CN211229584U - Mounting tool - Google Patents

Abstract

The utility model discloses an installation tool, which comprises a tool main body and a handle arranged at the back side of the tool main body; the front side of the tool main body is provided with a containing groove, and the containing groove comprises two opposite groove walls; two sliding clamping blocks are arranged in the accommodating groove; the tool body is also provided with a clamping block driving mechanism for driving the two sliding clamping blocks to move towards the groove walls on the two sides respectively. The utility model discloses an installation tool drives the slip clamp splice through clamp splice actuating mechanism and removes for the side fossil fragments of every slip clamp splice and cell wall centre gripping partition wall module are installed, make things convenient for the equipment of partition wall module, have improved the efficiency of mating formation of partition wall module.

Description

Mounting tool

Technical Field

The utility model relates to a fitment technical field especially relates to an mounting tool for installing partition wall module.

Background

The light inner partition wall refers to a non-bearing light inner partition wall, and is generally divided into a framework partition wall, a plate partition wall, a building block partition wall and the like. The existing framework partition wall has the problems of complex installation, high site construction noise, poor heat insulation performance and the like, the block partition wall needs to be subjected to site wet operation and is not suitable for the partition wall in a high-rise civil residence, and the plate partition wall often has the problems of poor sound insulation effect, poor impact resistance, incapability of meeting the requirement of wiring inside the partition wall and the like.

The existing light partition wall is installed directionally, installation is carried out according to the directions of a male partition wall and a female partition wall, installation is carried out purely manually, auxiliary tools are not provided, and accordingly the construction speed cannot be increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mounting tool for installing partition wall module, its efficiency of construction that can improve the partition wall reduces the construction degree of difficulty, promotes construction quality.

The technical scheme of the utility model provides an installation tool, which comprises a tool main body and a handle arranged at the back side of the tool main body;

the front side of the tool main body is provided with a containing groove, and the containing groove comprises two opposite groove walls;

two sliding clamping blocks are arranged in the accommodating groove;

the tool body is also provided with a clamping block driving mechanism for driving the two sliding clamping blocks to move towards the groove walls on the two sides respectively.

Further, the clamp block driving mechanism comprises a clamp block guide member and a driving member for driving the clamp block guide member to move;

the clamping block guide component comprises two oppositely arranged guide rods;

the guide rods are slidably mounted on the tool main body and can slide towards the two groove walls respectively;

the two guide rods are respectively connected with the two sliding clamping blocks through connecting rods;

the driving mechanism comprises a driving block for driving the two guide rods to move towards the two groove walls and a trigger for driving the driving block to move linearly;

the trigger is installed on the handle through a trigger rotating shaft, and the driving block is assembled in the tool body in a sliding mode and can be contacted with and separated from the two guide rods.

Further, two first guide holes are oppositely arranged in the tool main body between the two groove walls, and the two first guide holes respectively extend from the middle part of the tool main body to the groove walls on two sides;

the two guide rods are correspondingly assembled in the two first guide holes and can slide in the first guide holes;

the hole wall of each first guide hole is provided with a hole wall opening part connected with the accommodating groove, and the two connecting rods respectively correspondingly penetrate through the two hole wall opening parts and can move in the hole wall opening parts;

and a guide rod resetting piece for driving the guide rod to reset is arranged in each first guide hole.

Further, a second guide hole perpendicular to the first guide hole is further provided in the tool body;

the two first guide holes are oppositely arranged at two sides of the second guide hole and are respectively communicated with the second guide hole;

the driving block is slidably arranged in the second guide hole, and a driving block inclined surface for driving the guide rod to move towards the groove wall is arranged on one side, facing the guide rod, of the driving block;

wherein, in the direction from the second guiding hole to the accommodating groove, the distance between the inclined surfaces of the two driving blocks is reduced.

Further, the drive block is hinged to the trigger.

Further, a trigger resetting piece for driving the trigger to reset is arranged between the handle and the trigger.

Further, an installation space is provided on a side of the handle facing the tool body;

the top of the trigger is arranged in the mounting space through the trigger rotating shaft;

the bottom of the trigger is provided with a pulling part which can extend out of the installation space, and the trigger resetting piece is connected between the pulling part and the handle.

Further, the top of the trigger has a raised tip that is articulated with the drive block.

Further, the sliding clamp block comprises a clamp block main body and a clamp block protruding part extending towards the groove wall, and the surface of the clamp block protruding part facing the groove wall is a plane.

Further, a sliding rail is arranged on the bottom of the accommodating groove, and the sliding clamping block is mounted on the sliding rail.

By adopting the technical scheme, the method has the following beneficial effects:

the utility model provides a mounting tool drives the slip clamp splice through clamp splice actuating mechanism and removes for the side fossil fragments of every slip clamp splice and cell wall centre gripping partition wall module are installed, make things convenient for the equipment of partition wall module, have improved the efficiency of mating formation of partition wall module.

Drawings

Fig. 1 is a side view of an installation tool according to an embodiment of the present invention;

fig. 2 is a top view of an installation tool according to an embodiment of the present invention;

FIG. 3 is a partial cross-sectional view of the installation tool shown in FIG. 2;

FIG. 4 is an exploded view of FIG. 3;

FIG. 5 is a cross-sectional view of the installation tool shown in FIG. 1;

FIG. 6 is a schematic view of an installation tool holding a partition module;

figure 7 is a schematic view of two partition wall modules being connected together by an installation tool.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1 to 5, an installation tool according to an embodiment of the present invention includes a tool body 1 and a handle 2 disposed on a back side of the tool body 1.

A receiving groove 11 is provided at the front side of the tool body 1, and the receiving groove 11 includes two groove walls 111 disposed oppositely. Two sliding clamping blocks 3 are arranged in the accommodating groove 11.

The tool body 1 is further provided with a block driving mechanism 4 for driving the two sliding blocks 3 to move toward the groove walls 111 on both sides.

As shown in fig. 6 to 7, when the partition wall module 5 is installed, the handle 2 is held by hand and the side keels 51 at both sides of the partition wall module 5 are respectively placed between the slide clamping blocks 3 and the groove walls 111. Then, the clamping block driving mechanism 4 is operated to drive the sliding clamping block 3 to move towards the side of the groove wall 111, so that the side keel 51 is clamped for subsequent installation, after the partition wall module 5 is installed, the clamping block driving mechanism 4 is operated to reset the sliding clamping block 3, then the next partition wall module 5 is clamped, and the sequential operation is carried out.

The utility model provides a clamp splice actuating mechanism 4 can be for can driving the drive component that slip clamp splice 3 can remove between two cell walls 111 wantonly, does benefit to guide bar subassembly, rack and pinion subassembly, sharp drive assembly etc..

Therefore, the utility model provides a mounting tool drives slip clamp splice 3 through clamp splice actuating mechanism 4 and removes for every slip clamp splice 3 and cell wall 111 centre gripping partition wall module 5's side fossil fragments 51 are installed, make things convenient for partition wall module 5's equipment, have improved partition wall module 5's the efficiency of mating formation.

Preferably, as shown in fig. 1 to 5, the block driving mechanism 4 includes a block guide member 41 and a driving member 42 for driving the block guide member 41 to move.

The block guide 41 includes two oppositely disposed guide rods 411.

The guide rods 411 are slidably mounted on the tool body 1 and can slide toward the two groove walls 111, respectively.

The two guide rods 411 are respectively connected with the two sliding clamping blocks 3 through connecting rods 412.

The driving mechanism 42 includes a driving block 422 for driving the two guide rods 411 to move toward the two slot walls 111 and a trigger 421 for driving the driving block 422 to move linearly.

The trigger 421 is mounted on the handle 2 through a trigger rotation shaft 4214, and the driving block 422 is slidably fitted in the tool body 1 and can be brought into contact with and separated from the two guide bars 411.

The trigger 421 can rotate around the trigger spindle 4214, when the trigger 421 is pulled, the trigger 421 drives the driving block 422 to move forward, the driving block 422 contacts with the guide rods 411 on both sides, so as to push the guide rods 411 to move towards the side of the slot wall 111, and meanwhile, the connecting rod 412 drives the sliding clamping block 3 to move towards the side of the slot wall 111, so as to realize the function of clamping the side keel. When the trigger 421 is released, the driving block 422 moves back linearly under the action of the trigger 421 and is separated from the guide rod 411, and the guide rod 411 drives the slider clamping block 3 to reset.

Preferably, as shown in fig. 3 to 4, two first guide holes 12 are oppositely provided in the tool body 1 between the two groove walls 111, and the two first guide holes 12 extend from the middle portion of the tool body 1 to the groove walls 111 on both sides, respectively.

The two guide rods 411 are fitted in the two first guide holes 12, respectively, and can slide in the first guide holes 12.

A hole wall opening portion 121 connected to the accommodating groove 11 is provided on a hole wall of each first guide hole 12, and the two connecting rods 412 respectively penetrate through the two hole wall opening portions 121 and can move in the hole wall opening portions 121.

A guide bar returning member 413 for returning the driving guide bar 411 is provided in each of the first guide holes 12.

The guide rod restoring member 413 may be a restoring member such as a spring, an elastic plate, or the like.

Two first guide holes 12 are located between the two groove walls 111, one of the first guide holes 12 extending from the middle of the housing groove 11 or the tool body 1 toward one of the groove walls 111, and the other of the first guide holes 12 extending from the middle of the housing groove 11 or the tool body 1 toward the other of the groove walls 111. Two first guide holes 12 are formed at both sides of the driving block 422, two guide rods 411 are respectively and correspondingly fitted in the two first guide holes 12, and a guide rod returning piece 413 for returning the guide rods 411 is provided in the first guide holes 12.

In the initial state, one end of the guide rod 411 is extended out of the first guide hole 12 by the guide rod restoring member 413, and after the driving block 422 is contacted with the extended end, the two guide rods 411 are respectively retracted into the first guide hole 12, that is, respectively move toward the two groove walls 111.

Each of the first guide holes 12 has a hole wall opening portion 121, the hole wall opening portion 121 communicates the first guide hole 12 with the accommodating groove 11, and the hole wall opening portion 121 is aligned with the extending direction of the first guide hole 12 and also extends from the middle of the accommodating groove 11 toward the groove wall 111. The connecting rod 412 passes through the hole wall opening 121 and can slide in the hole wall opening 121. Therefore, when the guide rod 411 is retracted into the first guide hole 12, the connecting rod 412 slides toward the groove wall 111 side in the hole wall opening 121, and further, the slide clamp block 3 is driven to move toward the groove wall 111 side, thereby achieving a clamping function.

The guide rod 411 and the first guide hole 12 may be connected by a guide rail.

Preferably, as shown in fig. 3 to 5, a second guide hole 13 perpendicular to the first guide hole 12 is further provided in the tool body 1.

The two first guide holes 12 are oppositely disposed at both sides of the second guide hole 13 and respectively penetrate the second guide hole 13.

The driving block 422 is slidably installed in the second guide hole 13, and a driving block inclined surface 4221 for driving the guide bar 411 to move toward the groove wall 111 is provided on a side of the driving block 422 facing the guide bar 411.

Wherein the distance between the two drive block ramps 4221 decreases in the direction from the second guide hole 13 to the receiving groove 11.

The first guide hole 12 extends in the left-right direction of the tool body, and the second guide hole 13 extends in the front-rear direction of the tool body, penetrates both front and rear sides of the tool body 1, and communicates with the receiving groove 11.

The two first guide holes 12 are respectively located at the left and right sides of the second guide hole 13 and are respectively communicated with the second guide hole 13.

The driving block 422 can be installed in the second guiding hole 13 through a sliding rail to realize front and back sliding.

The left side and the right side of the front end of the driving block 422 are respectively provided with a driving block inclined plane 4221, when the driving block 422 moves forwards under the action of a trigger, the driving block inclined plane 4221 is contacted with the end part of the guide rod 411, and then the guide rod 411 is pushed to retract into the first guide hole 12, so that the operation is convenient.

Preferably, as shown in fig. 5, the driving block 422 is hinged to the trigger 421, and the driving block 422 can rotate with respect to the trigger 421 while the trigger 421 rotates, thereby maintaining a linear movement to rapidly drive the guide bar 411.

Preferably, as shown in fig. 5, a trigger resetting member 4213 for resetting the trigger 421 is provided between the handle 2 and the trigger 421. The trigger resetting piece 4213 can be a resetting piece such as a spring, an elastic sheet and the like. After release of the trigger, the trigger 421 is reset by the trigger reset 4213.

Preferably, as shown in fig. 5, an installation space 21 is provided on the side of the handle 2 facing the tool body 1.

The top of the trigger 421 is installed in the installation space 21 by a trigger rotation shaft 4214.

The trigger 421 has a pulling portion 4211 at the bottom thereof capable of extending out of the installation space 21, and a trigger return member 4213 connected between the pulling portion 4211 and the handle 2.

The trigger 421 is pulled by moving the operation pulling portion 4211 toward the installation space 21. When the trigger is released, the pulling part 4211 is positioned outside the installation space 21 under the action of the trigger resetting piece 4213, so that the pulling operation is convenient.

Through setting up installation space, can reduce the structure size to can protect spare part, avoid wearing and tearing.

Preferably, as shown in fig. 5, the trigger 421 has a protruding tip 4212 at the top, the protruding tip 4212 is hinged to the driving block 422, and the rotation space of the tip 4212 is small, so that the avoiding space can be reduced, and the size of the installation space can be reduced.

Preferably, as shown in fig. 2, the sliding clamping block 3 includes a clamping block main body 31 and a clamping block protrusion 32 extending toward the groove wall 111, and a surface of the clamping block protrusion 32 facing the groove wall 111 is a plane, which is beneficial to increase a clamping area and improve stability during clamping.

Preferably, a slide rail (not shown) is provided on the bottom of the receiving groove 11, and the slide clamp 3 is mounted on the slide rail. The slide rail is transversely arranged between two groove walls 111, and the slide rail is parallel to the guide rod 411, so that the slide rail can guide the sliding of the sliding clamping block 3, and the assembly stability of the sliding clamping block 3 can also be improved.

According to the needs, the above technical schemes can be combined to achieve the best technical effect.

What has been described above is merely the principles and preferred embodiments of the present invention. It should be noted that, for those skilled in the art, on the basis of the principle of the present invention, several other modifications can be made, and the protection scope of the present invention should be considered.

Claims (10)

1. An installation tool, comprising a tool body and a handle provided on a back side of the tool body;

the front side of the tool main body is provided with a containing groove, and the containing groove comprises two opposite groove walls;

two sliding clamping blocks are arranged in the accommodating groove;

the tool body is also provided with a clamping block driving mechanism for driving the two sliding clamping blocks to move towards the groove walls on the two sides respectively.

2. The installation tool of claim 1, wherein said block drive mechanism comprises a block guide member and a drive member for driving said block guide member to move;

the clamping block guide component comprises two oppositely arranged guide rods;

the guide rods are slidably mounted on the tool main body and can slide towards the two groove walls respectively;

the two guide rods are respectively connected with the two sliding clamping blocks through connecting rods;

the driving mechanism comprises a driving block for driving the two guide rods to move towards the two groove walls and a trigger for driving the driving block to move linearly;

the trigger is installed on the handle through a trigger rotating shaft, and the driving block is assembled in the tool body in a sliding mode and can be contacted with and separated from the two guide rods.

3. The mounting tool of claim 2, wherein two first guide holes are oppositely provided in the tool body between the two groove walls, and the two first guide holes extend from a middle portion of the tool body to the groove walls on both sides, respectively;

the two guide rods are correspondingly assembled in the two first guide holes and can slide in the first guide holes;

the hole wall of each first guide hole is provided with a hole wall opening part connected with the accommodating groove, and the two connecting rods respectively correspondingly penetrate through the two hole wall opening parts and can move in the hole wall opening parts;

and a guide rod resetting piece for driving the guide rod to reset is arranged in each first guide hole.

4. The installation tool of claim 3, wherein a second guide hole perpendicular to the first guide hole is further provided in the tool body;

the two first guide holes are oppositely arranged at two sides of the second guide hole and are respectively communicated with the second guide hole;

the driving block is slidably arranged in the second guide hole, and a driving block inclined surface for driving the guide rod to move towards the groove wall is arranged on one side, facing the guide rod, of the driving block;

wherein, in the direction from the second guiding hole to the accommodating groove, the distance between the inclined surfaces of the two driving blocks is reduced.

5. The installation tool of claim 4, wherein said drive block is articulated with said trigger.

6. The installation tool of claim 2, wherein a trigger reset is provided between said handle and said trigger for actuating the reset of said trigger.

7. The mounting tool as claimed in claim 6, wherein a mounting space is provided on a side of the handle facing the tool body;

the top of the trigger is arranged in the mounting space through the trigger rotating shaft;

the bottom of the trigger is provided with a pulling part which can extend out of the installation space, and the trigger resetting piece is connected between the pulling part and the handle.

8. The installation tool of claim 7, wherein the top of said trigger has a raised tip, said raised tip being hingedly connected to said drive block.

9. The installation tool of any one of claims 1-8, wherein the sliding clamp block includes a clamp block body and a clamp block boss extending toward the slot wall, a surface of the clamp block boss facing the slot wall being planar.

10. The installation tool of claim 1, wherein a slide rail is provided on a bottom of said receiving slot, said slide clamp block being mounted on said slide rail.

Images