CN209262587U - Absorption type support device - Google Patents

Abstract

The utility model relates to a kind of absorption type support devices, including a hold mode group and an adsorption structure.Branch hold mode group includes a pedestal for carrying a display module.Adsorption structure is set to the pedestal side, adsorption structure includes a fixing piece and a sucker, sucker slideably connects with fixing piece, sucker has a sliding part, an absorption layer and a dented space, one first central perforation of the sliding part, one second central perforation of the absorption layer and dented space connection.When the pedestal is set in a plane, the sucker slides into a first position relative to fixing piece along axis, stick harness blocks second central perforation, first central perforation and the dented space, second central perforation, first central perforation and the dented space is set to form a low vacuum state, the absorption layer adsorbing plane.

Description

Absorption type support device

Technical field

The utility model relates to a kind of absorption type support devices, are adsorbed in a plane in particular to one kind, and use In the absorption type support device for carrying a display module.

Background technique

Existing support device is usually placed on a desktop, for carrying a display module, so, due to existing support device When not being locked on desktop usually, therefore encountering shaking (such as earthquake either user's mobile desktop), existing support device It is all highly susceptible to rock and fall down, in addition display module has certain weight, display module related can not only be broken, be fallen down When be also easy to injure user.

Utility model content

One main purpose of the utility model is to provide a kind of absorption type support device, including an adsorption structure is set to Pedestal adsorbs a desktop by adsorption structure, support device can be made firmly to be tightly attached on desktop.

In order to achieve the above object, the utility model discloses a kind of absorption type support device, it is used to support a display module, the suction Attached formula support device includes a hold mode group and an adsorption structure.The branch hold mode group includes one for carrying the display module Pedestal.The adsorption structure is set to the pedestal side, which includes a fixing piece and a sucker.The fixing piece and the pedestal It is affixed, it can be converted relative between a first position, a crossover position and a second position, which has a stick harness, the suction Disk slideably connects with the fixing piece along an axis, which has a sliding part, an absorption layer and a dented space, the suction Attached pad is connect with the sliding part, and is separably adsorbed in a plane, one first central perforation of the sliding part, the absorption layer One second central perforation and the dented space connection.When the branch hold mode group is set in a plane with the pedestal, and this is fixed For part when the first position, which blocks second central perforation, makes first central perforation, second central perforation and is somebody's turn to do Dented space forms a low vacuum state, which adsorbs the plane.The branch hold mode group is somebody's turn to do towards separate when applying an external force In-plane is mobile, which enters the crossover position, and the absorption layer is still kept and the plane contact, and the fixing piece at this time The plane is gradually distance from the branch hold mode group, and the opposite sliding part slides, and the stick harness is with far from second central perforation, It allows first central perforation, second central perforation and the dented space to be connected to an external world, releases the low vacuum state whereby, Finally the fixing piece enters the second position, no longer slides with respect to the sliding part, and interlock the sliding part and the absorption layer, makes this Absorption layer can be detached from the plane.

When the pedestal is set in the plane, and the fixing piece is located at the second position, the stick harness is far from this in second Centre perforation, since the branch hold mode group and the fixing piece are by a gravity, which slides and flat towards this with respect to the sliding part Face is close, and into the crossover position, which touches the plane, while the absorption layer is squeezed, make first central perforation, Fluid in second central perforation and the dented space be pushed out and to the external world be discharged, until the fixing piece return to this first Second central perforation is blocked in position, the i.e. stick harness, forms the low vacuum state, which adsorbs the plane.

The fixing piece has a first noumenon and multiple hook bodies, the periphery for hooking body and being located at the first noumenon, the plug Column is set to the first noumenon, which has a sliding part, which has a side surface and multiple sliding slots, the sliding slot It is formed in the side surface of the sliding part, the hook body slideably hooks in the sliding slot, so that the sliding part is along the axis It is moved between the first position and the second position relative to the fixing piece.

The absorption layer also has one first adsorbent and one second adsorbent, which has one first indent Face, second adsorbent have one second inner concave, and first inner concave and second inner concave define recess sky jointly Between.First adsorbent is located between the sliding part and second adsorbent.

The fixing piece also has multiple guide grooves, and the guide groove is formed on the first noumenon, and surrounds the stick harness, the sliding Part also has a upper surface and a multiple protrusions, and the protrusion is located at the upper surface, and the protrusion be slidably disposed in it is described In guide groove.

The sliding part has an inner concave area, which is formed in the upper surface of the sliding part, the sliding part The upper surface connects with the side surface, and the inner concave area is opposite with second inner concave, and it is interior which is formed in this Concave regions, first central perforation are formed in a main body of second adsorbent, and first central perforation and second center Perforation connection, when the fixing piece is located at the first position, which is attached at the inner concave area with an outer convex globoidal, and blocks this Second central perforation makes first central perforation, second central perforation and the dented space form the low vacuum state.

The sliding part has the ring body being connected with the upper surface, which has multiple first positioning holes, The sliding part has multiple second location holes positioned at the ring body, and second adsorbent is multiple fixed in the main body with being formed in Position column, the positioning column are set in the second location hole by the first positioning hole, make first adsorbent by being somebody's turn to do Second adsorbent is fixed on the ring body of the sliding part.

In an embodiment of the present invention, the fixing piece and the pedestal are integrally formed.First adsorbent, second suction Attached body and the sliding part are one of the forming.One hardness of second adsorbent is greater than or equal to a hardness of first adsorbent.

For above-mentioned purpose, technical characteristic and advantage can be clearer and more comprehensible, hereafter carried out with preferred embodiment cooperation attached drawing It is described in detail.

Detailed description of the invention

Fig. 1 is a stereoscopic schematic diagram of the utility model absorption type support device；

Fig. 2 is another stereoscopic schematic diagram of the utility model absorption type support device；

Fig. 3 is a partial exploded view of the utility model absorption type support device；

Fig. 4 is a local actuation diagrammatic cross-section of the utility model absorption type support device；

Fig. 5 is another local actuation diagrammatic cross-section of the utility model absorption type support device；And

Fig. 6 is another local actuation diagrammatic cross-section of the utility model absorption type support device.

Description of symbols

1000 absorption type support devices

100 hold mode groups

1 pedestal

2 supporting elements

200 adsorption structures

3 fixing pieces

31 the first noumenons

32 hook body

33 stick harnesses

331 outer convex globoidals

34 guide grooves

4 suckers

41 sliding parts

411 upper surfaces

4111 inner concave areas

412 side surfaces

413 ring bodies

4131 columns

414 protrusions

415 second grooves

417 second central perforations

418 second location holes

419 sliding slots

42 absorption layers

421 first adsorbents

4211 first inner concaves

4212 first grooves

4213 hollow holes

4214 first positioning holes

422 second adsorbents

4221 main bodys

42211 cylinders

4222 second inner concaves

4223 first central perforations

4224 positioning columns

P plane

S dented space

Specific embodiment

Referring to Fig. 1 and Fig. 2, the utility model absorption type support device 1000 includes a hold mode group 100 and one Adsorption structure 200, branch hold mode group 100 is for carrying a display module (not shown), and branch hold mode group 100 is set to a plane P When (such as a desktop), it can be positioned on plane P by the absorption of adsorption structure 200.It will be described the structure and knot of each element below Conjunction mode.

Branch hold mode group 100 includes a pedestal 1 and a supporting element 2, and supporting element 2 is set on 1 side of pedestal, and supporting element 2 For carrying display module.Adsorption structure 200 is set to 1 other side of pedestal.

From the above, as shown in Figures 3 and 4, adsorption structure 200 includes a fixing piece 3 and a sucker 4.In the present embodiment In, fixing piece 3 and pedestal 1 are integrally formed, and far from supporting element 2.There is fixing piece 3 the first noumenon 31, eight to hook the plug of body 32, one Column 33 and four guide grooves 34.31 outline of the first noumenon is in hollow cylindrical, the periphery for hooking body 32 and being set to the first noumenon 31, plug Column 33 is set to the centre of the first noumenon 31, and the guide groove 34 is formed on the first noumenon 31 and around stick harness 33.

Sucker 4 has a sliding part 41 and an absorption layer 42.41 outline of sliding part is annular in shape, and movably along an axis X It is installed in the first noumenon 31, absorption layer 42 is connect with sliding part 41, and is separably adsorbed on plane P；Wherein, it adsorbs Pad 42 has one first adsorbent 421 and one second adsorbent 422, and the first adsorbent 421 and the second all outlines of adsorbent 422 are in Discoid, and the first adsorbent 421 is set between sliding part 41 and the second adsorbent 422, the first adsorbent 421 has one the One inner concave 4211, one first groove 4212, a hollow hole 4213 and four first positioning holes 4214.First inner concave 4211 is along axis Fixing piece 3 is concaved towards in line X, and when adsorption structure 200 is positioned on plane P, the first inner concave 4211 faces plane P.First is recessed Slot 4212 is formed in the centre of the first inner concave 4211, and hollow hole 4213 is formed in the first groove 4212, first positioning Hole 4214 is similarly formed in the first groove 4212 and around hollow hole 4213.

Second adsorbent 422 has a main body 4221, one second inner concave 4222, one first central perforation 4223, four fixed Position column 4224, main body 4221 have a cylinder 42211, and the second inner concave 4222 is located at the side of main body 4221, and and cylinder 42211 is opposite, and the second inner concave 4222 is identical as the indent direction of the first inner concave 4211, also along axis X indent To fixing piece 3, and when adsorption structure 200 is positioned on plane P, the second inner concave 4222 faces plane P.The positioning column 4224 It is set on 4221 other side of main body and surround cylinder 42211, and relatively with the second inner concave 4222, the first central perforation 4223 Penetrate cylinder 42211.

Then illustrate the combination of the first adsorbent 421 and the second adsorbent 422.Second adsorbent 422 is locally set Be placed in the first groove 4212, and the positioning column 4224 by first positioning hole 4214 and protrude from the first groove 4212 it Outside, and cylinder 42211 is arranged in hollow hole 4213.After first adsorbent 421 is combined with the second adsorbent 422, the first indent Face 4211 and the second inner concave 4222 define a dented space S (referring to figure 5.) jointly, and the first central perforation 4223 and recess are empty Between S be connected to, when branch hold mode group 100 is set on plane P, the first inner concave 4211 and the second inner concave 4222 are jointly in face of flat Face P.

Then illustrate detailed construction and sliding part 41, the first adsorbent 421 and the second adsorbent 422 of sliding part 41 Connection relationship.Sliding part 41 has a upper surface 411, a side surface 412, a ring body 413, four protrusions 414, one second groove 415, one second central perforation 417, four second location holes 418 and eight sliding slots 419.In this present embodiment, side surface 412 is a ring Shape surface and circular ring body 413, and upper surface 411 is connected, upper surface 411 is connected to 413 one side of ring body；Between the sliding slot 419 Every be formed in side surface 412, the centre of upper surface 411 has an inner concave area 4111, and ring body 413 has a column 4131, column 4131 are arranged in hollow hole 4213, and cylinder 42211 is arranged in column 4131 that (namely the space that has of hollow hole 4213 is most Greatly to accommodate column 4131, and there is column 4131 time big space can further accommodate cylinder 42211), described raised 414 set on upper Surface 411 simultaneously surround inner concave area 4111, and the second central perforation 417 is formed in inner concave area 4111, and penetrates column 4131, Exactly it is connected to the first central perforation 4223；Second groove 415 is formed in the another side of the ring body 413 of sliding part 41, and described second Location hole 418 is formed in the second groove 415.

From the above, the hook body 32 of fixing piece 3 is slidably disposed in the sliding slot 419 of sliding part 41, is led to The collocation for hooking body 32 and the sliding slot 419 is crossed, sliding part 41 can keep connecting with fixing piece 3, also can the cunning of opposed fixed member 3 It is dynamic.Described raised the 414 of sliding part 41 are slidingly disposed in the guide groove 34 of fixing piece 3, can ensure that sliding part 41 whereby It is to be slided along axis X relative to fixing piece 3, it is offset without allowing sliding path to have.

First adsorbent 421 is set in the second groove 415, and the positioning column 4224 of the second adsorbent 422 passes through institute It after stating first positioning hole 4214, is correspondingly arranged in the second location hole 418, so that the first adsorbent 421 passes through the second absorption Body 422 and sliding part 41 are affixed.The first central perforation 4223 correspondence of second adsorbent 422 is connected to the second central perforation 417, It is, the first central perforation 4223, dented space S are connected to the second central perforation 417.

It should be noted that the position of stick harness 33 can be adjusted and deviate first in the utility model other embodiments The position that the position of the center of ontology 31, the first central perforation 4223 and the second central perforation 417 can also correspond to stick harness 33 carries out Adjustment, as long as the first central perforation 4223 and the second central perforation 417 is allowed to be aligned with stick harness 33, does not limit stick harness in this 33, the position of the first central perforation 4223 and the second central perforation 417.In addition, in the utility model other embodiments, positioning The quantity of column 4224 and sliding slot 419 can also be adjusted according to demand.

As shown in figure 4, this paragraph will illustrate the state of 200 adsorbing plane P of adsorption structure.When pedestal 1 is set on plane P When, fixing piece 3 is located at a first position (namely hook body 32 is located at the bottom position of sliding slot 419) relative to sucker 4 along axis X, The outer convex globoidal 331 of the one of stick harness 33 is attached at the inner concave area 4111 of sliding part 41, and stick harness 33 seals the first central perforation 4223 And second central perforation 417, so that the first central perforation 4223, the second central perforation 417 and dented space S form a low vacuum Therefore state, the first adsorbent 421 and the second adsorbent 422 obtain adsorbing plane P, at this point, branch hold mode group 100 passes through adsorption structure 200 are adsorbed on plane P, are not easy to topple over being caused and shaking by external force.

When desorbing the adsorbed state of structure 200, an external force is applied first by pedestal 1 (together with fixing piece 3) along axis X Mobile and separate plane P, as shown in figure 5, the hook body 32 slides in the sliding slot 419 along axis X towards 2 direction of supporting element, Namely fixing piece 3 enters a crossover position by first position relative to sucker 4 along axis X, and described raised 414 equally also along axis Line X is slided towards 2 direction of supporting element in the guide groove 34, and far from inner concave area 4111, external fluid starts outer convex globoidal 331 at this time It enters in dented space S, the second central perforation 417 and the first central perforation 4223.And as shown in fig. 6,32 edge of hook body Axis X slides into the top of sliding slot 419 in the sliding slot 419 and no longer slides, and fixing piece 3 is along the opposite suction of axis X at this time Disk 4 is moved to a second position, and the hook body 32 still hooks in the sliding slot 419, sliding part 41 will not be completely disengaged solid Determine part 3, outer convex globoidal 331 also completely away from inner concave area 4111, make the first central perforation 4223, the second central perforation 417 and Dented space S is in communication with the outside, so that low vacuum state releases, the first adsorbent 421 and the second adsorbent 422 can be detached from flat Face P, to desorb 200 pairs of branch hold mode groups 100 of structure in the positioning of plane P.

Also, when fixing piece 3 is located at the second position (position i.e. shown in fig. 6), to come back to the suction of adsorption structure 200 When attached state (fixing piece 34 is located at first position shown in Fig. 4), external force is first removed, then branch hold mode group 100 and fixing piece 3 are opened Beginning moves along axis X towards plane P, and when fixing piece 3 enters crossover position (as shown in Figure 5), hook body 32 is in sliding slot 419 along axis X is mobile towards plane P, and stick harness 33 is closer to inner concave area 4111, at this point, the weight of branch hold mode group 100 and fixing piece 3 because of itself Power, and the fluid in the first central perforation 4223, the second central perforation 417 and dented space S is started slowly to push towards the external world And go out (for example, as shown in figure 5, sucker 4 is located at crossover position, and when absorption layer 42 touches plane P, branch hold mode group 100 and Fixing piece 3 is squeezed by the gravity of itself is present in the first central perforation 4223, the second central perforation 417 and dented space S In rough half fluid), until fixing piece 3 again be located at first position (as shown in Figure 4), hook body 32 be moved to along axis X The bottom position of sliding slot 419, stick harness 33 seal the first central perforation 4223 and the second central perforation 417 again, then branch hold mode group 100 And fixing piece 3 completely will be in the first central perforation 4223, the second central perforation 417 and dented space S by the gravity of itself Fluid squeeze completely to the external world, allow the first central perforation 4223, the second central perforation 417 and dented space S to re-form low Vacuum state.

In this present embodiment, the material of the first adsorbent 421 is rubber, the material of the second adsorbent 422 and sliding part 41 It is greater than the hardness of the first adsorbent 421 for the hardness of ABS plastic, that is, the second adsorbent 422, is advantageous in that, due to second The hardness of adsorbent 422 and sliding part 41 is higher, thus can avoid cause because of the deformation of itself the first central perforation 4223 or Second central perforation 417 blocking.So, adsorption structure 200 is not limited only to above-mentioned material in the utility model other embodiments, And in the utility model other embodiments, fixing piece 3 can be set on pedestal 1 for another independent element, and sucker 4 can be one The element (namely sliding part 41, the first adsorbent 421 and the forming of 422 three in one of the second adsorbent) of body forming.

In conclusion the utility model is set to the pedestal of branch hold mode group by adsorption structure, adsorption structure must be adsorbed in In one plane, branch hold mode group is made to can be reduced the probability for toppling over damage because of shaking, also can avoid user and injured by a crashing object, promote absorption The safety of formula support device.Also, as long as structure can be desorbed easily by being lifted up pedestal far from the plane Low vacuum state allows user that can more easily move absorption type support device.

The above embodiments are only used to enumerate the embodiments of the present invention, and illustrate the technology spy of the utility model Sign is not used to limit the protection scope of the utility model.Any those skilled in the art can it is unlabored change or The arrangement of isotropism belongs to the scope claimed by the utility model, and the rights protection scope of the utility model should be with claim Subject to.

Claims (11)

1. a kind of absorption type support device, which is characterized in that be used to support a display module, which includes:

One hold mode group for carrying the display module, and includes a pedestal；And

One adsorption structure is set to the pedestal side, which includes:

One fixing piece, it is affixed with the pedestal, it can be converted relative between a first position, a crossover position and a second position, and The fixing piece has a stick harness；And

One sucker slideably connects with the fixing piece along an axis, and has a sliding part, an absorption layer and a recess empty Between, which connect with the sliding part, and is separably adsorbed in a plane, one first central perforation of the sliding part, One second central perforation of the absorption layer and dented space connection；

Wherein, when the branch hold mode group is set in the plane with the pedestal, and the fixing piece, when the first position, which hides Second central perforation is kept off, first central perforation, second central perforation and the dented space is made to form a low vacuum state, And the absorption layer adsorbs the plane, when applying an external force for the branch hold mode group towards mobile far from the in-plane, the fixing piece into Enter the crossover position, at this time the absorption layer still keep with the plane contact, and the fixing piece is gradually distance from this with the branch hold mode group Plane, and the opposite sliding part slides, and the stick harness with far from second central perforation, allow first central perforation, this Two central perforations and the dented space with one it is extraneous be connected to, release the low vacuum state whereby, finally the fixing piece into this Two positions are no longer slided with respect to the sliding part, and interlock the sliding part and the absorption layer, and the absorption layer is enable to be detached from the plane.

2. absorption type support device according to claim 1, which is characterized in that when the pedestal is set in the plane, and When the fixing piece is located at the second position, the stick harness far from second central perforation, due to the branch hold mode group and the fixing piece by One gravity, the fixing piece is close towards the plane with respect to sliding part sliding, and into the crossover position, which is touched The plane and be squeezed, make the fluid in first central perforation, second central perforation and the dented space be pushed out and to External world discharge, until the fixing piece returns to the first position, i.e., the stick harness blocks second central perforation, forms the low vacuum State, the absorption layer adsorb the plane.

3. absorption type support device according to claim 2, which is characterized in that wherein the fixing piece has a first noumenon And multiple hook bodies, the periphery for hooking body and being located at the first noumenon, the stick harness are set to the first noumenon, which has One side surface and multiple sliding slots, the sliding slot are formed in the side surface of the sliding part, and the hook body is slideably hooked in described In sliding slot so that the fixing piece along the axis relative to the sliding part in the first position, the crossover position and the second position Between move.

4. absorption type support device according to claim 3, which is characterized in that wherein the absorption layer also has one first suction Attached body and one second adsorbent, first adsorbent have one first inner concave, which has one second inner concave, First inner concave and second inner concave define the dented space jointly.

5. absorption type support device according to claim 4, which is characterized in that wherein first adsorbent is located in the cunning Between moving part and second adsorbent.

6. absorption type support device according to claim 5, which is characterized in that wherein the fixing piece also has multiple lead Slot, the guide groove are formed on the first noumenon, and surround the stick harness, which also has a upper surface and multiple protrusions, The protrusion is located at the upper surface, and the protrusion is slidably disposed in the guide groove.

7. absorption type support device according to claim 6, which is characterized in that wherein the sliding part has an inner concave Area, the inner concave area are formed in the upper surface of the sliding part, and the upper surface of the sliding part connects with the side surface, the indent Face area is opposite with second inner concave, which is formed in the inner concave area, which is formed in this One main body of the second adsorbent, and first central perforation is connected to second central perforation, when the fixing piece be located at this first Position, which is attached at the inner concave area with an outer convex globoidal, and blocks second central perforation, wears first center Hole, second central perforation and the dented space form the low vacuum state.

8. absorption type support device according to claim 7, which is characterized in that wherein the sliding part has and the upper surface The ring body being connected, first adsorbent have multiple first positioning holes, which has multiple the positioned at the ring body Two location holes, second adsorbent have the multiple positioning columns being formed in the main body, and the positioning column is fixed by described first Position hole is set in the second location hole, and first adsorbent is made to be fixed on the ring of the sliding part by second adsorbent Body.

9. absorption type support device according to claim 8, which is characterized in that wherein the fixing piece and the pedestal one at Shape.

10. the absorption type support device according to any one of claim 4 to 9, which is characterized in that wherein first absorption Body, second adsorbent and the sliding part are one of the forming.

11. the absorption type support device according to any one of claim 4 to 9, which is characterized in that wherein second absorption One hardness of body is greater than or equal to a hardness of first adsorbent.