CN112012488A - Template combination - Google Patents

Abstract

A template combination comprises a first template, a second template and a pair of pulling components, wherein the first template and the second template are arranged at intervals. The split component comprises a screw, a nut and at least one baffle, the screw comprises a first end portion and a second end portion opposite to the first end portion, the nut is used for being sleeved on the first end portion, the second end portion is provided with a groove, the baffle is rotatably contained in the groove, and the baffle comprises a first position and a second position. When the blocking piece is located at the first position, the blocking piece is located in the open slot, so that the second end portion can penetrate through the first template and the second template. When the separation blade is at the second position, the separation blade is partially positioned outside the slot, the separation blade is used for abutting against the surface of the second template, and the nut is used for abutting against the surface of the first template. The template combination provided by the invention can realize high installation efficiency, and simultaneously saves the using amount of nuts and the material cost.

Description

Template combination

Technical Field

The invention relates to a template combination.

Background

For the aluminum template of the screw system, the wall-through screw provides necessary lateral tensile resistance for the aluminum template, the wall-through screw mainly comprises a screw main body and two nut pieces matched with the screw main body, the screw main body is provided with external threads, the nut pieces are provided with internal threads matched with the external threads, when the wall-through screw is used, the screw main body penetrates through the two aluminum templates which are oppositely arranged, and the two nut pieces are respectively sleeved in from two ends of the screw main body until the two nut pieces are abutted against the aluminum templates.

In the prior art, the external thread is fully distributed in the axial direction of the screw body, and the aluminum templates which are arranged oppositely can be locked by using two nuts, so that the production cost is high and the installation efficiency is low.

Disclosure of Invention

The invention aims to provide a template combination which is low in production cost and high in installation efficiency.

A template combination comprises a first template, a second template and a pair of pulling components, wherein the first template and the second template are arranged at intervals.

The split component comprises a screw, a nut and at least one blocking piece, the screw comprises a first end portion and a second end portion opposite to the first end portion, the nut is used for being sleeved on the first end portion, the second end portion is provided with an opening groove, the blocking piece is rotatably contained in the opening groove, and the blocking piece comprises a first position and a second position.

When the blocking piece is located at the first position, the blocking piece is located in the open groove, so that the second end portion can penetrate through the first template and the second template.

When the blocking piece is located at the second position, the blocking piece is partially located outside the open slot, the blocking piece is used for abutting against the surface of the second template, and the nut is used for abutting against the surface of the first template.

Further, the screw rod comprises a central shaft direction, the direction perpendicular to the central shaft direction is defined to be a first direction, the slot penetrates through the screw rod along the first direction, the second end portion is further provided with a pin hole and a pin, the pin hole is communicated with the slot, the blocking piece is provided with a through hole, and the pin penetrates through the pin hole and the through hole to enable the blocking piece to rotate around the pin.

Further, the through hole is deviated from the center of gravity position of the baffle plate.

Further, the blocking piece comprises an inclined plane, the slot comprises a side wall, when the blocking piece is located at the first position, the inclined plane is arranged towards the side wall, and the side wall is used for blocking the blocking piece to rotate along the preset direction through the inclined plane.

Further, the second end portion further comprises an end face opposite to the side wall, and the slot extends from the side wall to the end face.

Further, the screw rod comprises a central shaft direction, the direction perpendicular to the central shaft direction is defined as a first direction, the slot is formed along the first direction and does not penetrate through the screw rod in the first direction, the second end portion further comprises a pin hole and a pin, the pin hole is communicated with the slot, the blocking piece is provided with a through hole, and the pin penetrates through the pin hole and the through hole, so that the blocking piece can rotate around the pin.

Furthermore, the inner wall of the slot protrudes to form at least one blocking part, the blocking piece comprises a tip part, a tail part opposite to the tip part and a wedge surface connected with the tip part and the tail part, the through hole is formed in the tip part, the blocking part is arranged in the area adjacent to the through hole, when the blocking piece is located at the second position, the wedge surface is abutted to the blocking part, and the blocking part is used for blocking the blocking piece to rotate along the preset direction.

Furthermore, the number of the blocking parts is two, the number of the blocking pieces is two, and an elastic piece is further arranged between the blocking pieces.

The pin penetrates through the through hole of each separation blade to fix the two separation blades in the slot in a rotatable mode, when the separation blades are located at the first position, the elastic piece is in a compression state and used for pushing the tail portions of the two separation blades open so that the separation blades are switched to the second position, and when the separation blades are located at the second position, the wedge surfaces of the two separation blades respectively abut against the two blocking portions.

Further, the outer surface of the first end portion is provided with an external thread, the nut comprises a nut body and rotating handles arranged at two ends of the nut body, the rotating handles face the same side of the nut body, a nut hole is formed in the middle of the nut body, an internal thread is formed in the inner wall of the nut hole, and the external thread is matched with the internal thread.

Further, the material of split component is steel.

According to the template combination provided by the invention, the locking is realized through the counter-pull assembly, meanwhile, the open slot is formed in one end of the screw rod of the counter-pull assembly, and the blocking piece is rotatably accommodated in the open slot, so that the high installation efficiency can be realized, the using amount of nuts is saved, and the material cost can be saved.

Drawings

Fig. 1 is an overall schematic view of a counter pulling assembly according to a first embodiment of the present invention.

Fig. 2 is a partially exploded view of the counter-pull assembly shown in fig. 1.

Fig. 3 is a schematic view of the flap of the counter pull assembly of fig. 1 in a first position.

Fig. 4 is a schematic view of the flap of the counter-pull assembly of fig. 1 in a second position.

Fig. 5 is a schematic partial structural view of a counter pulling assembly according to a second embodiment of the present invention.

Fig. 6 is a schematic partial structural view of a counter pulling assembly according to a third embodiment of the present invention.

Fig. 7 is a combination of templates provided by an embodiment of the present invention.

Description of the main elements

Pull-up assembly 100 tail 34

Wedge surface 35 of screw 10

First end portion 11 resilient member 36

External thread 111 washer 40

Second end 12 opening 41

Slotted 121 template assembly 400

Sidewall 1211 first template 200

Pin hole 122 first fixing hole 201

Pin 123 second template 300

End face 124 second fixing hole 301

First position A of stop 125

Second position B of nut 20

Nut body 22 inside diameter R1

Outer diameter R2 of rotary handle 23

A central axis direction O of the baffle 30

The first direction P of the through-hole 31

Bevel 32 second direction Q

Tip 33 center of gravity W

The following detailed description of the invention will be further described in conjunction with the above description of the drawings.

Detailed Description

The technical scheme of the invention is clearly and completely described in the following by combining the drawings of the specific embodiment. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1 to 4 together, a first embodiment of the present invention provides a counter-pulling assembly 100, wherein the counter-pulling assembly 100 includes a screw 10, a nut 20 and at least one blocking plate 30. The screw 10 includes a first end portion 11 and a second end portion 12 opposite to the first end portion 11, and the nut 20 is sleeved on the first end portion 11. The second end portion 12 is provided with an open slot 121, and the blocking piece 30 is rotatably accommodated in the open slot 121. The blocking plate 30 includes a first position a and a second position B, when the blocking plate 30 is located at the first position a, the blocking plate 30 is located in the slot 121, and when the blocking plate 30 is located at the second position B, the blocking plate 30 is at least partially located outside the slot 121.

Referring to fig. 7, when the counter pull assembly 100 is used, a first mold plate 200 and a second mold plate 300 are prepared, the first mold plate 200 is provided with a first fixing hole 201, the second mold plate 300 is provided with a second fixing hole 301, and an inner diameter R1 of the first fixing hole 201 and/or the second fixing hole 301 is substantially the same as an outer diameter R2 of the screw 10. The first template 200 and the second template 300 are disposed opposite to each other such that the first fixing holes 201 and the second fixing holes 301 are opposite to each other.

Then, the blocking piece 30 of the counter-pulling assembly 100 is set at the first position a, and the second end portion 12 is inserted through the first fixing hole 201 and the second fixing hole 301 until the slot 121 completely protrudes out of the second fixing hole 301 and the first end portion 11 is exposed out of the first fixing hole 201.

Then, the blocking piece 30 is adjusted to the second position B, at this time, the blocking piece 30 is exposed out of the slot 121, and the exposed portion of the blocking piece 30 can be abutted against one side of the second template 300.

Finally, the nut 20 is screwed in from the first end portion 11 until the nut 20 abuts against the first mold plate 200, and the blocking piece 30 abuts against the second mold plate 300. The fastening of the first template 200 and the second template 300 by the counter-pulling assembly 100 is completed. By arranging the blocking piece 30 to be rotatably accommodated in the open slot 121, the blocking piece 30 can be abutted against one side of the second template 300, and compared with the prior art, one nut 20 can be saved in each counter-pulling assembly 100, which is beneficial to reducing the cost and improving the construction efficiency.

In this embodiment, the screw 10 includes a central axis direction O. A first direction P and a second direction Q are defined, the first direction P, the second direction Q and the central axis direction O are perpendicular to each other, the slot 121 penetrates through the screw 10 along the first direction P, the second end portion 12 further includes a pin hole 122 and a pin 123, the pin hole 122 penetrates through the second end portion 12 along the second direction Q, the pin hole 122 is communicated with the slot 121, the blocking piece 30 includes a through hole 31 corresponding to the pin hole 122, and the pin 123 penetrates through the pin hole 122 and the through hole 31, so that the blocking piece 30 is rotatably accommodated in the slot 121 around the pin 123.

In this embodiment, the through hole 31 is offset from the center of gravity of the blocking sheet 30, so that the blocking sheet 30 can easily rotate around the pin 123 under the action of gravity, thereby facilitating the shifting of the blocking sheet 30 from the first position a to the second position B.

In this embodiment, the blocking plate 30 includes a slope 32 facing away from the pin hole 122, the slot 121 includes a sidewall 1211, the slope 32 is disposed toward the sidewall 1211, the sidewall 1211 blocks the slope 32 when the blocking plate 30 is in the first position a, and the sidewall 1211 is used for blocking the blocking plate 30 from rotating in the predetermined direction by the slope 32.

In a specific use, during installation, the blocking plate 30 may be first adjusted to be in the first position a, then the orientation of the screw 10 is adjusted, so that the inclined surface 32 abuts against the sidewall 1211 under the action of gravity, then the second end portion 12 passes through the first fixing hole 201 and the second fixing hole 301, and then the orientation of the screw 10 is adjusted again (for example, the screw 10 is rotated 180 ° around the central axis direction O), so that the blocking plate 30 rotates around the pin 123 under the action of gravity and is exposed to the slot 121. Then, the second end portion 12 is slightly pulled back, the blocking piece 30 can abut against one side of the second mold plate 300, and finally, the nut 20 is sleeved on the first end portion 11 until the nut 20 abuts against the first mold plate 200, so that the installation of the counter pull assembly 100 is completed.

During disassembly, the nut 20 is first removed, the second end 12 is then slightly pushed forward, so that the blocking piece 30 is away from the second template 300, the orientation of the screw 10 is rotated (for example, the screw 10 is rotated 180 ° around the central axis direction O), so that the blocking piece 30 is returned to the slot 121 again, and finally, the second end 12 is pulled back, so that the screw 10 exits from the first fixing hole 201 and the second fixing hole 301, so that the disassembly of the counter pull assembly 100 is completed. Compared with the prior art, the counter-pulling assembly 100 provided by the invention has the advantages that the through hole 31 is deviated from the gravity center W, and the side wall 1211 is used for resisting the inclined surface 32, so that a constructor can complete assembly and disassembly only on one side of the first template 200 (or the second template 300) without moving to and from the first template 200 side and the second template 300 side, and the construction efficiency is effectively improved.

In this embodiment, the second end portion 12 further includes an end surface 124, and the slot 121 extends along the central axis direction O and divides the end surface 124 into two parts. By extending the slot 121 to the end surface 124, the length of the screw 10 can be fully utilized, which is beneficial for connecting the first template 200 and the second template 300 which are far apart.

In this embodiment, the material of the counter pulling component 100 is at least one of steel, iron, copper and their alloys.

Referring to fig. 5, in the second embodiment of the present invention, the slot 121 does not penetrate through the screw 10, and the inner wall of the slot 121 protrudes to form at least one blocking portion 125, the through hole 31 is offset from the center of gravity W of the blocking plate 30, and the through hole 31 is disposed at an end of the blocking plate 30 away from the first end portion 11.

The blocking sheet 30 is substantially wedge-shaped, the blocking sheet 30 includes a tip portion 33, a tail portion 34 opposite to the tip portion 33, and a wedge surface 35 connecting the tip portion 33 and the tail portion 34, the through hole 31 is disposed in the vicinity of the tip portion 33, the blocking portion 125 is disposed in the vicinity of the through hole 31, the tail portion 34 is rotatably received in the slot 121, when the blocking sheet 30 is located at the first position a, the wedge surface 35 is received in the slot 121, and when the blocking sheet 30 is located at the second position B, the wedge surface 35 abuts against the blocking portion 125.

During specific installation, the second end portion 12 is directly inserted into the first fixing hole 201 of the first template 200, even if the second end portion 12 passes through the first fixing hole 201, the tail portion 34 is exposed to the slot 121 under the action of gravity, when the periphery of the first fixing hole 201 abuts against the wedge surface 35, the tail portion 34 can be slowly accommodated in the slot 121, the second end portion 12 can pass through the first fixing hole 201, and similarly, the second end portion 12 can also pass through the second fixing hole 301, and when the wedge surface 35 completely passes through the second fixing hole 301, the tail portion 34 is exposed to the slot 121 under the action of gravity. Then, by slightly pulling back the second end portion 12, the tail portion 34 can abut against one side of the second mold plate 300, and at this time, the wedge surface 35 abuts against the blocking portion 125, so that the tail portion 34 cannot rotate in a predetermined direction (for example, counterclockwise around the pin) under the abutment of the second mold plate 300. Finally, the nut 20 is sleeved on one side of the first end portion 11 until the nut 20 abuts against the first mold plate 200.

Referring to fig. 6, a third embodiment of the present invention is different from the second embodiment in that the slot 121 penetrates through the screw 10, two blocking portions 125 are formed by protruding the inner wall of the slot 121, the number of the blocking pieces 30 is two, and an elastic member 36 is further disposed between the two blocking pieces 30.

The two blocking plates 30 are stacked, the through holes 31 of each blocking plate 30 are oppositely arranged, the pin 123 passes through the two through holes 31 to rotatably fix the two blocking plates 30 in the slot 121, when the blocking plate 30 is located at the first position a, the elastic member 36 is in a compressed state, the elastic member 36 is used for expanding the tail portions 34 of the two blocking plates 30 so that the blocking plate 30 is located at the second position B, and when the blocking plate 30 is located at the second position B, the wedge surfaces 35 of the two blocking plates 30 can respectively abut against the two blocking portions 125, so that the tail portions 34 cannot rotate in a predetermined direction (for example, counterclockwise direction around the pin) under the abutting of the second template 300. By providing two blocking pieces 30 and providing an elastic member 36 between the two blocking pieces 30, the second end portion 12 can be abutted against the second template 300 through the two tail portions 34, so that the stress of the counter-pull assembly 100 is stabilized.

In this embodiment, the outer surface of the first end portion 11 is provided with an external thread 111, and the nut 20 comprises a nut hole (not shown) whose inner wall is provided with an internal thread (not shown), and the external thread 111 is matched with the internal thread, so that the nut 20 can be screwed into the first end portion 11.

In the present embodiment, the nut 20 is substantially in a shape of a Chinese character 'shan', the nut 20 includes a nut body 22 and rotation handles 23 disposed at both ends of the nut body 22, the rotation handles 23 are perpendicularly connected to both ends of the nut body 22, the rotation handles 23 face the same side of the nut body 22, and the nut hole is opened at a middle position of the nut body 22.

In this embodiment, the opposite-pulling assembly 100 further includes a spacer 40, the spacer 40 is substantially square, the spacer 40 includes an opening 41, the screw 10 can pass through the opening 41, one side of the nut body 22 abuts against one side of the spacer 40, and when the opposite-pulling assembly is used, one side of the spacer 40 away from the nut body 22 abuts against the first mold plate 200, so as to increase a force-bearing area and prevent the first mold plate 200 from being damaged.

Referring to fig. 7, an embodiment of the present invention provides a template assembly 400, where the template assembly 400 includes the first template 200, the second template 300 disposed at an interval from the first template 200, and the above-mentioned opposite-pulling assembly 100, the first template 200 is disposed with a plurality of first fixing holes 201, the second template 300 is disposed with a plurality of second fixing holes 301, the first fixing holes 201 and the second fixing holes 301 are disposed oppositely, the opposite-pulling assembly 100 passes through the first fixing holes 201 and the second fixing holes 301, the blocking plate 30 abuts against an adjacent area of the second fixing holes 301, and the nut 20 abuts against an adjacent area of the first fixing holes 201.

In addition, those skilled in the art should recognize that the foregoing embodiments are illustrative only, and not limiting, and that appropriate changes and modifications can be made without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A template combination is characterized by comprising a first template, a second template and a pair of pulling components, wherein the first template and the second template are arranged at intervals,

the counter-pulling component comprises a screw rod, a nut and at least one baffle piece, the screw rod comprises a first end part and a second end part opposite to the first end part, the nut is used for being sleeved on the first end part, the second end part is provided with a slot, the baffle piece is rotatably accommodated in the slot, the baffle piece comprises a first position and a second position,

when the blocking piece is positioned at the first position, the blocking piece is positioned in the open slot, so that the second end part can pass through the first template and the second template,

when the blocking piece is located at the second position, the blocking piece is partially located outside the open slot, the blocking piece is used for abutting against the surface of the second template, and the nut is used for abutting against the surface of the first template.

2. The template assembly according to claim 1, wherein said threaded rod includes a central axis defining a first direction perpendicular to said central axis, said slot extends through said threaded rod in said first direction, said second end further includes a pin hole and a pin, said pin hole is in communication with said slot, said blocking piece defines a through hole, said pin extends through said pin hole and said through hole, enabling said blocking piece to rotate about said pin.

3. The template assembly according to claim 2, wherein said through hole is offset from a center of gravity of said flap.

4. The template assembly of claim 2, wherein the flap includes a ramp and the slot includes a sidewall, the ramp being disposed toward the sidewall when the flap is in the first position, the sidewall being configured to block rotation of the flap in a predetermined direction by the ramp.

5. The template assembly according to claim 4, wherein said second end portion further includes an end surface disposed opposite said side wall, said slot extending from said side wall to said end surface.

6. The template assembly according to claim 1, wherein said threaded rod includes a central axis direction defining a first direction perpendicular to said central axis direction, said slot is open along said first direction and does not extend through said threaded rod in said first direction, said second end further includes a pin hole and a pin, said pin hole is in communication with said slot, said blocking piece has a through hole, said pin extends through said pin hole and said through hole, enabling said blocking piece to rotate about said pin.

7. The template assembly according to claim 6, wherein the inner wall of the slot is protruded to form at least one blocking portion, the blocking plate includes a tip portion, a tail portion opposite to the tip portion, and a wedge surface connecting the tip portion and the tail portion, the through hole is disposed at the tip portion, the blocking portion is disposed adjacent to the through hole, the wedge surface abuts against the blocking portion when the blocking plate is at the second position, and the blocking portion is used for blocking the blocking plate from rotating in a predetermined direction.

8. The template combination according to claim 7, wherein the number of the blocking portions is two, the number of the blocking pieces is two, and an elastic member is further disposed between the two blocking pieces,

the pin penetrates through the through hole of each separation blade to fix the two separation blades in the slot in a rotatable mode, when the separation blades are located at the first position, the elastic piece is in a compression state and used for pushing the tail portions of the two separation blades open so that the separation blades are switched to the second position, and when the separation blades are located at the second position, the wedge surfaces of the two separation blades respectively abut against the two blocking portions.

9. The template assembly according to claim 1, wherein the outer surface of the first end portion is provided with an external thread, the nut comprises a nut body and rotating handles arranged at two ends of the nut body, the rotating handles face the same side of the nut body, a nut hole is formed in the middle of the nut body, an internal thread is arranged on the inner wall of the nut hole, and the external thread is matched with the internal thread.

10. The formwork assembly defined in claim 1 wherein the counter-pull member is steel.

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