CN110552479A - Auxiliary tool for floor installation - Google Patents

Abstract

An accessory for floor mounting, comprising: a butting surface adapted to butt against a side surface of the floor; when the abutting surface abuts against the side surface of the floor, the limiting surface is attached to the upper surface of the floor; the stress surface is opposite to the abutting surface, and when the stress surface receives external acting force, the auxiliary tool transmits the external acting force to the floor through the abutting surface. When an instantaneous force is applied to the force-receiving surface by a tool such as a hammer, the auxiliary tool can transmit the force to the floor in contact through the entire contact surface. The floor has a large force bearing area, so that the floor can be prevented from being damaged. In this in-process, spacing face can carry on spacingly to the floor, avoids the floor to take place to rock when receiving the effort, leads to the unable normal insertion of public tenon to the female groove in, prevents to damage public tenon and female groove.

Description

Auxiliary tool for floor installation

Technical Field

The invention relates to the technical field of house decoration, in particular to an auxiliary tool for floor installation.

Background

In house finishing, finishing of the ground is a very important step. At present, the solid wood floor is an ideal material for ground decoration because of natural texture and safe use. In the prior art, the floor is paved by generally adopting glue for bonding or utilizing the keel to nail the floor on the keel, the floor can not be reused in the form, and the defects of cracking and the like caused by the influence of temperature or humidity are easily caused.

Therefore, a floor board appears in the market, a locking structure is formed on the side surface of the floor board, and two adjacent floor boards are fixedly connected through locking, so that the defect caused by the fact that the floor boards are fixed through glue or keels can be avoided. Typically, the locking structure includes a female slot in one of the two adjacent floor boards and a male tongue in the other. During installation, the male tenon is inserted into the female groove to realize fixed connection.

However, the process of inserting the tongue into the groove requires a large force to be applied to the floor. If a tool such as a hammer is directly applied to the floor, the floor is damaged. Accordingly, it is desirable to provide a floor mounting aid by which a force can be applied to a floor to avoid damage to the floor.

disclosure of Invention

The invention solves the problem that when two adjacent floor boards with lock catch structures in the prior art are spliced, if acting force is directly applied to the floor boards, the floor boards can be damaged.

In order to solve the above problems, the present invention provides an auxiliary tool for floor installation, comprising: a butting surface adapted to butt against a side surface of the floor; when the abutting surface abuts against the side surface of the floor, the limiting surface is attached to the upper surface of the floor; the stress surface is opposite to the abutting surface, and when the stress surface receives external acting force, the auxiliary tool transmits the external acting force to the floor through the abutting surface.

Optionally, the auxiliary tool has a groove, the groove penetrates through two ends of the auxiliary tool along a first direction, and the abutting surface is a bottom surface of the groove.

Optionally, the groove width of the groove is gradually reduced or kept constant from the opening of the groove to the bottom surface of the groove.

Optionally, the groove extends along the first direction by a distance of between 6.0cm and 15.0 cm.

Optionally, the groove has a first inner side surface and a second inner side surface which are parallel to the first direction and are arranged in a face-to-face manner; the first inner side surface extends along the second direction for a distance greater than the distance that the first inner side surface extends along the second direction, and the limiting surface is the first inner side surface; wherein the second direction is perpendicular to the first direction.

Optionally, the first inner side surface is a plane, and the second inner side surface is a plane or a curved surface.

Optionally, the second inner side surface extends along the second direction by a distance of 0.5cm to 2.0 cm.

optionally, the auxiliary appliance comprises: a first surface disposed opposite the first inner side along a third direction; a second surface disposed opposite the second inner side along a third direction; the distance between the first inner side surface and the first surface is less than the distance between the second inner side surface and the second surface; wherein the third direction is perpendicular to the first and second directions.

Optionally, the first and second surfaces define the force-bearing surface in the third direction.

Optionally, a boss is further provided on the second surface, and the top surfaces of the first surface and the boss define the force-bearing surface in the third direction.

Optionally, the auxiliary tool has a protrusion extending in a first direction perpendicular to a protrusion direction, and the abutting surface is a top surface of the protrusion.

optionally, the area of the force-bearing surface is larger than the area of the abutting surface.

Optionally, the abutting surface is a plane or a curved surface.

Optionally, the accessory is made of a wood material or a plastic material.

Compared with the prior art, the technical scheme of the invention has the following advantages:

The auxiliary tool comprises an abutting surface, a stress surface and a limiting surface, wherein the abutting surface and the stress surface are arranged in a reverse manner. In the process of installing two adjacent floor boards, the abutting surface is suitable for abutting against the side surface of one floor board, and the limiting surface is suitable for being attached to the upper surface of the abutted floor board so as to limit the floor board. When an instantaneous force is applied to the force-receiving surface by a tool such as a hammer, the auxiliary tool can transmit the force to the floor in contact through the entire contact surface. The floor has a large force bearing area, so that the floor can be prevented from being damaged. In this in-process, spacing face can carry on spacingly to the floor, avoids the floor to take place to rock when receiving the effort, leads to the unable normal insertion of public tenon to the female groove in, prevents to damage public tenon and female groove.

Furthermore, the auxiliary tool is provided with a groove, and the bottom surface of the groove is an abutting surface. When the side face of the floor abuts against the abutting face, the two side walls of the groove can limit the side face of the floor, so that the abutting face can always abut against a specific position of the side face of the floor, and the abutting face is prevented from sliding on the side face of the floor.

Drawings

FIG. 1 is a perspective view showing a structure of an auxiliary tool for floor installation according to a first embodiment of the present invention;

FIG. 2 is a schematic view of the auxiliary tool shown in FIG. 1 taken along the direction A;

FIG. 3 is a schematic view of the auxiliary tool shown in FIG. 1 in a floor installation;

FIGS. 4 and 5 are schematic views showing the auxiliary tool shown in FIG. 3 in two states along the direction B when the floor is installed;

FIG. 6 is a schematic structural view of one of the variations shown in FIG. 2;

FIG. 7 is a perspective view showing the construction of an auxiliary tool for floor installation in accordance with a second embodiment of the present invention;

Fig. 8 is a schematic view of the auxiliary tool shown in fig. 7, taken along the direction C.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

First embodiment

Referring to fig. 1 and 2, an auxiliary tool 10 for floor installation is adapted to insert a male tongue of one floor panel into a female groove of the other floor panel aligned with the male tongue when two adjacent floor panels having a locking structure are installed, so as to accomplish the fixed installation of the two floor panels.

Referring to fig. 3-5, there are shown schematic structural views of two floor boards when installed. The first floor panel 21, which is horizontally disposed, has been laid on the ground to be finished, and the side of the first floor panel 21 facing the second floor panel 22 has a female groove 21 a. The second floor 22 is a floor to be laid, and has a tongue 22a on a side facing the first floor 21 and a groove 22b on a side facing away from the first floor 21.

The fitting between the tongue 22a and the groove 21a needs to effectively fix the first floor 21 and the second floor 22, and the first floor and the second floor are not easily separated. Thus, the tongue 22a is not simply inserted into the female slot 21a, but is in a snap-fit relationship. Therefore, in the process of fixing the first floor panel 21 and the second floor panel 22, a force toward the first floor panel 21 needs to be applied to the second floor panel 22 to fit and fixedly connect the male tongue 22a and the female groove 21 a. However, if a force is directly applied to the second floor panel 22, the second floor panel 22 is damaged, which affects the appearance of the floor panel.

In the present embodiment, as shown in fig. 2, the auxiliary tool 10 includes an abutment surface 10a and a force receiving surface 10 b. Wherein, the abutting surface 10a and the stress surface 10b are arranged oppositely. As shown in fig. 4 and 5, the abutment surface 10a is adapted to abut against a side of the second floor 22 having the female groove 22b, and a tool such as a hammer is adapted to apply the force F to the force-receiving surface 10 b. When receiving the urging force F, the auxiliary tool 10 transmits the urging force to the second floor 22 via the contact surface 10 a. The second floor 22 is inserted into the female groove 21a by the male tongue 22a under the force of the auxiliary tool 10 to complete the fixed installation of the first floor 21 and the second floor 22.

The auxiliary tool 10 further has a limiting surface 10c, when the abutting surface 10a abuts against one side of the second floor 22, the limiting surface 10c is attached to the upper surface of the second floor 22, the limiting surface 10c can limit the second floor 22, the second floor 22 is prevented from shaking when receiving acting force, the male tenon 22a cannot be normally inserted into the female groove 21a, and the male tenon 22a and the female groove 21a are prevented from being damaged.

It can be seen that, with the aid 10, the abutment surface 10a always abuts against the side surface of the second floor 22. When the instantaneous force F of a tool such as a hammer acts on the local force-receiving surface 10b, the auxiliary tool 10 can transmit the force F to the second floor 22 through the entire contact surface 10 a. The second floor 22 has a large force-receiving area, so that the second floor 22 can be prevented from being damaged.

The auxiliary tool 10 may be made of plastic material or wood material, such as polyvinyl chloride material or solid wood material. At this time, when the auxiliary tool 10 abuts against the second floor 22 and applies a force to the second floor 22, marks can be prevented from running down on the contact surface of the second floor 22.

with continued reference to fig. 1 and 2, the accessory 10 has a groove 11. The groove 11 penetrates both ends of the auxiliary tool 10 in the first direction x, and a bottom surface of the groove 11 is a contact surface 10 a.

the first direction x is a width direction of the auxiliary tool 10, that is, an extending direction of a side surface of the second floor 22 which contacts the auxiliary tool 10.

therefore, when the contact surface 10a contacts the side surface of the second floor panel 22, the side surfaces of the second floor panel 22 can be restricted by the two side walls of the groove 11, so that the contact surface 10a can always contact a specific position of the side surface of the second floor panel 22, and the contact surface 10a is prevented from slipping on the side surface of the second floor panel 22. At the same time, the second floor 22 is prevented from shaking when receiving the force F.

As shown in fig. 2, the groove 11 has a first inner side surface and a second inner side surface 11a which are parallel to the first direction x and are arranged to face each other. The first inner side surface is a limiting surface 10c, and an extending distance of the limiting surface 10c along the second direction y is greater than an extending distance of the second inner side surface 11a along the second direction y.

The second direction y is a longitudinal direction of the auxiliary tool 10, and is perpendicular to the first direction x, i.e., a direction in which the force F is applied to the auxiliary tool 10.

Make spacing face 10c have longer distance along second direction y, can increase the area of contact between spacing face 10c and the second floor 22 upper surface to better carry on spacingly to second floor 22, prevent that second floor 22 from taking place to rock. The upper surface of the second floor 22 is generally flat, and in order to better fit with the upper surface of the second floor 22, in this embodiment, the limiting surface 10c is flat.

As shown in fig. 4, the second inner side surface 11a functions to limit a portion of the side surface of the second floor 22, and the second inner side surface 11a needs to make a portion of the second floor 22 extend into the groove 11 to be abutted against the abutment surface 10 a. The second inner side surface 11a may be a plane or a curved surface, and specifically, when the second inner side surface 11a is a plane, it may be parallel to the limiting surface 10c (shown in fig. 2), or may be inclined with respect to the limiting surface 10c (shown in fig. 6).

however, whether the second inner side surface 11a is a flat surface or a curved surface, it is necessary to ensure that the groove width of the groove 11 gradually decreases or remains constant from the opening of the groove 11 to the bottom surface of the groove 11. To ensure that a portion of the second floor 22 can be smoothly inserted into the groove 11 to abut against the abutment surface 10 a.

The contact surface 10a may be a flat surface or a curved surface. If the surface of the second floor panel 22 suitable for contact is a flat surface, the contact surface 10a is made flat to better contact the second floor panel. If the surface of the second floor 22 suitable for contact is a curved surface, the contact surface 10a may be a curved surface having a corresponding shape. In this embodiment, the abutting surface 10a is a plane and perpendicular to the limiting surface 10 c.

The extending distance of the second inner side surface 11a along the second direction y cannot be too long to avoid interfering with the bottom surface of the female slot 22b of the second floor, so that the abutting surface 10a cannot abut against the side surface of the second floor 22. Optionally, the second inner side 11a extends along the second direction y for a distance of between 0.5cm and 2.0 cm. For example, it may be 1.0cm, 1.2cm or 1.5 cm.

generally, the depth of the female groove of the floor board with the locking structure is more than 2.0cm, and the extending distance of the second inner side surface 11a is controlled between 0.5cm and 2.0 cm. The second floor 22 can be well limited without interfering with the bottom surface of the female groove 22 b.

In this embodiment, the groove 11 extends in the first direction x over a distance of between 6.0cm and 15.0 cm. For example, it may be 8.0cm, 10.0cm or 12.0 cm. The longer the extending distance of the groove 11 in the first direction x is, the larger the contact area between the stopper surface 10a and the second floor 22 is, and the less likely the second floor 22 is damaged. However, when the extending distance of the groove 11 is 15.0cm or more, the size of the auxiliary 10 becomes large, and the weight is increased accordingly, which is not preferable for the finishing worker to take and use.

With continued reference to fig. 2, the auxiliary tool 10 further has a first surface 10m disposed opposite to the stopper surface 10c along the third direction z, and a second surface 10n disposed opposite to the second inner side surface 11a along the third direction z.

The third direction z is a thickness direction of the auxiliary tool 10, and is perpendicular to the first direction x and the second direction y. That is, when the second floor 22 abuts against the auxiliary tool 10, the thickness direction of the second floor 22 is set.

In this embodiment, the first surface 10m is an upper surface of the auxiliary tool 10, and the second surface 10n is a lower surface of the auxiliary tool 10. Specifically, the first surface 10m is parallel to the limiting surface 10c, and the second surface 10n is parallel to the second inner side surface 11 a. Further, a distance L1 between the first surface 10m and the stopper surface 10c is smaller than a distance L2 between the second surface 10n and the second inner side surface 11 a.

The distance between the second surface 10n and the second inner side surface 11a is small, so that the part between the second surface 10n and the second inner side surface 11a can better extend into the female slot 22b of the second floor board. During installation of the floor, the finishing person has one hand for fixing the auxiliary 10 and the other hand for grasping a hammer or the like to apply force to the auxiliary 10. The distance between the first surface 10m and the stopper surface 10c is made larger, so that the fitter can grasp and control the auxiliary 10 better.

In the present embodiment, the first surface 10m and the second surface 10n define a distance between the force-bearing surface 10b and the third direction z. The stopper surface 10c and the second inner side surface 11a define a distance of the abutment surface 10a in the third direction z. Therefore, the area of the force-receiving surface 10b is larger than that of the stopper surface 10 c.

When a tool such as a hammer strikes the force-receiving surface 10b and applies a force to the auxiliary tool 10, most of the force-receiving surface 10b can be touched by the hammer, so that the force-receiving surface 10b has a large area of force-receiving force with the tool such as the hammer, and the force-receiving surface 10b can be prevented from being damaged to some extent. Meanwhile, because the area of the stress surface 10b is relatively large, the falling point range of tools such as hammers in the knocking process is wide, and the tools are not easy to fall outside the range of the stress surface 10b in the knocking process to damage decorating personnel.

In the present embodiment, the auxiliary tool 10 has the groove 11, and the contact surface 10a is the bottom surface of the groove 11. In another modification, the auxiliary tool 10 may be provided with a projection, and the contact surface 10a may be a top surface of the projection. At this time, the protrusion may be inserted into the female groove 22b of the second floor, and the top surface of the protrusion may be abutted against the bottom surface of the female groove 22b, so that the auxiliary tool 10 may be used to apply a force to the second floor 22, thereby preventing the second floor 22 from being damaged.

In the present embodiment, the first floor panel and the second floor panel are attached by the auxiliary tool as follows:

Referring to fig. 4, the first floor panel 21 is laid on the ground, the male tab 22a of the second floor panel 22 to be installed is aligned with the female slot 21a of the first floor panel 21, and the male tab 22a is partially inserted into the female slot 21 a. At this time, the male tongue 22a cannot be completely inserted into the female groove 21a due to the structural limitations of the male tongue 22a and the female groove 21 a.

With the aid 10, the stopper surface 10c of the aid 10 is brought into contact with the upper surface of the second floor 22, and a part of the side surface of the second floor 22 having the female groove 22b is inserted into the groove 11 and abuts against the abutment surface 10 a. At this time, the decorating person holds the auxiliary 10 and the second floor 22 by hand or tool, and applies a force F to the auxiliary 10.

Referring to fig. 5, when the auxiliary tool 10 receives the force F, the auxiliary tool 10 transmits the force to the second floor 22, so that the tongue 22a is inserted into the groove 22b, and the first floor 21 and the second floor 22 are fixedly installed. At this time, the auxiliary 10 is removed from the second floor 22 to be installed on another floor adjacent to the second floor 22.

Second embodiment

Referring to fig. 7 and 8, the present embodiment is different from the first embodiment in that: the auxiliary tool 10 is provided with a boss 12 on the second surface 10 n. Wherein the top surface of the boss 12 and the first surface 10m define the distance of the force-bearing surface 10b in the third direction z.

The force-receiving surface 10b of the present embodiment has a longer distance in the third direction z than in the first embodiment. That is, the area of the force-receiving surface 10b is relatively larger. Therefore, the tool such as a hammer can more easily strike the force-receiving surface 10b, and the deviation is less likely to occur, and the damage to the fitter is less likely to occur.

Further, the action area of the tool such as a hammer can be brought into contact with the force receiving surface 10b to a greater extent, and the force receiving surface 10b can be further prevented from being damaged.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (14)

1. An accessory for floor mounting, comprising:

A butting surface adapted to butt against a side surface of the floor;

When the abutting surface abuts against the side surface of the floor, the limiting surface is attached to the upper surface of the floor;

The stress surface is opposite to the abutting surface, and when the stress surface receives external acting force, the auxiliary tool transmits the external acting force to the floor through the abutting surface.

2. The accessory of claim 1, wherein the accessory has a groove extending through both ends of the accessory in a first direction, and the abutment surface is a bottom surface of the groove.

3. The accessory of claim 2, wherein the groove width of the groove is gradually reduced or maintained from the opening of the groove to the bottom surface of the groove.

4. An accessory as claimed in claim 2, wherein the groove extends in the first direction for a distance of between 6.0cm and 15.0 cm.

5. An accessory as claimed in claim 2, wherein the channel has first and second inner sides parallel to the first direction and facing each other; the first inner side surface extends along the second direction for a distance greater than the distance that the first inner side surface extends along the second direction, and the limiting surface is the first inner side surface; wherein the second direction is perpendicular to the first direction.

6. an accessory as claimed in claim 5, wherein the first inner side is planar and the second inner side is planar or curved.

7. An accessory as claimed in claim 5, wherein the second inner side surface extends in the second direction for a distance of between 0.5cm and 2.0 cm.

8. An accessory as claimed in claim 5, comprising:

A first surface disposed opposite the first inner side along a third direction;

A second surface disposed opposite the second inner side along a third direction;

The distance between the first inner side surface and the first surface is less than the distance between the second inner side surface and the second surface;

Wherein the third direction is perpendicular to the first and second directions.

9. an accessory as claimed in claim 8, wherein the first and second surfaces define the force-bearing surface in the third direction.

10. an accessory as claimed in claim 8, wherein the second surface is further provided with a boss, the top surfaces of the first surface and boss defining the force-bearing surface in the third direction.

11. An accessory as claimed in claim 1, wherein the accessory has a projection extending in a first direction perpendicular to the direction of projection, the abutment surface being a top surface of the projection.

12. Auxiliary tool according to any of the claims 1-11, characterized in that the area of the force-bearing surface is larger than the area of the abutment surface.

13. An accessory as claimed in any one of claims 1 to 11, wherein the abutment surface is planar or curved.

14. An accessory as claimed in any one of claims 1 to 11, wherein the accessory is made of a wood material or a plastics material.