CN211576024U

CN211576024U - Hole site gauge of built-in support piece of computer host

Info

Publication number: CN211576024U
Application number: CN202020371756.8U
Authority: CN
Inventors: 谢佳谕
Original assignee: Hongjingxin Electronics Chongqing Co ltd
Current assignee: Hongjingxin Electronics Chongqing Co ltd
Priority date: 2020-03-21
Filing date: 2020-03-21
Publication date: 2020-09-25
Anticipated expiration: 2030-03-21

Abstract

A hole site gauge with a built-in support piece of a computer host comprises a gauge body, wherein the top surface of the gauge body is provided with a two-stage ladder surface, a first ladder is provided with a first abdicating groove and a second abdicating groove at intervals from left to right, the first ladder is provided with a plurality of first, second, third, fourth, fifth, sixth, ninth and tenth heat capacity holes corresponding to the first, second, third, fourth, fifth, sixth, ninth and tenth heat capacity holes respectively, a plurality of seventh inspection columns are arranged at the bottom of the first abdicating groove and correspond to the seventh heat capacity holes, a plurality of eighth inspection columns are arranged at the bottom of the second abdicating groove and correspond to the eighth heat capacity holes, a plurality of eleventh inspection columns are arranged on the extending edge of the second ladder and correspond to the first threaded holes, and a twelfth inspection column is arranged at the left end and the right end of the second ladder and correspond to the second threaded holes respectively. The utility model discloses simple structure, detection convenience, the position of each hole site of built-in support piece of detection computer that can be quick, accurate satisfies the detection demand of enterprise.

Description

Hole site gauge of built-in support piece of computer host

Technical Field

The utility model relates to an electronic computer corollary equipment field, in particular to utensil is examined to built-in support piece's of computer hole site.

Background

Referring to fig. 1 and 2, a structure of a built-in supporting member of a computer host is schematically illustrated. The built-in supporting member is a stepped structure formed by using a plate, wherein a first depressed area 10a and a second depressed area 10b are arranged on the low-level step surface 10 at intervals from left to right, and a gap 10c is arranged between the first depressed area 10a and the second depressed area 10 b. A plurality of first heat capacity holes 101 are formed in the area, located on the left side of the first concave area 10a, of the low-level step surface 10, and the first heat capacity holes 101 are distributed at intervals in the width direction of the low-level step surface 10; a plurality of second heat capacity holes 102 are formed in the area, located on the right side of the second concave area 10b, of the low-level step surface 10, and the second heat capacity holes 102 are distributed at intervals in the width direction of the low-level step surface 10; a plurality of third heat capacity holes 103 are arranged in the area of the low-level step surface 10, which is positioned between the inner sides of the first depressed area 10a, the second depressed area 10b and the notch 10 c; a plurality of fourth heat capacity holes 104 are formed in the area, located between the first depressed area 10a, the second depressed area 10b and the outer side of the notch 10c, of the low-level step surface 10; a plurality of fifth heat capacity holes 105 are respectively arranged at two sides of the first depressed area 10a, and the fifth heat capacity holes 105 are distributed at intervals along the length direction of the low-level step surface 10; a plurality of sixth heat capacity holes 106 are respectively arranged at two sides of the second depressed area 10b, and the sixth heat capacity holes 106 are distributed at intervals along the length direction of the low-level step surface 10; the bottom of the first depressed area 10a is provided with a plurality of seventh heat capacity holes 107, and the seventh heat capacity holes 107 are distributed at intervals along the length direction of the low-level step surface 10; a plurality of eighth heat capacity holes 108 are formed in the bottom of the second recessed area 10b, and the eighth heat capacity holes 108 are distributed at intervals along the length direction of the low-level step surface 10; a first support lug 10d extending rightwards into the notch 10c is arranged on the low-level step surface 10, the first support lug 10d is higher than the low-level step surface 10, and a ninth heat capacity hole 109 is formed; the lower step surface 10 is provided with a second lug 10e extending leftwards into the notch 10c, and the second lug 10e is higher than the lower step surface 10 and is provided with a tenth heat-accommodating hole 110. The heat capacity hole arranged on the low-level step surface 10 is used for installing a plastic part. A plurality of first threaded holes 201 are formed in the extending edge of the high-level step surface 20, the first threaded holes 201 extend along the length direction of the high-level step surface 20, and two ends of the high-level step surface 20 are respectively provided with a second threaded hole 202, and the threaded holes are used for being fixedly connected with a computer case through bolts.

After the supporting member arranged in the computer host is machined and formed, the positions of the heat containing holes and the threaded holes arranged on the plate are required to be accurate. At present, utilize the manual work to compare finished product and standard component with visualizing usually, the efficiency of so detecting is lower, and detects the precision relatively poor, can not effectively satisfy the demand of enterprise.

Disclosure of Invention

The utility model aims at prior art not enough, provide an utensil is examined to built-in support piece's of computer hole site, its simple structure, detection convenience, the detection computer can be quick, the position of each hole site of accurate detection computer built-in support piece satisfies the detection demand of enterprise.

The technical scheme of the utility model is that: a hole site gauge for a built-in support piece of a computer host comprises a gauge body with a cuboid block structure, wherein the top surface of the gauge body is provided with a secondary step surface, a first step of the secondary step surface corresponds to a low-level step surface of the built-in support piece of the computer host, a second step of the secondary step surface corresponds to a high-level step surface of the built-in support piece of the computer host, a first abdicating groove and a second abdicating groove are arranged on the first step at intervals from left to right and are respectively matched with a first concave area and a second concave area of the built-in support piece of the computer host, a plurality of first inspection columns extending vertically and upwards are arranged in the area of the first step at the left side of the first abdicating groove, the first inspection columns are distributed at intervals along the depth direction of the first step and correspond to first heat capacity holes on the built-in support piece of the computer host, a plurality of second inspection columns extending vertically and upwards are arranged in the area of the first step, the second detection columns are distributed at intervals along the depth direction of the first ladder and correspond to second heat capacity holes on a built-in support of the computer host, the first ladder is positioned in a region between the first abdicating groove and the second abdicating groove and is provided with a first lug and a second lug at intervals, the first lug corresponds to a first lug of the built-in support of the computer host, the height of the bulge of the lug is the same as the height of the first lug above the low step surface, the first lug is provided with a ninth detection column which extends vertically upwards, the ninth detection column corresponds to a ninth heat capacity hole of the built-in support of the computer host, the second lug corresponds to a second lug of the built-in support of the computer host, the height of the bulge of the lug is the same as the height of the second lug above the low step surface, the second lug is provided with a tenth detection column which extends vertically upwards, and the tenth detection column corresponds to the tenth heat capacity hole of the built-in support of the computer host, the area of the first step, which is positioned at the inner side of the connecting line of the first boss and the second boss, is provided with a plurality of third detection columns which vertically extend upwards, the third detection columns correspond to a third heat capacity hole on a built-in support of the computer mainframe, the area of the first step, which is positioned at the outer side of the connecting line of the first boss and the second boss, is provided with a plurality of fourth detection columns which vertically extend upwards, the fourth detection columns correspond to a fourth heat capacity hole on the built-in support of the computer mainframe, the area of the first step, which is positioned at the two sides of the first abdicating groove, is respectively provided with a plurality of fifth detection columns which vertically extend upwards, the fifth detection columns are distributed at intervals along the width direction of the first step and correspond to the fifth heat capacity hole on the built-in support of the computer mainframe, the area of the first step, which is positioned at the two sides of the second abdicating groove, is respectively provided with a plurality of sixth detection columns which vertically extend, the first abdicating groove is provided with a plurality of vertical upwards extending seventh examination columns which are distributed at intervals along the width direction of the first ladder and correspond to the seventh heat capacity holes on the computer host built-in support, the second abdicating groove is provided with a plurality of vertical upwards extending eighth examination columns which are distributed at intervals along the width direction of the first ladder and correspond to the eighth heat capacity holes on the computer host built-in support, the extending edge of the second ladder is provided with a plurality of vertical upwards extending eleventh examination columns which are distributed at intervals along the width direction of the second ladder and correspond to the first threaded holes on the computer host built-in support, the left end and the right end of the second ladder are respectively provided with a vertical upwards extending twelfth examination column, the twelfth checking columns are matched with second threaded holes on the built-in supporting piece of the computer host.

Each checking column is fixed on the checking fixture body through thread matching.

The top of each detection column is in a frustum shape.

The gauge body is made of aluminum alloy through integral forming.

Adopt above-mentioned technical scheme to have following beneficial effect:

1. the utility model discloses a set up first ladder, second ladder on examining the utensil body, with the built-in support piece's of computer structure looks adaptation, can directly shelve the built-in support piece of computer on examining the utensil body. The first detection column, the second detection column, the third detection column, the fourth detection column, the fifth detection column, the sixth detection column, the seventh detection column, the eighth detection column, the ninth detection column and the tenth detection column which are arranged on the detection tool body respectively correspond to a first heat capacity hole, a second heat capacity hole, a third heat capacity hole, a fourth heat capacity hole, a fifth heat capacity hole, a sixth heat capacity hole, a seventh heat capacity hole, an eighth heat capacity hole, a ninth heat capacity hole and a tenth heat capacity hole on the built-in support piece of the computer host, and the eleventh detection column and the twelfth detection column which are arranged on the detection tool body respectively correspond to a first threaded hole and a second threaded hole on the built-in support piece of the computer host. If all the heat capacity holes and threaded holes processed on the built-in support piece of the computer host meet the standard, all the detection columns on the detection tool body completely penetrate through the corresponding heat capacity holes or threaded holes, so that the low-level step surface on the built-in support piece of the computer host is attached to the first step of the detection tool body, and the high-level step surface is attached to the second step of the detection tool body; if the heat capacity holes and the threaded holes processed on the built-in support piece of the computer host do not meet the standard, the detection posts on the detection tool body cannot completely penetrate through the corresponding heat capacity holes or threaded holes, so that the low-level step surface on the built-in support piece of the computer host cannot be attached to the first step of the detection tool body, and the high-level step surface cannot be attached to the second step of the detection tool body. The actual detection process is convenient and fast, and the efficiency is high.

2. Each is examined the post and is fixed on examining the utensil body through screw-thread fit respectively, and the post is examined in easy to assemble, dismantlement, avoids examining the post and harms in transport, the storage process.

3. The top of each inspection column is frustum-shaped, so that the efficiency of each inspection column penetrating through corresponding heat capacity holes and threaded holes on the built-in supporting piece of the computer host is improved, and the problem of product quality caused by deformation of the built-in supporting piece of the computer host is avoided.

The following further description is made with reference to the accompanying drawings and detailed description.

Drawings

FIG. 1 is a schematic view of a supporting member built in a computer host in the prior art;

FIG. 2 is a perspective view of a supporting member built in a computer host according to the prior art;

FIG. 3 is a schematic structural view of the present invention;

fig. 4 is a perspective view of the present invention;

fig. 5 is a schematic diagram of the detection state of the present invention;

fig. 6 is a perspective view of the detection state of the present invention.

In the drawings, 1 is a checking fixture body, a is a first step, a1 is a first checking column, a2 is a second checking column, a3 is a third checking column, a4 is a fourth checking column, a5 is a fifth checking column, a6 is a sixth checking column, a7 is a seventh checking column, a8 is an eighth checking column, a9 is a ninth checking column, a10 is a tenth checking column, a13 is a first abdicating groove, a14 is a second abdicating groove, a15 is a first boss, a16 is a second boss, b is a second step, b1 is an eleventh checking column, b2 is a twelfth checking column, 10 is a lower step surface, 10a is a first recessed area, 10b is a second recessed area, 10c is a notch, 10d is a first lug, 10e is a second lug, 101 is a first heat receiving hole, 102 is a second heat receiving hole, 102 is a sixth heat receiving hole, 106 is a ninth heat receiving hole, a ninth heat receiving hole 107 is a ninth heat receiving hole 107, and a ninth heat receiving hole 107 is a ninth

heat receiving hole

107, 110 is a tenth heat capacity hole, 20 is a high step surface, 201 is a first threaded hole, and 202 is a second threaded hole.

Detailed Description

Referring to fig. 3 to 6, a hole site testing tool of a built-in support of a computer host is shown in an embodiment. The hole site gauge with the built-in support piece of the computer host comprises a gauge body 1 in a cuboid block structure, and specifically, the gauge body 1 is manufactured through aluminum alloy integral forming. The top surface of the checking fixture body 1 is provided with a secondary step surface, a first step a of the secondary step surface corresponds to a low-level step surface 10 of a built-in support piece of a computer host, and a second step b of the secondary step surface corresponds to a high-level step surface 20 of the built-in support piece of the computer host. The first step a is provided with a first abdicating groove a13 and a second abdicating groove a14 at intervals from left to right, which are respectively adapted to the first depressed area 10a and the second depressed area 10b of the built-in support member of the computer host, and specifically, the first abdicating groove and the second abdicating groove are symmetrically distributed along the central line of the first step. The area of the first step a, which is located on the left side of the first abdicating groove a13, is provided with a plurality of first detection columns a1 extending vertically upwards, the first detection columns a1 are distributed at intervals along the depth direction of the first step a, and correspond to the first heat capacity holes 101 on the built-in support member of the computer host, and specifically, the number of the first detection columns is seven. The area of the first step a, which is located on the right side a14 of the second abdicating groove, is provided with a plurality of second inspection posts a2 extending vertically upwards, the second inspection posts a2 are distributed at intervals along the depth direction of the first step a, and correspond to the second heat capacity holes 102 on the built-in support of the computer mainframe, and specifically, the number of the second inspection posts is seven. The first step a is located in the area between the first abdicating groove a13 and the second abdicating groove a14 and is provided with a first boss a15 and a second boss a16 at intervals, the first boss a15 corresponds to the first lug 10d of the computer mainframe built-in support, the height of the boss is the same as the height of the first lug 10d higher than the low step surface 10, the first boss a15 is provided with a ninth detection column a9 extending vertically upwards, the ninth detection column a9 corresponds to the ninth heat-accommodating hole 109 of the computer mainframe built-in support, the second boss a16 corresponds to the second lug 10e of the computer mainframe built-in support, the height of the boss is the same as the height of the second lug 10e higher than the low step surface 10, the second boss 10e is provided with a tenth detection column a10 extending vertically upwards, and the tenth detection column a10 corresponds to the tenth heat-accommodating hole 110 of the computer mainframe built-in support. The first step a is provided with a plurality of third inspection pillars a3 extending vertically upward in the area located inside the connecting line of the first boss a15 and the second boss a16, the third inspection pillars a3 correspond to the third heat capacity holes 103 on the built-in supporting member of the computer mainframe, and specifically, the number of the third inspection pillars is four. The first step a is provided with a plurality of fourth inspection pillars a4 extending vertically upward in the region outside the connection line of the first boss a15 and the second boss a16, the fourth inspection pillars a4 correspond to the fourth heat capacity holes 104 on the built-in support member of the computer mainframe, and specifically, the number of the fourth inspection pillars is five. The areas of the first step a, which are located on the two sides of the first abdicating groove a13, are respectively provided with a plurality of vertical upward extending fifth inspection columns a5, the fifth inspection columns a5 are distributed at intervals along the width direction of the first step a, and correspond to the fifth heat capacity hole 105 on the built-in support of the computer host, specifically, one side close to the second step is provided with six fifth inspection columns, and one side far away from the second step is provided with four fifth inspection columns. The areas of the first ladder a, which are located at the two sides of the second abdicating groove a14, are respectively provided with a plurality of vertical upwards extending sixth detection columns a6, the sixth detection columns a6 are distributed at intervals along the width direction of the first ladder a and correspond to the sixth heat capacity hole 106 on the built-in support of the computer host, specifically, one side close to the second ladder is provided with six sixth detection columns, and one side far away from the second ladder is provided with three sixth detection columns. The bottom of the first abdicating groove a13 is provided with a plurality of seventh detection columns a7 extending vertically upwards, the seventh detection columns a7 are distributed at intervals along the width direction of the first step a and correspond to the seventh heat containing holes 107 on the built-in support of the computer host, and specifically, the number of the seventh detection columns is six. The bottom of the second abdicating groove a14 is provided with a plurality of eighth inspection posts a8 extending vertically upwards, the eighth inspection posts a8 are distributed at intervals along the width direction of the first step a and correspond to the eighth heat capacity holes 108 on the built-in support member of the computer host, and specifically, the number of the eighth inspection posts is six. And a plurality of eleventh inspection columns b1 vertically extending upwards are arranged on the extending edge of the second step b, the eleventh inspection columns b1 are distributed at intervals along the width direction of the second step b and are matched with the first threaded holes 201 on the built-in supporting piece of the computer host, and specifically, the number of the eleventh inspection columns is nine. The left end and the right end of the second ladder b are respectively provided with a twelfth checking column b2 which extends vertically upwards, and the twelfth checking columns b2 are adapted to the second threaded holes 202 on the built-in supporting piece of the computer mainframe. Examine the post for easy to assemble, dismantlement, avoid examining the post at transport, deposit the in-process harm, each is examined the post and is fixed on examining a body 1 through screw-thread fit respectively, passes the efficiency of corresponding heat capacity hole, screw hole on the built-in support piece of computer for improving each and examines the post, and avoids causing the deformation to lead to the product quality problem to the built-in support piece of computer, and the top of each examining the post is frustum shape.

The detection principle of the utility model is that if each heat capacity hole and threaded hole processed on the built-in support piece of the computer host meets the standard, each detection column on the detection tool body completely passes through the corresponding heat capacity hole or threaded hole, so that the low-level step surface on the built-in support piece of the computer host is attached to the first step of the detection tool body, and the high-level step surface is attached to the second step of the detection tool body; if the heat capacity holes and the threaded holes processed on the built-in support piece of the computer host do not meet the standard, the detection posts on the detection tool body cannot completely penetrate through the corresponding heat capacity holes or threaded holes, so that the low-level step surface on the built-in support piece of the computer host cannot be attached to the first step of the detection tool body, and the high-level step surface cannot be attached to the second step of the detection tool body.

Claims

1. The utility model provides an utensil is examined to hole site of built-in support piece of computer, its characterized in that: comprises a checking fixture body (1) with a cuboid block structure, wherein the top surface of the checking fixture body (1) is provided with a secondary step surface, a first step (a) of the secondary step surface corresponds to a low-level step surface (10) of a built-in support piece of a computer host, a second step (b) of the secondary step surface corresponds to a high-level step surface (20) of the built-in support piece of the computer host,

first abdicating grooves (a 13) and second abdicating grooves (a 14) are arranged on the first ladder (a) from left to right at intervals and are respectively adapted to a first depressed area (10 a) and a second depressed area (10 b) of a built-in support of a computer host, a plurality of first detection columns (a 1) which vertically extend upwards are arranged in an area on the left side of the first abdicating groove (a 13) of the first ladder (a), the first detection columns (a 1) are distributed at intervals along the depth direction of the first ladder (a) and correspond to first heat capacity holes (101) in the built-in support of the computer host, a plurality of second detection columns (a 2) which vertically extend upwards are arranged in an area on the right side of the second abdicating groove (a 14) of the first ladder (a), the second detection columns (a 2) are distributed at intervals along the depth direction of the first ladder (a) and correspond to second heat capacity holes (102) in the built-in support of the computer host, and the first abdicating groove (a) is arranged on the first ladder (13 a) of the first ladder (a), A first boss (a 15) and a second boss (a 16) are arranged in the area between the second abdicating grooves (a 14) at intervals, the first boss (a 15) corresponds to a first lug (10 d) of the computer mainframe built-in support, the height of the boss is the same as the height of the first lug (10 d) higher than the low-level step surface (10), a ninth inspection column (a 9) extending vertically upwards is arranged on the first boss (a 15), the ninth inspection column (a 9) corresponds to a ninth heat-accommodating hole (109) of the computer mainframe built-in support, the second boss (a 16) corresponds to a second lug (10 e) of the computer mainframe built-in support, the height of the boss is the same as the height of the second lug (10 e) higher than the low-level step surface (10), a tenth inspection column (a 10) extending vertically upwards is arranged on the second boss (a 16), and the tenth inspection column (a 10) corresponds to a tenth heat-accommodating hole (110) of the computer mainframe built-in support, a plurality of third detection columns (a 3) which extend vertically upwards are arranged in the area of the first ladder (a) which is positioned at the inner side of the connecting line of the first boss (a 15) and the second boss (a 16), the third detection columns (a 3) correspond to a third heat capacity hole (103) on the built-in support member of the computer host, a plurality of fourth detection columns (a 4) which extend vertically upwards are arranged in the area of the first ladder (a) which is positioned at the outer side of the connecting line of the first boss (a 15) and the second boss (a 16), the fourth detection columns (a 4) correspond to a fourth heat capacity hole (104) on the built-in support member of the computer host, a plurality of fifth detection columns (a 5) which extend vertically upwards are respectively arranged in the areas of the first ladder (a) which are positioned at the two sides of the first abdicating groove (a 13), the fifth detection columns (a 5) are distributed at intervals along the width direction of the first ladder (a) and correspond to a fifth heat capacity hole (105) on the built-in support, the areas of the first ladder (a) at the two sides of the second abdicating groove (a 14) are respectively provided with a plurality of sixth detection columns (a 6) which extend vertically upwards, the sixth detection columns (a 6) are distributed at intervals along the width direction of the first ladder (a) and correspond to sixth heat-containing holes (106) on the computer host built-in support member, the groove bottom of the first abdicating groove (a 13) is provided with a plurality of seventh detection columns (a 7) which extend vertically upwards, the seventh detection columns (a 7) are distributed at intervals along the width direction of the first ladder (a) and correspond to seventh heat-containing holes (107) on the computer host built-in support member, the groove bottom of the second abdicating groove (a 14) is provided with a plurality of eighth detection columns (a 8) which extend vertically upwards, the eighth detection columns (a 8) are distributed at intervals along the width direction of the first ladder (a) and correspond to eighth heat-containing holes (108) on the computer host built-in support member,

the extending edge of the second step (b) is provided with a plurality of eleventh inspection columns (b 1) extending vertically upwards, the eleventh inspection columns (b 1) are distributed at intervals along the width direction of the second step (b) and are matched with first threaded holes (201) in the built-in supporting piece of the computer host, the left end and the right end of the second step (b) are respectively provided with twelfth inspection columns (b 2) extending vertically upwards, and the twelfth inspection columns (b 2) are matched with second threaded holes (202) in the built-in supporting piece of the computer host.

2. The hole site of the built-in support piece of computer of claim 1 examines utensil, characterized by: each checking column is fixed on the checking fixture body (1) through thread matching.

3. The hole site of the built-in support piece of computer of claim 1 examines utensil, characterized by: the top of each detection column is in a frustum shape.

4. The hole site of the built-in support piece of computer of claim 1 examines utensil, characterized by: the gauge body (1) is made of aluminum alloy through integral forming.