CN219698830U - Dust collecting device mounting structure of double-cavity mite removal instrument - Google Patents

Abstract

The utility model relates to a dust collecting device mounting structure of a double-cavity mite removing instrument, which comprises a host machine body and a dust collecting body, wherein the dust collecting body is detachably arranged on the host machine body; a positioning structure and a locking structure are arranged between the main machine body and the dust collecting body; the positioning structure comprises a positioning groove and a positioning block, and the positioning groove and the positioning block are respectively arranged on different bodies; the locking structure comprises an unlocking component and an interlocking part, and the unlocking component and the interlocking part are respectively arranged on different bodies; when the main machine body is assembled with the dust collection body, the positioning groove is in forward plug connection with the positioning block, and the unlocking component locks the interlocking part; when the main body and the dust collection body are detached, the positioning groove is reversely separated from the positioning block, and a user operates the unlocking component to unlock the interlocking part. The dust collecting device has the advantages of simple and reasonable installation structure, convenient and quick operation and reliable performance.

Description

Dust collecting device mounting structure of double-cavity mite removal instrument

Technical Field

The utility model relates to an acarid removing device, in particular to a dust collecting device mounting structure of a double-cavity acarid removing instrument.

Background

In the existing mite removing instrument, in order to conveniently clean dust mites in the dust cup, the dust cup is detachable relative to the host, however, the existing disassembling mode of the dust cup is diversified, but the defects of complex structure, troublesome disassembly and the like are commonly caused; in view of the defects of the prior art, a dust cup mounting structure of an acarid remover and the acarid remover disclosed in Chinese patent document CN213429877U specifically disclose: the dust cup comprises a mounting seat, a first fixing part and a second fixing part, wherein the mounting seat is arranged on the side part … … of the main body part and comprises a mounting groove formed by recessing inwards the main body part, the dust cup is columnar and comprises a cup opening and a cup bottom, the mounting groove accommodates the side wall of the dust cup, the first fixing part is arranged at one end of the mounting groove and is perpendicular to the mounting groove, the cup opening and the first fixing part are mutually spliced, the second fixing part comprises a first inserting part and a locking piece, the first inserting part is formed by recessing inwards the main body part from the mounting groove, the locking piece is arranged outside the cup bottom, the locking piece is clamped with the first inserting part, and the dust cup further comprises an elastic piece, one end of the elastic piece is abutted against the locking piece, and the other end of the elastic piece is abutted against the cup bottom; when the elastic piece drives the locking piece to move under the action of external force, the locking piece is separated from the first socket part, and the dust cup is detached from the side part of the main body part. However, the dust cup mounting structure is only suitable for a single-cavity type mite removing instrument (namely, the dust cup is directly mounted in the main body part), and is not suitable for a double-cavity type mite removing instrument.

Therefore, it is necessary to optimize the installation structure of the dust collecting device against the deficiency of the dual-chamber mite-killing instrument.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides a dust collecting device mounting structure of a double-cavity mite-killing instrument.

The purpose of the utility model is realized in the following way:

the utility model provides a dust collection device mounting structure of two-chamber type mite removal appearance, mite removal appearance includes host computer body and dust collection body, dust collection body detachable set up on the host computer body; a positioning structure and a locking structure are arranged between the main machine body and the dust collecting body; the positioning structure comprises a positioning groove and a positioning block, and the positioning groove and the positioning block are respectively arranged on different bodies; the locking structure comprises an unlocking component and an interlocking part, and the unlocking component and the interlocking part are respectively arranged on different bodies; when the main machine body is assembled with the dust collection body, the positioning groove is in forward plug connection with the positioning block, and the unlocking component locks the interlocking part; when the main body and the dust collection body are detached, the positioning groove is reversely separated from the positioning block, and a user operates the unlocking component to unlock the interlocking part.

As a specific scheme, the unlocking component comprises a button component and a transmission component which are in transmission connection with each other; the button component and the transmission component are respectively and movably arranged, the button component moves along a first direction, the transmission component moves along a second direction, and the first direction and the second direction are different; the transmission part is provided with a lock tongue, and the interlocking part is provided with a lock hole; when the main machine body is assembled with the dust collection body, the lock tongue is spliced with the lock hole; when the main body and the dust collection body are disassembled, the button component moves along a first direction and drives the transmission component to move along a second direction, so that the lock tongue is separated from the lock hole.

As a further specific scheme, a linkage shaft is arranged on the button component, a linkage groove is arranged on the transmission component, the linkage shaft is inserted into the linkage groove in a sliding mode, and the extending direction of the linkage groove is different from the first direction; when the main body and the dust collection body are assembled or disassembled, the linkage groove and the linkage shaft are linked with each other, so that the button component and the transmission component are mutually transmitted.

As a further specific scheme, the unlocking assembly further comprises an elastic component, one end of the elastic component acts on the body, the other end of the elastic component acts on the transmission component, and under the action of the elastic component, the transmission component elastically resets and moves along the opposite direction of the second direction relative to the body; the lock tongue is elastically inserted into the lock hole along with the transmission part.

As a further specific scheme, the unlocking component is arranged on the host body, and the interlocking part is arranged on the dust collection body; the installation direction of the dust collection body relative to the main machine body is consistent with the first direction; the lock tongue is provided with a guide part, and the interlocking part moves along with the dust collection body along a first direction to touch the guide part, so that the transmission part moves towards a second direction.

As a further specific scheme, a guide post extending along a first direction is arranged on the host body, and the button component is movably sleeved outside the guide post and moves along the first direction under the guidance of the guide post; the transmission part is provided with a guide groove extending along the second direction, and the button part is movably arranged at the inner side of the guide groove so as to guide the transmission part to move along the second direction.

As a further specific scheme, the positioning grooves are arranged on the main machine body, and the positioning grooves are arranged on two sides of the dust collecting body in pairs left and right; the positioning blocks are arranged on the dust collecting body, and the positioning blocks and the positioning grooves are arranged on two sides of the dust collecting body in one-to-one correspondence.

As a further specific scheme, a first opening is formed in the inner side of the positioning groove, a second opening is formed in the end portion of the positioning groove, the positioning block is inserted into the positioning groove through the second opening, and the positioning block penetrates through the first opening to be connected with the dust collecting body.

As still another specific scheme, the dust collecting device mounting structure of the dual-cavity mite-killing instrument further comprises a pop-up structure which is used for popping up the dust collecting body relative to the host body at least in a disassembling state; the ejecting structure comprises a fixing seat, an ejecting action piece and an elastic component, wherein the fixing seat is arranged on the main machine body or the dust collecting body, the ejecting action piece is movably arranged on the fixing seat, and the elastic component is arranged between the fixing seat and the ejecting action piece; the ejecting action piece acts on the main machine body or the dust collecting body in a reaction mode.

As a further specific scheme, the dust collecting body comprises a dust collecting box and a dust collecting cover, and the dust collecting cover is detachably arranged on the dust collecting box; the dust collecting cover is provided with a buckle hand for assisting in disassembly and assembly of the dust collecting cover; the ejecting structure is arranged on the host body, and the ejecting action piece acts on the buckling hand.

The beneficial effects of the utility model are as follows:

the installation connection structure is arranged between the main machine body and the dust collection body, and the positioning structure and the locking structure are arranged between the main machine body and the dust collection body, so that the installation connection between the main machine body and the dust collection body is simple and reasonable in structure, convenient and quick to operate and reliable in performance. Specifically, the positioning structure comprises a positioning groove and a positioning block which are mutually spliced according to a set direction, and the locking structure comprises an unlocking component and an interlocking part; when the main machine body and the dust collection body are assembled, the dust collection body moves relative to the main machine body along a set positive direction, the positioning groove and the positioning block are connected in a forward direction to ensure firm matching between the main machine body and the dust collection body, and the unlocking component locks the interlocking part to prevent the dust collection body from loosening automatically; when the main machine body and the dust collecting body are disassembled, the dust collecting body moves relative to the main machine body along the set reverse direction, the positioning groove and the positioning block are reversely separated to enable the positioning relationship between the main machine body and the dust collecting body to disappear, and the user operates the unlocking interlocking part of the unlocking component to enable the interlocking relationship between the main machine body and the dust collecting body to disappear. The dust collection body moves in a set direction, so that the positioning structure and the locking structure are matched, the main machine body and the dust collection body can be detached and installed, and the dust collection device is simple in structure and convenient to operate.

Drawings

Fig. 1 is an assembled schematic view of an acarid killing device according to an embodiment of the present utility model.

Fig. 2 is an exploded view of a main body and a dust collecting body according to an embodiment of the utility model.

Fig. 3 and 4 are partial cross-sectional views of different orientations of the acarid removal device in accordance with an embodiment of the present utility model.

FIG. 5 is a partially exploded view of a host body according to an embodiment of the utility model.

Fig. 6 is an exploded view of a locking structure according to an embodiment of the present utility model.

Fig. 7 is an enlarged view of the H portion in fig. 5.

Fig. 8 is a schematic structural view of a dust collecting body according to an embodiment of the utility model.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1 to 8, the dual-chamber mite-killing instrument according to the present embodiment includes a main body 100 and a dust collecting body 200, wherein the dust collecting body 200 is detachably disposed at the front side of the top of the main body 100; the dust collecting device mounting structure is specifically as follows: a positioning structure and a locking structure are arranged between the main machine body 100 and the dust collecting body 200; the positioning structure comprises a positioning groove 11 and a positioning block 21, wherein the positioning groove 11 and the positioning block 21 are respectively arranged on different bodies (i.e., (1) the positioning groove 11 is arranged on the main machine body 100 and the positioning block 21 is arranged on the dust collecting body 200; or (2) the positioning groove 11 is arranged on the dust collecting body 200 and the positioning block 21 is arranged on the main machine body 100); the locking structure comprises an unlocking component and an interlocking part 22, wherein the unlocking component and the interlocking part 22 are respectively arranged on different bodies (i.e., (1) the unlocking component is arranged on the main machine body 100, the interlocking part 22 is arranged on the dust collecting body 200, or (2) the unlocking component is arranged on the dust collecting body 200, and the interlocking part 22 is arranged on the main machine body 100). When the main body 100 and the dust collection body 200 are assembled, the positioning groove 11 and the positioning block 21 are in forward plug connection, and the unlocking component locks the interlocking part 22; the positioning groove 11 and the positioning block 21 are mutually inserted to limit the left-right movement and the up-down movement of the dust collection body 200 relative to the main machine body 100, so that the positioning effect is good; the unlocking component locks the interlocking part 22 to ensure reliable and stable connection between the dust collection body 200 and the main body 100, and prevent the dust collection body 200 from being loosened. When the main body 100 is detached from the dust collection body 200, the positioning groove 11 is reversely separated from the positioning block 21, and the user operates the unlocking interlocking part 22 of the unlocking component. The installation connection structure between the main machine body 100 and the dust collection body 200 is provided with the positioning structure and the locking structure, so that the installation connection between the main machine body 100 and the dust collection body is simple and reasonable in structure, convenient and quick to operate and reliable in performance.

Further, referring to fig. 3, the unlocking assembly includes a button part 12 and a transmission part 13 which are in transmission connection with each other, the button part 12 can drive the transmission part 13 to move, and the transmission part 13 can also drive the button part 12 to move; the button part 12 and the transmission part 13 are respectively and movably arranged, the button part 12 moves along a first direction a1, the transmission part 13 moves along a second direction a2, and the first direction a1 and the second direction a2 are different; the transmission part 13 is provided with a lock tongue 1301, and the interlocking part 22 is provided with a lock hole 2201; when the main body 100 and the dust collection body 200 are assembled, the lock tongue 1301 is inserted into the lock hole 2201; when the main body 100 is detached from the dust collection body 200, the button member 12 moves along the first direction a1 and the transmission member 13 moves along the second direction a2 under the action of external force, so that the locking tongue 1301 is separated from the locking hole 2201.

Further, the left and right outer side walls of the button member 12 are respectively provided with a linkage shaft 1201 protruding outward, and the linkage shafts 1201 on the left and right outer side walls are coaxially fitted with each other; the left and right side walls of the transmission member 13 are respectively provided with a linkage groove 1302, the linkage shaft 1201 is slidably inserted into the linkage groove 1302, and the linkage shaft 1201 can reciprocate in the linkage groove 1302 along the extending direction thereof, and the extending direction of the linkage groove 1302 is different from the first direction a 1; when the main body 100 and the dust collection body 200 are assembled or disassembled, the linkage groove 1302 and the linkage shaft 1201 are linked to each other, so that the button part 12 and the transmission part 13 are mutually transmitted; that is, when the external force acting button member 12 moves in the first direction a1, the transmission member 13 is driven to move in the second direction a2 by the interaction of the linkage shaft 1201 and the linkage groove 1302; after the external force disappears, the transmission part 13 moves in the opposite direction of the second direction a2, and under the mutual cooperation of the linkage shaft 1201 and the linkage groove 1302, the button part 12 is driven to move in the opposite direction of the first direction a 1.

Further, the unlocking assembly further includes an elastic member 14, where the elastic member 14 in this embodiment is preferably a spiral column spring, one end of the elastic member 14 acts on the body (the main body 100 is preferred in this embodiment, and may be the dust collecting body 200 according to the actual situation) where the elastic member is located, and the other end acts on the transmission member 13, and under the action of the elastic member 14, the transmission member 13 elastically returns to the opposite direction of the second direction a2 relative to the body where the elastic member is located; the lock tongue 1301 is elastically inserted into the lock hole 2201 along with the transmission part 13; when the external force disappears, the transmission member 13 elastically resets in the opposite direction of the second direction a2, and the button member 12 elastically resets under the action of the transmission structure described above.

Further, the unlocking component in the present embodiment is disposed on the main body 100, and the interlocking portion 22 is disposed on the dust collecting body 200; the installation direction of the dust collection body 200 relative to the main body 100 is consistent with the first direction a 1; the lock tongue 1301 is provided with a guide portion 1303, and the interlocking portion 22 moves along the first direction a1 along with the dust collecting body 200 to touch the guide portion 1303, so that the transmission component 13 moves towards the second direction a2, and the lock tongue 1301 and the lock hole 2201 are smoothly inserted.

Further, a guiding post 15 extending along a first direction a1 is arranged on the main body 100, the button component 12 is movably sleeved outside the guiding post 15 and moves along the first direction a1 under the guiding of the guiding post 15, one end of the elastic component 14 acts on the bottom of the guiding post 15, and the other end acts on the transmission component 13; the transmission part 13 is provided with a guide groove 1304 extending along the second direction a2, and the button part 12 is movably arranged inside the guide groove 1304 so as to guide the transmission part 13 to move along the second direction a 2; the above structure ensures that the button member 12 moves in the first direction a1 and the transmission member 13 moves in the second direction a 2.

Further, the positioning slots 11 are integrally formed at two sides of the top of the main body 100, and the positioning slots 11 are arranged at two sides of the dust collecting body 200 in pairs from left to right; the positioning blocks 21 are integrally formed on the dust collecting body 200, and the positioning blocks 21 and the positioning grooves 11 are arranged at two sides of the dust collecting body 200 in one-to-one correspondence.

Further, a first opening 1101 is formed inside the positioning groove 11, a second opening 1102 is formed at the end of the positioning groove, the positioning block 21 is inserted into the positioning groove 11 through the second opening 1102, and the positioning block 21 passes through the first opening 1101 to be connected with the dust collecting body 200.

Further, the dust collecting device mounting structure of the present embodiment further includes an ejecting structure that acts on the dust collecting body 200 to eject relative to the main body 100 at least in the disassembled state, and in the unlocked state of the locking structure, the ejecting structure acts on the dust collecting body 200 to eject, so that the disassembly is convenient and simple; the ejecting structure comprises a fixing seat 16, an ejecting action piece 17 and an elastic component 18, wherein the fixing seat 16 in the embodiment is fixedly arranged on a main machine body 100 (according to the actual dust collection body 200), the ejecting action piece 17 is movably arranged on the fixing seat 16, the elastic component 18 is arranged between the fixing seat 16 and the ejecting action piece 17, the elastic component 18 is preferably a spiral column spring, one end of the elastic component 18 is propped against the fixing seat 16, and the other end is propped against the ejecting action piece 17; the eject acting member 17 acts against the dust collection body 200 to push out the dust collection body 200.

Further, the dust collecting body 200 includes a dust collecting box 23 and a dust collecting cover 24 for collecting dust mites, and the dust collecting cover 24 is detachably arranged on the dust collecting box 23, so that dust mites inside the dust collecting box 23 can be conveniently removed by a user; the dust collecting cover 24 is provided with a buckling position 25 for assisting in dismounting the dust collecting cover 24, a user can conveniently dismount the dust collecting cover 24 through the buckling position 25, and the buckling position 25 in the embodiment extends in a T-shaped section; the pop-up structure in this embodiment is disposed on the main body 100, and the pop-up acting member 17 acts on the catch position 25; the interlocking portion 22 is integrally formed at the end of the dust box 23.

The foregoing is a preferred embodiment of the utility model showing and describing the general principles, features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, which have been described in the foregoing description merely illustrates the principles of the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a dust collection device mounting structure of two-chamber mite removal appearance, mite removal appearance includes host computer body (100) and dust collection body (200), dust collection body (200) detachably sets up on host computer body (100); the method is characterized in that: a positioning structure and a locking structure are arranged between the main machine body (100) and the dust collection body (200); the positioning structure comprises a positioning groove (11) and a positioning block (21), wherein the positioning groove (11) and the positioning block (21) are respectively arranged on different bodies; the locking structure comprises an unlocking component and an interlocking part (22), wherein the unlocking component and the interlocking part (22) are respectively arranged on different bodies; when the main machine body (100) and the dust collection body (200) are assembled, the positioning groove (11) and the positioning block (21) are in forward plug connection, and the unlocking component locks the interlocking part (22); when the main body (100) and the dust collection body (200) are detached, the positioning groove (11) is reversely separated from the positioning block (21), and a user operates the unlocking component to unlock the interlocking part (22).

2. The dust collecting device mounting structure of the dual-chamber mite-killing instrument according to claim 1, wherein: the unlocking assembly comprises a button part (12) and a transmission part (13) which are in transmission connection with each other; the button component (12) and the transmission component (13) are respectively and movably arranged, the button component (12) moves along a first direction (a 1), the transmission component (13) moves along a second direction (a 2), and the first direction (a 1) and the second direction (a 2) are different; a lock tongue (1301) is arranged on the transmission part (13), and a lock hole (2201) is arranged on the interlocking part (22); when the main body (100) is assembled with the dust collection body (200), the lock tongue (1301) is inserted into the lock hole (2201); when the main body (100) and the dust collection body (200) are detached, the button component (12) moves along a first direction (a 1) and drives the transmission component (13) to move along a second direction (a 2), so that the lock tongue (1301) is separated from the lock hole (2201).

3. The dust collecting device mounting structure of the double-chamber mite-killing instrument according to claim 2, wherein: a linkage shaft (1201) is arranged on the button part (12), a linkage groove (1302) is arranged on the transmission part (13), the linkage shaft (1201) is inserted into the linkage groove (1302) in a sliding mode, and the extending direction of the linkage groove (1302) is different from the first direction (a 1); when the main body (100) and the dust collection body (200) are assembled or disassembled, the linkage groove (1302) and the linkage shaft (1201) are mutually linked, so that the button component (12) and the transmission component (13) are mutually transmitted.

4. The dust collecting device mounting structure of the double-chamber mite-killing instrument according to claim 2, wherein: the unlocking assembly further comprises an elastic component (14), one end of the elastic component (14) acts on the body, the other end of the elastic component acts on the transmission component (13), and under the action of the elastic component (14), the transmission component (13) elastically resets along the opposite direction of the second direction (a 2) relative to the body; the lock tongue (1301) is elastically inserted into the lock hole (2201) along with the transmission part (13).

5. The dust collecting device mounting structure of the double-chamber mite-killing instrument according to claim 2, wherein: the unlocking component is arranged on the host machine body (100), and the interlocking part (22) is arranged on the dust collection body (200); the installation direction of the dust collection body (200) relative to the main machine body (100) is consistent with the first direction (a 1); the lock tongue (1301) is provided with a guide part (1303), and the interlocking part (22) moves along with the dust collection body (200) along a first direction (a 1) to touch the guide part (1303) so that the transmission part (13) moves towards a second direction (a 2).

6. The dust collecting device mounting structure of the dual-chamber mite controller according to claim 5, wherein: the main body (100) is provided with a guide column (15) extending along a first direction (a 1), and the button component (12) is movably sleeved outside the guide column (15) and moves along the first direction (a 1) under the guidance of the guide column (15); the transmission part (13) is provided with a guide groove (1304) extending along the second direction (a 2), and the button part (12) is movably arranged at the inner side of the guide groove (1304) so as to guide the transmission part (13) to move along the second direction (a 2).

7. The dust collecting device mounting structure of the dual-chamber mite-killing instrument according to claim 1, wherein: the positioning grooves (11) are arranged on the main machine body (100), and the positioning grooves (11) are arranged on two sides of the dust collecting body (200) in pairs from left to right; the positioning blocks (21) are arranged on the dust collecting body (200), and the positioning blocks (21) and the positioning grooves (11) are arranged on two sides of the dust collecting body (200) in one-to-one correspondence.

8. The dust collecting device mounting structure of the dual-chamber mite-killing instrument according to claim 7, wherein: the inner side of the positioning groove (11) is provided with a first opening (1101) and a second opening (1102) at the end part, the positioning block (21) is inserted into the positioning groove (11) through the second opening (1102), and the positioning block (21) passes through the first opening (1101) to be connected with the dust collecting body (200).

9. The dust collecting device mounting structure of the double-chamber mite-killing instrument according to any one of claims 1 to 8, wherein: the dust collector also comprises a pop-up structure which plays the dust collection body (200) to pop up relative to the host body (100) at least in a disassembling state; the ejecting structure comprises a fixing seat (16), an ejecting action piece (17) and an elastic component (18), wherein the fixing seat (16) is arranged on the host machine body (100) or the dust collecting body (200), the ejecting action piece (17) is movably arranged on the fixing seat (16), and the elastic component (18) is arranged between the fixing seat (16) and the ejecting action piece (17); the ejecting action piece (17) acts on the main machine body (100) or the dust collecting body (200) in a reaction mode.

10. The dust collecting device mounting structure of the dual-chamber mite-killing instrument according to claim 9, wherein: the dust collection body (200) comprises a dust collection box (23) and a dust collection cover (24), and the dust collection cover (24) is detachably covered on the dust collection box (23); a buckling hand (25) for assisting in dismounting the dust collecting cover (24) is arranged on the dust collecting cover (24); the ejecting structure is arranged on the main machine body (100), and the ejecting action piece (17) acts on the buckling hand position (25).