CN117211522A - Quick spliced aluminum alloy die carrier - Google Patents

Abstract

The invention discloses a rapid splicing aluminum alloy die carrier, which comprises a first die plate and a second die plate, wherein the side of the first die plate is connected with the side of the second die plate through a connecting part, limiting plates which are positioned on the side and have L-shaped cross sections are arranged on the outer sides of the first die plate and the second die plate, the connecting part comprises a base plate, a trigger tube, an arc-shaped pressing plate, a limiting pin shaft, an angle block, a clamping shaft and a blocking shaft, the middle part of the base plate is in sliding connection with the trigger tube, the two ends of the base plate are respectively hinged with the arc-shaped pressing plate which is symmetrical relative to the trigger tube, the free end of the arc-shaped pressing plate is in rotary connection with one end of the limiting pin shaft, and one end of the angle block is in axial elastic sliding fit with the trigger tube. According to the invention, the limiting plate, the trigger tube, the corner block, the arc-shaped pressing plate, the clamping shaft, the blocking shaft, the limiting pin, the through hole, the jack and the side hole are arranged, so that the die carrier has the advantages of rapid splicing and disassembly, the screwing operation is not needed during the splicing and the disassembly, and the labor intensity is low.

Description

Quick spliced aluminum alloy die carrier

Technical Field

The invention relates to the technical field of aluminum alloy die frames for concrete pouring, in particular to a rapid spliced aluminum alloy die frame.

Background

Before concrete pouring, an aluminum alloy die frame is required to be used for enclosing a pouring cavity, and then a supporting structure is used for fastening and supporting the aluminum alloy die frame. The aluminum alloy formwork is generally formed by splicing a plurality of unit plates (aluminum alloy templates) with the same specification or different specifications, the splicing mode of the aluminum alloy formwork mainly comprises vertical splicing and horizontal splicing, the specification of the aluminum alloy formwork is determined according to the specification of the poured concrete, and then the number of the spliced unit plates is determined according to the specification of the aluminum alloy formwork.

At present, a plurality of unit plates with the same specification or different specifications are spliced and combined by adopting a detachable connecting component, and the common detachable connecting component is usually a bolt or a clamping piece containing the bolt, wherein the splicing and fastening of the unit plates are basically realized through screwing operation; in general, under the connection of bolts, a plurality of unit plates with the same specification or different specifications are vertically fastened and spliced and are fastened and spliced on the same plane, but the connection mode has the following defects: 1. a large number of screwing structures (bolts) are adopted between the unit plates, a large number of screwing operations are needed during splicing, and the problems of high labor intensity and low splicing efficiency exist; 2. after the concrete is poured, when the aluminum alloy die carrier is required to be disassembled, the bolts are difficult to disassemble due to rust or covering of the concrete.

In view of the above, the invention provides a rapid splicing aluminum alloy die carrier.

Disclosure of Invention

The invention aims at: in order to solve the problems mentioned in the background art, a rapid splicing aluminum alloy die carrier is provided.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a quick concatenation aluminum alloy die carrier, includes template one and template two, template one's avris is connected through the avris of linking portion and template two, template one and template two's outside all is provided with and is located avris and cross section for the limiting plate of L type, linking portion includes base plate, trigger tube, arc clamp plate, spacing round pin axle, angle block, clamp shaft and keeps off the axle, the middle part and the trigger tube sliding connection of base plate, the both ends of base plate are articulated respectively have the arc clamp plate of relative trigger tube symmetry, the free end of arc clamp plate and the one end rotation of spacing round pin axle are connected, the one end and the trigger tube axial elasticity sliding fit of angle block, two angle faces and the spacing round pin axle grafting cooperation of this angle block, the clamp shaft sets up at the one end of trigger tube and be connected with on it with the outer arc wall cooperation of symmetric distribution's arc clamp plate the axle that keeps off, the inboard of limiting plate and spacing round pin axle are run through grafting cooperation.

As a further description of the above technical solution:

the free end of the arc-shaped pressing plate is provided with a rotating sleeve, the limiting pin shaft is conical, the large end of the limiting pin shaft is fixedly connected with the outer wall of the rotating sleeve, a row of through holes matched with the limiting pin shaft are formed in the limiting plate, and insertion holes matched with the limiting pin shaft are formed in the corner faces of the corner blocks.

As a further description of the above technical solution:

one end of the corner block is fixedly connected with a transmission shaft sleeved in the trigger pipe, and a supporting spring with one end propped against the free end of the transmission shaft is sleeved in the trigger pipe.

As a further description of the above technical solution:

one end fixedly connected with door type frame of triggering pipe, the open end and the clamp shaft connection of this door type frame, the waist shape spacing hole that cooperates the use with the clamp shaft has been run through on the angle block.

As a further description of the above technical solution:

the limiting guide holes are formed in the arc walls of the arc-shaped pressing plates, square sleeves positioned in the limiting guide holes are sleeved at the two ends of the clamping shafts, and two sides of each square sleeve are fixedly connected with one end of each blocking shaft.

As a further description of the above technical solution:

the clamping shaft is rotatably connected with the free end of the door-shaped frame, the clamping shaft is in screwing fit with the square sleeves at the two ends of the clamping shaft, and the internal threads of the square sleeves at the two ends of the clamping shaft are opposite in screwing direction.

As a further description of the above technical solution:

the limiting plate is provided with a row of side holes and a row of through holes which are distributed alternately, and the side holes and the limiting pin shaft are matched for use.

As a further description of the above technical solution:

one end of the arc-shaped pressing plate is fixedly provided with a hinge shaft which is rotationally connected with the base plate, the end part of the hinge shaft is fixedly connected with gears, and the gears on the arc-shaped pressing plate which are symmetrically distributed are in meshed fit.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. according to the invention, the first template and the second template can be quickly and vertically butted by arranging the corner blocks and the limiting pin shafts and arranging the limiting plates at the side sides of the first template and the second template, and the first template and the second template can be quickly and firmly spliced by arranging the trigger pipes, the symmetrically distributed arc-shaped pressing plates, the clamping shafts and the blocking shafts, so that compared with the prior art, the screwing operation is not needed, the labor intensity is greatly reduced, and the splicing speed of the aluminum alloy die carrier is improved.

2. According to the invention, the door-shaped frame is arranged, the angle block is positioned in the door-shaped frame, the door-shaped frame is connected with the clamping shaft, the door-shaped frame is conveniently pried outwards by using the crow bars on the outer wall, the effect of the two arc-shaped pressing plates on the extrusion force of the two limiting plates is rapidly removed, and the template I and the template II are rapidly detached.

3. According to the invention, the square sleeves close to the two ends are connected on the clamping shaft in a screwed mode, the baffle shaft is fixedly connected with the side walls of the square sleeves, the two arc-shaped pressing plates are adjusted in extrusion stroke and force, and the advantage of extrusion force adjustment is achieved.

4. According to the invention, the side hole positioned at one side of the through hole is arranged on the limiting plate, the through hole and the side hole are arranged at intervals, and the side hole is matched with the adjusting function of the square sleeve on the clamping shaft, so that the die plate I and the die plate II on the same plane can be quickly spliced and detached.

Drawings

Fig. 1 is a schematic structural view of a first template and a second template of a rapid splicing aluminum alloy die frame, which are vertically connected through a connecting part;

FIG. 2 is a front view of FIG. 1;

fig. 3 is a schematic view of a joint structure of a rapid splicing aluminum alloy mold frame according to the present invention;

FIG. 4 is a schematic illustration of the exploded view of FIG. 3;

FIG. 5 is a schematic view of the angle block and clamp shaft of FIG. 3 after explosive deployment;

fig. 6 is a schematic structural diagram of a first template and a second template of a rapid splicing aluminum alloy die frame, which are connected in the same plane through a connecting part;

fig. 7 is a schematic diagram of the first and second templates of fig. 6 after explosion deployment.

Legend description:

1. a first template; 2. a second template; 3. a joint portion; 31. a substrate; 32. a trigger tube; 321. a door-shaped frame; 33. an arc-shaped pressing plate; 331. a rotating sleeve; 332. limiting the guide hole; 333. a hinge shaft; 3331. a gear; 34. limiting pin shafts; 35. a corner block; 351. a jack; 352. waist-shaped limiting holes; 353. a transmission shaft; 36. a clamping shaft; 361. a square sleeve; 37. a blocking shaft; 4. a limiting plate; 41. a via hole; 42. a side hole; 5. and a support spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1-5, a rapid splicing aluminum alloy mold frame comprises a first template 1 and a second template 2, wherein the first template 1 and the second template 2 are made of aluminum alloy materials. The side of the first template 1 is connected with the side of the second template 2 through a connecting part 3, and the connecting part 3 is used for quickly and firmly connecting the first template 1 and the second template 2.

In this technical scheme, the outside of template one 1 and template two 2 all is provided with and is located the limiting plate 4 that the avris and cross section are L type, and the one end of limiting plate 4 is connected with the tip welding of template one 1 and template two 2 one side specifically, and the effect of linking portion 3 is with the quick fastening connection of limiting plate 4 on template one 1 and the template two 2.

The connecting part 3 comprises a base plate 31, a trigger tube 32, an arc-shaped pressing plate 33, a limiting pin 34, an angle block 35, a clamping shaft 36 and a blocking shaft 37. Wherein, the middle part of the base plate 31 is slidably connected with the trigger tube 32, specifically, a guiding hole slidably matched with the trigger tube 32 is provided in the middle part of the base plate 31. The two ends of the base plate 31 are respectively hinged with two symmetrical arc pressing plates 33 relative to the trigger tube 32, the number of the symmetrical arc pressing plates 33 is two, the intrados of the two arc pressing plates are opposite, the rotation action of the two arc pressing plates 33 is an opening and closing action, the trigger tube 32 is positioned between the two arc pressing plates 33 and serves as the symmetry axis of the two arc pressing plates 33, one end of the arc pressing plate 33 is fixedly provided with a hinge shaft 333 which is rotationally connected with the base plate 31, the end part of the hinge shaft 333 is fixedly connected with a gear 3331, and the gears 3331 on the symmetrically distributed arc pressing plates 33 are in meshed fit.

The free end of the arc-shaped pressing plate 33 is rotationally connected with one end of the limiting pin shaft 34, wherein the arc-shaped pressing plate 33 is parallel to the limiting pin shaft 34 and the rotation axis of the base plate 31, and the specific rotation connecting structure is that a rotating sleeve 331 is arranged at the free end of the arc-shaped pressing plate 33, a rubber sleeve for increasing rotation resistance is arranged between the rotating sleeve 331 and the arc-shaped pressing plate 33, and the limiting pin shaft 34 is conical and the large end of the limiting pin shaft 34 is fixedly connected with the outer wall of the rotating sleeve 331.

One end of the angle block 35 is axially and elastically matched with the trigger tube 32 in a sliding manner, specifically, one end of the angle block 35 is fixedly connected with a transmission shaft 353 sleeved in the trigger tube 32, and a supporting spring 5 with one end propped against the free end of the transmission shaft 353 is sleeved in the trigger tube 32. The other end of the corner block 35 is provided with two vertical chamfer faces, the two corner faces of the corner block 35 are in plug-in fit with the limiting pin shaft 34, when the first template 1 and the second template 2 are vertically spliced, the two corner faces on the corner block 35 respectively prop against the outer sides of the limiting plates 4 on the first template 1 and the second template 2, and the plug-in fit concrete implementation structure of the corner faces and the limiting pin shaft 34 is that a jack 351 matched with the limiting pin shaft 34 is formed in the corner faces of the corner block 35, that is to say, the jack 351 is conical, and therefore when the two arc pressing plates 33 are in closed movement, the small end of the limiting pin shaft 34 corresponding to each arc pressing plate 33 can be inserted into the jack 351. The inner side of the limiting plate 4 is in penetrating and inserting fit with the limiting pin shaft 34, specifically, a row of through holes 41 matched with the limiting pin shaft 34 are formed in the limiting plate 4, the through holes 41 are conical, and when the first template 1 and the second template 2 are vertically connected, the limiting pin shaft 34 passes through the through holes 41, and at the moment, the first template 1 and the second template 2 are in a connection non-fastening state.

It should be noted that the function of the conical shape of the limiting pin 34 is to facilitate the movement of the limiting pin along with the arc-shaped pressing plate 33, and then the limiting pin can pass through the through hole 41 and finally be inserted into the insertion hole 351.

The clamping shaft 36 is arranged at one end of the trigger tube 32 and is connected with a blocking shaft 37 matched with the outer arc wall of the symmetrically distributed arc-shaped pressing plate 33, wherein the specific connecting structure of the clamping shaft 36 and the trigger tube 32 is that one end of the trigger tube 32 is fixedly connected with a door-shaped frame 321, and the opening end of the door-shaped frame 321 is connected with the clamping shaft 36. The specific connection structure of the baffle shaft 37 and the clamping shaft 36 is that a limit guide hole 332 is formed in the arc wall of the arc-shaped pressing plate 33, square sleeves 361 positioned in the limit guide hole 332 are sleeved at two ends of the clamping shaft 36, two sides of each square sleeve 361 are fixedly connected with one end of the baffle shaft 37, and in the embodiment, the positions of the square sleeves 361 in the axial direction of the clamping shaft 36 are fixed. The corner block 35 is provided with a kidney-shaped limiting hole 352 in a penetrating manner, which is matched with the clamping shaft 36, and the kidney-shaped limiting hole 352 plays a role in limiting the clamping shaft 36. The axis of the blocking shaft 37 is perpendicular to the axis of the clamping shaft 36, and the axis of the clamping shaft 36 is perpendicular to the axis of the trigger tube 32. When the blocking shaft 37 passes over the highest point of the outer cambered surfaces of the two arc-shaped pressing plates 33 (under the action of friction force, the blocking shaft 37 is in an anti-loosening state) in the process of controlling the trigger tube 32 to axially move and the clamping shaft 36 to move towards the direction close to the limiting plate 4, the two arc-shaped pressing plates 33 are locked, and the first template 1 and the second template 2 are in a fastening connection state, so that vertical and rapid splicing of the first template 1 and the second template 2 is completed.

It should be noted that the axial motion of the trigger tube 32 is provided by a rubber hammer, that is, the outer end of the trigger tube 32 is knocked by the rubber hammer to realize the fastening connection of the first template 1 and the second template 2, so that the labor is saved.

When the die carrier is required to be disassembled after the concrete is hardened, one end of the crowbar is inserted between the angle block 35 and the door-shaped frame 321, then when the crowbar is pried outwards, the baffle shaft 37 on the clamping shaft 36 can clear the outer cambered surface separated from the arc-shaped pressing plate 33, and at the moment, the whole connecting part 3 can be directly fallen off, so that the quick-dismantling device has the advantage of quick dismantling.

Example 2

Referring to fig. 4, the difference from embodiment 1 is that the clamping shaft 36 is rotatably connected to the free end of the door-shaped frame 321, the clamping shaft 36 is rotatably engaged with the square sleeves 361 at both ends thereof, the screw threads in the square sleeves 361 at both ends of the clamping shaft 36 are rotated reversely, and when the clamping shaft 36 is rotated reversely, the square sleeves 361 at both ends thereof are moved synchronously and reversely, thereby changing the position of the square sleeves 361 on the clamping shaft 36, and the arrangement has the function of adjusting the clamping force of the blocking shaft 37 on the arc-shaped pressing plate 33.

Example 3

Referring to fig. 6 and 7, the difference from embodiment 2 is that the limiting plate 4 is provided with a row of side holes 42 and a row of through holes 41 alternately distributed, the side holes 42 and the limiting pins 34 are matched for use, the side holes 42 are also conical, and it should be noted that the axes of the limiting pins 34 respectively connected with the two arc-shaped pressing plates 33 are not in the same plane when they are in a non-parallel state, so that the setting is convenient for splicing the first template 1 and the second template 2 in the same plane, that is, when the first template 1 and the second template 2 are spliced in the same plane, the limiting pins 34 are sequentially inserted into the through holes 41 of the limiting plate 4 and the side holes 42 of the other limiting plate 4, and the position adjusting function of the square sleeve 361 and the clamping function of the two arc-shaped pressing plates 33 are matched, so that the first template 1 and the second template 2 are spliced in the same plane, and the splicing and the dismantling power are input by using the rubber hammer and the crow mentioned in the embodiment, so that the connecting part 3 has the advantages of fast splicing and dismantling the first template 2 in the same plane.

Working principle: the working principle is illustrated by taking vertical splicing and horizontal splicing as examples as follows:

1. and (3) vertical splicing: the template I and the template II 2 are vertically placed, the side sides of the template I and the template II are kept in a contact state, then the trigger tube 32 is held by hands, the corner faces on the corner blocks 35 are propped against the outer side walls of the two limiting plates 4, the supporting springs 5 are compressed, meanwhile, the limiting pin shafts 34 are rotated inwards to a proper position, the two arc-shaped pressing plates 33 are manually pressed, the limiting pin shafts 34 penetrate through the through holes 41 on the limiting plates 4 and then enter the insertion holes 351 on the corner blocks 35, then the trigger tube 32 is manually pressed, at the moment, the clamping shafts 36 drive the baffle shafts 37 to squeeze the outer arc surfaces of the arc-shaped pressing plates 33, the rubber hammer is used for knocking the trigger tube 32, and knocking is stopped when the baffle shafts 37 pass through the highest points of the outer arc-shaped surfaces of the arc-shaped pressing plates 33, and the corner blocks 35, the limiting pin shafts 34 and the arc-shaped pressing plates 33 tightly splice the template I and the template II 2.

2. Splicing in the same plane: the first template 1 and the second template 2 are horizontally placed, the limiting plates 4 of the first template and the second template are propped against each other, then the clamping shaft 36 is manually rotated to control the two square sleeves 361 on the clamping shaft to approach each other, then the corner block 35 is propped against the short side surfaces of the two limiting plates 4 in a vertical splicing mode, then the limiting pin shaft 34 is sequentially inserted into the through hole 41 and the side hole 42, the other arc-shaped pressing plate 33 is controlled to clamp the two limiting plates 4, and at the moment, the limiting pin shaft 34 and the arc-shaped pressing plate 33 tightly splice the first template 1 and the second template 2.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (8)

1. The utility model provides a quick concatenation aluminum alloy die carrier, includes template one (1) and template two (2), the avris of template one (1) is connected through the avris of linking portion (3) and template two (2), a serial communication port, the outside of template one (1) and template two (2) all is provided with and is located avris and cross section is limiting plate (4) of L type, linking portion (3) include base plate (31), trigger pipe (32), arc clamp plate (33), spacing round pin axle (34), angle block (35), clamp shaft (36) and fender axle (37), the middle part and the trigger pipe (32) sliding connection of base plate (31), the arc clamp plate (33) of relative trigger pipe (32) symmetry are articulated respectively at the both ends of base plate (31), the free end of arc clamp plate (33) and the one end rotation of spacing round pin axle (34) are connected, the one end and the spacing round pin axle (34) of spacing round pin axle (35) axial elasticity sliding fit, two angle faces and spacing round pin axle (34) cooperation of this angle block (35), clamp shaft (36) are provided with on the arc clamp plate (32) and the arc clamp plate (32) of the symmetry that is connected with on the arc clamp shaft (32) and the arc clamp shaft (32) is connected, the inner side of the limiting plate (4) is in penetrating and inserting fit with the limiting pin shaft (34).

2. The rapid splicing aluminum alloy die carrier according to claim 1, wherein a rotating sleeve (331) is arranged at the free end of the arc-shaped pressing plate (33), the limiting pin shaft (34) is conical, the large end of the limiting pin shaft is fixedly connected with the outer wall of the rotating sleeve (331), a row of through holes (41) which are matched with the limiting pin shaft (34) are formed in the limiting plate (4), and insertion holes (351) which are matched with the limiting pin shaft (34) are formed in the corner faces of the corner blocks (35).

3. The rapid splicing aluminum alloy die carrier according to claim 2, wherein one end of the angle block (35) is fixedly connected with a transmission shaft (353) sleeved in the trigger tube (32), and a supporting spring (5) with one end propped against the free end of the transmission shaft (353) is sleeved in the trigger tube (32).

4. A rapid splicing aluminum alloy mould frame according to claim 3, wherein one end of the trigger tube (32) is fixedly connected with a gate-shaped frame (321), an opening end of the gate-shaped frame (321) is connected with a clamping shaft (36), and a kidney-shaped limiting hole (352) matched with the clamping shaft (36) is formed in the corner block (35) in a penetrating mode.

5. The rapid splicing aluminum alloy mold frame according to claim 4, wherein limiting guide holes (332) are formed in the arc walls of the arc-shaped pressing plates (33), square sleeves (361) located in the limiting guide holes (332) are sleeved at two ends of the clamping shaft (36), and two sides of the square sleeves (361) are fixedly connected with one end of the blocking shaft (37).

6. The rapid splicing aluminum alloy mold frame according to claim 5, wherein the clamping shaft (36) is rotatably connected with the free end of the gate-shaped frame (321), the clamping shaft (36) is in screwing fit with square sleeves (361) at two ends of the clamping shaft, and threads in the square sleeves (361) at two ends of the clamping shaft (36) are in opposite directions.

7. The rapid splicing aluminum alloy die carrier as recited in claim 6, wherein a row of side holes (42) and a row of through holes (41) are formed in the limiting plate (4), and the side holes (42) and the limiting pin shafts (34) are matched for use.

8. The rapid splicing aluminum alloy mold frame according to claim 1, wherein one end of the arc-shaped pressing plate (33) is fixedly provided with a hinge shaft (333) rotatably connected with the base plate (31), the end part of the hinge shaft (333) is fixedly connected with a gear (3331), and the gears (3331) on the arc-shaped pressing plate (33) which are symmetrically distributed are in meshed fit.