CN114541751A - Beam column template auxiliary connection equipment for building - Google Patents

Abstract

The invention relates to auxiliary connecting equipment for beam column templates for buildings, which comprises two bottom plates, a first mounting plate, a second mounting plate, guide sleeves, sliding blocks, shaft levers, a swing frame, baffle plates and the like, wherein the top of the right bottom plate is connected with the first mounting plate, the top of the left bottom plate is connected with the second mounting plate, the second mounting plate is clamped with the first mounting plate, the tops of the first mounting plate and the second mounting plate are respectively and symmetrically connected with the guide sleeves in a front-back mode, the sliding blocks are respectively connected in the four guide sleeves in a sliding mode, the shaft levers are respectively and rotatably connected between the two corresponding sliding blocks in the front-back mode, the middle of each shaft lever is connected with the swing frame, and the inner side faces of the two swing frames are respectively connected with the baffle plates. The U-shaped beam column template and the square beam column template can be sucked by the vacuum chuck, the U-shaped beam column template and the square beam column template can be upwards rotated to be in a vertical state by upwards rotating the swing frame, and the U-shaped beam column template and the square beam column template can be mutually close and butted together by inwards moving the shaft lever.

Description

Beam column template auxiliary connection equipment for building

Technical Field

The invention relates to template auxiliary connecting equipment, in particular to beam column template auxiliary connecting equipment for a building.

Background

The method comprises the steps of pouring a beam column when a building is built, wherein a square beam column is generally poured at present, binding beam column reinforcing steel bars before the square beam column is poured, butting a U-shaped beam column template and a square beam column template together to wrap the beam column reinforcing steel bars, fixedly connecting the U-shaped beam column template and the square beam column template together, pouring concrete into the butted beam column template to wrap the beam column reinforcing steel bars, and disassembling the beam column template after the concrete is dried, so that the pouring of the square beam column is completed.

Because of the limitation of the building site and the limitation of the building height, large-scale machinery is inconvenient to butt joint and connect the U-shaped beam column template and the square beam column template, so that the U-shaped beam column template and the square beam column template are generally butt joint and connected manually at present, when the U-shaped beam column template and the square beam column template are butt joint manually, the U-shaped beam column template is vertically erected on the outer side of the beam column reinforcing steel bar manually, then the square beam column template is vertically erected to be attached to the U-shaped beam column template manually, then the U-shaped beam column template and the square beam column template are held manually to prevent the U-shaped beam column template and the square beam column template from being separated, finally the U-shaped beam column template and the square beam column template are nailed and fixed together by nails, and because the U-shaped beam column template and the square beam column template have certain weight, a plurality of people are required to cooperate together to butt joint the U-shaped beam column template and the square beam column template, need many people to cooperate and hold together U-shaped roof beam post template and square roof beam post template and nail and connect fixedly, so comparatively inconvenient, the efficiency of butt joint and connection is comparatively low, needs more labour, and intensity of labour is big.

Disclosure of Invention

Therefore, the auxiliary connecting equipment for the beam column template for the building is convenient to use, can improve the efficiency of butt joint and connection and can reduce the labor intensity.

The utility model provides a beam column template auxiliary connection equipment for building, comprising a base plate, first mounting panel, the second mounting panel, the guide pin bushing, the slider, the axostylus axostyle, the swing span, the baffle, the backing plate, adsorption component and the subassembly that pushes away the gas, the bottom plate is equipped with two, right side bottom plate top is connected with first mounting panel, left side bottom plate top is connected with the second mounting panel, second mounting panel and first mounting panel block, symmetrical connection has the guide pin bushing around first mounting panel and the second mounting panel top is equal, equal sliding connection has the slider in four guide pin bushings, equal rotary type is connected with the axostylus axostyle between two sliders that correspond around, the axostylus axostyle middle part is connected with the swing span, two swing span medial surfaces all are connected with the baffle, two swing span tops are all evenly spaced and are connected with three backing plate, be equipped with adsorption component on the swing span, be equipped with the subassembly that pushes away the gas.

Preferably, the adsorption component comprises a connecting plate, a connecting pipe and vacuum chucks, the two swing frames are internally and symmetrically connected with the connecting plate in a bilateral symmetry mode, the four connecting plates are all connected with the connecting pipe, the tops of the four connecting pipes are all connected with the vacuum chucks, and the vacuum chucks are used for adsorbing the beam column template and preventing the beam column template from falling off from the base plate.

Preferably, the air pushing assembly comprises a sliding rod and a piston, the sliding rod is connected between every two adjacent connecting pipes in a sliding mode, the pistons are connected to the rear ends of the sliding rods in a bilateral symmetry mode, and the pistons are located in the connecting pipes.

Preferably, the lifting device also comprises a lifting assembly, the lifting assembly is arranged between the first mounting plate and the shaft rods, the lifting assembly comprises a guide rail, a cylinder, a sliding plate, a wheel disc, a first connecting rod, a torsion spring, an extension spring, a connecting block, a threaded rod, a nut and a second connecting rod, the left front side of the top of the first mounting plate is connected with the guide rail, the sliding plate is connected in the guide rail in a bilateral symmetry sliding manner, the cylinder is mounted at the left front side of the top of the first mounting plate and is positioned at the front side of the guide rail, the wheel discs are connected at the front sides of the two shaft rods, the torsion springs are sleeved at the front sides of the two shaft rods, one end of each torsion spring is connected with the rear side surface of the wheel disc, the other end of each torsion spring is connected with the front side surface of a front side sliding block, the first connecting rod is hinged with the adjacent sliding plate, the connecting block is connected on the telescopic rod of the cylinder, the threaded rod is arranged in the connecting block, the front side of the threaded rod is connected with a nut in a threaded connection mode, the back side of the threaded rod is symmetrically sleeved with a second connecting rod in a front-back mode, the second connecting rod is hinged to an adjacent sliding plate, and extension springs are connected between the four sliding blocks and the four guide sleeves.

Preferably, still including spacing subassembly, all be equipped with spacing subassembly on first mounting panel and the second mounting panel, spacing subassembly is including the mounting bracket, the carriage, two-way screw rod, limiting plate and first knob, all be connected with the mounting bracket on first mounting panel and the second mounting panel, the mounting bracket is located the outside of guide pin bushing, equal rotary type is connected with two-way screw rod on two mounting brackets, the symmetry is connected with the carriage through threaded connection's mode around all on two-way screw rod, carriage and mounting bracket sliding type connection, four sliding bracket tops all are connected with the limiting plate, the front end of two-way screw rod all is connected with first knob.

Preferably, still including the gassing subassembly, be equipped with the gassing subassembly between slide bar, first mounting panel and the second mounting panel, the gassing subassembly is including connecting rod, fixed plate and wedge, and two slide bar front sides all are connected with the connecting rod, and the left front side at first mounting panel top and the right front side at second mounting panel top all are connected with the fixed plate, and the fixed plate is located the front side of guide rail, and fixed plate upper portion is connected with the wedge, and the connecting rod removes can contact with the wedge.

Preferably, still including supporting the subassembly, first mounting panel and second mounting panel bottom all are equipped with supports the subassembly, support the subassembly including the internal thread cover, the lead screw, support piece and second knob, the left front side of first mounting panel bottom and the right side of second mounting panel bottom all are connected with the internal thread cover, all be connected with the lead screw through threaded connection's mode in two internal thread covers, two lead screw inner all are connected with supports the piece, two lead screw outer ends all are connected with the second knob, the second knob of left side passes the second mounting panel.

Preferably, the medial surface of limiting plate is the inclined plane, is convenient for place the beam column template.

Compared with the prior art, the invention has the following advantages:

1. the vacuum chuck can suck the U-shaped beam column template and the square beam column template to prevent the U-shaped beam column template and the square beam column template from falling off the base plate, the swing frame rotates upwards to enable the U-shaped beam column template and the square beam column template to rotate upwards to be in a vertical state, the U-shaped beam column template and the square beam column template can be supported through the baffle plate to prevent the U-shaped beam column template and the square beam column template from moving downwards, and the U-shaped beam column template and the square beam column template can be close to each other and butted together due to the inward movement of the shaft rod, so that the effects of convenience in use, capability of improving the efficiency of butting and connecting and capability of reducing the labor intensity are achieved.

2. The connecting block is moved upwards by the air cylinder, the shaft lever is rotated to drive the swing frame to rotate upwards through a series of transmissions, and then the shaft lever can be moved inwards to enable the U-shaped beam column template and the square beam column template to be close to and butted together, so that the U-shaped beam column template and the square beam column template are butted together without manually rotating the swing frame and moving the shaft lever, the use is more convenient, the butting and connecting efficiency can be further improved, and the labor intensity can be further reduced.

3. The limiting plate can limit and position the U-shaped beam column template and the square beam column, so that the U-shaped beam column template and the square beam column can be prevented from being placed askew, and the butt joint and connection efficiency can be further improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a perspective view of a part of the present invention.

Fig. 3 is a schematic perspective view of the adsorption assembly of the present invention.

FIG. 4 is a diagram of the connection between the parts of the adsorption assembly and the parts of the air-pushing assembly according to the present invention.

Fig. 5 is a schematic perspective view of the air pushing assembly of the present invention.

Figure 6 is a perspective view of a lift assembly of the present invention.

Figure 7 is an exploded view of a portion of the lift assembly of the present invention.

Fig. 8 is a perspective view of the spacing assembly and some parts of the present invention.

Fig. 9 is a schematic perspective view of the spacing assembly of the present invention.

Fig. 10 is a perspective view of the air bleeding assembly of the present invention.

Fig. 11 is a perspective view of a resisting assembly of the invention.

The labels in the figures are: 1-base plate, 2-first mounting plate, 21-second mounting plate, 3-guide sleeve, 4-slide block, 5-shaft rod, 6-swing frame, 7-baffle, 8-backing plate, 9-adsorption component, 91-connecting plate, 92-connecting pipe, 93-vacuum chuck, 10-air pushing component, 101-slide rod, 102-piston, 11-lifting component, 111-guide rail, 112-cylinder, 113-slide plate, 114-wheel, 115-first connecting rod, 116-torsion spring, 117-tension spring, 118-connecting block, 119-threaded rod, 1191-nut, 1192-second connecting rod, 12-limiting component, 121-mounting frame, 122-sliding frame, 123-two-way screw rod, 124-a limiting plate, 125-a first knob, 13-an air discharging component, 131-a connecting rod, 132-a fixing plate, 133-a wedge-shaped block, 14-a resisting component, 141-an internal thread sleeve, 142-a screw rod, 143-a resisting block and 144-a second knob.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It should be noted that the terms "inner", "outer", "left", "right" and the like as used herein are for illustrative purposes only and do not mean a unique embodiment.

Example 1

Referring to fig. 1-2, the present application provides a beam column template auxiliary connection device for buildings, which comprises a bottom plate 1, a first mounting plate 2, a second mounting plate 21, guide sleeves 3, sliding blocks 4, a shaft lever 5, a swing frame 6, a baffle 7, a backing plate 8, an adsorption component 9 and an air pushing component 10, wherein the bottom plate 1 is provided with two, the top of the right bottom plate 1 is connected with the first mounting plate 2 in a bolt connection manner, the top of the left bottom plate 1 is connected with the second mounting plate 21 in a bolt connection manner, the second mounting plate 21 is clamped with the first mounting plate 2, the top of the first mounting plate 2 and the top of the second mounting plate 21 are symmetrically connected with the guide sleeves 3 in the front and back direction, the sliding blocks 4 are connected in the four guide sleeves 3 in a sliding manner, the shaft lever 5 is rotatably connected between the two sliding blocks 4 corresponding to the front and back, the middle part of the shaft lever 5 is connected with a swing frame 6, and the inner side surfaces of the two swing frames 6 are connected with the baffle 7, baffle 7 is used for spacing to the beam column template, and 6 tops of two swing brackets are all evenly spaced and are connected with three backing plate 8, and backing plate 8 is the rubber material, and backing plate 8 is used for placing the beam column template, is equipped with adsorption component 9 on the swing bracket 6, and adsorption component 9 is used for adsorbing the beam column template, prevents that the beam column template from dropping from backing plate 8, is equipped with on the adsorption component 9 and pushes away gas subassembly 10, and it is used for driving adsorption component 9 and loosens the beam column template to push away gas subassembly 10.

Referring to fig. 3-5, the adsorption assembly 9 includes a connection plate 91, a connection pipe 92 and a vacuum chuck 93, the connection plate 91 is symmetrically connected to the left and right of the two swing frames 6, the connection pipes 92 are connected to the four connection plates 91, the vacuum chucks 93 are connected to the tops of the four connection pipes 92, and the vacuum chucks 93 are used for adsorbing the beam column template to prevent the beam column template from falling off the backing plate 8.

As shown in fig. 4-5, the air pushing assembly 10 includes a sliding rod 101 and a piston 102, the sliding rod 101 is slidably connected between two adjacent connecting pipes 92, the pistons 102 are symmetrically connected to the rear ends of the sliding rods 101, and the pistons 102 are located in the connecting pipes 92.

Placing the first mounting plate 2 and the second mounting plate 21 on the outer side of the beam column reinforcing bar, placing the first mounting plate 2 on the right side of the beam column reinforcing bar, placing the second mounting plate 21 on the left side of the beam column reinforcing bar, moving the first mounting plate 2 and the second mounting plate 21 inward, so that the first mounting plate 2 and the second mounting plate 21 are clamped together, then placing the U-beam column formwork and the square beam column formwork on the backing plates 8 on the left and right sides respectively, then contacting the U-beam column formwork and the square beam column formwork with the vacuum chuck 93, then pressing the U-beam column formwork and the square beam column formwork downward, pushing the air in the vacuum chuck 93 into the connecting pipe 92, so that the vacuum chuck 93 can suck the U-beam column formwork and the square beam column formwork, preventing the U-beam column formwork and the square beam column formwork from falling from the backing plates 8, and the air in the connecting pipe 92 pushes the piston 102 forward along with the air, the piston 102 moves forward to drive the slide rod 101 to move forward; then, the two swing frames 6 are rotated upwards, the swing frames 6 drive the baffle plates 7, the base plates 8, the connecting plates 91, the connecting pipes 92, the vacuum chucks 93, the slide rods 101 and the pistons 102 to rotate upwards, so that the U-shaped beam column template and the square beam column template can be rotated upwards to be vertical, the U-shaped beam column template and the square beam column template can be supported through the baffle plates 7, and the U-shaped beam column template and the square beam column template are prevented from moving downwards. When the U-shaped beam column template and the square beam column template rotate upwards to be in a vertical state, the shaft lever 5 is manually moved inwards, the shaft lever 5 moves inwards to drive the sliding block 4 and the swing frame 6 to move inwards, so that the U-shaped beam column template and the square beam column template are close to each other and are butted together, the shaft lever 5 stops moving inwards after the U-shaped beam column template and the square beam column template are butted together, and then the U-shaped beam column template and the square beam column template are nailed and fixed together by nails; after the U-shaped beam column formwork and the square beam column are fixed together, the sliding rod 101 is manually pushed backwards by a person, so that the piston 102 moves backwards, the piston 102 moves backwards to push the air in the connecting pipe 92 into the vacuum chuck 93, so that the vacuum chuck 93 loosens the U-shaped beam column formwork and the square beam column, then the shaft lever 5 moves outwards to reset, the sliding block 4 and the swing frame 6 move outwards to reset, then the first mounting plate 2 and the second mounting plate 21 move outwards to separate from each other, then the first mounting plate 2 and the second mounting plate 21 are placed on the outer side of the next beam column reinforcing steel bar, the operation is repeated, and the butt joint work of the beam column formwork can be repeatedly carried out.

Example 2

On the basis of embodiment 1, with reference to fig. 1, 6 and 7, the lifting device 11 is further included, the lifting device 11 is disposed between the first mounting plate 2 and the shaft rod 5, the lifting device 11 is used for driving the swing frame 6 to rotate so as to butt-joint the two beam column formworks together, the lifting device 11 includes a guide rail 111, an air cylinder 112, a sliding plate 113, a wheel disc 114, a first connecting rod 115, a torsion spring 116, an extension spring 117, a connecting block 118, a threaded rod 119, a nut 1191 and a second connecting rod 1192, the guide rail 111 is connected to the left front side of the top of the first mounting plate 2 in a bolt connection manner, the sliding plate 113 is connected to the left front side of the top of the first mounting plate 2 in a bilateral symmetry manner, the air cylinder 112 is installed to the left front side of the top of the first mounting plate 2 in a bolt connection manner, the air cylinder 112 is located at the front side of the guide rail 111, the front sides of the two shaft rods 5 are both connected with the wheel discs 114, the front sides of the two shaft rods 5 are both sleeved with the torsion springs 116, one end of a torsion spring 116 is connected with the rear side face of the wheel disc 114, the other end of the torsion spring 116 is connected with the front side face of the front side sliding block 4, a first connecting rod 115 is hinged to the eccentric position of the front side faces of the two wheel discs 114, the first connecting rod 115 is hinged to the adjacent sliding plate 113, a connecting block 118 is connected to the telescopic rod of the air cylinder 112, a threaded rod 119 is placed in the connecting block 118, the front side of the threaded rod 119 is connected with a nut 1191 in a threaded connection mode, second connecting rods 1192 are symmetrically sleeved on the front side and the rear side of the threaded rod 119, the second connecting rods 1192 are hinged to the adjacent sliding plate 113, and extension springs 117 are connected between the four sliding blocks 4 and the four guide sleeves 3.

Initially, the threaded rod 119 is not inserted into the connecting block 118, after the first mounting plate 2 and the second mounting plate 21 are clamped together, the threaded rod 119 penetrates through the two second connecting rods 1192 and is inserted into the connecting block 118, then the nuts 1191 are sleeved on the threaded rod 119 and screwed, so that the threaded rod 119 can be fixed in the connecting block 118, when the U-shaped beam column formwork and the square beam column are butted together, the telescopic rod of the air cylinder 112 is started to extend to enable the connecting block 118 to move upwards, the connecting block 118 moves upwards to drive the threaded rod 119 to move upwards, the threaded rod 119 moves upwards to drive the two sliding plates 113 to move inwards through the two second connecting rods 1192, the sliding plates 113 move inwards to drive the wheel disc 114 to rotate through the first connecting rod 115, the torsion spring 116 is compressed accordingly, the wheel disc 114 rotates to drive the shaft lever 5 to rotate, and the shaft lever 5 rotates to drive the swing frame 6 to rotate upwards; when the sliding plate 113 moves inwards to enable the first connecting rod 115 to be in a horizontal state, the sliding plate 113 continues to move inwards, the wheel disc 114 is pulled to move inwards through the first connecting rod 115, the wheel disc 114 moves inwards to drive the shaft rod 5 to move inwards, the shaft rod 5 moves inwards to drive the sliding block 4 and the swing frame 6 to move inwards, the stretching spring 117 stretches accordingly, the U-shaped beam column template and the square beam column template can be close to each other and are butted together, and the air cylinder 112 is closed after the U-shaped beam column template and the square beam column template are butted together. When the vacuum chuck 93 loosens the U-shaped beam column template and the square beam column, the telescopic rod of the cylinder 112 is started to shorten to enable the connecting block 118 to move downwards for resetting, so that the two sliding plates 113 can move outwards for resetting, the sliding plates 113 move outwards to push the wheel disc 114 to move outwards for resetting through the first connecting rod 115, the wheel disc 114 moves outwards for resetting to drive the shaft lever 5 to move outwards for resetting, the sliding block 4 and the swing frame 6 move outwards for resetting, the tension spring 117 recovers to the original state, after the shaft lever 5 moves outwards for resetting, the sliding plates 113 continue to move outwards to enable the wheel disc 114 to rotate reversely through the first connecting rod 115 for resetting, the torsion spring 116 recovers to the original state, the wheel disc 114 rotates reversely to reset to drive the shaft lever 5 to rotate reversely, so that the swing frame 6 can rotate downwards for resetting, after the swing frame 6 rotates downwards for resetting, the cylinder 112 is closed, so that the U-shaped beam column template and the square beam column are connected together without manually rotating the swing frame 6 and the shaft lever 5, therefore, the use is more convenient, the butt joint and connection efficiency can be further improved, and the labor intensity can be further reduced. When the first mounting plate 2 and the second mounting plate 21 are to be moved away from each other, the nut 1191 is first screwed off the threaded rod 119, and then the threaded rod 119 is withdrawn from the connecting block 118 and the second connecting rod 1192.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 8 and 9, the concrete beam column formwork support further comprises a limiting component 12, the limiting components 12 are respectively arranged on the first mounting plate 2 and the second mounting plate 21, the limiting component 12 is used for limiting the beam column formwork and preventing the beam column formwork from being inclined when being placed on the backing plate 8, the limiting component 12 comprises a mounting frame 121, a sliding frame 122, a two-way screw 123, a limiting plate 124 and a first knob 125, the mounting frame 121 is connected to the first mounting plate 2 and the second mounting plate 21 through bolts, the mounting frame 121 is located on the outer side of the guide sleeve 3, the two mounting frames 121 are respectively connected with the two-way screw 123 through bearings, the sliding frame 122 is connected to the two-way screw 123 through threads in a front-back symmetrical mode, the sliding frame 122 is connected to the mounting frame 121 in a sliding mode, the tops of the four sliding frames 122 are respectively connected with the limiting plate 124 through screws, the limiting plate 124 is used for limiting the beam column template, prevents the beam column template from being inclined when placed on the base plate 8, the inner side surface of the limiting plate 124 is an inclined surface, the beam column template is convenient to place, and the front ends of the two bidirectional screws 123 are connected with the first knob 125 in a welding connection mode.

The positions of two limiting plates 124 corresponding to the front and the back can be adjusted according to the sizes of the U-shaped beam column template and the square beam column, when the positions of the limiting plates 124 are to be adjusted, the first knob 125 is rotated or reversely rotated, so that the two-way screw 123 can be rotated or reversely rotated, the two sliding frames 122 corresponding to the front and the back can be close to or separated from each other by the rotation or reverse rotation of the two-way screw 123, so that the two limiting plates 124 corresponding to the front and the back can be close to or separated from each other, when the position adjustment of the limiting plates 124 is completed, the rotation is stopped or the first knob 125 is reversely rotated, the U-shaped beam column template and the square beam column can be placed between the two limiting plates 124 corresponding to the front and the back, the U-shaped beam column template and the square beam column can be limited and positioned by the limiting plates 124, so that the U-shaped beam column template and the square beam column can be prevented from being placed askew, and then the efficiency of butt joint and connection can be further improved.

Example 4

On the basis of embodiment 3, as shown in fig. 1 and 10, the beam column formwork further includes an air bleeding component 13, an air bleeding component 13 is arranged between the sliding rod 101, the first mounting plate 2 and the second mounting plate 21, the air bleeding component 13 is used for driving the air bleeding component 10 to enable the adsorption component 9 to loosen the beam column formwork, the air bleeding component 13 includes a connecting rod 131, a fixing plate 132 and a wedge block 133, the connecting rod 131 is connected to the front sides of the two sliding rods 101, the fixing plate 132 is connected to the front left side of the top of the first mounting plate 2 and the front right side of the top of the second mounting plate 21 through welding, the fixing plate 132 is located on the front side of the guide rail 111, the wedge block 133 is connected to the upper portion of the fixing plate 132 through welding, and the connecting rod 131 can move to contact with the wedge block 133.

The slide rod 101 rotates upwards to a vertical state to drive the connecting rod 131 to rotate upwards to a vertical state, when the slide rod 101 moves inwards, the connecting rod 131 is driven to move inwards, the connecting rod 131 moves inwards to be in contact with the wedge-shaped block 133, the connecting rod 131 moves backwards under the extrusion of the wedge-shaped block 133, the connecting rod 131 moves backwards to push the slide rod 101 to move backwards, the slide rod 101 moves backwards to enable the piston 102 to move backwards, and therefore the vacuum chuck 93 releases the U-shaped beam column template and the square beam column, the slide rod 101 does not need to be manually pushed to move backwards, and labor intensity can be further reduced.

Example 5

On the basis of embodiment 4, as shown in fig. 1 and fig. 11, the device further comprises a supporting component 14, the bottoms of the first mounting plate 2 and the second mounting plate 21 are both provided with the supporting component 14, the supporting component 14 is used for positioning the device, the supporting component 14 comprises an internal thread sleeve 141, a screw rod 142, a supporting block 143 and a second knob 144, the left front side of the bottom of the first mounting plate 2 and the right side of the bottom of the second mounting plate 21 are both connected with the internal thread sleeve 141 in a welding connection manner, the two internal thread sleeves 141 are both connected with the screw rod 142 in a threaded connection manner, the inner ends of the two screw rods 142 are both connected with the supporting block 143 in a welding connection manner, the outer ends of the two screw rods 142 are both connected with the second knob 144 in a welding connection manner, and the left second knob 144 penetrates through the second mounting plate 21.

The position of the abutting block 143 can be adjusted according to the size of the cement column below the beam column reinforcing steel bar, when the position of the abutting block 143 is to be adjusted, the second knob 144 is rotated or reversely rotated, so that the screw rod 142 is rotated or reversely rotated, the screw rod 142 moves inwards or outwards along with the screw rod, so that the abutting block 143 moves inwards or outwards, after the position of the abutting block 143 is adjusted, the second knob 144 stops rotating or reversely rotates, and after the first mounting plate 2 and the second mounting plate 21 are placed on the outer side of the beam column reinforcing steel bar and clamped together, the abutting block 143 is contacted with the cement column below the beam column reinforcing steel bar, so that the U-shaped beam column template and the square beam column are aligned with the beam column reinforcing steel bar in the middle.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A beam column template auxiliary connecting device for a building comprises a bottom plate (1), a first mounting plate (2), a second mounting plate (21), guide sleeves (3), sliding blocks (4), a shaft lever (5), swing frames (6), baffle plates (7) and a base plate (8), wherein the number of the bottom plate (1) is two, the top of the right bottom plate (1) is connected with the first mounting plate (2), the top of the left bottom plate (1) is connected with the second mounting plate (21), the second mounting plate (21) is clamped with the first mounting plate (2), the tops of the first mounting plate (2) and the second mounting plate (21) are symmetrically connected with the guide sleeves (3) from front to back, the sliding blocks (4) are connected in four guide sleeves (3) in a sliding manner, the shaft lever (5) is rotatably connected between the two corresponding sliding blocks (4) from front to back, the middle of the shaft lever (5) is connected with the swing frame (6), the inner side surfaces of the two swing frames (6) are connected with the baffle plates (7), the top of each of the two swing frames (6) is evenly connected with three base plates (8) at intervals, and the swing frame is characterized by further comprising an adsorption component (9) and an air pushing component (10), wherein the adsorption component (9) is arranged on each swing frame (6), and the air pushing component (10) is arranged on each adsorption component (9).

2. The auxiliary connecting equipment for the beam column templates for the buildings as claimed in claim 1, wherein the adsorption component (9) comprises connecting plates (91), connecting pipes (92) and vacuum chucks (93), the connecting plates (91) are symmetrically connected in the two swing frames (6) left and right, the connecting pipes (92) are connected on the four connecting plates (91), the vacuum chucks (93) are connected at the tops of the four connecting pipes (92), and the vacuum chucks (93) are used for adsorbing the beam column templates and preventing the beam column templates from falling off the base plate (8).

3. The auxiliary connecting device for the beam column template for the building as recited in claim 2, wherein the air pushing assembly (10) comprises a sliding rod (101) and a piston (102), the sliding rod (101) is connected between two adjacent connecting pipes (92) in a sliding manner, the pistons (102) are connected to the rear ends of the sliding rods (101) in a bilateral symmetry manner, and the pistons (102) are located in the connecting pipes (92).

4. The auxiliary connecting equipment for the beam column template for the building as claimed in claim 3, further comprising a lifting component (11), wherein the lifting component (11) is arranged between the first mounting plate (2) and the shaft lever (5), the lifting component (11) comprises a guide rail (111), a cylinder (112), a sliding plate (113), a wheel disc (114), a first connecting rod (115), a torsion spring (116), an extension spring (117), a connecting block (118), a threaded rod (119), a nut (1191) and a second connecting rod (1192), the guide rail (111) is connected to the left front side of the top of the first mounting plate (2), the sliding plate (113) is connected to the left front side of the top of the first mounting plate (2) in a left-right sliding manner, the cylinder (112) is installed to the left front side of the top of the first mounting plate (2), the cylinder (112) is located to the front side of the guide rail (111), the wheel discs (114) are connected to the front sides of the two shaft levers (5), the front side of two axostylus axostyles (5) all overlaps there are torsion spring (116), torsion spring (116) one end is connected with rim plate (114) trailing flank, the torsion spring (116) other end is connected with leading flank slider (4), all articulated being connected with first connecting rod (115) on the eccentric position of two rim plate (114) leading flanks, first connecting rod (115) are articulated with adjacent slide (113) and are connected, be connected with connecting block (118) on the telescopic link of cylinder (112), threaded rod (119) have been placed in connecting block (118), threaded rod (119) front side is connected with nut (1191) through threaded connection's mode, symmetrical cover has second connecting rod (1192) around threaded rod (119) rear side, second connecting rod (1192) are articulated with adjacent slide (113) and are connected, all be connected with extension spring (117) between four slider (4) and four guide pin bushing (3).

5. The auxiliary connecting device for the beam column template for the building as claimed in claim 4, further comprising a limiting component (12), wherein the limiting components (12) are respectively arranged on the first mounting plate (2) and the second mounting plate (21), the limiting component (12) comprises a mounting frame (121), a sliding frame (122), a bidirectional screw (123), a limiting plate (124) and a first knob (125), the mounting frame (121) is respectively connected to the first mounting plate (2) and the second mounting plate (21), the mounting frame (121) is located at the outer side of the guide sleeve (3), the bidirectional screw (123) is rotatably connected to the two mounting frames (121), the sliding frame (122) is symmetrically connected to the two bidirectional screw (123) in a front-back manner through threads, the sliding frame (122) is slidably connected to the mounting frame (121), and the limiting plates (124) are respectively connected to the tops of the four sliding frames (122), the front ends of the two bidirectional screw rods (123) are connected with a first knob (125).

6. The auxiliary connecting equipment for the beam-column formworks for the buildings as claimed in claim 5, further comprising an air discharging assembly (13), wherein the air discharging assembly (13) is arranged between the sliding rods (101), the first mounting plate (2) and the second mounting plate (21), the air discharging assembly (13) comprises connecting rods (131), fixing plates (132) and wedge blocks (133), the connecting rods (131) are connected to the front sides of the two sliding rods (101), the fixing plates (132) are connected to the left front side of the top of the first mounting plate (2) and the right front side of the top of the second mounting plate (21), the fixing plates (132) are located on the front sides of the guide rails (111), the wedge blocks (133) are connected to the upper portions of the fixing plates (132), and the connecting rods (131) can be in contact with the wedge blocks (133) in a moving mode.

7. The auxiliary connecting device for the beam-column template for the building as claimed in claim 6, further comprising a supporting component (14), wherein the supporting component (14) is arranged at the bottom of each of the first mounting plate (2) and the second mounting plate (21), each supporting component (14) comprises an internal thread sleeve (141), a screw rod (142), a supporting block (143) and a second knob (144), the left front side of the bottom of the first mounting plate (2) and the right side of the bottom of the second mounting plate (21) are both connected with the internal thread sleeves (141), the two internal thread sleeves (141) are both connected with the screw rods (142) in a threaded connection mode, the inner ends of the two screw rods (142) are both connected with the supporting block (143), the outer ends of the two screw rods (142) are both connected with the second knob (144), and the second knob (144) on the left side passes through the second mounting plate (21).

8. The auxiliary connecting device for the beam-column formworks for the buildings as claimed in claim 7, wherein the inner side surface of the limiting plate (124) is an inclined surface, so that the beam-column formworks can be placed conveniently.

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