CN211718312U - Automatic detection equipment shell - Google Patents

Abstract

The utility model provides a full automated inspection equipment shell, include: the top angle between the front side surface of the shell and the top surface of the shell is cut to form an inclined opening, a horizontal installation position is formed, angular depressions are formed on two sides of the shell body, and the front end surface of the top surface of the shell, which forms the left end part of the inclined opening, is depressed backwards to form an installation notch; a touch screen mounting door which is mounted on the inclined opening of the right side part in a covering manner; the rear end face of the right side face of the material loading and unloading door is pressed on a blank holder of the touch screen installation door; the rear end surface of the left side surface of the loading and unloading door is pressed on the front end surface of the left side surface of the shell; the lower end face of the lower side face of the loading and unloading door is matched on the mounting position and is pressed on the front end face of the left side face of the shell forming the angular depression in a pressing mode, so that the material loading and unloading door is mounted on the inclined opening of the left side portion in a covering mode. The utility model discloses can effectively promote the human-computer interaction performance of automated inspection equipment shell.

Description

Automatic detection equipment shell

Technical Field

The utility model relates to a check out test set field especially relates to an automatic check out test set shell.

Background

An automatic inspection apparatus is an apparatus for performing sample inspection by automatic operation of various monitoring devices, for example, an apparatus for performing automatic inspection of a biological sample slide. Since devices with various functions are usually accommodated in automatic detection equipment, various human-computer interactions are inevitably required to achieve the best equipment performance. At present, the shell of automatic detection equipment is not beneficial to human-computer interaction, and meanwhile, the operability of the shell is not friendly enough, so that the performance of the automatic detection equipment is difficult to guarantee.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an automatic detection equipment shell.

To the technical problem, the utility model provides an automatic detection equipment shell, include:

the top angle between the front side surface of the shell and the top surface of the shell body is cut to form an inclined opening, the front end surfaces of the left side surface and the right side surface of the shell body forming the bottom end part of the inclined opening are recessed backwards to obtain a horizontal installation position, angular recesses are formed on two sides of the shell body, and the front end surface of the top surface of the shell forming the left end part of the inclined opening is recessed backwards to obtain an installation notch;

the touch screen installation door comprises an installation door body, an installation door top surface arranged at an angle with the installation door body, an installation door lower side surface, an installation door right side surface and an installation door left side surface, wherein the lower end of the installation door right side surface is provided with an angular protrusion matched with the outline of the angular depression, and the side edge of the bottom end surface of the installation door left side surface extends leftwards to form a blank holder; the installation door body is provided with a protruding part, and a touch screen is installed on the protruding part; the top surface of the installation door is rotatably connected with the top surface of the shell, the lower end surface of the lower side surface of the installation door is matched on the installation position, the rear end surface of the right side surface of the installation door is matched with the front end surface of the right side surface of the shell, and the angular protrusion is inserted into the angular recess, so that the touch screen installation door is covered and installed on the inclined opening of the right side part;

the material loading and unloading door comprises a loading and unloading door body, a loading and unloading door top surface, a loading and unloading door right side surface, a loading and unloading door left side surface and a loading and unloading door lower side surface, wherein the loading and unloading door top surface, the loading and unloading door right side surface, the loading and unloading door left side surface and the loading and unloading door lower side surface are arranged at an; the top surface of the loading and unloading door is inserted into the mounting notch, and the rear end surface of the loading and unloading door is rotatably matched with the front end surface of the top surface of the shell forming the mounting notch; the rear end face of the right side face of the loading and unloading door is pressed on the pressing edge; the rear end face of the left side face of the loading and unloading door is pressed on the front end face of the left side face of the shell; the lower end face of the lower side face of the loading and unloading door is matched on the mounting position and is pressed on the front end face of the left side face of the shell forming the angular depression in a pressing mode, so that the material loading and unloading door is mounted on the inclined opening of the left side portion in a covering mode.

In a preferable scheme, the touch screen mounting box further comprises a concave table arranged at the top end of the protruding part, a connecting opening penetrating through the top end of the protruding part is arranged on the bottom surface of the concave table, the bottom surface of the concave table is parallel to the top end surface of the protruding part, the touch screen mounting box is provided with a top mounting opening, the touch screen mounting box is mounted inside the protruding part, and the top mounting opening faces the connecting opening; the touch screen is installed in the concave table and is connected with the main board in the touch screen installation box through the connection opening and the top installation opening.

In a preferable scheme, the portable electronic device further comprises a rear cover, the rear side surface of the shell body is open, and the rear cover is installed on the rear side surface of the shell body and covers the open.

In a preferable scheme, the electric control device further comprises a front cover, and an electric control mounting opening penetrating through the front side face of the shell is arranged between the horizontal mounting position and the lower side face of the shell body; the front cover comprises a front cover top surface and a front cover front side surface arranged at an angle with the front cover top surface, the lower end surface of the front cover top surface is installed on the horizontal installation position in a matched mode, and the rear end surface of the front cover front side surface covers the electric control installation opening.

In a preferable scheme, the top surface of the front cover extends into the angular recess and is in contact fit with the edge of the angular recess; the lower end surface of the lower side surface of the mounting door is in contact fit with the upper end surface of the top surface of the front cover, so that the lower end surface of the lower side surface of the mounting door is in fit with the mounting position; the lower end face of the lower side face of the loading and unloading door is in contact fit with the upper end face of the top face of the front cover, so that the lower end face of the lower side face of the loading and unloading door is in fit with the mounting position.

In a preferable scheme, the corner defect is a positioning groove arranged on the side where the top surface of the front cover is in contact fit with the corner defect, and a positioning protrusion is arranged on the surface where the top surface of the front cover is in contact fit with the corner defect and inserted into the positioning groove.

In a preferred scheme, the touch screen installation door further comprises a first nitrogen spring, one end of the first nitrogen spring is rotatably connected to the right side face of the outer shell body, and the other end of the first nitrogen spring is rotatably connected to the right side face of the installation door of the touch screen installation door.

In a preferable scheme, the material loading and unloading door further comprises a second nitrogen spring, one end of the second nitrogen spring is rotatably connected to the left side face of the shell body, and the other end of the second nitrogen spring is rotatably connected to the left side face of the loading and unloading door of the material loading and unloading door.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model provides an automatic detection equipment shell, include: the top angle between the front side surface of the shell and the top surface of the shell body is cut to form an inclined opening, the front end surfaces of the left side surface and the right side surface of the shell body forming the bottom end part of the inclined opening are recessed backwards to obtain a horizontal installation position, angular recesses are formed on two sides of the shell body, and the front end surface of the top surface of the shell forming the left end part of the inclined opening is recessed backwards to obtain an installation notch; the touch screen installation door comprises an installation door body, an installation door top surface arranged at an angle with the installation door body, an installation door lower side surface, an installation door right side surface and an installation door left side surface, wherein the lower end of the installation door right side surface is provided with an angular protrusion matched with the outline of the angular depression, and the side edge of the bottom end surface of the installation door left side surface extends leftwards to form a blank holder; the installation door body is provided with a protruding part, and a touch screen is installed on the protruding part; the top surface of the installation door is rotatably connected with the top surface of the shell, the lower end surface of the lower side surface of the installation door is matched on the installation position, the rear end surface of the right side surface of the installation door is matched with the front end surface of the right side surface of the shell, and the angular protrusion is inserted into the angular recess, so that the touch screen installation door is covered and installed on the inclined opening of the right side part; the material loading and unloading door comprises a loading and unloading door body, a loading and unloading door top surface, a loading and unloading door right side surface, a loading and unloading door left side surface and a loading and unloading door lower side surface, wherein the loading and unloading door top surface, the loading and unloading door right side surface, the loading and unloading door left side surface and the loading and unloading door lower side surface are arranged at an; the top surface of the loading and unloading door is inserted into the mounting notch, and the rear end surface of the loading and unloading door is rotatably matched with the front end surface of the top surface of the shell forming the mounting notch; the rear end face of the right side face of the loading and unloading door is pressed on the pressing edge; the rear end face of the left side face of the loading and unloading door is pressed on the front end face of the left side face of the shell; the lower end face of the lower side face of the loading and unloading door is matched on the mounting position and is pressed on the front end face of the left side face of the shell forming the angular depression in a pressing mode, so that the material loading and unloading door is mounted on the inclined opening of the left side portion in a covering mode.

Thus, a touch screen installation door and a material handling door are installed on the inclined opening of the shell, and the two doors can rotate around the top surface of the shell to be opened; make two door mounting structure's intensity can guarantee through angular form defect cooperation installation position, and set up the protruding portion installation touch-sensitive screen on the touch-sensitive screen installation door, guarantee the human-computer interaction effect, and then, effectively promote the human-computer interaction performance of automatic check out test set's shell, promote the maneuverability of shell simultaneously for the performance of automatic check out test set can effectively be guaranteed.

Drawings

FIG. 1 is a schematic diagram of an explosion structure of the housing of the automatic detection device of the present embodiment;

FIG. 2 is a schematic structural diagram of a housing of the automatic detection device of the present embodiment;

Detailed Description

Exemplary embodiments that embody features and advantages of the present invention will be described in detail in the following description. It is to be understood that the invention is capable of other and different embodiments and its several details are capable of modification without departing from the scope of the invention, and that the description and drawings are to be regarded as illustrative in nature and not as restrictive.

Referring to fig. 1 to 2, the present invention provides an automatic detection device housing 100, including: the touch screen comprises a shell body 1, a touch screen installation door 2 and a material loading and unloading door 3;

the top angle between the front side 11 of the outer shell and the top 12 of the outer shell 1 is cut to form an inclined opening 4, the front end faces of the left side 13 and the right side 14 of the outer shell 1 forming the bottom part of the inclined opening 4 are recessed backwards to obtain a horizontal mounting position 5, the two sides of the outer shell 1 are formed with angle-shaped recesses 6, and the front end face of the top 12 of the outer shell forming the left part of the inclined opening 4 is recessed backwards to obtain a mounting notch 7;

the touch screen installation door 2 comprises an installation door body 21, an installation door top surface 22 arranged at an angle with the installation door body 21, an installation door lower side surface 23, an installation door right side surface 24 and an installation door left side surface 25, wherein the lower end of the installation door right side surface 24 is provided with an angular protrusion 8 matched with the outline of the angular depression 6, and a side edge 252 of the bottom end surface 251 of the installation door left side surface 25 extends leftwards to form an edge pressing 253; the mounting door body 21 is provided with a protruding part 212, and a touch screen 9 is mounted on the protruding part 212; the top surface 22 of the installation door is rotatably connected with the top surface 12 of the shell, the lower end surface 231 of the lower side surface 23 of the installation door is matched on the installation position 5, the rear end surface 241 of the right side surface 24 of the installation door is matched with the front end surface 141 of the right side surface 14 of the shell, and the angular protrusion 8 is inserted into the angular recess 6, so that the touch screen installation door 2 is covered and installed on the inclined opening 4 of the right side part;

a material loading/unloading door 3 including a loading/unloading door body 31, a loading/unloading door top surface 32 disposed at an angle to the loading/unloading door body 31, a loading/unloading door right side surface 33, a loading/unloading door left side surface 34, and a loading/unloading door lower side surface 35; the loading and unloading door top surface 32 is inserted into the installation gap 7, and the rear end surface 321 is rotatably matched with the front end surface 121 of the shell top surface forming the installation gap 7; the rear end face of the right side face 33 of the loading and unloading door is pressed on the edge pressing 253; the rear end surface of the left side surface 34 of the loading and unloading door is pressed on the front end surface of the left side surface 13 of the shell; the lower end face of the material loading and unloading door lower side face 35 is fitted on the mounting site 5 and press-fitted on the front end face of the housing left side face 13 forming the angular depression 6 so that the material loading and unloading door 3 is mounted covering the inclined opening 4 of the left side portion.

Thus, a touch screen installation door and a material handling door are installed on the inclined opening of the shell, and the two doors can rotate around the top surface of the shell to be opened; the strength of the two door mounting structures can be ensured by matching the angular defects with the mounting positions, the touch screen is mounted by arranging the protruding parts on the touch screen mounting door, the man-machine interaction effect is ensured, the blank pressing of the touch screen mounting door is pressed through the material loading and unloading door, the sealing effect of the shell is ensured, and meanwhile, the material loading and unloading door can be opened for carrying out interaction work such as replacement of detection materials and the like; furthermore, the man-machine interaction performance of the shell of the automatic detection equipment is effectively improved, and meanwhile, the operability of the shell is improved, so that the performance of the automatic detection equipment is effectively guaranteed.

Further, in one embodiment, a concave platform is arranged at the top end of the protruding part 212, a connecting opening penetrating through the top end of the protruding part is arranged on the bottom surface of the concave platform, the bottom surface of the concave platform is parallel to the top end surface of the protruding part 212, the touch screen mounting box 10 is provided with a top mounting opening, the touch screen mounting box 10 is mounted inside the protruding part 212, and the top mounting opening faces the connecting opening; the touch screen 9 is mounted in the recessed table and is connected to the main board 15 in the touch screen mounting box through the connection opening and the top mounting opening.

Further, in an embodiment, the case further includes a rear cover 16, the rear side of the case body is open, and the rear cover 16 is installed on the rear side of the case body 1 and covers the open.

Further, in one embodiment, the electric control cabinet further comprises a front cover 17, wherein an electric control mounting opening penetrating through the front side surface of the shell is arranged between the horizontal mounting position 5 and the lower side surface of the shell body 1; the front cover 17 comprises a front cover top surface and a front cover front side surface arranged at an angle with the front cover top surface, the lower end surface of the front cover top surface is installed on the horizontal installation position 5 in a matched mode, and the rear end surface of the front cover front side surface covers the electric control installation opening.

Further, in one embodiment, the top surface of the front cover extends into the angular recess 6 and is in contact fit with the edge of the angular recess 6; the lower end surface 231 of the lower side surface 23 of the mounting door is in contact fit with the upper end surface of the top surface of the front cover, so that the lower end surface 231 of the lower side surface 23 of the mounting door is fitted on the mounting position 5; the lower end face of the lower side face 35 of the loading and unloading door is in contact fit with the upper end face of the top face of the front cover, so that the lower end face of the lower side face 35 of the loading and unloading door is fitted on the mounting position 5.

Further, in one embodiment, the side of the angular defect 6, which is in contact fit with the top surface of the front cover, is provided with a positioning groove, and the side of the top surface of the front cover, which is in contact fit with the angular defect, is provided with a positioning protrusion, and the positioning protrusion is inserted into the positioning groove.

Further, in an embodiment, the touch screen installation door further comprises a first nitrogen spring, one end of the first nitrogen spring is rotatably connected to the right side surface of the outer shell body, and the other end of the first nitrogen spring is rotatably connected to the right side surface of the installation door of the touch screen installation door.

Further, in one embodiment, the material loading and unloading door further comprises a second nitrogen spring, one end of the second nitrogen spring is rotatably connected to the left side face of the shell body, and the other end of the second nitrogen spring is rotatably connected to the left side face of the loading and unloading door of the material loading and unloading door.

In conclusion, the embodiment of the application can realize that the man-machine interaction performance of the shell of the automatic detection equipment is effectively improved, and the operability of the shell is improved, so that the performance of the automatic detection equipment is effectively ensured.

While the present invention has been described with reference to the above exemplary embodiments, it is understood that the terminology used is intended to be in the nature of words of description and illustration, rather than of limitation. As the present invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims (8)

1. An automatic detection device housing, comprising:

the top angle between the front side surface of the shell and the top surface of the shell body is cut to form an inclined opening, the front end surfaces of the left side surface and the right side surface of the shell body forming the bottom end part of the inclined opening are recessed backwards to obtain a horizontal installation position, angular recesses are formed on two sides of the shell body, and the front end surface of the top surface of the shell forming the left end part of the inclined opening is recessed backwards to obtain an installation notch;

the touch screen installation door comprises an installation door body, an installation door top surface arranged at an angle with the installation door body, an installation door lower side surface, an installation door right side surface and an installation door left side surface, wherein the lower end of the installation door right side surface is provided with an angular protrusion matched with the outline of the angular depression, and the side edge of the bottom end surface of the installation door left side surface extends leftwards to form a blank holder; the installation door body is provided with a protruding part, and a touch screen is installed on the protruding part; the top surface of the installation door is rotatably connected with the top surface of the shell, the lower end surface of the lower side surface of the installation door is matched on the installation position, the rear end surface of the right side surface of the installation door is matched with the front end surface of the right side surface of the shell, and the angular protrusion is inserted into the angular recess, so that the touch screen installation door is covered and installed on the inclined opening of the right side part;

the material loading and unloading door comprises a loading and unloading door body, a loading and unloading door top surface, a loading and unloading door right side surface, a loading and unloading door left side surface and a loading and unloading door lower side surface, wherein the loading and unloading door top surface, the loading and unloading door right side surface, the loading and unloading door left side surface and the loading and unloading door lower side surface are arranged at an; the top surface of the loading and unloading door is inserted into the mounting notch, and the rear end surface of the loading and unloading door is rotatably matched with the front end surface of the top surface of the shell forming the mounting notch; the rear end face of the right side face of the loading and unloading door is pressed on the pressing edge; the rear end face of the left side face of the loading and unloading door is pressed on the front end face of the left side face of the shell; the lower end face of the lower side face of the loading and unloading door is matched on the mounting position and is pressed on the front end face of the left side face of the shell forming the angular depression in a pressing mode, so that the material loading and unloading door is mounted on the inclined opening of the left side portion in a covering mode.

2. The automatic detection equipment housing of claim 1, further comprising a touch screen mounting box, wherein the top end of the protrusion is provided with a recessed platform, the bottom surface of the recessed platform is provided with a connection opening penetrating through the top end of the protrusion, the bottom surface of the recessed platform is parallel to the top end surface of the protrusion, the touch screen mounting box is provided with a top mounting opening, the touch screen mounting box is mounted inside the protrusion, and the top mounting opening faces the connection opening; the touch screen is installed in the concave table and is connected with the main board in the touch screen installation box through the connection opening and the top installation opening.

3. The automatic detection device housing of claim 1, further comprising a rear cover, wherein the rear side of the housing body is open, and the rear cover is mounted on the rear side of the housing body and covers the open.

4. The automatic detection equipment housing of claim 1, further comprising a front cover, wherein an electrically controlled mounting opening is provided between the horizontal mounting location and the housing lower side of the housing body, and the electrically controlled mounting opening penetrates through the front side of the housing; the front cover comprises a front cover top surface and a front cover front side surface arranged at an angle with the front cover top surface, the lower end surface of the front cover top surface is installed on the horizontal installation position in a matched mode, and the rear end surface of the front cover front side surface covers the electric control installation opening.

5. The automatic detection device housing of claim 4, wherein the top surface of the front cover extends into the angular recess and engages a side of the angular recess; the lower end surface of the lower side surface of the mounting door is in contact fit with the upper end surface of the top surface of the front cover, so that the lower end surface of the lower side surface of the mounting door is in fit with the mounting position; the lower end face of the lower side face of the loading and unloading door is in contact fit with the upper end face of the top face of the front cover, so that the lower end face of the lower side face of the loading and unloading door is in fit with the mounting position.

6. The automatic detection equipment housing of claim 4, wherein the angular recess is provided with a positioning groove at a side contacting and matching with the top surface of the front cover, and a positioning protrusion is provided at a side contacting and matching with the angular recess, and the positioning protrusion is inserted into the positioning groove.

7. The automatic detection device case of claim 1, further comprising a first nitrogen spring, one end of which is rotatably connected to the case right side surface of the case body, and the other end of which is rotatably connected to the installation door right side surface of the touch screen installation door.

8. The automatic detection equipment enclosure of claim 1, further comprising a second gas spring, one end of the second gas spring rotatably coupled to the enclosure left side surface of the enclosure body, the other end of the second gas spring rotatably coupled to the loading door left side surface of the material loading door.

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