CN210143172U - Laser marking display panel with environment-friendly production and processing and high structural strength - Google Patents

Abstract

The utility model discloses a laser marking display panel that production and processing environmental protection and structural strength are high, its casing perisporium and casing face wall enclose to close and form the shell chamber, the fixture block shaping is on the lower extreme wall of casing perisporium, fastening seat piece shaping is on the upper end wall of casing perisporium, it extends the shaping and lies in the shell chamber on the back of casing face wall to clamp the slat, first spliced pole, the second spliced pole, the dispersion shaping of third spliced pole lies in the shell chamber on the back of casing face wall, it lies in the shell chamber and the lower extreme wall connection of reinforcement slat and casing perisporium to reinforce lath extension shaping on the back of casing face wall, panel limit groove shaping is on the upper portion of casing face wall and inwards caves in towards the shell chamber, the panel is followed the inboard groove edge of panel limit groove and is gone out towards panel limit groove and is beaten the extension, touch-control sign laser is located transparent display area's below on the face of panel; the touch control panel has the characteristics of attaching the touch control identification on the display panel in a laser marking mode, being environment-friendly in production and processing and high in structural strength.

Description

Laser marking display panel with environment-friendly production and processing and high structural strength

Technical Field

The utility model belongs to the technical field of electrical apparatus control display panel, concretely relates to laser marking display panel that production and processing environmental protection and structural strength are high.

Background

At present, the existing electric appliance control display panel is generally formed by firstly printing a black back cover on a panel surface of an ABS panel shell in a screen printing mode, then printing characters, and finally injecting a layer of PET film on the panel surface printed with the black back cover and the characters in a mode of in-mold film coating to form a control display panel surface structure. The existing electric appliance control display panel needs to adopt ink in the production silk-screen process, the ink is generally produced in Japan, the ink needs to be imported, the use cost is higher, the problem that a large amount of ink is not environment-friendly can exist in the use, meanwhile, a black back cover and characters printed on the board surface need to form a film layer for protecting the printed content on the board surface through the in-mold film coating process, the production cost of the whole electric appliance control display panel can be increased, the existing electric appliance control display panel also has defects in structural strength, and the service life of the electric appliance control display panel is influenced.

Disclosure of Invention

The utility model aims at providing an adopt laser marking's mode to come the production and processing environmental protection and the high laser marking display panel of structural strength that the touch-control sign attaches to on display panel.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the laser marking display panel comprises a panel main shell, a shell mounting edge, a panel edge groove, a panel, a transparent display area, a touch control mark and a fastening groove seat, wherein the panel main shell comprises a shell face wall, a shell peripheral wall, a shell cavity, a fixture block, a fastening seat block, a clamping batten, a first connecting column, a second connecting column, a third connecting column and a reinforcing batten, the shell peripheral wall extends and is formed on the peripheral edge of the shell face wall, the shell peripheral wall and the shell face wall enclose to form the shell cavity, the fixture block is formed and arranged on the lower end wall of the shell peripheral wall, the fastening seat block is formed and arranged on the upper end wall of the shell peripheral wall, the clamping batten extends and is formed on the back face of the shell face wall and is positioned in the shell cavity, the first connecting column, the second connecting column and the third connecting column are formed on the back face of the shell face wall in a dispersed manner and are formed on the back face of the shell face wall and the reinforcing batten is formed on the back face of the shell face wall and connected with Connecting; the shell mounting side comprises a first mounting side wall and a second mounting side wall, the first mounting side wall is perpendicular to the peripheral wall of the shell and extends outwards from the wall edge of the peripheral wall of the shell, the second mounting side wall is perpendicular to the first mounting side wall and extends towards the opposite direction of the peripheral wall of the shell, a clamping groove and a threading hole groove are formed in the lower end wall surface of the second mounting side wall, and a positioning bump is formed in the upper end wall surface of the second mounting side wall; the panel limit groove shaping just caves in towards the shell intracavity on the upper portion of casing face wall, the panel is followed the inboard trough edge in panel limit groove and is gone up the evagination of panel limit groove and extend, be provided with transparent display area on the face of panel, touch-control sign laser marking is located transparent display area's below on the face of panel, the below that the fastening groove seat shaping lies in panel limit groove on casing face wall, the fastening groove seat extends towards shell intracavity indent, the central shaping of the groove seat diapire of fastening groove seat is provided with the fastening mounting hole.

Furthermore, the clamping slat comprises a rectangular plate body, a clamping convex strip, a clamping guide inclined plane and a clamping positioning flat wall, wherein one end of the rectangular plate body is connected to the shell surface wall in a forming mode, the clamping convex strip is arranged on the side portion of the other end of the rectangular plate body in a protruding mode, the clamping guide inclined plane is formed on the outer wall surface of the clamping convex strip, and the clamping positioning flat wall is formed on the inner wall surface of the clamping convex strip.

Furthermore, first connecting column includes central cylinder and connecting block, and the one end shaping of central cylinder is connected on casing face wall, and the other end of central cylinder freely extends, and the connecting block extends and annular array distributes and sets up on the outer wall of central cylinder along the length direction of central cylinder.

Furthermore, the second connecting column comprises a connecting pipe sleeve, a first fixedly-connected rib plate and a connecting sleeve hole, one end of the connecting pipe sleeve is connected to the surface wall of the shell in a forming mode, the first fixedly-connected rib plates are distributed and formed on the outer wall of the connecting pipe sleeve in an annular array mode and are connected with the surface wall of the shell, and the connecting sleeve hole is formed in the center of the connecting pipe sleeve; the structure of the third connecting column is the same as that of the second connecting column, and the third connecting column is fixedly connected with the peripheral wall of the shell through a second fixedly connecting rib plate.

Furthermore, the reinforcing plate strip comprises a first U-shaped plate strip and a second U-shaped plate strip, the opening of the first U-shaped plate strip faces the peripheral wall of the shell and is connected with the peripheral wall of the shell in a forming mode, and the opening of the second U-shaped plate strip faces away from the peripheral wall of the shell.

The utility model discloses following beneficial effect has:

the utility model discloses production and processing environmental protection and laser marking display panel that structural strength is high, its casing perisporium extends the shaping on the marginal part all around of casing face wall, casing perisporium and casing face wall enclose to close and form the shell chamber, the fixture block shaping sets up on the lower extreme wall of casing perisporium, fastening seat piece shaping sets up on the upper end wall of casing perisporium, the extension shaping of card slat is located in the shell chamber on the back of casing face wall, first spliced pole, second spliced pole, third spliced pole dispersion shaping is located in the shell chamber on the back of casing face wall, the extension shaping of reinforcement lath is located in the shell chamber on the back of casing face wall and the lower extreme wall of reinforcement lath and casing perisporium is connected, the shaping of panel limit groove is on the upper portion of casing face wall and caves towards the shell chamber, the panel extends towards panel outer flange groove from the inboard trough edge of panel limit groove, be provided with transparent display area on the face of panel, the touch control identification laser marking is positioned below the transparent display area on the panel surface of the panel; the touch control panel has the characteristics of attaching the touch control identification on the display panel in a laser marking mode, being environment-friendly in production and processing and high in structural strength.

Drawings

Fig. 1 is an external structural schematic view of a laser marking display panel with environmental protection and high structural strength in production and processing of the utility model;

FIG. 2 is a schematic view of the internal structure of the laser marking display panel with environmental protection and high structural strength;

FIG. 3 is a schematic view of the internal structure of the laser marking display panel with environmental protection and high structural strength;

fig. 4 is a schematic structural view of a clamping slat and a first connecting column of the laser marking display panel with environmental protection and high structural strength;

fig. 5 is a schematic structural view of the second connecting column and the third connecting column of the laser marking display panel with environmental protection and high structural strength;

fig. 6 is the utility model discloses its structure schematic diagram that reinforces lath of laser marking display panel that production and processing environmental protection and structural strength are high.

In the figure: 1. a panel main housing; 2. a shell mounting edge; 3. a panel edge slot; 4. a panel; 5. a transparent display area; 6. touch control identification; 7. fastening the groove seat; 11. a housing face wall; 12. a housing peripheral wall; 13. a shell cavity; 14. a clamping block; 15. fastening the seat block; 16. clamping the lath; 17. a first connecting column; 18a, a second connecting column; 18b, a third connecting column; 19. a reinforcing strip; 16a, a rectangular plate body; 16b, clamping and fixing the convex strips; 16c, clamping and fixing the guide inclined plane; 16d, clamping and fixing the flat wall; 17a, a central cylinder; 17b, a connecting block; 181. a connecting pipe sleeve; 182. a first fixed connection rib plate; 183. connecting sleeve holes; 184. a second fixed connection rib plate; 19a, a first U-shaped slat; 19b, a second U-shaped slat; 21. a first mounting sidewall; 22. a second mounting sidewall; 23. clamping grooves; 24. a threading hole slot; 25. positioning the bump; 71. a bottom wall of the slot seat; 72. and fastening the mounting hole.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the invention.

As shown in fig. 1-6, the laser marking display panel of the present invention comprises a panel main housing 1, a housing mounting edge 2, a panel edge groove 3, a panel 4, a transparent display area 5, a touch control mark 6 and a fastening groove seat 7, wherein the panel main housing 1 comprises a housing face wall 11, a housing circumferential wall 12, a housing cavity 13, a fixture block 14, a fastening seat block 15, a clamping strip plate 16, a first connecting column 17, a second connecting column 18a, a third connecting column 18b and a reinforcing strip 19, the housing circumferential wall 12 is formed by extending around the housing face wall 11, the housing circumferential wall 12 and the housing face wall 11 enclose to form the housing cavity 13, the fixture block 14 is formed on the lower end wall of the housing circumferential wall 12, the fastening seat block 15 is formed on the upper end wall of the housing circumferential wall 12, the clamping strip plate 16 is formed by extending around the back of the housing face wall 11 and is located in the housing cavity 13, the first connecting column 17, the second connecting column 18a and the third connecting column 18b are dispersedly formed on the back surface of the shell body face wall 11 and are positioned in the shell cavity 13, the reinforcing batten 19 is extendedly formed on the back surface of the shell body face wall 11 and is positioned in the shell cavity 13, and the reinforcing batten 19 is connected with the lower end wall surface of the shell body peripheral wall 12; the shell mounting side 2 comprises a first mounting side wall 21 and a second mounting side wall 22, the first mounting side wall 21 is perpendicular to the shell circumferential wall 12 and extends outwards from the wall edge of the shell circumferential wall 12 to be molded, the second mounting side wall 22 is perpendicular to the first mounting side wall 21 and extends towards the opposite direction of the shell circumferential wall 12, a clamping groove 23 and a threading hole groove 24 are formed in the lower end wall surface of the second mounting side wall 22, and a positioning bump 25 is formed in the upper end wall surface of the second mounting side wall 22; the shaping of panel limit groove 3 is at the upper portion of casing face wall 11 and sunken towards in the shell chamber 13, panel 4 extends towards panel limit groove 3 evagination outward from the inboard trough edge of panel limit groove 3, be provided with transparent display area 5 on the face of panel 4, touch-control sign 6 laser marking is located transparent display area 5's below on the face of panel 4, fastening groove seat 7 shaping is located the below of panel limit groove 3 on casing face wall 11, fastening groove seat 7 extends towards shell chamber 13 indent, the central shaping of the groove seat diapire 71 of fastening groove seat 7 is provided with fastening mounting hole 72.

The clamping slat 16 comprises a rectangular plate body 16a, a clamping convex strip 16b, a clamping guide inclined plane 16c and a clamping positioning flat wall 16d, wherein one end of the rectangular plate body 16a is connected to the shell surface wall 11 in a forming mode, the clamping convex strip 16b is arranged on the side portion of the other end of the rectangular plate body 16a in a protruding mode, the clamping guide inclined plane 16c is formed on the outer wall surface of the clamping convex strip 16b, and the clamping positioning flat wall 16d is formed on the inner wall surface of the clamping convex strip 16 b.

The first connecting column 17 comprises a central column body 17a and connecting blocks 17b, one end of the central column body 17a is connected to the shell surface wall 11 in a forming mode, the other end of the central column body 17a extends freely, and the connecting blocks 17b extend along the length direction of the central column body 17a and are distributed on the outer wall of the central column body 17a in an annular array mode.

The second connecting column 18a comprises a connecting pipe sleeve 181, first fixedly connecting rib plates 182 and connecting pipe sleeve holes 183, one end of the connecting pipe sleeve 181 is connected to the shell surface wall 11 in a forming mode, the first fixedly connecting rib plates 182 are distributed and formed on the outer wall of the connecting pipe sleeve 181 in an annular array mode and are connected with the shell surface wall 11, and the connecting pipe sleeve holes 183 are arranged in the center of the connecting pipe sleeve 181 in a forming mode; the structure of the third connecting column 18b is the same as that of the second connecting column 18a, and the third connecting column 18b is connected with the shell peripheral wall 12 in a reinforcing manner through a second fixedly connecting rib plate 184.

The reinforcing strip 19 comprises a first U-shaped strip 19a and a second U-shaped strip 19b, the first U-shaped strip 19a opening towards the housing circumferential wall 12 and being integrally connected to the housing circumferential wall 12, and the second U-shaped strip 19b opening away from the housing circumferential wall 12.

The utility model discloses the laser marking display panel that production and processing environmental protection and structural strength are high, its casing perisporium 12 extends the shaping on the peripheral marginal part all around of casing face wall 11, casing perisporium 12 and casing face wall 11 enclose to close and form shell cavity 13, the shaping of fixture block 14 sets up on the lower extreme wall of casing perisporium 12, the shaping of fastening seat piece 15 sets up on the upper end wall of casing perisporium 12, the extension shaping of clamping slat 16 is located in shell cavity 13 on the back of casing face wall 11, first spliced pole 17, second spliced pole 18a, third spliced pole 18b dispersion shaping is located in shell cavity 13 on the back of casing face wall 11, it is connected to consolidate lath 19 extension shaping and is located in shell cavity 13 on the back of casing face wall 11 and consolidate lath 19 and the lower extreme wall of casing perisporium 12, panel limit groove 3 shaping is sunken in shell cavity 13 on the upper portion of casing face wall 11 and towards the shell cavity, panel 4 is followed the inboard groove edge of panel limit groove 3 and is gone out to extend, a transparent display area 5 is arranged on the surface of the panel 4, and a touch mark 6 is marked on the surface of the panel 4 by laser and is positioned below the transparent display area 5; the touch control panel has the characteristics that the touch control mark 6 is attached to the display panel in a laser marking mode, production and processing are environment-friendly, and the structural strength is high.

Various other changes and modifications may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such changes and modifications should fall within the scope of the present invention.

Claims (5)

1. Laser marking display panel that production and processing environmental protection and structural strength are high, its characterized in that: the touch panel comprises a panel main shell (1), a shell mounting edge (2), a panel edge groove (3), a panel (4), a transparent display area (5), a touch control mark (6) and a fastening groove seat (7), wherein the panel main shell (1) comprises a shell surface wall (11), a shell circumferential wall (12), a shell cavity (13), a clamping block (14), a fastening seat block (15), a clamping strip plate (16), a first connecting column (17), a second connecting column (18 a), a third connecting column (18 b) and a reinforcing strip (19), the shell circumferential wall (12) is formed on the peripheral edge of the shell surface wall (11) in an extending mode, the shell circumferential wall (12) and the shell surface wall (11) are enclosed to form the shell cavity (13), the clamping block (14) is formed on the lower end wall surface of the shell circumferential wall (12), the fastening seat block (15) is formed on the upper end wall surface of the shell circumferential wall (12), the clamping strip plate (16) is formed on the back surface of the shell surface wall (11) in the shell cavity (13) in an extending, the first connecting column (17), the second connecting column (18 a) and the third connecting column (18 b) are dispersedly formed on the back surface of the shell body face wall (11) and located in the shell cavity (13), the reinforcing lath (19) is formed on the back surface of the shell body face wall (11) in an extending mode and located in the shell cavity (13), and the reinforcing lath (19) is connected with the lower end wall surface of the shell body peripheral wall (12); the shell mounting side (2) comprises a first mounting side wall (21) and a second mounting side wall (22), the first mounting side wall (21) is perpendicular to the shell circumferential wall (12) and extends outwards from the wall edge of the shell circumferential wall (12) to be formed, the second mounting side wall (22) is perpendicular to the first mounting side wall (21) and extends towards the opposite direction of the shell circumferential wall (12), a clamping groove (23) and a threading hole groove (24) are formed in the lower end wall surface of the second mounting side wall (22), and a positioning bump (25) is formed in the upper end wall surface of the second mounting side wall (22);

the panel side groove (3) is formed in the upper portion of a shell body surface wall (11) and is recessed towards the shell cavity (13), the panel (4) extends towards the panel side groove (3) from the inner side groove edge of the panel side groove (3) in an outward protruding mode, a transparent display area (5) is arranged on the panel surface of the panel (4), a touch mark (6) is marked by laser and is located below the transparent display area (5) on the panel surface of the panel (4), a fastening groove seat (7) is formed on the shell body surface wall (11) and is located below the panel side groove (3), the fastening groove seat (7) extends towards the shell cavity (13) in an inward recessed mode, and a fastening mounting hole (72) is formed in the center of a groove seat bottom wall (71) of the fastening groove seat (7).

2. The laser marking display panel with environmental protection and high structural strength produced and processed according to claim 1, wherein: the clamping batten (16) comprises a rectangular plate body (16 a), a clamping fixing convex strip (16 b), a clamping fixing guide inclined plane (16 c) and a clamping fixing flat wall (16 d), one end of the rectangular plate body (16 a) is connected to the shell surface wall (11) in a forming mode, the clamping fixing convex strip (16 b) is arranged on the side portion of the other end of the rectangular plate body (16 a) in a protruding mode, the clamping fixing guide inclined plane (16 c) is formed on the outer wall surface of the clamping fixing convex strip (16 b), and the clamping fixing flat wall (16 d) is formed on the inner wall surface of the clamping fixing convex strip (16 b).

3. The laser marking display panel with environmental protection and high structural strength produced and processed according to claim 1, wherein: the first connecting column (17) comprises a central column body (17 a) and connecting blocks (17 b), one end of the central column body (17 a) is connected to the shell surface wall (11) in a forming mode, the other end of the central column body (17 a) extends freely, and the connecting blocks (17 b) extend along the length direction of the central column body (17 a) and are distributed on the outer wall of the central column body (17 a) in an annular array mode.

4. The laser marking display panel with environmental protection and high structural strength produced and processed according to claim 1, wherein: the second connecting column (18 a) comprises a connecting pipe sleeve (181), first fixedly-connected rib plates (182) and connecting pipe sleeve holes (183), one end of the connecting pipe sleeve (181) is connected to the shell surface wall (11) in a forming mode, the first fixedly-connected rib plates (182) are distributed and formed on the outer wall of the connecting pipe sleeve (181) in an annular array mode and are connected with the shell surface wall (11), and the connecting pipe sleeve holes (183) are formed in the center of the connecting pipe sleeve (181); the structure of the third connecting column (18 b) is the same as that of the second connecting column (18 a), and the third connecting column (18 b) is fixedly connected with the shell peripheral wall (12) through a second fixedly connecting rib plate (184).

5. The laser marking display panel with environmental protection and high structural strength produced and processed according to claim 1, wherein: the reinforcing strip (19) comprises a first U-shaped strip (19 a) and a second U-shaped strip (19 b), the opening of the first U-shaped strip (19 a) faces the housing circumferential wall (12) and is connected to the housing circumferential wall (12) in a forming manner, and the opening of the second U-shaped strip (19 b) faces away from the housing circumferential wall (12).

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