CN216057725U - Embedded graphic image processing element - Google Patents

Abstract

The utility model provides an embedded graphic image processing element, which relates to the technical field of electronic elements and comprises a base and a shell, wherein a groove is arranged above the base, the shell is embedded in the groove, a positioning groove is arranged at the bottom of the groove, a clamping groove is arranged on the side wall of the groove, a sliding groove is arranged on the side wall of the bottom of the shell, a plate notch is arranged at the top end of the shell, a radiator positioned in the shell is arranged below the plate notch, a fixing frame is fixedly connected below the radiator, a processor is arranged at the bottom of the fixing frame, because the element is more complicated to assemble and disassemble, the heat radiation performance is poor after the element is used, the use stability of intelligent equipment is limited to a certain extent, the sliding grooves are arranged at two sides of the bottom of the shell, an inserting rod in the sliding groove is embedded and fixed in the clamping groove through the rebound of a bottom spring, the inserting rod penetrates through a through hole and is embedded in the clamping groove, the inserting rod in the clamping groove is pushed out, the shell is more convenient and faster to mount and dismount in the base.

Description

Embedded graphic image processing element

Technical Field

The utility model relates to the technical field of electronic elements, in particular to an embedded graphic image processing element.

Background

At present smart machine is more to popularizing, and the structure is mostly pleasing to the eye exquisite little structural design moreover, and when traditional image processing component adaptation was used in small-size equipment, the influence such as electric current low level will produce the electric heat on circuit and component surface when the component was run, and the storage of electric heat will further influence the stability of component work.

The image processing component of prior art is mostly hardware structure, is difficult to the processing of the small-size smart machine of adaptation and uses, and the component dismouting is comparatively complicated, and can't satisfy embedded installation in small-size smart machine, and heat dispersion is relatively poor after using, has also restricted smart machine's stability in use nature to a certain extent.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that in the background technology, due to the fact that the assembly and disassembly of elements are complex, the heat dissipation performance is poor after the elements are used, and the use stability of intelligent equipment is limited to a certain extent, and provides an embedded graphic image processing element.

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

the utility model provides an embedded figure image processing component, includes base, shell, the base top is seted up flutedly, the shell is inlayed in the recess, the constant head tank has been seted up to the recess bottom, the draw-in groove has been seted up on the recess lateral wall, the spout has been seted up on the lateral wall of shell bottom, the board notch has been seted up on the shell top, board notch below is provided with the radiator that is located the shell inside, radiator below fixedly connected with mount, the mount bottom is provided with the treater.

Preferably, the inner side of the clamping groove is fixedly communicated with a through hole, an inserting side is arranged in the through hole, and the inserting side penetrates through the through hole to be embedded in the clamping groove.

Preferably, an inserting rod is arranged in the sliding groove, a spring is fixedly connected to the inner side end of the inserting rod, and the side end of the spring is fixedly connected to the inner side wall of the sliding groove.

Preferably, a limiting groove is formed below the sliding groove, a rectangular opening is formed above the limiting groove, and a top rod located in the rectangular opening is fixedly connected to the lower portion of the inserting rod.

Preferably, a positioning rod is arranged in the limiting groove, an upper floating groove is formed in the middle of the limiting groove, and a circular ring located in the upper floating groove is fixedly connected to the middle of the positioning rod.

Preferably, the top end of the positioning rod and the bottom end of the ejector rod are arranged in a circular arc shape, and the bottom of the positioning rod is fixedly connected with a sucker.

Preferably, heat dissipation channels are formed in two sides of the fixing frame, and the inner side ends of the heat dissipation channels are located between the radiator and the processor.

Preferably, the outer end of the heat dissipation channel is provided with an air outlet positioned on the side wall of the shell.

Has the advantages that:

this kind of embedded figure image processing component has seted up the draw-in groove on through recess both sides lateral wall, the spout has been seted up to shell bottom both sides, it makes the side inlay at the draw-in groove internal fixation to kick-back the pole in the spout through bottom spring, it inlays in the draw-in groove to insert the side through the through-hole incidentally, insert through promoting and release the pole in the draw-in groove incidentally, make its shell install dismouting convenient and fast more in the base, the spacing groove has been seted up to the spout below, the spacing inslot is provided with the locating lever, the pole passes through spring-back when extending to the outside, the round arc side in below ejector pin bottom promotes the round arc side in locating lever top, make its locating lever extrude to spacing groove below and impel, make its bottom sucking disc adsorb the constant head tank of seting up in the recess bottom fix a position, the shell is installed more firmly in the base, make its inside component operation more stable.

This kind of embedded graphic image processing element passes through mount top fixedly connected with radiator, the mount both sides have been seted up heat dissipation channel and have been located in the middle of treater and radiator, mount and exhaust passage set up for insulating material, prevent that little current from influencing the heat dissipation exhaust, make it more efficient when the heat dissipation, steam that the treater operation produced blows downwards through the radiator and transmits to the heat dissipation channel in, the gas vent that is located on the shell lateral wall is seted up to the heat dissipation channel both sides, through the filter screen that sets up on the gas vent, make it prevent the dust among the outside air entering when the heat dissipation, carry out the drainage heat dissipation to steam through heat dissipation channel, stability when having improved the component operation.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the front structure of the present invention;

FIG. 3 is a schematic view of the structure of the insert rod of the present invention;

illustration of the drawings:

the heat dissipation device comprises a base-1, a clamping groove-2, a through hole-21, an inserting groove-22, a groove-3, a positioning groove-31, a sliding groove-4, a limiting groove-41, an inserting rod-5, an ejector rod-51, a spring-52, a positioning rod-6, a shell-7, a plate notch-71, a fixing frame-8, a processor-81, a heat radiator-9 and a heat dissipation channel-91.

Detailed Description

Referring to fig. 1-3, an embedded graphic image processing element includes a base 1 and a housing 7, a groove 3 is formed above the base 1 to install the housing 7, a slot 2 is formed on side walls of two sides of the groove 3 to limit the housing 7, positioning slots 31 are formed on two sides of the bottom of the groove 3 to position the bottom of the housing 7, sliding slots 4 are formed on side walls of two sides of the bottom of the housing 7, a board slot 71 is formed in the top end of the housing 7 to be used as an element interface, a heat sink 9 is arranged below the board slot 71, a fixing frame 8 is formed below the heat sink 9, the fixing frame 8 fixes the processor 81, the heat sink 8 is fixedly supported above the processor 81 through the fixing frame 8, the heat sink 9 dissipates heat of the processor 81, and the processor 81 operates more stably.

As shown in fig. 2, a through hole 21 is fixedly communicated with the inner side of the clamping groove 2, an inserting pin 22 is arranged in the through hole 21, the side end of the inserting pin 2 penetrates through the through hole 21 and is embedded in the clamping groove 2, the length of the inserting pin 22 is slightly longer than that of the through hole 21, the inserting pin 22 is pulled to move left and right in the through hole 21 to push the inserting rod 5, an ejector block is fixedly connected to the side end of the inserting pin 22 located in the clamping groove 2, the side end of the inserting rod 5 is pushed through the ejector block, and the inserting rod 5 is forced to move towards the inner side end.

As shown in fig. 2, be provided with inserted bar 5 in the spout 4, 5 inboard end fixedly connected with springs 52 of inserted bar, and spring 52 side fixed connection is on 4 inside walls of spout, 5 outside end fixedly connected with fixture blocks of inserted bar, when inserted bar 5 kick-backs through springs 52 and impels, inserted bar 5 slides in spout 4 and makes the fixture block card go into the draw-in groove 2 and carry on spacingly, inlay in draw-in groove 2 with shell 7 unable adjustment base 1 through 5 side fixture blocks of inserted bar, it is more stable to make its shell 7 inlay in base 1 recess 3.

As shown in fig. 2, a limiting groove 41 is formed below the sliding groove 4, a rectangular opening is formed above the limiting groove 41, a top rod 51 located in the rectangular opening is fixedly connected to the lower portion of the insertion rod 5, the bottom of the top rod 51 is located in the rectangular opening above the limiting groove 41, and when the insertion rod 5 moves left and right, the top rod 51 is driven to move in the rectangular opening, so that the top rod 51 pushes and pushes the positioning rod 6 in the limiting groove 41 downwards when moving, the top rod 51 is limited by the rectangular opening, and the insertion rod 5 is prevented from being collided due to overlong outside due to rebounding extension of the inner end spring 52.

As shown in fig. 2, be provided with locating lever 6 in the spacing groove 41, the last floating slot has been seted up at spacing groove 41 middle part, 6 middle part fixedly connected with of locating lever is located the ring of floating slot, 6 middle part rings of locating lever card floats from top to bottom in last floating slot, prevent that 6 rising of locating lever or decline extend overlength from causing the mistake to bump, top ejector pin 51 when pushing locating lever 6 downwards, 6 middle part rings of locating lever float downwards in last floating slot, make 6 bottom of its locating lever block down the card in locating slot 31 internal location, it is more stable to make its shell 7 install in base 1 top recess 3, difficult emergence is rocked.

As shown in fig. 2, the top end of the positioning rod 6 and the bottom end of the ejector rod 51 are arranged in a circular arc shape, the bottom of the positioning rod 6 is fixedly connected with a sucker, the ejector rod 51 is arranged in a circular arc shape, so that the ejector rod 51 can move to the side to extrude the top end of the positioning rod 6 to push downwards, the top end of the positioning rod 6 and the bottom end of the ejector rod 51 are not easy to collide through sliding extrusion of the circular arc-shaped side edge, and the positioning rod 6 is extruded downwards under the stress more conveniently.

As shown in fig. 2, heat dissipation channels 91 are disposed on two sides of the fixing frame 8, and the inner side end of each heat dissipation channel 91 is located between the heat sink 9 and the processor 81, the heat dissipation channels 91 are disposed on two sides of the fixing frame 8 in a pipeline shape, the fixing frame 8 and the heat dissipation channels 91 are made of insulating materials, so that when the heat sink 9 radiates heat downwards, hot air flows into and is discharged from the heat dissipation channels 91 on two sides, the heat dissipation effect of the processor 81 is better, hot air is more conveniently discharged from the heat dissipation channels 91 made of insulating materials, and the influence of micro current on the discharge of the hot air is prevented.

As shown in fig. 1, the air outlet located on the side wall of the housing 7 is provided at the outer end of the heat dissipation channel 91, the filter screen is arranged at the opening of the air outlet, and the hot air is discharged to the air outlet through the heat dissipation channel 91 and then separated from the dust in the air through the filter screen arranged at the opening of the air outlet, so that the dust is effectively prevented from entering the housing 7.

The working principle is as follows: when the shell 7 is installed in a groove 3 at the bottom of a base 1 and fixed, inserting rods 5 in sliding grooves 4 at two sides of the shell 7 extend outwards, the inserting rods 5 are rebounded by springs 52 at the bottom of the inserting rods 5 to push towards the side, when the inserting rods 5 push towards the outside, clamping blocks at the outer side ends are embedded in clamping grooves 2 to fix the shell 7, ejector rods 51 fixedly connected at the bottom of the inserting rods 5 are used, when the inserting rods 5 rebound and extend towards the outside through the springs 52, circular arc side edges at the bottom ends of the lower ejector rods 51 push circular arc side edges at the top ends of positioning rods 6 to push the positioning rods 6 to push towards the lower part of a limiting groove 41, so that a sucking disc at the bottom of the inserting rods is adsorbed on positioning grooves 31 formed at the bottom of the groove 3 to be positioned, the shell is installed in the base more stably, the inserting rods 5 in the clamping grooves 2 are pushed by pushing plug bags 22 located in through holes 21, the shell 7 is installed in the base 1 to be more conveniently and quickly disassembled, a plate notch 71 is formed at the top end of the shell 7 to be used as an element interface, the steam that produces when treater 81 moves blows downwards through radiator 9 and transmits to heat dissipation channel 91 in, the gas vent that is located on the shell 7 lateral wall is seted up to heat dissipation channel 91 both sides, through the filter screen that sets up on the gas vent, makes it prevent the dust entering in the outside air when the heat dissipation, mount 8 and heat dissipation channel 91 set up for insulating material, and steam is discharged more in heat dissipation channel 91 that insulating material set up and is added conveniently, prevents that small electric current from influencing the discharge of steam.

Claims (8)

1. An embedded graphic image processing element, comprising a base (1), a housing (7), characterized in that: base (1) top is seted up flutedly (3), shell (7) are inlayed in recess (3), constant head tank (31) have been seted up to recess (3) bottom, draw-in groove (2) have been seted up on recess (3) lateral wall, spout (4) have been seted up on shell (7) bottom lateral wall, board notch (71) have been seted up on shell (7) top, board notch (71) below is provided with radiator (9) that are located shell (7) inside, radiator (9) below fixedly connected with mount (8), mount (8) bottom is provided with treater (81).

2. The embedded graphic image processing device according to claim 1, wherein a through hole (21) is fixedly connected to an inner side of the slot (2), an insertion clip (22) is disposed in the through hole (21), and a side end of the insertion clip (22) penetrates through the through hole (21) and is embedded in the slot (2).

3. The embedded graphic image processing element according to claim 1, wherein an insertion rod (5) is disposed in the sliding slot (4), a spring (52) is fixedly connected to an inner side end of the insertion rod (5), and a side end of the spring (52) is fixedly connected to an inner side wall of the sliding slot (4).

4. The embedded graphic image processing component according to claim 1, wherein a limiting groove (41) is formed below the sliding groove (4), a rectangular opening is formed above the limiting groove (41), and a top rod (51) located in the rectangular opening is fixedly connected below the inserting rod (5).

5. The embedded graphic image processing component according to claim 4, wherein a positioning rod (6) is disposed in the limiting groove (41), an upper floating groove is disposed in the middle of the limiting groove (41), and a circular ring disposed in the upper floating groove is fixedly connected to the middle of the positioning rod (6).

6. The embedded graphic image processing component of claim 5, wherein the top end of the positioning rod (6) and the bottom end of the top rod (51) are disposed in a circular arc shape, and the bottom of the positioning rod (6) is fixedly connected with a suction cup.

7. The embedded graphic image processing component of claim 1, wherein the fixing frame (8) has heat dissipation channels (91) formed on both sides thereof, and inner ends of the heat dissipation channels (91) are located between the heat sink (9) and the processor (81).

8. The embedded graphic image processing component of claim 7, wherein the external end of the heat dissipation channel (91) is opened with an air vent located on the side wall of the housing (7).

Images