CN210034284U - Full-lamination instrument starting end vibration damper and full-lamination instrument - Google Patents

Abstract

The utility model discloses a full-lamination instrument starting end vibration damper and a full-lamination instrument, wherein the full-lamination instrument starting end vibration damper and a mounting plate are provided with a structure connected with a mounting platform for mounting the full-lamination instrument starting end vibration damper; the mounting plate is assembled with the shell into a whole through an elastic vibration damping body wrapping the periphery of the mounting plate, the elastic vibration damping body is fixed in the shell, and the positions of the three dimensions of XYZ of the elastic vibration damping body are fixed so as to buffer the vibration transmitted to the mounting plate through the elastic force of the area wrapping the mounting plate. This scheme design is exquisite, and simple structure sets up the elastic damping cover between mounting panel and casing down, and the vibration that can effectually receive the mounting panel is cushioned through the elastic damping cover, and very big reduction is transmitted vibration volume on the casing down, effectual initial stage at the vibration transmission is controlled the vibration influence to for the realization of full laminating instrument scheme provides feasible damping measure, has guaranteed the smooth realization of scheme.

Description

Full-lamination instrument starting end vibration damper and full-lamination instrument

Technical Field

The utility model relates to a display device, especially full laminating instrument top damping device and full laminating instrument.

Background

The engineering machinery instrument is a tool for displaying the running state and/or various running parameters of equipment, has various types and functions, and is widely applied to various industries.

As shown in the attached figure 1, the engineering machinery instrument with the liquid crystal display screen comprises an upper cover 02 and a rear cover 04 which are combined into a whole, wherein the upper cover 02 is matched with a pressing plate 05 to form a clamping groove for placing a full-lamination liquid crystal display assembly 03, the full-lamination liquid crystal display assembly 03 is fixed in the clamping groove through a liquid crystal damping sleeve 06, and an organic glass cover plate 01 which keeps a gap with the full-lamination liquid crystal display assembly 03 is arranged on the upper cover 02;

and in the instrument structure of laminating entirely, display module and the laminating of apron glass, at this moment, because the vibrations of upper cover do not cushion through the organic glass apron and directly transmit for the liquid crystal display module of laminating entirely, liquid crystal damping cover 06 can't exert the damping effect at all, does not have effectual damping measure to the liquid crystal display module of laminating entirely in order to protect.

And when current full laminating instrument was carrying out the damping design, often redesigned corresponding damping structure after vibration transmits the casing of instrument, and the damping design mode of this kind of rear end is because vibration and liquid crystal display module apart from being nearer, therefore the damping effect requirement of damping design is higher, has increased the design degree of difficulty.

Therefore, in order to facilitate realization of the full-attachment instrument, it is considered to protect the display module by buffering the vibration before the vibration is transmitted to the rear cover 04.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full laminating instrument top damping device and full laminating instrument in order to solve the above-mentioned problem that exists among the prior art.

The purpose of the utility model is realized through the following technical scheme:

the full-fit instrument starting end vibration damper comprises a lower shell and a lower shell

The mounting plate is provided with a structure connected with a mounting table for mounting a vibration damper at the starting end of the full-fit instrument;

the mounting plate is assembled with the shell into a whole through an elastic vibration damping body wrapping the periphery of the mounting plate, the elastic vibration damping body is fixed in the shell, and the positions of the three dimensions of XYZ of the elastic vibration damping body are fixed so as to buffer the vibration transmitted to the mounting plate through the elastic force of the area wrapping the mounting plate.

Preferably, in the vibration damping device for a start end of a full-bonded instrument, the lower case has a positioning groove corresponding to an outer contour of the elastic vibration damping body.

Preferably, in the vibration damping device for a start end of a full-lamination meter, the side wall of the mounting plate has an annular protruding eave, and the elastic vibration damping body has a wrapping portion wrapping the protruding eave.

Preferably, in the vibration damping device at the starting end of the full-fit instrument, the elastic vibration damping body is a silica gel pad.

Preferably, in the vibration damping device for a starting end of a full-lamination instrument, the elastic vibration damping body is fixed to the lower housing through a pressing plate and a screw.

Preferably, in the damping device for the starting end of the full-lamination instrument, the pressing plate faces to a protruding portion formed on the end face of the elastic damping body, a connecting hole is formed at the protruding portion, the mounting plate is provided with an avoiding notch matched with the protruding portion, a positioning notch matched with the protruding portion is formed on the elastic damping body, and a hole matched with the connecting hole is formed at the positioning notch.

The full-lamination instrument comprises a display assembly, wherein the display assembly is arranged on the vibration damping device at the starting end of the full-lamination instrument.

Preferably, in the full-lamination instrument, the display assembly includes a touch screen.

Preferably, in the full laminating instrument, the display module passes through the epitheca with casing equipment is as an organic whole down, just be provided with the damping sealing washer between epitheca and the casing down.

Preferably, in the full-lamination instrument, the display assembly is connected with the lower shell through a sealing vibration reduction assembly.

The utility model discloses technical scheme's advantage mainly embodies:

this scheme design is exquisite, and simple structure sets up the elastic damping cover between mounting panel and casing down, and the vibration that can effectually receive the mounting panel is cushioned through the elastic damping cover, and very big reduction is transmitted vibration volume on the casing down, effectual initial stage at the vibration transmission is controlled the vibration influence to for the realization of full laminating instrument scheme provides feasible damping measure, has guaranteed the smooth realization of scheme.

The elasticity damping body of this scheme is right the mounting panel carries out the cladding, has both guaranteed damping effect and fixed effect, and on the other hand can the sealed equipment of effectual realization, improves waterproof dustproof grade.

The structure of this scheme adopts the screw connection to adopt the constant head tank location, the equipment, dismantle convenient, be convenient for maintain the change, the operation is convenient.

The structure of the scheme is convenient to apply to various products, has wide application range and is convenient to popularize and apply.

This scheme full laminating display screen combines subsequent damping structure, can further realize the damping, has improved the damping effect.

The liquid crystal display assembly integrates a touch function, simultaneously adopts the curved screen, and is completely matched with the structure of the shell, so that the smoothness of the side surface is ensured, a hat brim structure is not needed, the liquid crystal display assembly has a larger screen occupation ratio, better man-machine interaction and functionality are realized, and the experience of a user is fully improved.

The glass cover plate adopts the toughened glass, the collision and collision prevention performance of the screen is effectively guaranteed, and the structural stability of the monitor is improved.

On one hand, the special sealing vibration attenuation component can effectively realize vibration buffering by utilizing good elasticity and toughness of the foamed silica gel and the silica gel after being dried and solidified, meanwhile, the latex-like silica gel has better sealing performance, and the IP protection grade is effectively improved; meanwhile, the sealing vibration reduction assembly is easy to form, convenient to process in batches and good in economic benefit.

Drawings

FIG. 1 is a prior art schematic diagram of the background of the invention;

fig. 2 is an exploded view of the present invention;

fig. 3 is a sectional view of the present invention in an assembled state;

fig. 4 is a schematic view of a screw of the present invention;

FIG. 5 is a partial cross-sectional view of a full-laminated meter of the present invention (the shock absorbing structure on the back of the lower case is not shown);

FIG. 6 is a rear partial view and exploded view of a full-face instrument of the present invention (the structure of the mounting plate area is not shown);

FIG. 7 is a schematic view of a glass cover plate of the present invention;

FIG. 8 is a schematic view of a mid-seal damping assembly of the present invention;

fig. 9 is a partial cross-sectional view of a second embodiment of a full-face instrument according to the present invention.

Detailed Description

Objects, advantages and features of the present invention will be illustrated and explained by the following non-limiting description of preferred embodiments. These embodiments are merely exemplary embodiments for applying the technical solutions of the present invention, and all technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the scope of the present invention.

In the description of the embodiments, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the embodiment, the operator is used as a reference, and the direction close to the operator is a proximal end, and the direction away from the operator is a distal end.

The vibration damping device at the starting end of the fully-laminated instrument disclosed by the present invention is explained with reference to the accompanying drawings, as shown in fig. 2 and 3, which include

A lower case 1;

the mounting plate 2 is provided with a structure connected with a mounting table for mounting a damping device at the starting end of the full-lamination instrument;

the mounting plate 2 is assembled with the casing 1 into a whole through an elastic vibration damping body 3 wrapping the periphery of the mounting plate, the elastic vibration damping body 3 is fixed in the casing 1, and the positions of three dimensions of XYZ (namely, the front, back, left, right, up and down positions) of the elastic vibration damping body are fixed so as to buffer the vibration transmitted to the mounting plate 2 through the elastic force of the area wrapping the mounting plate.

As shown in fig. 2, the lower case 1 is used for mounting a display module, and may be a casing structure made of various known materials and having various shapes, as shown in fig. 1, and includes a main body 12 formed in a groove shape, a rectangular hole 14 is formed on a bottom plate 13 of the main body 12, a boss 15 corresponding to the rectangular hole 14 is formed at the bottom of the bottom plate 13, a hole having a shape identical to and concentric with the rectangular hole 14 is formed on the boss 15, and the area of the hole is larger than the area of the rectangular hole 14, so that, as shown in fig. 3, the bottom plate 13 and the boss 15 form a positioning groove 11 for fixing the elastic vibration damping body 3, and the shape of the positioning groove 11 is identical to the outer contour of the elastic vibration damping body 3, so that, when assembling, the positioning of the elastic vibration damping body 3 can be rapidly achieved.

The elastic damping body 3 can be made of various materials with deformation capacity, such as various soft plastics, rubber, metal elastic sheets and the like, preferably silica gel, and is used for assembling the mounting plate 2 on the lower shell 1, and buffering the vibration received by the mounting plate 2 through the deformation capacity of the elastic damping body, so that the vibration transmitted to the lower shell 1 is reduced, and on the other hand, the elastic damping body can effectively avoid the gap between the elastic damping body and the mounting plate 2 and the gap between the elastic damping body and the lower shell 1, and the dustproof and waterproof capacities are improved.

As shown in fig. 2, the elastic vibration damping body 3 is rectangular and annular as a whole, a clamping groove 33 is concavely formed on the inner wall of the frame body, the region where the clamping groove 33 is located is the wrapping portion 31, the side wall of the mounting plate 2 is provided with an annular convex brim 21, and the convex brim 21 is embedded into the clamping groove 33 of the elastic vibration damping body 3, so that the two are connected.

Further, in order to assemble the mounting plate 2 connected to the elastic vibration damping body 3 with the lower case 1 and to exert the vibration damping effect of the elastic vibration damping body 3, the elastic vibration damping body 3 is connected to the lower case 1, and as shown in fig. 2 and 3, the lower case and the elastic vibration damping body 3 are fixed by a pressing plate 4 and a screw 5.

In detail, as shown in fig. 2, the pressing plate 4 is a rectangular ring-shaped body, a protruding portion 41 is formed on an end surface of the pressing plate 4 facing the elastic vibration damping body 3, the protruding portion 41 is preferably six and is distributed on four frames of the pressing plate 4, a connection hole 42 is formed at the protruding portion 41, the connection hole 42 is preferably a counter bore, the mounting plate 2 has an escape notch 22 matched with the protruding portion 41, so that the protruding portion 41 is convenient to contact with the elastic vibration damping body 3, the elastic vibration damping body 3 has a positioning notch 32 matched with the protruding portion 41, a hole 34 matched with the connection hole 42 is formed at the positioning notch 32, and a screw hole 16 coaxial with the hole 34 is formed on the lower housing 1.

During assembly, the mounting plate 2 is clamped on the elastic vibration damping body 3, the elastic vibration damping body 3 is arranged in a positioning groove on the lower shell 1, then the pressing plate 4 is pressed on the elastic vibration damping body 3 and is connected to a screw hole on the lower shell 1 through a group of screws, then the mounting plate 2 is connected with the mounting table, during work, the vibration of the mounting table is transmitted to the elastic vibration damping body 3 through the mounting plate, at the moment, the elastic vibration damping body 3 surrounds the peripheral area of the whole mounting plate 2, namely, the mounting plate 2 is erected on the elastic vibration damping body 3, in addition, the lower shell 1 restrains four degrees of freedom of the elastic vibration damping body 3, the pressing plate 4 restrains the upper and lower two degrees of freedom of a silica gel gasket through the extrusion elasticity of the screws 5, and the deformation generated by the elasticity of the elastic vibration damping body 3 is utilized, so that the mounting plate 2 has a certain degree of freedom of movement, the vibration transmitted to the lower case 1 is well released and attenuated.

As shown in fig. 4, the screw 5 includes a screw body 51, an elastic sleeve 52 is sleeved on the periphery of a nut 511 of the screw body 51, the elastic sleeve 52 is preferably a silicone sleeve, a top of the elastic sleeve 52 is provided with an avoidance hole 521 corresponding to a cross or a line area of the screw body, a side wall 5111 of the nut portion 511 is stepped, serrations 512 are formed on a part or all of a surface of the elastic sleeve 52, which is attached to the side wall, an inner wall of the elastic sleeve 52 has a structure matching the serrations of the nut portion 511, and the serrations can increase the sealing property between the elastic sleeve 52 and the screw body 51.

After the screw 5 is connected, on one hand, a certain vibration damping effect can be achieved through the deformation of the elastic sleeve 52, so that the fastening firmness of the screw 5 is ensured, on the other hand, the connecting hole 42 can be effectively sealed, the sealing performance of the assembled integral structure is improved, and the waterproof and dustproof grade is favorably improved; and the surface of the screw can be coated with an anticorrosive coating, so that the service life can be prolonged, and the stability of the whole structure is ensured.

The utility model also discloses a full laminating instrument, as shown in figure 5, figure 6, including display module 6, display module 6 sets up on foretell full laminating instrument top damping device's lower casing 1.

In a preferred embodiment, as shown in fig. 5, the display assembly 6 comprises a glass cover plate 61, a liquid crystal screen 63 is attached to the back surface of the glass cover plate 61 through an optical adhesive layer 662, preferably, the glass cover plate 61 is a 2.5D glass cover plate, and the vertex angle position thereof is a curved surface 611, so that the new design can have a more elegant appearance; meanwhile, the side wall 19 of the lower shell 1 is an inclined surface, and the side surface 612 of the glass cover plate 61 is flush with the side wall 19, so that the screen occupation ratio can be effectively improved, and the problem caused by the traditional design of a cap peak is effectively solved; of course, the side wall 19 of the lower housing 1 may be a plane; the optical glue layer 662 is preferably OCR glue.

Further, since the glass cover plate 61 is exposed outside the lower case 1, in order to avoid the corner regions thereof from being damaged by external force, the glass cover plate 61 is preferably a tempered glass cover plate, and preferably, as shown in fig. 7, the tempered glass cover plate 61 includes a tempered glass base layer 611 and a hardness strengthening layer 612 thereon.

The toughened glass substrate 611 is prepared by adding acid-washing modified glass fiber, polyethylene glycol terephthalate and MoO into conventional toughened glass raw material₃The acid-washing modified glass fiber is obtained by modifying and strengthening the existing glass fiber through acid washing, and has the characteristics of high strength, high toughness, high tensile strength, high elastic coefficient, small water absorption, non-combustion, weather resistance and the like, so that the acid-washing modified glass fiber can effectively resist external impact and environmental damage; the polyethylene glycol terephthalate can further strengthen the wear resistance, rigidity, heat resistance, chemical resistance, electrical property and weather resistance of the acid-washing modified glass fiber, and meanwhile, the polyethylene glycol terephthalate can effectively increase the bonding force among the molecules in the toughened glass, has good flexibility, can provide sufficient strain space for the toughened glass with sudden change of stress at high temperature or low temperature, and effectively prevents the toughened glass from self-explosion caused by stress increase, extrusion and the like; MoO₃The self hardness of the toughened glass can be increased, so that the strength and hardness of the toughened glass can be effectively improved, and the explosion-proof performance of the toughened glass base layer 611 is effectively improved.

In detail, the toughened glass substrate comprises the following raw material components in parts by weight:

40-60 parts of silicon dioxide, 8-12 parts of polyethylene glycol terephthalate, 4-8 parts of acid-washing modified glass fiber, 0.6-0.8 part of molybdenum trioxide, 5-10 parts of silicon carbide, 1-2 parts of a dispersing agent, 4-10 parts of borax, 4-8 parts of copper sulfate pentahydrate, 2-6 parts of propylene glycol, 6-10 parts of bauxite, 4-10 parts of titanium dioxide, 4-10 parts of chromium nitrate, 4-10 parts of potassium permanganate, 4-6 parts of barium hydroxide, 4-10 parts of potassium silicate, 4-8 parts of aluminum oxide and 4-9 parts of bismuth oxide.

Preferably, 40 parts of silicon dioxide, 8 parts of polyethylene terephthalate, 6 parts of acid-washing modified glass fiber, 0.7 part of molybdenum trioxide, 6 parts of silicon carbide, 1.5 parts of dispersing agent, 9 parts of borax, 6 parts of copper sulfate pentahydrate, 3 parts of propylene glycol, 8 parts of bauxite, 4-10 parts of titanium dioxide, 4-10 parts of chromium nitrate, 4-10 parts of potassium permanganate, 4-6 parts of barium hydroxide, 7 parts of potassium silicate, 6 parts of aluminum oxide and 5 parts of bismuth oxide.

The hardness strengthening layer 612 is preferably MoO₃The material can be prepared by various known technologies, such as sputtering, which is not described in detail herein, and can achieve a surface hardness of 9H, and has good wear resistance and good surface scratch resistance. Meanwhile, researches find that the compressive strength of the cover plate glass is improved by 50-100MPa by the hardness strengthening layer 612 compared with the existing glass, the falling height of a falling ball in a falling ball impact test is improved by 10cm, and the cover plate glass has good falling resistance.

Further, as shown in fig. 7, the surface of the hardness reinforcing layer 612 may be further coated with an explosion-proof film 613, the explosion-proof film 613 includes a highly transparent film layer 6131, the highly transparent film layer is attached to the hardness reinforcing layer 612 through an optical adhesive layer 6132, and a mesh-shaped groove 6133 is formed on the optical adhesive layer 6132, so that gas can be discharged from the groove during attachment to avoid generation of bubbles, but in other embodiments, the glass cover plate 61 may also be directly provided with the explosion-proof film without the hardness reinforcing layer.

Furthermore, as people have more and more functional requirements on the monitor, especially requirements on human-computer interaction, and the conventional display assembly 6 only has a display function and is difficult to meet the existing use requirements, correspondingly, as shown in fig. 5, the display assembly 6 further includes a touch screen sensing unit 64 located between the glass cover plate 61 and the liquid crystal screen 63, where the touch screen sensing unit 64 is not described in detail for the known technology, one surface of the touch screen sensing unit 64 is connected to the glass cover plate 61 through a light-transmitting adhesive layer 65, and the other surface thereof is connected to the liquid crystal screen 63 through the optical adhesive layer 662, and the light-transmitting adhesive layer 65 is preferably OCA solid adhesive.

Meanwhile, in order to protect the touch screen sensing unit 64, as shown in fig. 5, the touch screen sensing unit 64 is covered in a space enclosed by the optical adhesive layer 662 and the light-transmitting adhesive layer 65, and meanwhile, the liquid crystal screen 63 and the touch screen sensing unit 64 are both bonded and fixed with the glass cover plate 61, so that the structural stability of the whole display assembly 6 can be ensured.

The display module 6 is connected to the lower casing 1 through a sealing vibration damping assembly 3, as shown in fig. 5, fig. 6 and fig. 8, the sealing vibration damping assembly 3 includes a foamed silicone rubber waist coil 91 and a silicone rubber vibration damping sealing ring 92, a clamping groove 917 matched with the foamed silicone rubber waist coil 91 is formed on the lower casing 1, the clamping groove 917 is approximately in a shape of a Chinese character 'yi', and the foamed silicone rubber waist coil 91 has a shape matched with the clamping groove 917, so that the foamed silicone rubber waist coil 91 can be effectively clamped in the clamping groove, and the foamed silicone rubber waist coil 91 can be further reinforced and fixed through glue, double-sided adhesive and the like; as shown in fig. 8, the exposed surface of the foamed silicone rubber waist coil 91 has a plane 911 attached to the side wall 9261 of the silicone rubber sealing ring 92 and a step surface 912 attached to the bottom surface 922 of the silicone rubber sealing ring 92, the side wall 921 of the silicone rubber vibration reduction sealing ring 92 is an inclined plane, the width of the inclined plane is greater than that of the step surface 912, and the sealing vibration reduction assembly 3 can be connected with the cover glass 61 through glue.

The silicone rubber vibration damping sealing ring 92 is preferably latex-like silicone rubber, as shown in fig. 5, further to support the silicone rubber vibration damping sealing ring 92, a supporting table 18 for supporting the silicone rubber vibration damping sealing ring 92 is disposed on the lower casing 1, and the silicone rubber vibration damping sealing ring 92 may be further bonded to the supporting table 18 and the foamed silicone rubber waist coil 91 through glue or other substances with viscosity.

In another preferred embodiment, as shown in fig. 9, the display module 6 is assembled with the lower housing 1 through an upper housing 7, a vibration damping sealing ring 8 is disposed between the upper housing 7 and the lower housing 1, a glass cover plate 61 of the display module 6 may be fixed on the upper housing 7 through glue or the like, a liquid crystal touch module 62 is disposed on a lower portion of the glass cover plate 61, and the liquid crystal touch module 62 is the same as the structure of the above embodiment, and is not repeated here.

The utility model has a plurality of implementation modes, and all technical schemes formed by adopting equivalent transformation or equivalent transformation all fall within the protection scope of the utility model.

Claims (10)

1. Full laminating instrument top damping device, including casing (1) down, its characterized in that: also comprises

An installation plate (2) having a structure connected to an installation table for installing a vibration damping device at the starting end of the full-lamination instrument;

the mounting plate (2) is assembled into a whole with the shell (1) through an elastic vibration damping body (3) wrapping the periphery of the mounting plate, the elastic vibration damping body (3) is fixed in the shell (1), and the positions of the three dimensions of XYZ are fixed so as to buffer the vibration transmitted to the mounting plate (2) through the elastic force of the region wrapping the mounting plate.

2. The vibration damping device for the starting end of the full-lamination instrument according to claim 1, characterized in that: the lower shell (1) is provided with a positioning groove (11) which is consistent with the outer contour of the elastic vibration damping body (3).

3. The vibration damping device for the starting end of the full-lamination instrument according to claim 1, characterized in that: the lateral wall of mounting panel (2) has annular protruding eaves (21), elasticity damping body (3) have the parcel portion (31) of parcel protruding eaves (21).

4. The vibration damping device for the starting end of the full-lamination instrument according to claim 1, characterized in that: the elastic vibration damping body (3) is a silica gel pad.

5. The vibration damping device for the starting end of the full-lamination instrument according to claim 1, characterized in that: the elastic vibration reduction body (3) is fixed with the lower shell through a pressure plate (4) and a screw (5).

6. The vibration damping device for the starting end of the full-lamination instrument according to claim 5, wherein: pressing plate (4) orientation be formed with protruding portion (41) on the terminal surface of the elastic vibration damping body (3), protruding portion (41) department is formed with connecting hole (42), mounting panel (2) have with dodging breach (22) that protruding portion (41) match, have on the elastic vibration damping body (3) with location breach (32) that protruding portion (41) match, location breach (32) department be formed with hole (33) that connecting hole (42) match.

7. Full laminating instrument, including display module (6), its characterized in that: the display component (6) is arranged on the vibration damper at the starting end of the full-fit instrument as claimed in any one of claims 1 to 6.

8. The full-face instrument of claim 7, wherein: the display assembly (6) comprises a touch screen.

9. The full-face instrument of claim 7, wherein: the display assembly (6) is assembled into a whole with the lower shell (1) through an upper shell (7), and a damping sealing ring (8) is arranged between the upper shell (7) and the lower shell (1).

10. The full-face instrument of claim 7, wherein: the display assembly (6) is connected with the lower shell (1) through a sealing vibration reduction assembly (9).

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