The present invention provides a structure of tool head bearing-seat, and especially relates to a structure of tool head bearing-seat which can be relatively stable and firm when connected to each other.
Generally, the concept of DIY is quite common in modern times, so there are many DIY products in modern times, such as cabinets, chairs, etc.; and when assembling these products, almost all of them need to use the screws to lock the parts. Normally, people will use a screwdriver to lock the screw, but some people may need to perform assembly operations from time to time due to work. If a manual screwdriver is used, it will be more laborious, so it will be locked with an electric screwdriver cooperatedly.
Since the price of the electric screwdriver is not cheap, it will be replaced with various screwdriver tool heads to cope with various types of screws; so the number of tool heads will naturally not be less. In general, the tool heads also use some carrying devices to store. However, most of the carrying devices cannot be expanded and connected, and are also unstable when stored. It is easy to cause the tool heads to fall out and cause loss.
The main objective of the present invention is to enable the main-bodies to be stably and firmly connected with each other and to fix the tool head via the elastic position-limiting portion to prevent from falling out.
In order to achieve the above-mentioned objectives, the main structure of the present invention comprises: a main-body, at least one bearing space defined in the main-body, an opening formed on the main-body and communicated with the bearing space, at least one elastic position-limiting portion set at one side of the bearing space, at least one first connecting-portion set on the main-body, at least one second connecting-portion set at the side of the first connecting-portion, at least one third connecting-portion set on the main-body and which location is different from the first connecting-portion, at least one fourth connecting-portion set at the side of the third connecting-portion; wherein the shape of the third connecting-portion is corresponding to the first connecting-portion and can be correspondingly connected with each other; and the shape of the fourth connecting-portion is corresponding to the second connecting-portion and can be correspondingly connected with each other.
With the above-mentioned structure, the user can place the tool head in the bearing space through the opening; and use the elastic limiting portion to perform the action of position-limiting and fixing the tool head to prevent the tool head from falling out of the opening. If the user has a plurality of main-bodies, the first connecting-portion and the second connecting-portion can be aligned with the third connecting-portion and the fourth connecting-portion; and be connected with each other; thus the main-bodies can be joined with each other; and through the mutual docking effect of the first connecting-portion, the second connecting-portion, the third connecting-portion, and the fourth connecting-portion; the main-bodies can be connected to be rather stable and firm.
With the above-mentioned techniques, it is possible to make a breakthrough for the problem that the conventional tool head carrying devices cannot be connected and the tool head cannot be fixed, and so as to achieve the practicality and progressiveness with the above advantages.
The following descriptions are exemplary embodiments only, and are not intended to limit the scope, applicability or configuration of the invention in any way. Rather, the following detailed description provides a convenient illustration for implementing exemplary embodiments of the invention. Various changes to the described embodiments may be made in the function and arrangement of the elements described without departing from the scope of the invention as set forth in the appended claims.
The foregoing and other aspects, features, and utilities of the present invention will be best understood from the following detailed description of the preferred embodiments when read in conjunction with the accompanying drawings.
Please refer to
With the above description, the structure of the present technology can be understood; and according to the corresponding cooperation of this structure, the main-body 1 can be connected with each other more stably; and which has the advantage that the elastic position-limiting portion 13 can be used to prevent the tool head 6 from falling out; the detailed explanation will be described below.
Please simultaneously refer to
If the user has a plurality of main-bodies 1 and wants to increase the storage space; the first connecting-portion 2 and the second connecting-portion 3 on the main-body 1 can be correspondingly engaged with the third connecting-portion 4 and the fourth connecting-portion 5 of the other main-body 1c; since there are two or more engagement points between the main body 1 and the main body 1c, the rotation situation will not occur, so that the fixing between the main body 1 and the main body 1c can be more stabilized to conveniently store.
Please simultaneously refer to
In this embodiment, an auxiliary perforation 16a is set on the main-body 1a and is communicated with the bearing space 11a, and the auxiliary perforation 16a is located at one side facing away from the opening 12a; thus, when the tool head 6a is stuck and fixed in the bearing space 11a and is not easily taken out; the user can use the tool or the finger to push and extrude the tool head 6a at the position of the auxiliary perforation 16a to push out the tool head 6a to quickly and conveniently take out the tool head 6a.
Please simultaneously refer to
Therefore, the technology key for the structure of tool head bearing-seat of the present invention to improve the conventional technology is that:
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