CN114961247B - Splicing device for connecting device and building template - Google Patents

Abstract

The invention relates to a splicing device, in particular to a splicing device for a connecting device and a building template. The technical problems of the invention are as follows: provided is a splice device for a building form and a connecting device capable of being clamped in a labor-saving manner and improving placement stability. The technical implementation scheme of the invention is as follows: the utility model provides a splicing apparatus of connecting device and building templates, including interior splint, external splint, bolt and nut etc. interior splint include two, are setting up from top to bottom, all are equipped with two bolts on the interior splint, and the slidingtype is equipped with external splint between the bolt on the same interior splint, and the equal screw thread formula is equipped with the nut on the bolt. According to the invention, the inner clamping plate is fixed through the sliding cylinder, and the sliding cylinder drives the sliding frame, so that the rotating plate rotates, and the outer clamping plate is pushed, so that the outer clamping plate and the inner clamping plate can be quickly attached, and the force required by a worker to rotate the nut is effectively reduced.

Description

Splicing device for connecting device and building template

Technical Field

The invention relates to a splicing device, in particular to a splicing device for a connecting device and a building template.

Background

In the process of building houses, construction staff generally adopts a cement pouring mode to perform construction, so that before cement pouring, building templates are required to be used for shaping treatment, and in the shaping process, the building templates are required to be spliced and combined.

The existing building template splicing device is characterized in that a worker generally fixes a clamp between two templates, and then clamps and fixes the templates through bolts and nuts, so that the splicing effect is achieved, but the clamping effect can be effectively guaranteed only by manually applying large force by the worker in the splicing mode. A joining device for connecting a connecting device to a building form, which can be clamped in a labor-saving manner and can be placed in a stable manner, has thus been developed.

Disclosure of Invention

In order to overcome the defect that the existing device can effectively ensure the clamping effect only by manually applying a large force by workers, the technical problem of the invention is as follows: provided is a splice device for a building form and a connecting device capable of being clamped in a labor-saving manner and improving placement stability.

The technical implementation scheme of the invention is as follows: the utility model provides a splicing apparatus of connecting device and building templates, including interior splint, outer splint, the bolt, the nut, fixed establishment, advancing mechanism and locking mechanism, interior splint include two, be the upper and lower setting, all be equipped with two bolts on the interior splint, sliding type is equipped with outer splint between the bolt on the same interior splint, all screw thread is equipped with the nut on the bolt, interior splint right side is equipped with the fixed establishment who is used for fixed interior splint position, be equipped with on the fixed establishment and carry out the advancing mechanism that presss from both sides interior splint and outer splint, be equipped with the locking mechanism that is used for carrying out the locking to fixed establishment in the fixed establishment.

Further, the fixed establishment is including a slip section of thick bamboo, a mounting section of thick bamboo, dead lever and first spring, and the interior splint right side all is equipped with a slip section of thick bamboo, and a slip section of thick bamboo is equipped with a mounting section of thick bamboo between the slip section of thick bamboo inboard, all is equipped with the dead lever that plays the guide effect to a slip section of thick bamboo in the mounting section of thick bamboo, and a slip section of thick bamboo all slides on the dead lever, all is equipped with first spring between a slip section of thick bamboo and the mounting section of thick bamboo.

Further, the propelling mechanism comprises a guide frame, a sliding frame, a rotating plate, a fixed shaft and a reset spring, wherein the left side of the sliding cylinder is provided with the guide frame, the sliding frame is arranged on the guide frame in a sliding mode, the reset spring is connected between the sliding frame and the guide frame, the front side of the inner clamping plate is provided with the fixed shaft, and the fixed shaft and the front side of the sliding frame are provided with the rotating plate capable of pushing the outer clamping plate in a rotating mode.

Further, the locking mechanism is including second fixed block, wedge, third spring and pulling frame, and slide a section of thick bamboo front side all is equipped with the second fixed block, and installation section of thick bamboo right side slidingtype is equipped with the pulling frame, and both ends all are equipped with the wedge about the pulling frame left side, all are equipped with the third spring between wedge and the installation section of thick bamboo.

Further, still including the clamping mechanism that can further make interior splint and outer splint press from both sides tight laminating, clamping mechanism is including fixed loop bar, the second spring, rotate fixture block and torsional spring, outer splint inboard all is equipped with fixed loop bar, all is equipped with the second spring between adjacent interior splint and the outer splint, and fixed loop bar right side all rotates to be equipped with rotates the fixture block, rotates the fixture block and is located interior splint inside and with interior splint sliding connection, rotates all is equipped with the torsional spring between fixture block and the fixed loop bar.

Further, the building template comprises a stabilizing mechanism which can enable the building template to be placed more stably, the stabilizing mechanism comprises a rotary drum, a rotary rod, a stabilizing block, a first clamping rod frame, a first fixing block, a first rotary plate and a second rotary plate, the front part of the sliding drum is provided with the rotary drum in a rotary way, the left side and the right side of the top of the rotary drum are provided with the rotary rods, all be equipped with the firm piece that is used for improving stability between the bull stick front side, the slip section of thick bamboo inboard all is equipped with first clamping rod frame, first clamping rod frame all with bull stick joint, slip section of thick bamboo front side all is equipped with first fixed block, all rotates in the firm piece and is equipped with first rotating plate, all rotates on the first rotating plate and is equipped with the second rotating plate.

Further, the multifunctional support mechanism comprises a support frame and a second clamping rod frame, the second clamping rod frames are arranged on the outer sides of the sliding cylinders, the support frame is arranged on the sliding cylinders in a rotary mode, and the support frame can be clamped with the second clamping rod frames.

Further, a rubber pad is arranged on the pulling frame.

The invention has the beneficial effects that: 1. according to the invention, the inner clamping plate is fixed through the sliding cylinder, and the sliding cylinder drives the sliding frame, so that the rotating plate rotates, and the outer clamping plate is pushed, so that the outer clamping plate and the inner clamping plate can be quickly attached, and the force required by a worker to rotate the nut is effectively reduced.

2. According to the invention, the second fixed block is locked through the wedge-shaped block, so that the sliding cylinder can be kept in a contracted state when not in use.

3. According to the invention, the contact area between the device and the ground is increased through the stabilizing block, so that the stability of the device in the use process is greatly improved.

4. According to the invention, the locking of the rotary clamping block and the inner clamping plate enables the outer clamping plate and the inner clamping plate to be attached more tightly, and the effect of further clamping and fixing the building template is achieved.

5. According to the invention, the support frame is rotated, so that the device can be effectively supported when the device is in a non-working state, and a worker can more conveniently control the sliding cylinder when the device is in a working state.

Drawings

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

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

Fig. 3 is a schematic perspective view of the fixing mechanism of the present invention.

Fig. 4 is a schematic perspective view of the propulsion mechanism of the present invention.

Fig. 5 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 6 is an enlarged perspective view of the portion a of the present invention.

Fig. 7 is a schematic perspective view of the stabilizing mechanism of the present invention.

Fig. 8 is a schematic cross-sectional perspective view of the stabilizing mechanism of the present invention.

Fig. 9 is a schematic perspective view of a locking mechanism according to the present invention.

Fig. 10 is an enlarged perspective view of the B part of the present invention.

Fig. 11 is a schematic perspective view of a multifunctional supporting mechanism according to the present invention.

Reference numerals: 1_inner clamping plate, 2_outer clamping plate, 3_bolt, 4_nut, 5_fixing mechanism, 51_sliding cylinder, 52_mounting cylinder, 53_fixing rod, 54_first spring, 6_fixing mechanism, 61_guiding frame, 62_sliding frame, 63_rotating plate, 64_fixing shaft, 65_return spring, 7_clamping mechanism, 71_fixing sleeve rod, 72_second spring, 73_rotating clamping block, 74_torsion spring, 8_fixing mechanism, 81_rotating cylinder, 82_rotating rod, 83_fixing block, 84_first clamping rod frame, 85_first fixing block, 86_first rotating plate, 87_second rotating plate, 9_locking mechanism, 91_second fixing block, 92_wedge block, 93_third spring, 94_pulling frame, 10_multifunctional supporting mechanism, 101_supporting frame, 102_second clamping rod frame.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Example 1

1-6, including interior splint 1, external splint 2, bolt 3, nut 4, fixed establishment 5, advancing mechanism 6 and locking mechanism 9, interior splint 1 includes two, is setting up from top to bottom, all welds two bolts 3 on the interior splint 1, sliding connection has external splint 2 between the bolt 3 on the same interior splint 1, all threaded connection has nut 4 on the bolt 3, interior splint 1 right side is equipped with fixed establishment 5 for fixed interior splint 1 position, is equipped with advancing mechanism 6 on the fixed establishment 5, can all press from both sides interior splint 1 and external splint 2 tight, is equipped with locking mechanism 9 in the fixed establishment 5, and locking mechanism 9 is used for carrying out the locking to fixed establishment 5.

As shown in fig. 1, 3, 4, 8, 9, 10 and 11, the fixing mechanism 5 includes a sliding cylinder 51, a mounting cylinder 52, a fixing rod 53 and a first spring 54, the sliding cylinder 51 is welded on the right side of the inner clamping plate 1, the mounting cylinder 52 is slidably connected between the inner sides of the sliding cylinder 51, the fixing rod 53 is welded in the mounting cylinder 52, the fixing rod 53 guides the sliding cylinder 51, the sliding cylinder 51 slides on the fixing rod 53, the first spring 54 is connected between the sliding cylinder 51 and the mounting cylinder 52, and the sliding cylinder 51 can perform a reset motion under the action of the first spring 54.

As shown in fig. 1 and 4, the pushing mechanism 6 includes a guide frame 61, a sliding frame 62, a rotating plate 63, a fixed shaft 64 and a return spring 65, the left side of the sliding cylinder 51 is welded with the guide frame 61, the sliding frame 61 is connected with the sliding frame 62 in a sliding manner, the sliding frame 62 and the guide frame 61 are connected with the return spring 65, the sliding frame 62 can perform a reset motion under the action of the return spring 65, the front side of the inner clamping plate 1 is welded with the fixed shaft 64, the front sides of the fixed shaft 64 and the sliding frame 62 are respectively connected with the rotating plate 63 in a rotating manner, and the rotating plate 63 can push the outer clamping plate 2.

As shown in fig. 1, 9 and 10, the locking mechanism 9 includes a second fixed block 91, a wedge block 92, a third spring 93 and a pulling frame 94, the second fixed block 91 is welded on the front side of the sliding cylinder 51, the pulling frame 94 is connected to the right side of the mounting cylinder 52 in a sliding manner, a rubber pad is arranged on the pulling frame 94 and used for preventing workers from being hurt when using the pulling frame, the wedge block 92 is connected to the upper and lower ends of the left side of the pulling frame 94, the third spring 93 is connected between the wedge block 92 and the mounting cylinder 52, and the wedge block 92 can reset under the action of the third spring 93.

When the building templates are required to be connected and assembled, the two building templates are spliced together, then the inner clamping plate 1 and the outer clamping plate 2 are clamped with the building templates, then the pulling frame 94 is pulled rightwards by a worker, so that the wedge blocks 92 slide rightwards, meanwhile, the third springs 93 are in a stressed and compressed state, the wedge blocks 92 do not limit the second fixing blocks 91 any more, in an initial state, the first springs 54 are in a stressed and compressed state, when the wedge blocks 92 do not limit the second fixing blocks 91 any more, under the action of the first springs 54, the sliding cylinders 51 slide outwards, when the sliding cylinders 51 are contacted with the inner walls of the building templates, the sliding frames 62 slide inwards, and the reset springs 65 are in a stressed and compressed state, so that the rotating plates 63 rotate, the rotating plates 63 are rotated to squeeze the outer clamping plates 2, so that the outer clamping plates 2 slide rightwards, at the moment, a worker can screw the nuts 4, so that the outer clamping plates 2 are attached to the inner clamping plates 1, and the two building templates are connected and assembled, when the two building templates are required to be detached, the worker firstly needs to rotationally unscrew the nuts 4, then slides the sliding cylinders 51 inwards to reset, so that the first springs 54 are in a stressed and compressed state, when the second fixing blocks 91 contact the wedge-shaped blocks 92, the second fixing blocks 91 squeeze the wedge-shaped blocks 92, so that the wedge-shaped blocks 92 slide rightwards, the third springs 93 are in a stressed and compressed state, so that the pulling frame 94 slides rightwards, and after the second fixing blocks 91 are reset, under the action of the third springs 93, the wedge blocks 92 slide to reset leftwards and limit and lock the second fixing blocks 91, when the sliding cylinders 51 slide inwards, the sliding frames 62 slide outwards and reset under the action of the reset springs 65, so that the rotating plates 63 rotate and reset, and at the moment, the outer clamping plates 2 can be pushed to reset leftwards, so that the outer clamping plates 2 and the inner clamping plates 1 are not clamped and connected with the building templates.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 5 and 6, the clamping mechanism 7 is further included, the inner clamping plate 1 and the outer clamping plate 2 can be further clamped and attached, the clamping mechanism 7 comprises a fixed sleeve rod 71, a second spring 72, a rotating clamping block 73 and a torsion spring 74, the inner side of the outer clamping plate 2 is welded with the fixed sleeve rod 71, the second springs 72 are connected between the adjacent inner clamping plate 1 and the outer clamping plate 2, the outer clamping plate 2 can slide and reset under the action of the second springs 72, the rotating clamping block 73 is rotationally connected to the right side of the fixed sleeve rod 71, the rotating clamping block 73 is located inside the inner clamping plate 1 and is in sliding connection with the inner clamping plate 1, the torsion spring 74 is connected between the rotating clamping block 73 and the fixed sleeve rod 71, and the rotating clamping block 73 can rotate and reset under the action of the torsion spring 74.

In the initial state, torsional spring 74 is in the stress, when outer splint 2 all slides to the right side under the effect of rotating plate 63, can drive fixed loop bar 71 all to the right side slip, thereby make rotation fixture block 73 all slide to the right, when rotation fixture block 73 all breaks away from the contact with interior splint 1, under the effect of torsional spring 74, rotation fixture block 73 all can rotate the reduction, and carry out the joint with interior splint 1 right side, after rotating plate 63 resets, the staff can all rotate rotation fixture block 73, make torsional spring 74 all atress deformation, all break away from the joint with interior splint 1 right side after rotating fixture block 73, under the effect of second spring 72, outer splint 2 all can slide the reduction to the left, make fixed loop bar 71 all slide the reduction to the left, thereby make rotation fixture block 73 all slide the reduction to the left.

As shown in fig. 1, fig. 7 and fig. 8, still including stabilizing mean 8, can make building templates more stable place, stabilizing mean 8 is including rotary drum 81, bull stick 82, firm piece 83, first clamping bar frame 84, first fixed block 85, first rotating plate 86 and second rotating plate 87, the equal rotation in slip section of thick bamboo 51 front portion is connected with rotary drum 81, rotary drum 81 top left and right sides all welds bull stick 82, all weld firm piece 83 between the bull stick 82 front side for improve stability, the inboard of slip section of thick bamboo 51 all welds first clamping bar frame 84, first clamping bar frame 84 all with bull stick 82 joint, the equal welding of slip section of thick bamboo 51 front side has first fixed block 85, all rotate in the firm piece 83 and be connected with first rotating plate 86, all rotate on the first rotating plate 86 and be connected with second rotating plate 87, second rotating plate 87 homoenergetic and first fixed block 85 joint are fixed.

After the building templates concatenation is accomplished, in order to improve the stability of placing of template group, the staff all overturns firm piece 83, make the bull stick 82 all rotate and break away from the joint with first bayonet catch 84, simultaneously under the drive of bull stick 82, rotary drum 81 all rotates, after firm piece 83 rotates to the horizontality, the staff needs all rotate first rotatory board 86 and pull up, afterwards all rotate second rotatory board 87, after second rotatory board 87 all rotates out, all carry out the joint with second rotatory board 87 and first fixed block 85 fixedly, thereby improve the atress stability of firm piece 83, make the building templates group can be stable place subaerial, when needs retrieve building templates group, first need make second rotatory board 87 all break away from the joint with first fixed block 85, afterwards rotate second rotatory board 87, make second rotatory board 87 all reset, then rotate first rotatory board 86, afterwards, the staff need rotate firm piece 83, drive down at firm piece 83 and carry out the joint with first bayonet catch and reset at this moment, all rotate the bull stick 82, all reset at this moment, the rotary drum 81 is carried out to the side under the drive of firm piece 83.

As shown in fig. 1 and 11, the multifunctional support mechanism 10 is further included, the multifunctional support mechanism 10 includes a support frame 101 and a second clamping rod frame 102, the second clamping rod frame 102 is welded on the outer side of the sliding cylinder 51, the support frame 101 is rotatably connected to the sliding cylinder 51, the support frame 101 not only can play a supporting role on the device when the device is not used, but also can effectively control the sliding cylinder 51 when the device is used, and the support frame 101 can be clamped with the second clamping rod frame 102.

When the device is in a non-use state, the support frames 101 are all in clamping connection with the second clamping rod frame 102 and play a supporting role on the device, at the moment, the device can be placed on the ground stably under the action of the support frames 101, when the device is required to be used, workers need to rotate the support frames 101 rightwards, so that the support frames 101 are all in clamping connection with the second clamping rod frame 102, when the support frames 101 are all rotated to the front side of the sliding cylinder 51, the support frames 101 do not play a supporting role any more, at the moment, the workers can carry out sliding control on the sliding cylinder 51 through the support frames 101, after the device is used, the workers need to rotate the support frames 101 leftwards to reset, and make the support frames 101 and the second clamping rod frame 102 to carry out clamping connection.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted equally without departing from the spirit and scope of the technical solution of the present invention.

Claims (5)

1. The utility model provides a splicing apparatus of connecting device and building templates, including interior splint (1), external splint (2), bolt (3) and nut (4), interior splint (1) are including two, are setting up from top to bottom, all are equipped with two bolts (3) on interior splint (1), and slidingtype between bolt (3) on same interior splint (1) is equipped with external splint (2), and equal screw thread is equipped with nut (4) on bolt (3), characterized by: the clamping device is characterized by further comprising a fixing mechanism (5), a pushing mechanism (6) and a locking mechanism (9), wherein the fixing mechanism (5) for fixing the position of the inner clamping plate (1) is arranged on the right side of the inner clamping plate (1), the pushing mechanism (6) capable of clamping both the inner clamping plate (1) and the outer clamping plate (2) is arranged on the fixing mechanism (5), and the locking mechanism (9) for locking the fixing mechanism (5) is arranged in the fixing mechanism (5);

the fixing mechanism (5) comprises a sliding cylinder (51), an installation cylinder (52), a fixing rod (53) and a first spring (54), wherein the sliding cylinder (51) is arranged on the right side of the inner clamping plate (1), the installation cylinder (52) is arranged between the inner sides of the sliding cylinders (51) in a sliding mode, the fixing rods (53) playing a role in guiding the sliding cylinders (51) are arranged in the installation cylinder (52), the sliding cylinders (51) slide on the fixing rods (53), and the first springs (54) are arranged between the sliding cylinders (51) and the installation cylinder (52);

the propelling mechanism (6) comprises a guide frame (61), a sliding frame (62), a rotating plate (63) and a fixed shaft (64), wherein the left side of the sliding cylinder (51) is provided with the guide frame (61), the sliding frame (62) is arranged on the guide frame (61) in a sliding mode, a return spring (65) is arranged between the sliding frame (62) and the guide frame (61), the fixed shaft (64) is arranged on the front side of the inner clamping plate (1), and the rotating plate (63) capable of pushing the outer clamping plate (2) is arranged on the front sides of the fixed shaft (64) and the sliding frame (62) in a rotating mode;

the locking mechanism (9) comprises a second fixed block (91), wedge blocks (92), a third spring (93) and a pulling frame (94), wherein the second fixed block (91) is arranged on the front side of the sliding cylinder (51), the pulling frame (94) is arranged on the right side of the mounting cylinder (52), the wedge blocks (92) are arranged at the upper end and the lower end of the left side of the pulling frame (94), and the third spring (93) is arranged between the wedge blocks (92) and the mounting cylinder (52);

when the building templates are required to be connected and assembled, firstly, the two building templates are spliced together, then the inner clamping plate (1) and the outer clamping plate (2) are clamped with the building templates, then the pulling frame (94) is pulled rightwards by a worker, so that the wedge blocks (92) slide rightwards, meanwhile, the third springs (93) are in stressed compression states, the wedge blocks (92) are not limited to the second fixing blocks (91) any more, in the initial state, the first springs (54) are in stressed compression states, when the wedge blocks (92) are not limited to the second fixing blocks (91), under the action of the first springs (54), the sliding cylinders (51) slide outwards, when the sliding cylinders (51) are contacted with the inner wall of the building templates, the sliding frames (62) slide inwards, the reset springs (65) are in stressed compression states, so that the rotating plates (63) rotate, the outer clamping plate (2) are extruded when the rotating plates (63) rotate, so that the outer clamping plates (2) can slide rightwards, the two building templates (4) can be screwed down, and the two building templates are required to be screwed down when the two building templates are required to be screwed down, and the two building templates are required to be screwed down, afterwards will slide a section of thick bamboo (51) all inwards sideslip and reset for first spring (54) all are in atress compression state, when second fixed block (91) all contact wedge (92), second fixed block (91) all can extrude wedge (92), thereby make wedge (92) all slide to the right side, third spring (93) all are in atress compression state, thereby make pulling frame (94) slide to the right side, after second fixed block (91) accomplish the reset, under the effect of third spring (93), wedge (92) all slide to reset and carry out spacing locking to second fixed block (91) to the left side, when sliding a section of thick bamboo (51) all slide to the inboard, under the effect of reset spring (65), sliding frame (62) all can slide to the outside and reset, thereby make rolling plate (63) all rotate and reset, can all push down outer splint (2) to the left side and reset, make outer (2) and inner splint (1) not press from both sides tight connection to the building template again.

2. A splice device for connecting a device to a building form as defined in claim 1, wherein: still including can further make interior splint (1) and outer splint (2) press from both sides clamping mechanism (7) of laminating tightly, clamping mechanism (7) are including fixed loop bar (71), second spring (72), rotate fixture block (73) and torsional spring (74), outer splint (2) inboard all is equipped with fixed loop bar (71), all be equipped with second spring (72) between adjacent interior splint (1) and outer splint (2), fixed loop bar (71) right side all rotates and is equipped with rotates fixture block (73), rotate fixture block (73) be located interior splint (1) inside and with interior splint (1) sliding connection, all be equipped with torsional spring (74) between rotation fixture block (73) and the fixed loop bar (71).

3. A splice device for connecting a device to a building form as defined in claim 2, wherein: still including stabilizing mean (8) that can make building templates can place more stably, stabilizing mean (8) are including rotary drum (81), bull stick (82), firm piece (83), first bayonet catch frame (84), first fixed block (85), first rotating plate (86) and second rotating plate (87), rotary drum (81) the front portion all rotates and is equipped with rotary drum (81), rotary drum (81) top left and right sides all is equipped with bull stick (82), all be equipped with between bull stick (82) the front side and be used for improving stable firm piece (83), sliding drum (51) inboard all is equipped with first bayonet catch frame (84), first bayonet catch frame (84) all with bull stick (82) joint, sliding drum (51) front side all is equipped with first fixed block (85), all rotate in the firm piece (83) and be equipped with first rotating plate (86), all rotate on first rotating plate (86) and be equipped with second rotating plate (87).

4. A splice device for connecting a device to a building form according to claim 3, wherein: still including multi-functional supporting mechanism (10), multi-functional supporting mechanism (10) are including support frame (101) and second clamping rod frame (102), and slide section of thick bamboo (51) outside all is equipped with second clamping rod frame (102), and slide section of thick bamboo (51) are gone up all to rotate and are equipped with support frame (101), and support frame (101) homoenergetic and second clamping rod frame (102) carry out the joint.

5. A splice device for connecting a device to a building form as defined in claim 1, wherein: a rubber pad is arranged on the pulling frame (94).

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