring (16) in an integral forming mode at the same end with the second inserting column (15), The other end of the second return spring (16) is integrally formed in the second circular groove;

the other end of the third return spring (17) is integrally formed at the bottom end of the sliding block (18), and four edge sides of the sliding block (18) are symmetrically provided with fixed square grooves (19), and the upper end surface of the sliding block is integrally formed with a third supporting body (20);

four edge sides of the upper end face of the third support body (20) are integrally formed and symmetrically provided with first convex blocks, the first convex blocks are connected to one end of the connecting plate (21) through pins, and the other end of the connecting plate (21) is connected with the supporting plate (22) through pins;

the upper end face of the supporting plate (22) is provided with a groove (23), one side of the supporting plate is provided with a second lug, the upper end face of the second supporting body (2) is symmetrically provided with a placing groove, the side of the placing groove is integrally provided with a connecting pipe, and the second lug on the supporting plate (22) is connected with the connecting pipe through a pin;

a second slot is formed in the second support body (2), a third slot is formed at one end of the second slot, a second insert block (24) is inserted into the second slot, a third insert block (25) is inserted into the third slot, a slope is formed at one end of the third insert block (25), a fourth reset spring (26) is integrally formed at the same end of the third insert block (25) of the second insert block (24), and the other end of the fourth reset spring (26) is integrally formed in the second slot;

the method comprises the following steps:

(1) firstly, the second support body 2 is controlled to ascend through the transmission of the gear 4 and the rack 3 by rotating the crank 6;

(2) when the third support body 20 contacts the template, the crank 6 is rotated, the third support body 20 is extruded to slide into the second sliding groove in the second support body 2, and the support plate 22 and the third support body 20 finally support the template through the connection of the connecting plate 21 and the pin;

(3) the third support body 20 is fixed through the fixed square groove 19 and the third insert block 25 on the slide block 18 arranged at the bottom end, when the third support body 20 and the support plate 22 both play a supporting role, that is, the upper end surfaces of the third support body 20 and the support plate 22 are horizontal and on the same horizontal plane, the transmission of the rack 3 and the gear 4 is fixed through the disc 7 on the transmission mechanism of the rack 3 and the gear 4 and the first fixed circular groove 8 on the fixed plate 5, and then the supporting work can be completed.

2. A method of controlling a support for an aluminum alloy building panel as recited in claim 1, further comprising: the fixed square groove (19) corresponds to the third slot in arrangement position and is the same in arrangement number, and the cross section shape of the notch of the fixed square groove (19) is the same as that of the third slot and that of the third insert block (25).

3. A method of controlling a support for an aluminum alloy building panel as recited in claim 1, further comprising: the distance of the first fixed circular groove (8) is distributed in an annular mode, the first fixed circular groove (8) corresponds to the position of the first circular groove, namely when the first circular groove reaches the position of the first fixed circular groove (8), the central lines of the first fixed circular groove and the first fixed circular groove are on the same straight line, and the diameter of the first fixed circular groove (8), the diameter of the first circular groove and the diameter of the fixed column (10) are equal.

4. A method of controlling a support for an aluminum alloy building panel as recited in claim 1, further comprising: the rack (3) and the gear (4) are identical in tooth form angle and modulus, and a limiting block is integrally formed at the bottom end of the rack (3).

5. A method of controlling a support for an aluminum alloy building panel as recited in claim 1, further comprising: the width of the rack (3) is equal to the width of the notch in the first support body (1).

6. A method of controlling a support for an aluminum alloy building panel as recited in claim 1, further comprising: the grooves (23) correspond to the connecting plates (21) in arrangement position and are arranged in the same number, and the width of the grooves (23) is equal to that of the connecting plates (21).

7. A method of controlling a support for an aluminum alloy building panel as recited in claim 1, further comprising: the sliding block (18) is connected in a second sliding groove in the second supporting body (2) in a sliding mode, and the cross section shape of the sliding block (18) is the same as the cross section shape of a groove opening of the second sliding groove.

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