CN219754751U - Air pump structure capable of being matched with building blocks for use - Google Patents

Abstract

The utility model discloses an air pump structure capable of being matched with building blocks for use, which comprises an air pump shell, wherein the air pump shell comprises two spliced shells, and a cavity is arranged in the spliced shells; the two splicing shells are spliced in a detachable mode, so that the two cavities form an installation cavity together; the splicing shell is provided with a plurality of splicing holes; the air pump component is arranged in the mounting cavity; the air pump component comprises an air pump and a pipe joint, and one end of the pipe joint is connected with and communicated with an air extraction opening of the air pump; the other end of the pipe joint extends out of the air pump shell. The air pump structure capable of being used with the building blocks can be used for splicing by being matched with the building blocks, and a plurality of splicing holes are formed in the air pump shell.

Description

Air pump structure capable of being matched with building blocks for use

Technical Field

The utility model relates to the technical field of building block splicing, in particular to an air pump structure capable of being matched with building blocks for use.

Background

At present, an air pump matched with a building block structure is mainly of a shell structure which accords with building block splicing, different aerodynamic type products are formed by matching with connecting pieces and the like, development of thinking is facilitated, imagination and manual operation capability of a culture space are achieved, but most of existing music Gao Qibeng is manual, a motor and a gear are adopted to provide kinetic energy to be matched with the manual air pump to generate aerodynamic force, and the air pump has the advantages of large size, heaviness, incapability of flexible assembly and low stability and service life. The electric vacuum air pump can not be well matched with building blocks to be used.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model aims to provide an air pump structure capable of being matched with building blocks for use, wherein a plurality of splicing holes are formed in an air pump shell and can be matched with the building blocks for splicing.

The utility model adopts the following technical scheme:

an air pump structure capable of being matched with building blocks for use comprises,

the air pump comprises an air pump shell, wherein the air pump shell comprises two spliced shells, and a cavity is arranged in the spliced shells; the two splicing shells are spliced in a detachable mode, so that the two cavities jointly form an installation cavity; the splicing shell is provided with a plurality of splicing holes;

the air pump component is arranged in the mounting cavity; the air pump assembly comprises an air pump and a pipe joint, and one end of the pipe joint is connected with and communicated with an extraction opening of the air pump; the other end of the pipe joint extends out of the air pump shell.

In the present utility model, as a preferred embodiment, the splice holes are provided on both the end face and the side face of the splice case.

In the utility model, as a preferred embodiment, at least two positioning components are arranged in the cavity, each positioning component comprises two first positioning sheets, and the two first positioning sheets are distributed at two ends of the cavity; the end parts of the air pump are used for abutting against the two first positioning pieces after being mounted to the cavity.

In the utility model, as a preferred embodiment, at least two second positioning pieces are arranged in the cavity, and the at least two second positioning pieces are distributed at intervals in the length direction of the cavity; a positioning groove is formed in the second positioning piece; the positioning groove is used for supporting the bottom end of the air pump.

In the present utility model, as a preferred embodiment, a plurality of blocking pieces are disposed in the cavity, and each blocking piece is used for blocking an end portion of the splicing hole located in the cavity.

In the present utility model, as a preferred embodiment, the air pump assembly further includes a solenoid valve disposed between the suction port of the air pump and the pipe joint.

In the present utility model, as a preferred embodiment, the splice case is provided with a perforation; the nipple extends from the aperture.

In the utility model, as a preferred embodiment, threaded holes are formed in the splicing shells, the threaded holes of the two splicing shells are correspondingly formed, and the threaded holes are used for being connected with screws in a screwed mode so that the two splicing shells can be spliced.

In the present utility model, as a preferred embodiment, the threaded hole is provided at an edge of the splice case.

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

when the building blocks are spliced, the splicing columns of the building blocks can be inserted into the splicing holes in the air pump shell, so that the building blocks are spliced. The pipe joint extended from the air pump shell can be connected with an external hose and a sucker structure, and when articles such as building blocks or paper sheets are sucked, the air pump in the air pump shell can be started to suck air, so that the articles are taken and placed. And because the air pump shell is spliced in the building blocks, the built model is more flexible, the pneumatic operation can be realized without a complex connecting pipe structure, and the operation is smoother.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of an exploded construction of the present utility model;

fig. 3 is a schematic structural view of a splice case according to the present utility model.

Fig. 4 is a general assembly schematic of the present utility model.

In the figure: 10. splicing the shells; 11. a splice hole; 12. a threaded hole; 13. a cavity; 14. a first positioning piece; 15. a second positioning piece; 151. a positioning groove; 16. a baffle; 21. a pipe joint; 22. an air pump; 23. an electromagnetic valve; 30. and (5) a screw.

Detailed Description

The utility model will be further described with reference to the drawings and the detailed description, wherein it should be noted that, on the premise of no conflict, the embodiments or technical features described below can be arbitrarily combined to form new embodiments. Materials and equipment used in this example are commercially available, except as specifically noted. Examples of embodiments are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements throughout or elements having like or similar functionality. The embodiments described below by referring to the drawings are exemplary only for explaining the present utility model and are not to be construed as limiting the present utility model.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. In the description of the present utility model, the meaning of "a plurality" is two or more, unless specifically stated otherwise.

In the description of the present utility model, it should be noted that, unless explicitly stated or limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be fixedly connected, or may be connected through an intermediary, or may be connected between two elements or may be an interaction relationship between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

The terms first, second and the like in the description and in the claims and in the above-described figures, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

An air pump 22 structure capable of being used with building blocks as shown in fig. 1, 2 and 3 comprises an air pump 22 shell and an air pump assembly, wherein the air pump 22 shell comprises two spliced shells 10, and a cavity 13 is formed in the spliced shells 10. Specifically, the two splicing shells 10 are spliced in a detachable manner, after the two splicing shells 10 are spliced, the cavities 13 of the two splicing shells 10 can be correspondingly enclosed to form an installation cavity, and the air pump assembly can be installed in the installation cavity. The splicing shell 10 is also provided with a plurality of splicing holes 11, and the splicing holes 11 can be used for inserting and splicing building blocks.

In addition, the air pump assembly comprises an air pump 22 and a pipe joint 21, one end of the pipe joint 21 is connected with an air extraction opening of the air pump 22, the end of the pipe joint 21 is connected with the air extraction opening of the air pump 22 and then penetrates through, and the other end of the pipe joint 21 extends out of the air pump 22 shell.

Based on the above structure, when the air pump 22 structure capable of being used with building blocks of the utility model is used, the air pump component can be assembled in the air pump 22 shell, specifically, two spliced shells 10 can be assembled to be spliced, then the air pump 22 of the air pump component is assembled in the cavity 13 of one spliced shell 10, the pipe joint 21 is connected with the air pumping hole of the air pump 22, the other end of the pipe joint 21 extends out from the cavity 13 of the spliced shell 10, then the other spliced shell 10 is covered on the cavity 13 of the spliced shell 10, the part of the air pump 22 and the pipe joint 21 exposed out of the cavity 13 of the spliced shell 10 can be accommodated in the cavity 13 of the other spliced shell 10, and after the splicing of the two spliced shells 10 is completed, the formed air pump 22 shell is integrally provided with a plurality of splicing holes 11.

When the building blocks are spliced, the splicing columns of the building blocks can be inserted into the splicing holes 11 in the air pump 22 shell, so that the splicing is realized. The pipe joint 21 extending from the air pump 22 shell can be connected with an external hose and a sucker structure, and when articles such as building blocks or paper sheets are sucked, the air pump 22 in the air pump 22 shell can be started to suck air, so that the articles are taken and placed. And because the air pump 22 casing is spliced in the building blocks, the built model is more flexible, the pneumatic operation can be realized without a complex connecting pipe structure, and the operation is smoother.

Further, the end face and the side face of the splice case 10 are provided with splice holes 11. Since the two splice cases 10 are formed by splicing, the spliced top and bottom faces have a plurality of splice holes 11. And splice hole 11 also has on the side that the concatenation formed, can be in the aspect of the assembly of building blocks on different faces.

It should be noted that, the splicing holes 11 on the end face and the side face can be distributed at equal intervals, so that a stable building structure can be realized after the splicing of the building blocks.

Further, at least two positioning components are disposed in the cavity 13 in this embodiment, and the specific positioning components include two first positioning pieces 14, where the two first positioning pieces 14 may be distributed at two ends of the cavity 13, and after the air pump is assembled to the cavity, the end of the air pump may abut against the two first positioning pieces at the end to achieve positioning.

Because in the in-service use, splice hole 11 and the building blocks of air pump 22 casing build the structure and use wholly, consequently appear removing and collide with easily in the use, if air pump 22 does not carry out spacing, shift easily in the use.

Therefore, in the present embodiment, when assembling, the air pump 22 may be placed in the cavity 13 of the splice housing 10, and the two first positioning pieces 14 at the end of the cavity may abut against the end of the air pump, and the two sides of the air pump 22 are abutted and limited by the two corresponding first positioning pieces, so as to prevent the air pump 22 from shaking back and forth during use.

Further, at least two second positioning pieces 15 may be further disposed in the cavity 13, where the at least two second positioning pieces 15 are distributed at intervals in the length direction of the cavity 13, and the second positioning pieces 15 are between two adjacent first positioning components; the second positioning piece 15 is provided with a positioning groove 151; the positioning groove 151 is used for supporting the bottom end of the air pump 22.

When the air pump 22 is assembled, as two first locating pieces are distributed at two ends of the length direction of the cavity 13, and a plurality of second locating pieces 15 are distributed at positions between the two first locating pieces, when the air pump 22 is assembled, the two ends of the air pump 22 are limited by the two first locating pieces after the air pump 22 is assembled, and each position of the middle section of the air pump is limited by the locating groove 151 of each second locating piece, so that the assembling structure of the air pump 22 is more stable.

Of course, in addition to the structure without the first positioning piece 14 and the second positioning piece 15, the housing structure of the air pump 22 can be fixed in the cavity 13 of the splice housing 10 by the screw 30, and the assembly structure of the air pump 22 can be stabilized.

Further, since the splice housing is provided with the plurality of splice holes, if the splice holes are positioned at the side parts of the splice housing, the inner structure of the air pump housing formed by the two splice housings is easy to be exposed through the splice holes, so that the plurality of baffle plates 16 are arranged in the cavity, the baffle plates 16 can be blocked at the end parts of the splice holes in the cavity, and when the building blocks are inserted, the use of the splice holes is not influenced, and the inner structure can be prevented from being seen by a user through the splice holes.

Further, the air pump assembly in this embodiment further includes an electromagnetic valve 23, where the electromagnetic valve 23 is disposed between the air pump 22 air suction port and the pipe joint 21, so that the air pump 22 air suction port can be opened or closed by the electromagnetic valve 23, so as to control the suction or release of the suction cup connected to the pipe joint 21.

Of course, when having above-mentioned first locating component, because the extraction opening of solenoid valve and air pump tip is connected, therefore the solenoid valve can be supported by two first locating pieces of this end and be fixed a position, reduces the rocking condition that appears in the solenoid valve use.

Further, in order to facilitate the extension of the pipe joint 21, a perforation may be provided on the splice housing 10, the pipe joint 21 may extend from the perforation, and the perforation may allow the pipe joint 21 to penetrate and limit the pipe joint 21. Of course, on the basis of the structure without perforation, a notch removing structure may be disposed at the corresponding positions of the two spliced shells 10, and after the two spliced shells 10 are spliced, the corresponding notch positions may be matched to form a hole site structure for the pipe joint 21 to pass through.

Further, the above-mentioned splice housing 10 is provided with the threaded hole 12, when splicing, the threaded holes 12 of two splice housings 10 are correspondingly arranged, and the screw 30 is screwed in the threaded hole 12, so that the two splice housings 10 are spliced, and the splice of the splice housings 10 is facilitated.

Of course, the threaded hole 12 may be disposed at an edge of the splice housing 10, and particularly when the splice housing 10 is in a square structure, the threaded hole 12 may be disposed at a corner position of the splice housing 10, so as to reduce an influence on splicing of the splice holes 11 on an end surface of the splice housing 10 due to protrusion of the screw 30 after screwing.

In addition, on the basis of the structure without the screw 30 and the threaded hole 12, a buckle is arranged on one of the splicing shells 10, a bayonet is arranged on the other splicing shell 10 correspondingly, and the two splicing shells 10 can be spliced by the clamping fit of the buckle and the bayonet, so that the formed air pump 22 shell is convenient to assemble and disassemble.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (9)

1. An air pump structure capable of being matched with building blocks for use is characterized by comprising,

the air pump comprises an air pump shell, wherein the air pump shell comprises two spliced shells, and a cavity is arranged in the spliced shells; the two splicing shells are spliced in a detachable mode, so that the two cavities jointly form an installation cavity; the splicing shell is provided with a plurality of splicing holes;

the air pump component is arranged in the mounting cavity; the air pump assembly comprises an air pump and a pipe joint, and one end of the pipe joint is connected with and communicated with an extraction opening of the air pump; the other end of the pipe joint extends out of the air pump shell.

2. The air pump structure of claim 1, wherein the splicing holes are formed in the end face and the side face of the splicing shell.

3. The air pump structure capable of being used with building blocks according to claim 1, wherein at least two positioning assemblies are arranged in the cavity, each positioning assembly comprises two first positioning sheets, and the two first positioning sheets are distributed at two ends of the cavity; the end parts of the air pump are used for abutting against the two first positioning pieces after being mounted to the cavity.

4. The air pump structure capable of being used with building blocks according to claim 3, wherein at least two second positioning sheets are arranged in the cavity, and the at least two second positioning sheets are distributed at intervals in the length direction of the cavity; a positioning groove is formed in the second positioning piece; the positioning groove is used for supporting the bottom end of the air pump.

5. The air pump structure of claim 1, wherein a plurality of blocking pieces are disposed in the cavity, and each blocking piece is used for blocking an end portion of the splicing hole in the cavity.

6. The air pump structure of any one of claims 1-5, wherein the air pump assembly further comprises an electromagnetic valve, the electromagnetic valve being disposed between the air pump suction port and the pipe joint.

7. The air pump structure of any one of claims 1-5, wherein the splice housing is provided with perforations; the nipple extends from the aperture.

8. The air pump structure according to any one of claims 1 to 5, wherein threaded holes are formed in the splice cases, the threaded holes of the two splice cases are correspondingly formed, and the threaded holes are used for being screwed with screws so that the two splice cases are spliced.

9. The air pump structure of claim 8, wherein the threaded hole is provided at an edge of the splice housing.