CN215482151U - Temporary road splicing template unit and device for prefabricated reinforced concrete construction - Google Patents

Abstract

The utility model relates to the technical field of temporary road templates, and particularly discloses a temporary road splicing template unit and a device for prefabricated reinforced concrete construction. The temporary road template device for the prefabricated reinforced concrete construction comprises the temporary road splicing template unit; the temporary road splicing template units are symmetrically arranged in two sets, and connecting plates are respectively arranged between the two sets of first splicing plates and between the two sets of second splicing plates; the connecting plate and the two temporary road splicing template units are enclosed to form a chamber for prefabricating the reinforced concrete. Compared with the prior art, the template units meeting the length requirement can be spliced according to the size of the prefabricated reinforced concrete, so that the prefabricated reinforced concrete modules can be aligned and fixed through the transmission device in the construction process.

Description

Temporary road splicing template unit and device for prefabricated reinforced concrete construction

Technical Field

The utility model relates to the technical field of temporary road templates, in particular to a temporary road splicing template unit and a device for prefabricated reinforced concrete construction.

Background

The road construction is a whole process of planning, designing, constructing, maintaining and managing work and an engineering entity engaged in the whole process by taking a road as an object, in the process of road construction, a temporary road template is often needed to be used for paving the prefabricated reinforced concrete modules, and the temporary road template plays a role in limiting, so that the prefabricated reinforced concrete modules can be paved in an aligned mode.

Along with the continuous use of interim road template in the precast reinforced concrete work progress, traditional interim road template structural design is simple, only is the platelike structure of metal material, and whole length is longer, and difficult alignment is fixed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a temporary road splicing template unit and a device for prefabricated reinforced concrete construction, which can effectively ensure that prefabricated reinforced concrete modules are laid in an aligned manner in the construction process.

The technical problem to be solved by the utility model is as follows:

on the one hand, the temporary road splicing template unit for the prefabricated reinforced concrete construction comprises at least two splicing plates which are spliced in sequence and a clamping mechanism which is arranged between every two adjacent splicing plates and is used for driving the splicing plates to be close to each other.

The splicing type prefabricated reinforced concrete formwork splicing device realizes the connection of the formworks in a splicing mode, when the prefabricated reinforced concrete formwork splicing device is used, the number of the splicing blocks can be adjusted according to the length of the prefabricated reinforced concrete, and then the adjustment of the relative positions of two adjacent splicing plates is realized through the clamping mechanism, so that the prefabricated reinforced concrete can be quickly aligned and fixed.

In some possible embodiments, in order to effectively realize the fixation of two adjacent splicing plates and the rapid alignment splicing fixation of prefabricated reinforced concrete, the two adjacent splicing plates comprise a first splicing plate and a second splicing plate; the clamping mechanism comprises a clamping device which is arranged on one side of the first splicing plate, close to the second splicing plate and used for fixing the two adjacent splicing plates, and a transmission device which is arranged on the second splicing plate and in transmission connection with the first splicing plate, wherein the transmission device is mainly used for realizing quick alignment, splicing and fixing of the prefabricated reinforced concrete.

In some possible embodiments, the transmission device includes a gear installed on one side of the second splice plate close to the first splice plate, a sliding plate engaged with the gear and slidably installed on the second splice plate, elastic components respectively connected with the sliding plate and the second splice plate, and a trigger plate arranged on one side of the first splice plate close to the second splice plate and engaged with the gear; one side of the second splicing plate, which is close to the first splicing plate, is respectively provided with a gear installation groove for installing a gear, a sliding plate groove which is communicated with the gear installation groove and is used for installing a sliding plate and an elastic component, and a trigger plate matching groove which is communicated with the gear installation groove and is matched with the trigger plate; the sliding plate groove and the trigger plate matching groove are arranged in parallel, and the gear mounting groove is located between the sliding plate groove and the trigger plate matching groove.

In some possible embodiments, in order to effectively realize the fixation of two adjacent splicing plates; the clamping device comprises an insertion block arranged on one side, close to the second splicing plate, of the first splicing plate, a slot arranged on the second splicing plate and matched with the insertion block for use, and a locking device arranged on the first splicing plate and used for locking the second splicing plate and the insertion block.

In some possible embodiments, the locking device includes a connecting plate disposed on the second splice plate, a second bolt in threaded connection with one end of the connecting plate close to the second splice plate, and a second threaded hole disposed on the second splice plate and used in cooperation with the second bolt; the second threaded hole is communicated with the slot, and the insertion block is provided with an insertion hole matched with the second bolt for use.

In some possible embodiments, in order to effectively connect the second bolt with the insert block, the two adjacent splicing blocks are fixed; the distance between the second threaded hole and one side, close to the first splicing plate, of the second splicing plate is equal to the distance between the jack and one side, close to the second splicing plate, of the first splicing plate.

In some possible embodiments, in order to avoid that the sliding plate extends out of the sliding plate groove and abuts against one side, close to the second splicing plate, of the first splicing plate in the using process of the sliding plate, so that two adjacent splicing plates cannot be fixed, a side groove is arranged on one side, close to the second splicing plate, of the first splicing plate, and the axis of the side groove is on the same straight line with the axis of the sliding plate groove.

In some possible embodiments, in order to avoid shaking and dislocation of two adjacent splicing plates caused by unfixed gear, a plurality of positioning holes are uniformly arranged on the side wall of the gear, and are arranged in a circular ring shape around the center of the gear; the second splice plate is provided with a limiting hole communicated with the gear mounting groove; the transmission device further comprises a first bolt which penetrates through the limiting hole and is matched with the positioning hole for use.

On the other hand, the temporary road splicing template device for the prefabricated reinforced concrete construction comprises the temporary road splicing template unit; the temporary road splicing template units are symmetrically arranged in two sets, and connecting plates are respectively arranged between the two sets of first splicing plates and between the two sets of second splicing plates; the connecting plate and the two temporary road splicing template units are enclosed to form a chamber for prefabricating reinforced concrete.

When the temporary road splicing formwork unit is used, the length of the temporary road splicing formwork unit is determined according to the length of the prefabricated reinforced concrete, then two sets of temporary road splicing formwork units are connected through two connecting plates, a cavity formed after connection is used for laying the prefabricated reinforced concrete, and after laying is completed, alignment and fixation are achieved through the clamping mechanism.

Compared with the prior art, the utility model has the beneficial effects that:

the temporary road template unit matched with the prefabricated reinforced concrete in size is obtained in a splicing mode, so that the temporary road template device can be matched with the prefabricated reinforced concrete in size;

the two adjacent splice plates can be effectively fixed through the clamping mechanism;

the utility model can effectively realize the alignment, splicing and fixing of the prefabricated reinforced concrete through the transmission device;

compared with the conventional temporary road template, the splice plate has short overall length and is convenient to carry;

the utility model has simple structure and strong practicability.

Drawings

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic view of the transmission of the present invention;

FIG. 4 is a schematic structural view of the first splice plate and the second splice plate when they are closed in the present invention;

wherein: 1. a second splice plate; 2. a first splice plate; 3. connecting plates; 4. inserting a block; 5. a trigger plate; 6. a jack; 7. a gear; 8. positioning holes; 9. a first bolt; 10. a slide plate; 11. an elastic component; 12. a side groove; 13. a second threaded hole; 14. A connecting plate; 15. and a second bolt.

Detailed Description

Reference herein to "first," "second," and similar words, does not denote any order, quantity, or importance, but rather are used to distinguish one element from another.

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

The utility model is further illustrated with reference to the following figures and examples.

The utility model is realized by the following technical scheme, as shown in figures 1-4,

on the one hand, the temporary road splicing template unit for the prefabricated reinforced concrete construction comprises at least two splicing plates which are spliced in sequence and a clamping mechanism which is arranged between every two adjacent splicing plates and is used for driving the splicing plates to be close to each other.

The splicing type prefabricated reinforced concrete formwork connecting device realizes the connection of the formworks in a splicing mode, when in use, the number of the splicing plates can be adjusted according to the length of the prefabricated reinforced concrete, and then the adjustment of the relative positions of two adjacent splicing plates is realized through the clamping mechanism, so that the prefabricated reinforced concrete can be quickly aligned and fixed.

The clamping mechanism is mainly used for realizing that two adjacent splicing plates are close to or far away from each other, so that the precast concrete can be quickly aligned and fixed, and the two adjacent splicing plates can be fixed.

In some possible embodiments, in order to effectively realize the fixation of two adjacent splice plates and the rapid alignment splicing fixation of prefabricated reinforced concrete, the two adjacent splice plates comprise a first splice plate 2 and a second splice plate 1; the clamping mechanism comprises a clamping device which is arranged on one side, close to the second splicing plate 1, of the first splicing plate 2 and is used for fixing the two adjacent splicing plates and a transmission device which is arranged on the second splicing plate 1 and is in transmission connection with the first splicing plate 2, and the transmission device is mainly used for realizing quick alignment, splicing and fixing of the prefabricated reinforced concrete.

For the clamping device, only after the positions of two adjacent splicing plates are adjusted in place through the transmission device, the two splicing plates can be fixed, for example, the first splicing plate 2 is provided with the connecting plate 14, and the second splicing plate 1 is provided with the pin hole; the in-place adjustment is realized by passing a pin through the connecting plate 14 and entering the pin hole, so that the first splicing plate 2 and the second splicing plate 1 are fixed.

In some possible embodiments, in order to reduce the manufacturing cost, the transmission device includes a gear 7 installed on one side of the second splice plate 1 close to the first splice plate 2, a sliding plate 10 engaged with the gear 7 and slidably installed on the second splice plate 1, an elastic component 11 respectively connected with the sliding plate 10 and the second splice plate 1, and a trigger plate 5 arranged on one side of the first splice plate 2 close to the second splice plate 1 and engaged with the gear 7; one side of the second splicing plate 1 close to the first splicing plate 2 is respectively provided with a gear installation groove for installing a gear 7, a sliding plate 10 groove communicated with the gear installation groove and used for installing a sliding plate 10 and an elastic component 11, and a trigger plate matching groove communicated with the gear installation groove and matched with the trigger plate 5; slide 10 groove and trigger plate cooperation groove parallel arrangement, the gear mounting groove is located between slide 10 groove and the trigger plate cooperation groove.

Referring to fig. 1, when the device is used, the first splicing plate 2 moves towards one side of the second splicing plate 1 to drive the gear 7 to rotate clockwise, the sliding plate 10 which is positioned at the bottom of the gear 7 and is meshed with the gear 7 moves towards one side close to the first splicing plate 2, meanwhile, the trigger plate 5 which is positioned above the gear 7 and is meshed with the gear 7 moves towards one side close to the second splicing plate 1, otherwise, the gear 7 rotates anticlockwise, and thus the two adjacent connecting plates can be separated from each other; thereby realizing the adjustment of the distance between two adjacent splice plates;

preferably, in some embodiments, referring to fig. 3, guide rails are disposed on both sides of the sliding plate 10, and guide grooves used in cooperation with the guide rails are disposed on the inner wall of the sliding plate 10.

The elastic member 11 may be a spring or a connecting piece having elasticity.

Preferably, in some embodiments, the elastic component 11 is a spring. When the spring is in an initial state, the second splice plate 1 and the first splice plate 2 are in a separated state, the first splice plate 2 moves towards one side of the second splice plate 1 to drive the gear 7 to rotate clockwise, the sliding plate 10 which is positioned at the bottom of the gear 7 and meshed with the gear 7 moves towards one side close to the first splice plate 2, in order to enable the connection to be more stable after the first splice plate 2 is connected to the second splice plate 1, the spring is connected at one end, far away from the first splice plate 2, of the sliding plate 10, when the gear 7 rotates clockwise, the sliding plate 10 drives the spring to change a stretching state from the initial state, and the trigger plate 5 moves towards one side close to the second splice plate 1 under the rotation of the gear 7; after the second splicing plate 1 is abutted to the first splicing plate 2, as shown in fig. 1, the spring is in a stretching state, and the spring always gives a leftward acting force to the gear 7 under the action of elastic force, so that the gear 7 obtains a leftward acting force, and the trigger plate 5 meshed with the gear 7 is always meshed with the gear 7; making the connection more secure.

In some possible embodiments, please refer to fig. 1, in order to effectively realize the fixation of two adjacent splice plates; the clamping device comprises an insertion block 4 arranged on one side, close to the second splicing plate 1, of the first splicing plate 2, a slot arranged on the second splicing plate 1 and matched with the insertion block 4 for use, and a locking device arranged on the first splicing plate 2 and used for locking the second splicing plate 1 and the insertion block 4.

Please refer to fig. 1 and 4; in fig. 1, a gap exists between two adjacent splice plates, and fig. 4 shows that no gap exists between two adjacent splice plates after adjustment by the transmission mechanism.

Under the drive of the gear 7, the insert block 4 arranged on one side of the first splice plate 2 close to the second splice plate 1 moves to one side of the second splice plate 1, and the insert block 4 enters the insert slot because the insert slot matched with the insert block 4 is arranged on the second splice plate 1; after the insertion blocks 4 completely enter the slots, no gap exists between two adjacent splicing plates; and then the inserting block 4 and the second splicing plate 1 are locked through a locking device, so that the fixation of two adjacent splicing plates is realized.

Preferably, the length of the slot along the moving direction of the insert block 4 is greater than or equal to the length of the insert block 4 along the moving direction; and further avoid the gap existing between two adjacent splice plates because the length of the slot is not enough.

In some possible embodiments, for better fixing of the insert block 4, please refer to fig. 1, the locking device includes a connecting plate 14 disposed on the second splicing plate 1, a second bolt 15 screwed with one end of the connecting plate 14 close to the second splicing plate 1, and a second threaded hole 13 disposed on the second splicing plate 1 and cooperating with the second bolt 15; the second threaded hole 13 is communicated with the slot, and the insertion block 4 is provided with an insertion hole 6 matched with the second bolt 15 for use.

In some possible embodiments, in order to be effective, the second bolt 15 can be effectively connected with the insert block 4, so as to fix two adjacent splice plates; the distance between the second threaded hole 13 and one side of the second splicing plate 1 close to the first splicing plate 2 is equal to the distance between the jack 6 and one side of the first splicing plate 2 close to the second splicing plate 1.

Preferably, the connecting plate 14 is hinged to the first splicing plate 2, a screw hole is formed in the other end of the connecting plate, the screw hole is coaxial with the jack 6, and when the insert block 4 moves in the slot and the second threaded hole 13 is coaxial with the jack 6, the second bolt 15 sequentially penetrates through the screw hole and the second threaded hole 13 and enters the jack 6, so that the first splicing plate 2 and the second splicing plate 1 are connected.

Preferably, the insertion hole 6 is a screw hole and matches with the second bolt 15.

In some possible embodiments, in order to prevent the sliding plate 10 from extending out of the sliding plate 10 slot to abut against one side of the first splice plate 2 close to the second splice plate 1 in the use process, so that two adjacent splice plates cannot be fixed, please refer to fig. 1, a side slot 12 is provided on one side of the first splice plate 2 close to the second splice plate 1, and an axis of the side slot 12 and an axis of the sliding plate 10 slot are on the same straight line.

Set up on first splice plate 2 and cooperate the side slot 12 that uses with slide 10, after slide 10 slot was stretched out to one side that slide 10 is close to first splice plate 2, owing to set up side slot 12, slide 10 will stretch into to side slot 12 in, avoided slide 10 and first splice plate 2 to contradict.

In some possible embodiments, in order to avoid the two adjacent splicing plates from shaking and dislocating due to the unfixed gear 7, referring to fig. 3, a plurality of positioning holes 8 are uniformly formed in the side wall of the gear 7, and the plurality of positioning holes 8 are arranged in a circular ring shape around the center of the gear 7; a limiting hole communicated with the gear mounting groove is formed in the second splicing plate 1; the transmission device also comprises a first bolt 9 which penetrates through the limiting hole and is matched with the positioning hole 8 for use.

After the positions of the first splicing plate 2 and the second splicing plate 1 are adjusted in place through the gear 7, the first bolt 9 penetrates through the limiting hole and enters one of the positioning holes 8 which are coaxial with the limiting hole, so that the gear 7 is relatively fixed and cannot shake; the phenomenon that two adjacent splicing plates are staggered due to the shaking of the gear 7 is avoided.

On the other hand, please refer to fig. 1-4; a temporary road splicing template device for prefabricated reinforced concrete construction comprises the temporary road splicing template unit; the temporary road splicing template units are symmetrically arranged in two sets, and connecting plates 3 are respectively arranged between the two sets of first splicing plates 2 and between the two sets of second splicing plates 1; the connecting plate 3 and the two temporary road splicing template units are enclosed to form a chamber for prefabricating reinforced concrete.

When the temporary road splicing formwork unit is used, the length of the temporary road splicing formwork unit is determined according to the length of the prefabricated reinforced concrete, then two sets of temporary road splicing formwork units are connected through the two connecting plates 3, a cavity formed after connection is used for laying the prefabricated reinforced concrete, and after laying is completed, alignment and fixation are achieved through the clamping mechanism.

Preferably, when the temporary road splicing template unit is formed by splicing two adjacent splicing plates, the connecting plate 3 is arranged on one side, far away from each other, of the two splicing plates;

referring to fig. 2, when the temporary road splicing formwork unit is formed by splicing three or adjacent splicing plates, the connecting plate 3 is arranged on the side where the two splicing plates at the head and the tail are far away from each other.

The foregoing detailed description of the embodiments of the present application has been presented, and specific examples have been applied in the present application to explain the principles and implementations of the present application, and the above description of the embodiments is only used to help understand the method and the core ideas of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (9)

1. The utility model provides a temporary road concatenation template unit for prefabricating reinforced concrete construction which characterized in that: the splicing plate clamping mechanism comprises at least two splicing plates which are sequentially spliced and a clamping mechanism which is arranged between two adjacent splicing plates and is used for driving the splicing plates to be close to each other.

2. A temporary road splice formwork unit for precast reinforced concrete construction according to claim 1, wherein: the two adjacent splice plates comprise a first splice plate and a second splice plate; the clamping mechanism comprises a clamping device arranged on one side, close to the second splicing plate, of the first splicing plate and a transmission device arranged on the second splicing plate and in transmission connection with the first splicing plate.

3. A temporary road splice formwork unit for precast reinforced concrete construction according to claim 2, wherein: the transmission device comprises a gear, a sliding plate, an elastic component and a trigger plate, wherein the gear is installed on one side, close to the first splicing plate, of the second splicing plate, the sliding plate is meshed with the gear and is installed on the second splicing plate in a sliding mode, the elastic component is respectively connected with the sliding plate and the second splicing plate, and the trigger plate is arranged on one side, close to the second splicing plate, of the first splicing plate and is meshed with the gear; one side of the second splicing plate, which is close to the first splicing plate, is respectively provided with a gear installation groove for installing the gear, a sliding plate groove which is communicated with the gear installation groove and is used for installing the sliding plate and the elastic component, and a trigger plate matching groove which is communicated with the gear installation groove and is matched with the trigger plate; the sliding plate groove and the trigger plate matching groove are arranged in parallel, and the gear mounting groove is located between the sliding plate groove and the trigger plate matching groove.

4. A temporary road splice formwork unit for precast reinforced concrete construction according to claim 3, wherein: the clamping device comprises an insertion block arranged on one side, close to the second splicing plate, of the first splicing plate, a slot arranged on the second splicing plate and matched with the insertion block for use, and a locking device arranged on the first splicing plate and used for locking the second splicing plate and the insertion block.

5. A temporary road splicing template unit for precast reinforced concrete construction according to claim 4, wherein: the locking device comprises a connecting plate arranged on the second splicing plate, a second bolt in threaded connection with one end, close to the second splicing plate, of the connecting plate, and a second threaded hole which is arranged on the second splicing plate and is matched with the second bolt for use; the second threaded hole is communicated with the slot, and the insert block is provided with a jack matched with the second bolt for use.

6. A temporary road splicing formwork unit for precast reinforced concrete construction according to claim 5, wherein: the distance between the second threaded hole and one side, close to the first splicing plate, of the second splicing plate is equal to the distance between the jack and one side, close to the second splicing plate, of the first splicing plate.

7. A temporary road splice formwork unit for precast reinforced concrete construction according to claim 6, wherein: and a side groove is formed in one side, close to the second splicing plate, of the first splicing plate, and the axis of the side groove and the axis of the sliding plate groove are on the same straight line.

8. A temporary road splice formwork unit for precast reinforced concrete construction according to claim 7, wherein: a plurality of positioning holes are uniformly formed in the side wall of the gear and are arranged in a circular ring shape around the circle center of the gear; the second splice plate is provided with a limiting hole communicated with the gear mounting groove; the transmission device further comprises a first bolt which penetrates through the limiting hole and is matched with the positioning hole for use.

9. The utility model provides a temporary road concatenation template device for prefabricating reinforced concrete construction which characterized in that: comprising the temporary road splice template unit of any of claims 2-8; the temporary road splicing template units are symmetrically arranged in two sets, and connecting plates are respectively arranged between the two sets of first splicing plates and between the two sets of second splicing plates; the connecting plate and the two temporary road splicing template units are enclosed to form a chamber for prefabricating reinforced concrete.

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