CN201074632Y

CN201074632Y - Multifunctional vacuum adsorption mechanism

Info

Publication number: CN201074632Y
Application number: CNU2007201482613U
Authority: CN
Inventors: 禹喆锡
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-02-09
Filing date: 2007-05-15
Publication date: 2008-06-18
Anticipated expiration: 2017-05-15

Abstract

The utility model relates to a multi-functional vacuum adsorbing mechanism, which comprises a vacuum adsorbing plate, wherein a cylinder-shaped multi-functional connecting component is formed vertically and visibly, a combining slot is arranged in the upper surface center of the multi-functional connecting component. The vacuum adsorbing plate is supported by an approximately cylinder-shaped lower portion supporting platform in a status that the approximately cylinder-shaped lower portion supporting platform is folded on the upper portion of the vacuum adsorbing plate, the multi-functional connecting component of the vacuum adsorbing plate is dragged by an adsorbing plate movement component due to rotating upward separation in the status that the adsorbing plate movement component is folded on the upper portion of the lower portion supporting platform, recovering power is given by an elastic component to rotation of the adsorbing plate movement component, a decorating component is vertically combined on the multi-functional connecting component of the vacuum adsorbing plate. elastic component elasticity is used by the multi-functional vacuum adsorbing mechanism to enable rotating adsorbing plate movements always to be directed to an original position, thereby maximum adsorptive power is produced when the adsorbing mechanism is adhered on an adhered surface through using the elastic component elasticity, and both advertising effects and decorating effects can be obtained through various decorating components which can also be used as hook components.

Description

The multifunctional vacuum adsorbing mechanism

Technical field

The utility model relates to a kind of multifunctional vacuum adsorbing mechanism, can be easily carry out installing/dismounting with respect to the face that is attached of smooth surfaces such as glass, ceramic tile and hard, can make its adsorption force maximization, can obtain in conjunction with multiple ornamental component decorating and advertising results.

Background technique

Usually, in order to tangle at ganoid position such as glass, ceramic tile or to adhere to towel extension, toilet paper extension etc., model utility is also used multiple adsorbing mechanism, and it is made of adsorption board and action plate usually, and described adsorption board connects airtight and produces extruding force being attached on the face; Described action plate pulls the central part of above-mentioned adsorption board and the central part bottom surface is promoted, thus in above-mentioned central part bottom surface be attached and form vacuum between the face and produce adsorption force.

Proposed a lot of raisings and pulled the central part of above-mentioned adsorption board and the central part bottom surface is promoted, thus in the central authorities of above-mentioned adsorption board bottom surface be attached the method that forms the adsorption force that produces in the vacuum of vacuum between the face, one of them example is as follows.

Can be easily carry out installing/dismounting with respect to the face that is attached of smooth surfaces such as glass, ceramic tile and hard, and can produce in the method for improvement of strong adsorption force, in No. the 400530th, Korea S's login model utility that the applicant applied for, disclose " can with respect to the banner hanger of glass surface installing/dismounting ".

Fig. 1 is the part perspective view of wanting portion of existing multifunctional vacuum adsorbing mechanism; Fig. 2 is the perspective exploded view of the main structure of the existing multifunctional vacuum adsorbing mechanism of expression.

The structure of existing multifunctional vacuum adsorbing mechanism is as follows: having on the vacuum suction member 10 of vacuum adsorption plate 11, lower support platform 12, adsorption board actuating member 13 in conjunction with also making up successively, be combined with the bar support 20 that carries out to indexing combination easily, end at the bar 22 of the bar patchhole 21 of insertion rod supporting element 20, in conjunction with advertisement each edge part, thereby utilize banner to can be used as desirable advertisement or propaganda with banner.

The vacuum suction member 10 of above-mentioned multifunctional vacuum adsorbing mechanism is made up of following member: discoid vacuum adsorption plate 11, has flat bottom surface, be extruded with absorption hook projection 11B in the central authorities of adsorption board 11A, be formed with a plurality of fixed projection 11A1 along the upper surface peripheral portion of described adsorption board; Lower support platform 12 comprises: the 12A of base ring portion of ring-type, connect airtight on the upper surface peripheral portion of vacuum adsorption plate 11; The 12B of sloped sidewall portion is conical wall and prolongs along the inner peripheral surface of the above-mentioned base ring 12A of portion; Fixed projection hook groove 12A1, along the inner peripheral surface formation of the 12B of sloped sidewall portion, 11A1 combines with the said fixing projection; With action rib 12C, prolong obliquely and form along the upper end peripheral portion of the above-mentioned sloped sidewall 12B of portion; And adsorption board actuating member 13, comprising: the conical the first side wall 13A of portion, external with the outer circumferential face of the above-mentioned sloped sidewall 12B of portion; Rib direction protrusion 13A1, is directed respectively on above-mentioned action rib 12C with equidistant formation at the inner peripheral surface of the described the first side wall 13A of portion; Plane upper base 13B is integrally formed at the upper end portion of the 13A of the first side wall portion; The second side wall portion 13C prolongs with taper shape from the central part of upper base 13B and to form; Absorption hook nipple support part 13D prolongs downwards from the central part of the second side wall portion 13C, inserts the top of fixing absorption hook projection 11B in its underpart; With ball joint conjunction 13E, be combined in the top of absorption hook nipple support part 13D.

At this moment,, utilize rivet or screw etc. to fix soft friction member 14, thereby the insertion of ball-and-socket joint and dismounting become easily in the inboard of above-mentioned ball joint conjunction 13E, and can change easily and keep above-mentioned banner towards angle.

The process that above-mentioned vacuum suction member 10 is adsorbed is as follows: the bottom surface that makes vacuum adsorption plate 11 is with after the face of being attached contacts, push as the adsorption board actuating member 13 of the member of top with palm and it is rotated in a clockwise direction, each rib direction protrusion 13A1 of above-mentioned adsorption board actuating member 13 is directed on the action rib 12C that is formed slopely and carries out lifting, thus, above-mentioned adsorption board actuating member 13 integral body are to moving away from the direction that is attached face.

Promptly, when adsorption board actuating member 13 separated from being attached face, absorption hook nipple support part 13D also rose together, thus, the absorption that combines with its hook hook projection 11B is pulled, thereby at the central part of above-mentioned vacuum adsorption plate 11 be attached and form vacuum between the face and produce adsorption force.

The following structure of above-mentioned existing vacuum suction member 10: the rib direction protrusion 13A1 of adsorption board actuating member 13 begins to slide and can produce maximum adsorption force from the initial position (lowest part) of the action rib 12C of lower support platform 12.

But, the rib direction protrusion 13A1 of above-mentioned actuating member 13 from be not lower support platform 12 action rib 12C initial position (lowest part) for example move the neutral position of rib 12C when beginning to slide, the distance that the central part of above-mentioned adsorption board 11A is raised shortens relatively, its result, must make at the central part of above-mentioned adsorption board 11A and be attached the adsorption force that forms between the face to die down relatively, thereby have the problem that to expect sufficient adsorption force.

And, there is following shortcoming in above-mentioned vacuum suction member: can only be in conjunction with the bar that can shelve banner on the bar support that top was provided with of vacuum suction member, except the special purpose of banner hanger and so on, can not utilize the vacuum suction member to play decorative effect and advertising results and as the multiple effect of suspension member.

Summary of the invention

The technical problems to be solved in the utility model is intended to overcome the deficiency of above-mentioned prior art, a kind of multifunctional vacuum adsorbing mechanism is provided, by resilient member make for adsorption board attached to being attached on the face and repeatedly the actuating member of rotation always be positioned at initial position, make the angle of rotation of actuating member become maximum and adsorption force that produced also becomes maximum, but also can play multiple decoration and advertising effect.

Above-mentioned purpose of the present utility model returns to the resilient member of initial position by the actuating member that makes rotation repeatedly and but the installation component of installing/dismounting ground insertion combination is reached.

The technical solution adopted in the utility model is:

The multifunctional vacuum adsorbing mechanism, its technical characteristics is, can be under the state of giving with the adsorption force of the smooth adsorption board maximum in bottom surface attached to being attached on the face, can be at an upper portion thereof in conjunction with multiple ornamental component as suspension member, can also obtain advertisement and the effect of publicity.

Above-mentioned vacuum suction mechanism comprises: vacuum adsorption plate, and it is have flat bottom surface discoid, vertically outstandingly is formed with multi-functional link cylindraceous, has engagement groove in the upper face center of this multi-functional link; The lower support platform of general cylindrical shape supports vacuum adsorption plate with the state on the top that is layered in vacuum adsorption plate, has along the action rib of upper end peripheral portion equidistantly to prolong obliquely; The adsorption board actuating member with the state on the top that is layered in the lower support platform, upwards pulls the multi-functional link of vacuum adsorption plate when upwards separate the plane of inclination of action rib because of rotation; Resilient member surrounds the combination integrally of link supporting element, is returned to the elastic force of original position with making actuating member; The ornamental component of multiple shape, vertical junction are combined on the multi-functional link of vacuum adsorption plate, and each constituting component is specific as follows described.

Above-mentioned vacuum adsorption plate comprises: the soft adsorption board of disc-shape has flat bottom surface; A plurality of fixed projections form along the upper surface peripheral portion of adsorption board is outstanding; Discoid hard hook projection base is given prominence to stepped in the upper face center portion of adsorption board, and a surperficial thereon side has the spring fixed projection; With columnar multi-functional link, the outstanding formation of upper face center at hook projection base is formed with the link hanging platform along outer circumferential face.

At this moment, adsorption board one side prolongation at above-mentioned vacuum adsorption plate is formed with semicircular separator, desire can utilize separator easily to separate from being attached when face separates adsorption board, on above-mentioned multi-functional link, surperficial thereon mediad down form engagement groove and on engagement groove in conjunction with multiple ornamental component.

At this, the material of above-mentioned discoid adsorption board is soft, comprises that on the other hand the material of hook projection base of the central part of spring fixed projection is a hard, and above-mentioned hook projection base and above-mentioned soft adsorption board are integrally formed and form.

Thus, be located at the multi-functional link of the central part of above-mentioned hook projection base, be formed at each hanging platform hook plate of the link supporting element that hangs up adsorption board actuating member described later on the link hanging platform on its outer circumferential face and pulled along vertical top, because of the central part of the above-mentioned vacuum adsorption plate bottom surface that is raised be attached the vacuum state that forms between the face, produce strong adsorption force betwixt and be supported and fixed on the face of being attached securely.

And, the a plurality of fixed projections that form along the upper surface peripheral portion of above-mentioned vacuum adsorption plate, be hooked on respectively in the fixed projection hook groove of lower support platform described later, this is in order to remove in the process of the central part that pulls above-mentioned vacuum adsorption plate in order to make the rotation of above-mentioned adsorption board actuating member, the influence of the rotating force that will rotate because of the above-mentioned lower support platform of the frictional force of above-mentioned actuating member between the rib direction protrusion.

Promptly, the power of above-mentioned adsorption board actuating member rotation, in being hooked into the process of fixed projection hook groove respectively, above-mentioned a plurality of fixed projections are prevented from and inoperative, when above-mentioned rotating force is directly delivered to above-mentioned vacuum adsorption plate, above-mentioned vacuum adsorption plate can slide being attached on the face, can hinder the formation of vacuum state thus.

Above-mentioned lower support platform comprises: the base ring portion of ring-type, connect airtight on the upper surface peripheral portion of above-mentioned vacuum adsorption plate, and be formed with a plurality of fixed projection hook grooves that combine with the said fixing projection along its inner circumference edge portion; Side wall portion is along the upwards prolongation formation erectly of above-mentioned base ring portion's edge part; With the action rib, prolong equidistantly to form the plane of inclination mutually along the upper end peripheral portion of above-mentioned side wall portion.

Above-mentioned base ring portion is the member that connects airtight the upper surface peripheral portion that supports the vacuum adsorption plate that forms vacuum, be the outermost edges portion that supports the smooth discoid vacuum adsorption plate in bottom surface by connecting airtight, continue to keep the main member of this state under the state that connects airtight the power maximum that the hook projection base of the central part of above-mentioned vacuum adsorption plate is caused by the vacuum that pulls and generate.

In addition, prolong the sidewall that forms at upper side along above-mentioned base ring portion, equidistantly to be formed with a plurality of action ribs as the guide surface that tilts, has the projection mounting groove that is used for mounting rib direction protrusion in the upper end portion of each plane of inclination, along with adsorption board actuating member rotation, after a plurality of rib direction protrusions are directed along the plane of inclination of above-mentioned action rib, mounting is kept in the process of carrying state in above-mentioned projection mounting groove, when rotating, separates above-mentioned adsorption board actuating member from being attached face, from being attached the effect that face separates, the hook projection base of the vacuum adsorption plate that combines with it is upwards pulled by like this.

Above-mentioned adsorption board actuating member comprises: columnar side wall portion and connects in the side wall portion outer circumferential face of above-mentioned lower support platform; The rib direction protrusion equidistantly to be formed on the side wall portion inner peripheral surface, is directed on above-mentioned action rib respectively; As the upper base of horizontal plane, integrally formed with the upper end portion of above-mentioned side wall portion, have perforation in the central; With a plurality of link supporting elements, prolong downwards from the perforation inner peripheral surface of upper base, its underpart is hooked on the link hanging platform.

At this moment, above-mentioned link supporting element is circular arc in the one end and in conjunction with the hook plate that has to " " shape of the outstanding hanging platform that forms of central authorities, rotatably is hooked on the above-mentioned link hanging platform by above-mentioned hanging platform, thereby pulls above-mentioned hook projection base.

The resilient member of multifunctional vacuum adsorbing mechanism of the present utility model, encirclement prolongs downwards along the perforation of adsorption board actuating member and forms and be the link supporting element integral body of round shape, two end part are fixed on respectively on the slit and spring fixed projection between two link supporting elements of adjacency, and it is made of rubber-like spring etc.

At this moment, above-mentioned resilient member is that the rib direction protrusion that makes the adsorption board actuating member is that minimum place begins to slide and it is carried out the member of original positionization from the initial position of the action rib of lower support platform always, when originally assembling, need be wrapped in the state that connects the supporting element outer circumferential face with the regulation number of turns and assemble, get back to the elastic force of initial position of the action rib of lower support platform can give with always making above-mentioned rib direction protrusion.

And above-mentioned ornamental component comprises: flagpole, its underpart insert in the engagement groove that the multi-functional link upper face center that is combined in vacuum adsorption plate had, and run through the perforation of adsorption board actuating member and give prominence to; And ornamental piece, be combined in the top of flagpole.

At this moment, but flagpole with respect to the engagement groove secure bond of vacuum adsorption plate or carry out combination discretely, surfacing end can play multiple decorative effect with multiple shape and size, or the record advertising words plays turning effort.

Promptly, above-mentioned ornamental piece is constituted the effect that can obtain decorating under the situation of models such as various roles, also can constitute universal model and be used as the suspension member that to hang towel, clothes etc., also can constitute clip etc. and can clamp note etc., in addition, can also utilize vacuum adsorption plate be attached adhere to vacuum suction of the present utility model mechanism on the face after, the outstanding ornamental piece in subtend top carries out multiple variation and as various uses.

Compared with the prior art multifunctional vacuum adsorbing mechanism of the present utility model has following good effect: the elastic force of utilizing resilient member, make the adsorption board actuating member of rotation always be subjected to making it to return to the elastic force of original position, thereby with adsorbing mechanism when being attached on the face, can produce maximum adsorption force, not only can play advertising results by multiple ornamental component, can also play decorative effect, and can be used as suspension member etc.

About specifying of above-mentioned the purpose of this utility model and technology formation and corresponding action effect, can be shown with the clear and definite and understanding of following explanation of the accompanying drawing of preferred embodiment of the present utility model by reference figure.

Description of drawings

Fig. 1 is the part perspective view of wanting portion of existing adsorbing mechanism.

Fig. 2 is the perspective exploded view of the main structure of existing adsorbing mechanism.

Fig. 3 is the perspective view of multifunctional vacuum adsorbing mechanism of the present utility model.

Fig. 4 is the perspective exploded view of multifunctional vacuum adsorbing mechanism of the present utility model.

Fig. 5 adheres to multifunctional vacuum adsorbing mechanism of the present utility model preceding sectional view and part perspective view.

Fig. 6 adheres to multifunctional vacuum adsorbing mechanism of the present utility model forward and backward part underside perspective view and sectional view.

Fig. 7 is the perspective view of action of the spring of multifunctional vacuum adsorbing mechanism of the present utility model.

Fig. 8 is the ornamental component embodiment's of a multifunctional vacuum adsorbing mechanism of the present utility model perspective view.

Fig. 9 is the ornamental component embodiment's of multifunctional vacuum adsorbing mechanism of the present utility model user mode figure.

Embodiment

Illustrate the perspective view of multifunctional vacuum adsorbing mechanism of the present utility model at Fig. 3; Illustrate the perspective exploded view of multifunctional vacuum adsorbing mechanism of the present utility model at Fig. 4; Illustrate part perspective view and sectional view before being to adhere to multifunctional vacuum adsorbing mechanism of the present utility model at Fig. 5; Illustrate at Fig. 6 and to adhere to multifunctional vacuum adsorbing mechanism of the present utility model forward and backward part underside perspective view and sectional view; Illustrate the perspective view of the situation of the spring action of representing multifunctional vacuum adsorbing mechanism of the present utility model at Fig. 7.

As shown in the figure, multifunctional vacuum adsorbing mechanism of the present utility model is made of following member:

Vacuum adsorption plate 30 comprises: the adsorption board 31 of disc-shape has flat bottom surface; A plurality of fixed projection 31A form along the upper surface peripheral portion of adsorption board 31 is outstanding; Discoid hook projection base 32 is given prominence to stepped in the upper face center of adsorption board 31, and a surperficial thereon side has spring fixed projection S; With columnar multi-functional link 33, the outstanding formation of upper face center at hook projection base 32 is extruded with link hanging platform 33A along outer circumferential face, has engagement groove 33B in upper face center;

Lower support platform 40 comprises: the base ring portion 41 of ring-type, connect airtight on the upper surface peripheral portion of above-mentioned vacuum adsorption plate 30, and be formed with a plurality of fixed projection hook groove 41A that combine with said fixing projection 31A along its inner circumference edge portion; Side wall portion 42 is along the upwards prolongation formation erectly of above-mentioned base ring portion's 41 edge parts; With action rib 43, prolong equidistantly to form the plane of inclination mutually along the upper end peripheral portion of above-mentioned side wall portion 42;

Adsorption board actuating member 50 comprises: columnar side wall portion 51 and connects (original text is wrong, should be " external " herein) in side wall portion 42 outer circumferential faces of above-mentioned lower support platform 40; Rib direction protrusion 52 equidistantly to be formed on side wall portion 51 inner peripheral surfaces, is directed on above-mentioned action rib 43 respectively; Plane upper base 53, integrally formed with the upper end portion of above-mentioned side wall portion 51, have perforation H in the central; With a plurality of link supporting elements 54, prolong downwards from the perforation H inner peripheral surface of upper base 53, its underpart is hooked on the link hanging platform 33A;

The resilient member 60 of spring etc., encirclement prolongs downwards along the perforation H of above-mentioned adsorption board actuating member 50 and forms and be link supporting element 54 integral body of round shape, and two end part are fixed on respectively on the slit and spring fixed projection S between two link supporting elements 54 of adjacency; And

Ornamental component comprises: flagpole 71, its underpart insert among the engagement groove 33B that multi-functional link 33 upper face center that are combined in above-mentioned vacuum adsorption plate 30 are had, and run through the perforation H of adsorption board actuating member 50 and give prominence to; With ornamental piece 72, be combined in the top of flagpole 71.

The vacuum adsorption plate of the multifunctional vacuum adsorbing mechanism of being made up of said structure of the present utility model adheres to forward and backward process, as shown in Figure 6, because of above-mentioned resilient member 60, the rib direction protrusion 52 of adsorption board actuating member 50 is positioned under the state that descends plane most of above-mentioned action rib 43 plane of inclination, under the state of the side wall portion 51 of catching above-mentioned adsorption board actuating member 50 with hand, push above-mentioned upper base 53 and it is rotated in a clockwise direction.

As mentioned above, when making upper base 53 rotations, the rib direction protrusion 52 that is integrally formed on the side wall portion 51 of above-mentioned adsorption board actuating member 50 slides along the plane of inclination of the action rib 43 of above-mentioned lower support platform 40, thereby upwards side direction moves gradually, thus, the link hanging platform 33A that is hooked on the vacuum adsorption plate 30 on a plurality of link supporting elements 54 that the central part of the upper base 53 of above-mentioned adsorption board actuating member 50 is provided be subjected to tensile force and upwards side direction pulled.

Thus, when link hanging platform 33A was pulled, the central part bottom surface of the adsorption board 31 of above-mentioned vacuum adsorption plate 30 was raised and forms vacuum between face and the adsorption board 31 being attached, thereby produced adsorption force.

At this moment, has following structure according to multifunctional vacuum adsorbing mechanism of the present utility model: because of above-mentioned resilient member 60, the rib direction protrusion 52 of adsorption board actuating member 50 moves to the upper face from the state that descends most plane of the plane of inclination that is positioned at above-mentioned action rib 43, thus, the adsorption board 21 central part bottom surfaces of above-mentioned vacuum adsorption plate 20 are promoted to the position of upper from the smooth state of minimum bit position, thereby produce the adsorption force based on vacuum to greatest extent.

As mentioned above, always can produce during for each use adsorbing mechanism of the present utility model for the maximum adsorption force, what play maximum effect promptly is resilient member 60, and the action of spring of an example that is used as resilient member 60 in the utility model is as described below.

As shown in Figure 7, resilient member 60 of the present utility model is that the rib direction protrusion 52 that makes above-mentioned adsorption board actuating member 50 is that minimum place begins to slide and it is carried out the member of original positionization from the initial position of the action rib 43 of lower support platform 40 always, one end hangs on the above-mentioned spring fixed projection S, the other end hangs in the slit between the link supporting element 54 that is formed at adjacency and carries out combination, when at first multifunctional vacuum adsorbing mechanism of the present utility model being assembled, assembling at the state that twines with the regulation number of turns, getting back to the elastic force of initial position of the action rib 43 of lower support platform 40 can give with always making above-mentioned rib direction protrusion 52.

Thus, as shown in Figure 7, adsorption board actuating member 50 is rotated in a clockwise direction and produces adsorption force, thereby and after using attached to being attached on the face, want to remove under the situation of this attachment state, because of the recuperability of above-mentioned resilient member 60, the rib direction protrusion 52 of the side wall portion 51 of above-mentioned adsorption board actuating member 50 on above-mentioned action rib 43 to lower slider and downwards side direction move, thereby finally be positioned at the most the next of above-mentioned action rib 43 upper surfaces.

And, continue to keep the state that is in original position, in use afterwards, the rib projection 52 that always makes above-mentioned adsorption board actuating member 50 is that minimum place begins to slide from the initial position of the action rib 43 of lower support platform 40.

In addition, the multi-functional link 33 that exposes vacuum adsorption plate 30 externally at the perforation H by adsorption board actuating member 50 is combined with ornamental component 70, the flagpole 71 of ornamental component 70 runs through the perforation H of adsorption board actuating member 50 and its underpart can be directly carried out secure bond or carried out combination discretely with respect to the engagement groove 33B of multi-functional link 33, and in the upper end portion of flagpole 71 in conjunction with multiple ornamental piece 72.

At this moment, as shown in Figure 8, above-mentioned ornamental piece 72 can constitute variform and structure, can be used for various uses according to 72.

Promptly, shown in Fig. 8 (), utilization has the ornamental piece 72 of multiple shape as the suspension member that can hang cap, towel etc., particularly under the situation of cap etc., can after adhering to adsorbing mechanism of the present utility model on the glass door of balcony, on ornamental piece, hang cap, thereby be used to sterilize and the function of drying etc., also can be shown in Fig. 8 (), multiple advertising words is set and is used for propaganda.

In addition, also can be shown in Fig. 8 (), in the upper end portion of flagpole 71 in conjunction with clip, with vacuum adsorption plate of the present utility model attached to windshield of vehicle etc. after, utilize clip to clamp note or business card etc. and use.

At this moment, above-mentioned flagpole 71 and ornamental piece 72 also can be combined in discretely respectively as required on multi-functional link 33 and the flagpole 71 and change use.

Illustrate several use embodiments beyond the foregoing description at Fig. 9, can be shown in Fig. 9 (), on the flagpole 71 of ornamental component 70, replace ornamental piece 72 and, thereby can hang article more easily additionally in conjunction with another hook R; Also can be shown in Fig. 9 (), the ornamental piece 72 that is combined in the end of flagpole 71 is made into the ball shape with radius bigger than the radius of flagpole 71, thus the complementary suspension member that clothes hanging etc. comes off when preventing from flagpole to hang clothes hanging etc. by spherical ornamental piece 72.

In addition, () of Fig. 9, the same with Fig. 9 (), form by flagpole 71 and spherical ornamental piece 72, the length that its structure makes flagpole 71 is long relatively and can be in conjunction with multiple flag on flagpole, preferably, be provided with and connect airtight on the outer circumferential face that is combined in flagpole but the friction member F that can move about, can continue to keep the state that the flag on the flagpole 71 partly launches that is combined in.

That is, by a pair of friction member F that rubber etc. forms, make the hook that is combined in the flag on the flagpole 71 lay respectively at the outside of friction member F, thus fixing by friction member F, fixedly the hook position of flag in the outer circumferential face setting of flagpole 71.

At this moment, as mentioned above, desire at ornamental component 70 during in conjunction with flag, owing to have only a side end of the long flagpole 71 of relative length to be combined among the engagement groove 33B of vacuum adsorption plate 30, thereby its combination force may a little less than, thereby can additionally be provided for connecting the supporting member 50 ' of flagpole and adsorbing mechanism at a side end of the flagpole 71 that is combined in engagement groove 33B.

Claims

1. a multifunctional vacuum adsorbing mechanism is characterized in that, is made of following member: vacuum adsorption plate (30) comprising: discoid adsorption board (31) has flat bottom surface; Multi-functional link (33), the outstanding formation of upper face center at described adsorption board (31) has link hanging platform (33A) along outer circumferential face; Engagement groove (33B) is located at the upper face center of multi-functional link (33); With spring fixed projection (31A), be located at upper surface one side of described adsorption board (31);

Lower support platform (40) comprising: the base ring portion (41) of ring-type, connect airtight on the upper surface peripheral portion of described vacuum adsorption plate (30); Side wall portion (42) erectly prolongs along the inner peripheral surface of base ring portion (41); With action rib (43), along the upper end peripheral portion of side wall portion (42) equidistantly to prolong mutually;

Adsorption board actuating member (50) comprising: columnar side wall portion (51), and external with side wall portion (42) outer circumferential face of described lower support platform (40); Rib direction protrusion (52) equidistantly to be formed on side wall portion (51) inner peripheral surface, is directed on described action rib (43) respectively; As the upper base (53) of horizontal plane, integrally formed with the upper end portion of described side wall portion (51), have perforation (H) in the central; With a plurality of link supporting elements (54), prolong downwards from perforation (H) inner peripheral surface of upper base (53), its underpart is hooked on the link hanging platform (33A);

The resilient member of spring etc. (60), surround link supporting element (54) integral body of described adsorption board actuating member (50), two end part are fixed on two link supporting elements of adjacency respectively (on the spring fixed projection (31A) of slit between 54 and vacuum adsorption plate (30); And ornamental component, comprising: flagpole (71), its underpart is inserted and is combined in multi-functional link (33) engagement groove (33B) that upper face center had of described vacuum adsorption plate (30), runs through the perforation (H) of adsorption board actuating member (50) and gives prominence to; And ornamental piece (72), be combined in the top of flagpole (71).

2. multifunctional vacuum adsorbing mechanism according to claim 1 is characterized in that, goes up along the outstanding a plurality of fixed projections (31A) that are formed with of the upper surface peripheral portion of adsorption board (31) at described vacuum adsorption plate (30);

In the base ring portion (41) of connecting airtight, be formed with a plurality of fixed projection hook grooves (41A) that are used for inserting in conjunction with described fixed projection (31A) along inner circumference edge portion at the lower support platform (40) of the upper surface peripheral portion of adsorption board (31).

3. multifunctional vacuum adsorbing mechanism according to claim 1 is characterized in that, the action rib (43) of described lower support platform (40) is provided with the projection mounting groove (43A) that is used for the described rib direction protrusion of mounting (52) in each upper end portion.

4. multifunctional vacuum adsorbing mechanism according to claim 1, it is characterized in that, each link supporting element of described adsorption board actuating member (50), have the hanging platform hook plate (54A) of an end to outstanding " " shape of central authorities, this hanging platform hook plate (54A) is hooked on the link hanging platform (33A) of described vacuum adsorption plate (30).

5. multifunctional vacuum adsorbing mechanism according to claim 1 is characterized in that, described resilient member (60) is a disc spring.

6. multifunctional vacuum adsorbing mechanism according to claim 1 is characterized in that, the flagpole (71) of described ornamental component (70) and ornamental piece (72) can carry out combination respectively discretely.

7. multifunctional vacuum adsorbing mechanism according to claim 1 is characterized in that, in a side of the adsorption board (31) of described vacuum adsorption plate (30), prolongs and is formed with semicircle separator (31B).