Toy bricks part lifting device
Technical Field
The invention relates to a building block part disassembling device, in particular to a building block part assembling device capable of rapidly and conveniently completing one or more building block part disassembling.
Background
With the continuous development of early education toys, the intelligent assembled building blocks become one of important toys for the growth of children in every family. In fact, many building block splice toys are popular with adults. When people pursue quality, compactness, the firmness of building blocks assembly and the like, the problems that the building block parts are difficult to disassemble, the strength of users is insufficient, the toy parts are easy to damage and the like are unavoidable. The more playful the block toy, the more tightly the block splice is joined, but the more cumbersome it is when the parts are disassembled, especially small pieces such as floor tiles. Most users can scratch nails, children often bite teeth due to insufficient strength, and as a result, parts are easy to deform and damage, teeth and nails of the users are damaged to different degrees, and the children bite teeth and are not sanitary, so that the health of the users is negatively affected.
For this reason, the toy manufacturers currently develop disassembly tools for this problem: the toy building block part lifting device is manufactured by utilizing the lever principle, and can be convenient for a user to detach the toy building block part.
However, toy bricks on the market at present are various, the designs of all factories are different, and the part-lifting devices of all factories are special tools designed for products (even partial products) of the own home, and the toy bricks have the defects that one part-lifting device is usually only specific to certain building block parts of the factories, the function is single, the application range is small, and once the toy bricks are lost, the substitute is difficult to purchase (especially after the building block products are stopped), and the cost is high (because the toy bricks are only designed for partial products).
Disclosure of Invention
The invention aims to solve the technical problem of providing a building block part lifting device, which can quickly and conveniently detach one or more building block parts. The technical scheme adopted is as follows:
the utility model provides a building blocks part plays a ware, includes the handle body, its characterized in that: the front end of the handle body is provided with an annular building block part clamping mechanism, the annular building block part clamping mechanism comprises a columnar inner clamping piece 201 and at least one outer clamping piece which can be matched with the columnar inner clamping piece to clamp the annular building block part, and the rear end of the columnar inner clamping piece and the rear end of the outer clamping piece are respectively connected with the front end of the handle body. The user clamps the annular building block part to be taken down through the cooperation of the inner clamping piece and the outer clamping piece, and the annular building block part can be taken down by pulling out the annular building block part outwards with force.
Preferably, the outer clamping piece is in an arc shape protruding outwards, and a pressing part is formed at the front part of the outer clamping piece.
More preferably, the front end of the outer clamping piece is provided with an auxiliary clamping step extending towards the columnar inner clamping piece.
In a more preferable scheme, the inner side surface of the auxiliary clamping step is an inward concave cambered surface. Therefore, the contact area between the inner side surface of the auxiliary clamping step and the outer surface of the annular building block part can be increased, friction force is increased, and the annular building block part is conveniently pulled out.
Preferably, the thickness of the auxiliary clamping step is 3-8 mm. If the thickness of the auxiliary clamping step is too thin, the auxiliary clamping step is easy to damage, and if the thickness of the auxiliary clamping step is too thick, the gap between two building block parts which are spliced together is difficult to insert, so that the practicability is too low.
Preferably, the number of the outer clamping pieces is two, and the two outer clamping pieces are symmetrical relative to the columnar inner clamping piece. The operation is convenient, and the annular building block parts are more stressed uniformly and are convenient to pull out.
Preferably, the columnar inner clamping piece comprises a supporting column and an inserting rod, wherein the rear end of the supporting column is connected with the front end of the handle body, and the inserting rod is arranged at the front end of the supporting column. The support post provides sufficient support for the plunger to insert into the annular building element. For this purpose, the diameter of the insert rod is preferably smaller than the diameter of the support column.
Preferably, the outer clamping piece is provided with a plurality of anti-slip stripes.
The better scheme, handle body rear end is equipped with the separation shovel, the separation shovel includes separation shovel bottom surface and separation shovel inclined plane, form the cutting edge that can insert the gap between two building blocks parts between separation shovel inclined plane and the separation shovel bottom surface. The working principle of the separation shovel is that a sharp angle is inserted into a gap between two building block parts, the two building block parts are squeezed out, and the gap is forced to be enlarged, so that the purpose of separating the two building block parts is achieved. When the joint of two building block parts which are spliced together is provided with a slender gap, the two building block parts are particularly suitable for being separated by a separating shovel.
In a more preferable scheme, the inclined plane of the separation shovel is an outwards-protruding cambered surface. In this way, the two building block parts can be better squeezed apart.
In a more preferable scheme, the edge of the shovel tip is in an arc shape protruding outwards. Thus, the cutting edge is convenient to insert into a gap between two building block parts, and a user can pry the building block parts with force.
In a preferred scheme, a composite hole for building block parts with annular steps at the tops is formed between the bottom surface of the separation shovel and the inclined surface of the separation shovel, and the composite hole is formed by overlapping a large hole and a small hole. The large hole part of the composite hole is sleeved on the step of the building block part with the annular step at the top, then the building block part lifting device is pushed to force the step of the building block part with the annular step to enter the small hole part and be clamped on the edge of the small hole, and then the building block part lifting device can be grasped to pull out the building block part with the annular step at the top.
Preferably, the top surface or the bottom surface of the handle body is provided with a cross shaft. The cross is used to eject the shaft-like element from the bore.
Preferably, the top surface or the bottom surface of the handle body is provided with a round table plug piece for hole-type building block parts. The round table plug-in piece of the hole piece is used for the hole type building block part.
Compared with the prior art, the annular building block part clamping mechanism has the beneficial effects that the annular building block part clamping mechanism is arranged, so that the annular building block part is convenient to pull out; the separating shovel is suitable for the situation that a slender gap is formed at the joint of two building block parts; the composite hole is suitable for building block parts with annular steps at the top; the cross shaft is suitable for shaft-shaped parts; the round table plug-in piece of the hole piece is suitable for hole type building block parts; the structure design is ingenious, the operation is convenient, the use is convenient and quick, and the device is particularly suitable for separating various building block parts.
Drawings
Fig. 1 is a schematic perspective view of embodiment 1 of the present invention;
FIG. 2 is a schematic perspective view of the back surface of embodiment 1 shown in FIG. 1;
FIG. 3 is a top view of FIG. 2;
FIG. 4 is a partial schematic view of the annular building element holding mechanism of embodiment 1 of FIG. 1;
FIG. 5 is a schematic illustration of the first mode of use of embodiment 1 of the present invention before use;
FIG. 6 is a first schematic illustration of the invention in use in a first mode of use of embodiment 1;
FIG. 7 is a second schematic illustration of the first mode of use of embodiment 1 of the present invention in use;
FIG. 8 is a schematic diagram before use of a first example of a second mode of use of embodiment 1 of the present invention;
FIG. 9 is a schematic diagram of the second embodiment of the invention after use;
FIG. 10 is a schematic diagram before use of a second example of the second mode of use of embodiment 1 of the present invention;
FIG. 11 is a schematic diagram of a second example of the second mode of use of embodiment 1 of the present invention after use;
FIG. 12 is a schematic illustration of the third mode of use of embodiment 1 of the present invention before use;
FIG. 13 is a schematic diagram of the third embodiment of the invention after use;
FIG. 14 is a schematic bottom view of FIG. 13;
FIG. 15 is a schematic view of a fourth mode of use of embodiment 1 of the present invention before use;
FIG. 16 is a schematic diagram of the fourth mode of use of embodiment 1 of the present invention after use;
FIG. 17 is a schematic diagram showing a misuse pattern before use in the second example of the fourth use pattern in embodiment 1 of the present invention;
FIG. 18 is a schematic diagram showing the correct use pattern before use of the second example of the fourth use pattern in embodiment 1 of the present invention;
FIG. 19 is a schematic diagram of a second example of a fourth mode of use of embodiment 1 of the present invention after use;
FIG. 20 is a schematic view of a fifth mode of use of embodiment 1 of the present invention before use;
fig. 21 is a schematic diagram of the fifth mode of use of embodiment 1 of the present invention after use.
Detailed Description
Example 1
As shown in fig. 1-4, the building block part lifting device in this embodiment includes a handle body 1, an annular building block part clamping mechanism 2 is provided at the front end of the handle body 1, the annular building block part clamping mechanism 2 includes a columnar inner clamping member 201 and 2 outer clamping members 202 which can cooperate with the columnar inner clamping member 201 to clamp the annular building block part, and the rear ends of the columnar inner clamping member 201 and the outer clamping member 202 are respectively connected with the front end of the handle body 1. The user clamps the annular building block part to be taken down through the cooperation of the inner clamping piece 201 and the outer clamping piece 202, and pulls out the annular building block part outwards with force, so that the annular building block part can be taken down.
The outer clip 202 has an outwardly convex arc shape, and a pressing portion 2021 is formed at the front of the outer clip 202.
The front end of the outer clamping member 202 has an auxiliary clamping step 2022 extending toward the cylindrical inner clamping member 201.
The inner side surface of the auxiliary clamping step 2022 presents an inward concave cambered surface 20221. Therefore, the contact area between the inner side surface of the auxiliary clamping step 2022 and the outer surface of the annular building block part can be increased, friction force is increased, and the annular building block part can be pulled out conveniently.
The thickness of the auxiliary clamping step 2022 was 6 mm. If the thickness of the auxiliary clamping step 2022 is too thin, it is easily damaged, and if the thickness of the auxiliary clamping step 2022 is too thick, it is difficult to insert a gap between two building block parts inserted together, and the practicality is too low.
The two outer clamps 202 are symmetrical with respect to the cylindrical inner clamp 201. The operation is convenient, and the annular building block parts are more stressed uniformly and are convenient to pull out.
The columnar inner clamping piece 201 comprises a support column 2011 and a plunger 2012, wherein the rear end of the support column 2011 is connected with the front end of the handle body 1, and the plunger 2012 is arranged at the front end of the support column 2011. The support posts 2011 provide sufficient support to the plunger 2012 for insertion of the plunger 2012 into the annular building element. For this purpose, the diameter of the plunger 2012 is preferably smaller than the diameter of the support post 2011.
The outer clamping member 202 is provided with a plurality of anti-slip stripes 2023.
The rear end of the handle body 1 is provided with a separation shovel 3, the separation shovel 3 comprises a separation shovel bottom surface 301 and a separation shovel inclined surface 302, and a shovel tip 303 which can be inserted into a gap between two building block parts is formed between the separation shovel inclined surface 302 and the separation shovel bottom surface 301. The working principle of the separation shovel 3 is that a shovel tip 303 is inserted into a gap between two building block parts, the two building block parts are squeezed out, and the gap is forced to be enlarged, so that the purpose of separating the two building block parts is achieved. When the joint of two building block parts which are spliced together is provided with an elongated gap, the separation shovel 3 is particularly suitable for realizing the separation of the two parts.
The separation blade bevel 302 is an outwardly convex arcuate surface. In this way, the two building block parts can be better squeezed apart.
Edge 3031 of cutting edge 303 is curved to protrude outward. In this way, cutting edge 303 is conveniently inserted into the gap between the two building block parts, and the user can conveniently pry the building block parts with force.
A composite hole 4 for building block parts with annular steps at the tops is formed between the separating shovel bottom surface 301 and the separating shovel inclined surface 302 of the separating shovel 3, and the composite hole 4 is formed by partially overlapping a large hole 401 and a small hole 402. The large hole 401 of the composite hole 4 is sleeved on the step of the building block part with the annular step at the top, then the building block part lifting device is pushed to force the step of the building block part with the annular step to enter the small hole 402 and be clamped on the edge of the small hole 402, and then the building block part lifting device can be grasped to pull out the building block part with the annular step at the top.
The handle body bottom surface 102 of the handle body 1 is provided with a cross shaft 5. The cross 5 is used to eject the shaft-like element from the hole.
The top surface 101 of the handle body 1 is provided with a round table plug-in piece 6 which is a hole piece for hole type building block parts. The round table plug-in piece of the hole piece is used for the hole type building block part.
The following describes the operation in connection with fig. 5-21:
1. the first mode of use:
in fig. 5 is a block splice assembly formed from a plurality of block elements. Wherein the connection of the first building element 7 and the second building element 8 is provided with an elongated slit, so that the separation is achieved by means of the separation blade 3.
As shown in fig. 6, the cutting edge 303 of the separation blade 3 is inserted into the gap between the first block part 7 and the second block part 8, the first block part 7 and the second block part 8 are pushed apart, and the gap is forced to be larger, so that the purpose of separating the first block part 7 and the second block part 8 is achieved, as shown in fig. 7.
2. The second mode of use:
first example: the third building block part 9 and the fourth building block part 10 of the building block splicing assembly spliced by a plurality of building block parts in fig. 8, and the plug-in sub-component of the fourth building block part 10 is inserted into the plug-in female component of the third building block part 9, so that the cross shaft 5 is reversely inserted into the plug-in female component of the third building block part 9, and the plug-in sub-component of the fourth building block part 10 is ejected out, as shown in fig. 9.
Second example: in fig. 10, the first block element 7 and the fifth block element 11 are inserted to form a block splice assembly. The plug-in sub-element of the fifth building element 11 is inserted into the plug-in female element of the first building element 7, so that the plug-in sub-element of the fifth building element 11 is ejected out by reversely inserting the cross 5 into the plug-in female element of the first building element 7, as shown in fig. 11.
3. The third mode of use:
the building block splicing assembly formed by splicing a plurality of building block parts in fig. 12, wherein the first building block part 7 and the sixth building block part 12 are spliced, and a round hole is formed in the top of the sixth building block part 12, so that the round hole part round table plug-in piece 6 is adopted, the round hole part round table plug-in piece 6 is inserted into the round hole in the top of the sixth building block part 12, and then the sixth building block part 12 is pulled up from the first building block part 7, as shown in fig. 13 and 14.
4. The fourth mode of use:
first example: in the building block splicing assembly formed by splicing a plurality of building block parts in fig. 15, the first building block part 7 and the seventh building block part 13 are spliced to form the building block splicing assembly, and the top of the seventh building block part 13 is provided with an open ring formed by two arc-shaped assemblies, so that the annular building block part clamping mechanism 2 is adopted, the columnar inner clamping piece 201 is inserted into the open ring at the top of the seventh building block part 13, then the two outer clamping pieces 202 are pressed to move inwards, the columnar inner clamping piece 201 is matched with the columnar inner clamping piece, the open ring at the top of the seventh building block part 13 is clamped, and then the seventh building block part 13 is pulled up, and the seventh building block part 13 is pulled out from the first building block part 7, as shown in fig. 16.
Second example:
in the building block splicing assembly formed by splicing a plurality of building block parts in fig. 17, the first building block part 7, the eighth building block part 14 and the ninth building block part 15 are spliced, and the space between the eighth building block part 14 and the ninth building block part 15 is small, so that the eighth building block part 14 cannot be pulled out by using the annular building block part clamping mechanism 2 as in fig. 17. The toy element extractor can then be rotated 90 degrees as shown in fig. 18, and the eighth toy element 14 can then be pulled out of the first toy element 7 as shown in fig. 19.
5. The fifth mode of use:
the building block splicing assembly of fig. 20 is formed by splicing the first building block part 7 and the tenth building block part 16, and the top of the tenth building block part 16 is provided with an annular step, so that the composite hole 4 is adopted, the large hole 401 of the composite hole 4 is firstly sleeved on the step of the tenth building block part 16 with the annular step at the top, then the building block part lifter is pushed, the step of the tenth building block part 16 with the annular step is forced to enter the small hole 402 and clamped on the edge of the small hole 402, and then the tenth building block part 16 with the annular step at the top can be pulled out by grasping the building block part lifter, as shown in fig. 21.
In addition, it should be noted that, in the specific embodiments described in the present specification, names of various parts and the like may be different, and all equivalent or simple changes of the structures, features and principles described in the conception of the present invention are included in the protection scope of the present invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the invention as defined in the accompanying claims.