CN205274693U - Improve absorption unit of adsorption affinity - Google Patents

Abstract

The utility model relates to an improve absorption unit of adsorption affinity adsorbs the unit and includes: sucking port, sucking port includes the adsorption plate, the post gives prominence to forming to the top at the central part of adsorption plate, the portion is decided to the card, along the interior weekly form shape of face one -tenth of post, the spire forms the peripheral surface upper portion at the post, the lid, piston component, the pole, promote parts, the piston component's that promotes parts and expose with upside from the portion to the card that decide pole combines, compression spring, compression spring decides the portion and promotes between the parts between the card, the upside at the lid is arranged to cap, cap. The utility model discloses a structure takes place to adsorb the dual vacuum that the unit has a vertical motion of the post of the piston component's through compression spring vertical motion and the rotation through the cap to adsorption affinity and confining force to setting up the object face can be improved, in addition, the adsorption affinity that parts can recover the reduction is easily promoted through the pressurization when the adsorption affinity reduces.

Description

Improve the absorbing unit of absorption affinity

Technical field

This utility model is related to and arranges, by what be adsorbed on glass or ceramic tile etc., the absorbing unit supporting various article in object surface and use, more particularly, to improving arranging the absorption affinity of object surface and retentivity thereof and can easily recover the absorbing unit of the absorption affinity reduced over time.

Background technology

Existing absorption layer has the bottom surface being positioned at described body and by installing groove by through supporting projections, and described absorption layer is connected with body to arrange and makes described supporting projections regulate instrument by the clinging force rotated at body to rise centered by body and decline, the perimeter along described body is provided with multiple is close to rib.

Described clinging force regulates instrument and includes: locating shaft, is inserted into supporting projections; Spill spin block, pivots about with described supporting projections, and has symmetrical inclined plane so that when locating shaft is close to and moves, and supporting projections rises to vertical direction and declines; And handle, it is connected with described spill spin block, it sink and is formed for the sliding tray portion that handle moves in the side of described body, the upper end of described inclined plane is provided with at the downward installation portion of travel direction, the side of described spill spin block is provided with the installation portion installing locating shaft, and described absorption layer can improve absorption affinity and be prone to make.

Described absorption layer has and includes locating shaft, the clinging force of spill spin block and handle regulates instrument, the absorption affinity of absorption layer is improved thereby through the action making described handle rotate, but since it is desired that only keep the vacuum state of absorption layer by rotating the vertical motion of the supporting projections of spill spin block, therefore can not get the absorption affinity and the retentivity thereof that greatly improve compared with existing absorbing unit. And, absorption affinity in order to recover to reduce needs to reset the position of handle when pressurized adsorbent pad, therefore, it is difficult to recover absorption affinity, and cannot with the naked eye confirm the absorption affinity reduced, therefore miss the opportunity recovering absorption affinity, absorption layer can be caused from arranging the problem that object comes off.

Utility model content

The technical problems to be solved in the utility model is: overcome the deficiencies in the prior art, it is provided that improve the absorbing unit of absorption affinity, it is ensured that excellent absorption affinity and retentivity thereof.

This utility model solves its technical problem and be the technical scheme is that a kind of absorbing unit improving absorption affinity, including:

Adsorption orifice, described adsorption orifice includes: adsorption plate, and described adsorption plate is formed as ring-type, has elasticity;

Post, has cylindrical shape, in the central part prominent formation upward of described adsorption plate;

Engaging portion, has ring-type, and the inner peripheral surface along described post is formed;

Spire, is formed on the outer surface top of described post;

Lid, the central part of described lid is provided with the through hole liftably inserted by described post, and described spire is inserted into described post in the way of the exposure of top, thus described lid supports the top edge of described adsorption plate; Piston element, is liftably inserted into described post, and includes: head, is arranged in the downside of described engaging portion, and its outer surface is adjacent with the inner peripheral surface of described post;

Bar, in the central part prominent formation upward of described head so that described bar exposes to the upside of described engaging portion;

Push mechanism, described push mechanism is combined with the bar of the piston element that the upside to described engaging portion exposes, to carry out lifting action together with piston element;

Compression spring, described compression spring is between described engaging portion and described push mechanism so that described push mechanism and described piston element are upwards pressurizeed by described compression spring; And

Cap, described cap is arranged in the upside of described lid, central part includes hollow bulb and corresponding spire, described post is made to carry out lifting action thereby through spinning movement, described hollow bulb is formed at the central part up/down perforation of described cap, and described corresponding spire is formed in the inner peripheral surface bottom of described hollow bulb and is combined with described spire.

Further, the outer surface of described push mechanism is formed with recognition unit, and described recognition unit exposes to the upside of described cap when described piston element rises, and hidden to the inner side of described cap when described piston element declines.

Further, described adsorption plate includes:

Internal reinforcement thing, has elasticity, is connected with described post; And

Crust, is made up of tartan, surrounds described stiffener.

Further, the head of described piston element has the structure that its outer surface extends up, and, the upper end-face edge at described head is formed with protrusion, and described protrusion highlights upward so that described protrusion is adjacent with the inner peripheral surface of described post.

Further, the outer surface of the head of described piston element is inserted with sealing member, making described sealing member be close to the inner peripheral surface of described post, and the lower end of described post is formed with wide diameter portion, described wide diameter portion does not contact with described sealing member when piston element declines.

The beneficial effects of the utility model are: described absorbing unit has the vertical motion of the piston element by compressing spring and the double manifold vacuum recurring structure of the vertical motion by the post of the rotation of cap, it is thus possible to improve the absorption affinity and the retentivity thereof that arrange object surface, and, carried out the absorption affinity that can easily recover to reduce by pressurizing urges parts when absorption affinity reduces.

Further, if piston element rises, then the recognition unit of push mechanism exposes to the upside of cap, therefore with the naked eye easily confirms the situation that absorption affinity reduces.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, this utility model is further illustrated.

Fig. 1 is the sectional view of the first stage state of the absorbing unit of raising absorption affinity of the present utility model;

Fig. 2 is the sectional view of the second stage state of the absorbing unit of raising absorption affinity of the present utility model;

Fig. 3 is the sectional view of the phase III state of the absorbing unit of raising absorption affinity of the present utility model;

Fig. 4 is the sectional view of the fourth stage state of the absorbing unit of raising absorption affinity of the present utility model;

The absorbing unit of raising absorption affinity of the present utility model is adsorbed on to arrange the sectional view of the state that absorption affinity reduces after in object surface by Fig. 5.

The explanation of accompanying drawing labelling

100: adsorption orifice;

110: adsorption plate;

120: post;

130: engaging portion;

140: spire;

200: lid;

210: through hole;

220: lid;

230: Gai Zhu;

300: piston element;

310: head;

320: bar;

400: push mechanism;

410: recognition unit;

500: compression spring;

600: cap;

610: hollow bulb;

620: corresponding spire;

700: hook part.

Detailed description of the invention

Presently in connection with accompanying drawing, this utility model is further described. These accompanying drawings are the schematic diagram of simplification and basic structure of the present utility model are only described in a schematic way, and therefore it only shows the composition relevant with this utility model.

As shown in Figures 1 to 5, substantially it is made up of adsorption orifice 100, lid 200, piston element 300, push mechanism 400, compression spring 500 and cap 600 according to the absorbing unit of the raising absorption affinity of an embodiment of the present utility model.

Below each composition is illustrated. Adsorption orifice 100 includes:

Adsorption plate 110, adsorption plate 110 is formed as ring-type, has elasticity;

Post 120, has cylindrical shape, in the central part prominent formation upward of described adsorption plate 110;

Engaging portion 130, has ring-type, and the inner peripheral surface along described post 120 is formed; And

Spire 140, is formed on the outer surface top of described post 120.

Adsorption plate 110 is adsorbed on the arranging in object surface 10 of glass plate, tile panel etc., and includes internal reinforcement thing 111 and crust 112, and described stiffener 111 has elasticity and is connected to post 120, and described crust 112 surrounds stiffener 111.

Stiffener 111 is made up of synthetic resin materials such as the Merlon of excellent spring. Stiffener 111 absorbing unit is adsorbed in arrange in object surface 10 before keep the state of smooth expansion, and absorbing unit is adsorbed in arrange in object surface 10 time by the rotation of following cap, elastic deformation is dome-shaped.

Crust 112 is made up of the synthetic rubber material of silicone rubber, polyurethane rubber etc., surround stiffener 111, arrange in object surface 10 thus being close to when adsorbing absorbing unit so that described crust 112 blocks adsorption plate 110 and the air flowing arranged between object surface 10.

At this, stiffener 111 may be formed to have the length more shorter than crust 112, thus having by the following non-pressurized structure of lid 200, and, stiffener 111 may be formed to have as required and seems identical length with crust 112, thus having the structure of covered 200 pressurizations simultaneously together with crust 112.

Engaging portion 130 is arranged in the way of crossing the inside center portion of post. The inside edge of engaging portion 130 is prominent is formed with support portion 131, and described support portion 131 surrounds the bar 320 of following piston element 300 so that piston element 300 carries out lifting action flexibly.

Lid 200 surrounds and supports adsorption orifice 100, the central part of described lid 200 is provided with the through hole 210 liftably inserted by the post 120 of adsorption orifice 100, and the spire 140 of adsorption orifice 100 is inserted into post 120 by described through hole 210 in the way of the exposure of top, thus described lid 200 supports the top edge of adsorption plate 110.

Lid 200 includes the lid post 230 of dome-type lid 220 and the central part formation protruding above at lid 220, and, described through hole 210 is provided so that the central part of the through lid 220 of described through hole 210 and lid post 230.

Lid 220 provides described adsorption plate 110 elastic deformation to be dome-type space, and lid post 230 surrounds the post 120 of adsorption orifice 100 so that post 120 carries out lifting action flexibly.

Piston element 300 is liftably inserted into inside the post 120 of adsorption orifice 100, and includes: head 310, is arranged on the downside of the engaging portion 130 of adsorption orifice 100, and its outer surface is adjacent with the inner peripheral surface of post 120; And bar 320, in the central part prominent formation upward of head 310 so that described bar 320 exposes to the upside of engaging portion 130.

Referring to figs. 1 through Fig. 5, head 310 has the structure that its outer surface upwards somewhat extends, and the upper end-face edge of described head 310 is formed with protrusion 311, and described protrusion 311 highlights upward so that described protrusion 311 is adjacent with the inner peripheral surface of post 120.

And, now head 310 is the same with the crust 112 of adsorption plate 110 is made up of tartan, prevent upside air from passing through to downside thus head 310 has when rising mobile or stopping at piston element 300, and the structure making lower air easily spill to upside when piston element 300 decline is mobile. .

Result, when adsorption plate 110 is close to the state lower piston parts 300 decline movement arranged in object surface 10, the air being full of in the downside of head 310 makes described protrusion 311 shrink to the inside and be discharged by head 310, hereafter when piston element 300 rises mobile again, air between the upside and the downside that are blocked head 310 by protrusion 311 is circulated, head 310 rises mobile, and therefore vacuum pressure occurs in the inner space of adsorption orifice 100.

Push mechanism 400 is arranged in the upside of adsorption orifice 100, and the bar 320 of the piston element 300 exposed with the upside of the engaging portion 130 to adsorption orifice 100 is combined, to carry out lifting action together with piston element 300.

Compression spring 500 is made up of known helical spring, and described compression spring 500 is inserted into the outside of post 120, and between engaging portion 130 and push mechanism 400, with upwards pressurizing urges parts 400 and piston element 300.

Cap 600 is arranged in the upside of lid 200, and include hollow bulb 610 and corresponding spire 620, described hollow bulb 610 is formed at the central part up/down perforation of described cap 600, and described corresponding spire 620 is formed in the inner peripheral surface bottom of hollow bulb 610 and is combined with the spire 140 of adsorption orifice 100.

Corresponding spire 620 is set to be arranged in the lower half of hollow bulb 610, thus the first half of hollow bulb 610 is arranged in the upside of post 120 when spire 140 combines with corresponding spire 620, with the space providing push mechanism 400 to be inserted into.

Cap 600 be arranged such that cap 600 when with spire 140 in conjunction with, above adjacent by the elastic force of attached plate 110 and lid post 230, thus cap 600 makes post 120 carry out lifting action by spinning movement.

It addition, absorbing unit of the present utility model may also include the hook part 700 between lid 200 and cap 600.

Hook part 700 is used for supporting various article, when being inserted into lid post 230, is fixed between lid 200 and cap 600 by being incorporated into the cap 600 of spire 140.

At the present embodiment, although be annular by hook part 700 schematic representations, but hook part 700 could be formed with the ring for hanging towel etc. or rod as required, or for putting the rack etc. of fancy soap etc.

Below the setting up procedure of the absorbing unit according to an embodiment of the present utility model is illustrated.

As it is shown in figure 1, be arranged to below adsorption plate 110 and when arranging pressurizing urges parts 400 object surface 10 adjoins, as in figure 2 it is shown, compression spring 500 is by compression, move thus push mechanism 400 and piston element 300 decline.

Hereafter, when releasing the pressure that push mechanism 400 is applied, as shown in Figure 3, resiled by the compression spring 500 of compression, thus push mechanism 400 and piston element 300 somewhat rise, now there is vacuum pressure in the inner space of the adsorption orifice 100 being formed on the downside of piston element 300, arrange in object surface 10 thus adsorption orifice 100 is attracted to.

Hereafter, when making cap 600 rotate, as shown in Figure 4, along with post 120 rises mobile, adsorption plate 110 elastic deformation is dome-shaped, thus there is bigger vacuum pressure in the inner space of the adsorption orifice 100 being formed on the downside of piston element 300, therefore adsorption orifice 100 is more firmly adsorbed on and arranges in object surface 10.

Result, absorbing unit of the present utility model has piston element 300 vertical motion by compressing spring 500 and the double manifold vacuum recurring structure of the vertical motion by the post 120 of the rotation of cap 600, thus having the effect that can improve the absorption affinity arranging object surface 10.

As shown in Figure 4, when terminating to arrange absorbing unit, the air of trace is flowed into the inner space of the adsorption orifice 100 of the downside being formed at piston element 300 by vacuum pressure, now, piston element 300 rises by compressing spring 500, to keep certain vacuum state such that it is able to prevent from reducing because air flows into the absorption affinity caused, therefore can keep the absorption affinity of adsorption orifice 100 for a long time.

And, as shown in Figure 5, along with the air being flowed into the inner space being formed at the adsorption orifice 100 on the downside of piston element 300 is accumulated, the rising quantitative change of piston element 300 is big, when the absorption affinity of adsorption orifice 100 reduces, user only carrys out the absorption affinity that can easily recover to reduce by action push mechanism 400 single-tap of rising pressurizeed.

Additionally, the outer surface of push mechanism 400 is formed with recognition unit 410, recognition unit 410 exposes to the upside of described cap 600 when described piston element 300 rises, and hidden to the inner side of described cap 600 when described piston element 300 declines.

As a result, as it is shown in figure 5, when piston element 300 rises to certain altitude and needs to recover absorption affinity, recognition unit 410 exposes to the upside of cap 600, so that the absorption affinity that user with the naked eye easily confirms adsorption orifice 100 reduces.

Above when this utility model is illustrated, it is illustrated for " the improving the absorbing unit of absorption affinity " with given shape and structure with reference to accompanying drawing, it is to be understood that this utility model is not limited to above-described embodiment, this utility model can be made various change in form and details by those skilled in the art under the premise of the spirit and scope limited without departing from appended claims, and these changes should also be as belonging to scope of the present utility model.

Claims (5)

1. the absorbing unit improving absorption affinity, it is characterised in that including:

Adsorption orifice (100), described adsorption orifice (100) including: adsorption plate (110), and described adsorption plate (110) is formed as ring-type, has elasticity;

Post (120), has cylindrical shape, in the central part prominent formation upward of described adsorption plate (110);

Engaging portion (130), has ring-type, and the inner peripheral surface along described post (120) is formed;

Spire (140), is formed on the outer surface top of described post (120);

Lid (200), the central part of described lid (200) is provided with the through hole (210) liftably inserted by described post (120), and described spire (140) is inserted into described post (120) in the way of the exposure of top, thus described lid (200) supports the top edge of described adsorption plate (110);

Piston element (300), liftably it is inserted into described post (120), and include: head (310), it is arranged in the downside of described engaging portion (130), and its outer surface is adjacent with the inner peripheral surface of described post (120);

Bar (320), in the central part prominent formation upward of described head (310) so that described bar (320) exposes to the upside of described engaging portion (130);

Push mechanism (400), the bar (320) of the piston element (300) that described push mechanism (400) exposes with the upside to described engaging portion (130) combines, to carry out lifting action together with piston element (300);

Compression spring (500), described compression spring (500) is between described engaging portion (130) and described push mechanism (400) so that described push mechanism (400) and described piston element (300) are upwards pressurizeed by described compression spring (500); And

Cap (600), described cap (600) is arranged in the upside of described lid (200), and include hollow bulb (610) and corresponding spire (620), described post (120) is made to carry out lifting action thereby through spinning movement, described hollow bulb (610) is formed at the central part up/down perforation of described cap (600), and described corresponding spire (620) is formed in the inner peripheral surface bottom of described hollow bulb (610) and combines with described spire (140).

2. the absorbing unit of raising absorption affinity according to claim 1, it is characterised in that

Described adsorption plate (110) including:

Internal reinforcement thing (111), has elasticity, is connected with described post (120); And

Crust (112), is made up of tartan, surrounds described stiffener (111).

3. the absorbing unit of raising absorption affinity according to claim 1, it is characterised in that

The head (310) of described piston element (300) has the structure that its outer surface extends up, and, upper end-face edge at described head (310) is formed with protrusion (311), described protrusion (311) highlights upward so that described protrusion (311) is adjacent with the inner peripheral surface of described post (120).

4. the absorbing unit of raising absorption affinity according to claim 1, it is characterized in that, the outer surface of the head (310) of described piston element (300) is inserted with sealing member (312), described sealing member (312) is made to be close to the inner peripheral surface of described post (120), and the lower end of described post (120) is formed with wide diameter portion (121), described wide diameter portion (121) does not contact with described sealing member (312) when piston element (300) declines.

5. the absorbing unit of raising absorption affinity according to any one of claim 1 to 4, it is characterized in that, the outer surface of described push mechanism (400) is formed with recognition unit (410), described recognition unit (410) exposes to the upside of described cap (600) when described piston element (300) rises, and hidden to the inner side of described cap (600) when described piston element (300) declines.