CN204343051U - A kind of dehydration inner cap - Google Patents

Abstract

The open a kind of dehydration inner cap of the utility model, comprises dehydration inner cap body, claw one, claw two, claw three, claw four, dehydration barrel component body, circular hole.Wherein identical four claws of even circumferential distributed architecture of dehydration inner cap body, i.e. claw one, claw two, claw three and claw four; Four claw peripheries are circle, are divided into first claw and second claw symmetrically, have circumferential groove with dehydration inner cap body junction; During nature, the maximum diameter of claw outer end is a bit larger tham the minimum diameter of circular hole, is slightly smaller than the minimum diameter of circular hole to the maximum diameter of claw outer end when pressing half claw and second claw; Four claws can stick in the circular hole of corresponding height in dehydration barrel component body respectively; To pressing half claw and four claws can be extracted circular hole by second claw successively.Its structure is simple, and operation is convenient, need not reopen mould, with low cost, and dehydration can be avoided to beat limit, and can dry the clothings such as down jackets, security is high.

Description

A kind of dehydration inner cap

Art

The utility model relates to a kind of household electrical appliance machinery technical field, specifically relates to a kind of dehydration inner cap.

Background technology

In two-tub washing machine, dehydration inner cap is positioned in dehydration barrel assembly, plays the effect compressing clothing, avoid clothing to fly out in dehydration barrel assembly when high speed dewatering.

At present, existing dehydration inner cap is Thin Disk structure, on the clothing of direct concora crush in dehydration barrel assembly, cause when high speed dewatering, dehydration inner cap floats off clothing and easily produces dehydration barrel assembly rotation imbalance and occur that limit is beaten in dehydration, the clothing that can not dry the rapid expansion such as down jackets avoids dehydration inner cap to eject in dehydration barrel assembly, and dehydration inner cap flies out that washing machine is outer and the personnel that cause injure.

Summary of the invention

Thin Disk structure to overcome existing dehydration inner cap, on the clothing of direct concora crush in dehydration barrel assembly, cause when high speed dewatering, dehydration inner cap floats off clothing and easily produces dehydration barrel assembly rotation imbalance and occur that limit is beaten in dehydration, the clothing that can not dry the rapid expansion such as down jackets avoids dehydration inner cap to eject in dehydration barrel assembly, dehydration inner cap flies out the outer and defect such as cause that personnel injure of washing machine, and the utility model provides a kind of dehydration inner cap newly.

The utility model specifically solves the technical solution that its technical problem adopts: dehydration inner cap comprises dehydration inner cap body 11, claw 1, claw 2 13, first claw 13-1 of claw two, second claw 13-2 of claw two, the circumferential groove 13-3 of claw two, claw 3 14, first claw 14-1 of claw three, second claw 14-2 of claw three, the circumferential groove 14-3 of claw three, claw 4 15, dehydration barrel component body 41, circular hole 42.Wherein, the even circumferential distribution claw 1 of dehydration inner cap body 11, claw 2 13, claw 3 14 and claw 4 15; Claw 1, claw 2 13, claw 3 14 is identical with claw 4 15 structure; Each claw periphery is circle; Each claw is divided into first claw and second claw symmetrically, namely claw 1 is divided into first claw of claw one and second claw of claw one, claw 2 13 is divided into first claw 13-1 of claw two and second claw 13-2 of claw two, claw 3 14 is divided into first claw 14-1 of claw three and second claw 14-2 of claw three, and claw 4 15 is divided into first claw of claw four and second claw of claw four; Each claw has circumferential groove with dehydration inner cap body 11 junction, namely there is the circumferential groove of claw one claw 1 and dehydration inner cap body 11 junction, claw 2 13 has the circumferential groove 13-3 of claw two with dehydration inner cap body 11 junction, claw 3 14 has the circumferential groove 14-3 of claw three with dehydration inner cap body 11 junction, and claw 4 15 has the circumferential groove of claw four with dehydration inner cap body 11 junction; The circumference of dehydration barrel component body 41 has many circular holes, i.e. circular hole 42 etc., and for the ease of the demoulding, circular hole is taper; During nature, the maximum diameter of claw outer end is a bit larger tham the minimum diameter of circular hole taper, is slightly smaller than the minimum diameter of circular hole taper to the maximum diameter of claw outer end when pressing half claw and second claw; Circumferential groove makes claw have certain elasticity activity interval; Claw is divided into first claw and second claw to make claw be convenient to stick into circular hole and extract circular hole symmetrically; When dehydration inner cap body 11 is positioned over dehydration barrel component body 41 inside, claw 1, claw 2 13, claw 3 14 and claw 4 15 stick in the circular hole of corresponding height in dehydration barrel component body 41 respectively; To pressure first claw of claw 1 and second claw of claw one, first claw 13-1 of claw two and second claw 13-2 of claw two is divided into pressure claw 2 13, first claw 14-1 of claw three and second claw 14-2 of claw three is divided into pressure claw 3 14, first claw of claw four and second claw of claw four are divided into pressure claw 4 15, successively by claw 1, claw 2 13, claw 3 14 and claw 4 15 extract circular hole, take out dehydration inner cap body 11 from dehydration barrel component body 41 inside.

The beneficial effects of the utility model are, adopt a kind of dehydration inner cap, solving dehydration inner cap is at present Thin Disk structure, on the clothing of direct concora crush in dehydration barrel assembly, cause when high speed dewatering, dehydration inner cap floats off clothing and easily produces dehydration barrel assembly and rotate uneven and occur that limit is beaten in dehydration, and the clothing that can not dry the rapid expansion such as down jackets avoids dehydration inner cap to eject in dehydration barrel assembly, and the inner cap that dewaters flies out the problem such as cause that personnel hinder outside washing machine.Its structure is simple, and operation is convenient, need not reopen mould, with low cost, dehydration can be avoided to beat limit, can dry the clothing of the rapid expansion such as down jackets, greatly improve the security of dehydration.

Accompanying drawing explanation

Fig. 1 is the main TV structure schematic diagram of a kind of inner cap that dewaters of the utility model;

Fig. 2 is the sectional structure schematic diagram of A-A in Fig. 1 of a kind of inner cap that dewaters of the utility model;

Fig. 3 is I place partial enlargement structural representation in Fig. 2 of a kind of inner cap that dewaters of the utility model;

Fig. 4 is the sectional structure schematic diagram of the use situation of a kind of inner cap that dewaters of the utility model;

Fig. 5 is II place partial enlargement structural representation in Fig. 4 of a kind of inner cap that dewaters of the utility model.

11. dehydration inner cap bodies in figure, 12. claw one, 13. claws two, first claw of 13-1. claw two, second claw of 13-2. claw two, the circumferential groove of 13-3. claw two, 14. claws three, first claw of 14-1. claw three, second claw of 14-2. claw three, the circumferential groove of 14-3. claw three, 15. claws four, 41. dehydration barrel component body, 42. circular holes.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model patent is further described.

See accompanying drawing, a kind of dehydration inner cap comprises dehydration inner cap body 11, claw 1, claw 2 13, first claw 13-1 of claw two, second claw 13-2 of claw two, the circumferential groove 13-3 of claw two, claw 3 14, first claw 14-1 of claw three, second claw 14-2 of claw three, the circumferential groove 14-3 of claw three, claw 4 15, dehydration barrel component body 41, circular hole 42.Wherein, the even circumferential distribution claw 1 of dehydration inner cap body 11, claw 2 13, claw 3 14 and claw 4 15, claw 1, claw 2 13, claw 3 14 is identical with claw 4 15 structure, each periphery is circle, each claw is divided into first claw and second claw symmetrically, namely claw 1 is divided into first claw of claw one and second claw (note: do not mark in figure) of claw one, claw 2 13 is divided into first claw 13-1 of claw two and second claw 13-2 of claw two, claw 3 14 is divided into first claw 14-1 of claw three and second claw 14-2 of claw three, and claw 4 15 is divided into first claw of claw four and second claw (note: do not mark in figure) of claw four, each claw has circumferential groove with dehydration inner cap body 11 junction, namely claw 1 has the circumferential groove of claw one (note: do not mark in figure) with dehydration inner cap body 11 junction, claw 2 13 has the circumferential groove 13-3 of claw two with dehydration inner cap body 11 junction, claw 3 14 has the circumferential groove 14-3 of claw three with dehydration inner cap body 11 junction, and claw 4 15 has the circumferential groove of claw four (note: do not mark in figure) with dehydration inner cap body 11 junction, the circumference of dehydration barrel component body 41 has many circular holes, i.e. circular hole 42 etc., and for the ease of the demoulding, circular hole is taper, during nature, the maximum diameter of claw outer end is a bit larger tham the minimum diameter of circular hole taper, is slightly smaller than the minimum diameter of circular hole taper to the maximum diameter of claw outer end when pressing half claw and second claw, circumferential groove makes claw have certain elasticity activity interval, claw is divided into first claw and second claw to make claw be convenient to stick into circular hole and extract circular hole symmetrically, clothing before carrying out spin-dry, dehydration inner cap body 11 be positioned over dehydration barrel component body 41 inner time, claw 1, claw 2 13, claw 3 14 and claw 4 15 stick in the circular hole of corresponding height in dehydration barrel component body 41 respectively, when dehydration inner cap body 11 is positioned over dehydration barrel component body 41 inside, claw 1, claw 2 13, claw 3 14 and claw 4 15 stick in the circular hole of corresponding height in dehydration barrel component body 41 respectively, to pressure first claw of claw 1 and second claw (note: do not mark in figure) of claw one, first claw 13-1 of claw two and second claw 13-2 of claw two is divided into pressure claw 2 13, first claw 14-1 of claw three and second claw 14-2 of claw three is divided into pressure claw 3 14, first claw of claw four and second claw (note: do not mark in figure) of claw four are divided into pressure claw 4 15, successively by claw 1, claw 2 13, claw 3 14 and claw 4 15 extract circular hole, dehydration inner cap body 11 is taken out from dehydration barrel component body 41 inside.

Whenever clothing carries out spin-dry at needs, it is inner that dehydration inner cap body 11 is positioned over dehydration barrel component body 41, and be pressed on clothing; By claw 1, claw 2 13, claw 3 14 and claw 4 15 stick in the circular hole of corresponding height in dehydration barrel component body 41 respectively.Whenever clothing is when spin-dry is complete, to pressure first claw of claw 1 and second claw (note: do not mark in figure) of claw one, first claw 13-1 of claw two and second claw 13-2 of claw two is divided into pressure claw 2 13, first claw 14-1 of claw three and second claw 14-2 of claw three is divided into pressure claw 3 14, first claw of claw four and second claw (note: do not mark in figure) of claw four are divided into pressure claw 4 15, successively by claw 1, claw 2 13, claw 3 14 and claw 4 15 extract circular hole; Dehydration inner cap body 11 is taken out for subsequent use from dehydration barrel component body 41 inside.

Claims (3)

1. a dehydration inner cap, comprise dehydration inner cap body (11), claw one (12), claw two (13), first claw (13-1) of claw two, second claw (13-2) of claw two, the circumferential groove (13-3) of claw two, claw three (14), first claw (14-1) of claw three, second claw (14-2) of claw three, the circumferential groove (14-3) of claw three, claw four (15), dehydration barrel component body (41), circular hole (42), it is characterized in that: it is inner that described dehydration inner cap body (11) is positioned over dehydration barrel component body (41), claw one (12), claw two (13), claw three (14) and claw four (15) stick in the circular hole in dehydration barrel component body (41) respectively, to pressure first claw of claw one (12) and second claw of claw one, first claw (13-1) of claw two and second claw (13-2) of claw two are divided into pressure claw two (13), first claw (14-1) of claw three and second claw (14-2) of claw three are divided into pressure claw three (14), first claw of claw four and second claw of claw four are divided into pressure claw four (15), by claw one (12), claw two (13), claw three (14) and claw four (15) extract circular hole.

2. one dehydration inner cap according to claim 1, it is characterized in that the even circumferential distribution claw one (12) of described dehydration inner cap body (11), claw two (13), claw three (14) and claw four (15); Claw one (12), claw two (13), claw three (14) is identical with claw four (15) structure.

3. one dehydration inner cap according to claim 1, it is characterized in that described claw one (12) has the circumferential groove of claw one with dehydration inner cap body (11) junction, claw two (13) has the circumferential groove (13-3) of claw two with dehydration inner cap body (11) junction, claw three (14) has the circumferential groove (14-3) of claw three with dehydration inner cap body (11) junction, and claw four (15) has the circumferential groove of claw four with dehydration inner cap body (11) junction.