CN217424174U - Hinge shell multi-position combination checking fixture - Google Patents

Abstract

The utility model discloses a hinge shell multi-position combined checking fixture, which comprises a first detection body, a second detection body, a first depth detection block and a second depth detection block, wherein the first detection body can support the hinge shell and is used for detecting the integral forming size and the opening size of the hinge shell; the detection body is used for detecting the shape size and the position size of the side hole of the hinge shell, and can be detachably connected with the detection body I and then the hinge shell is fixed; the depth detection block I is arranged on the first detection body, can move up and down along the height direction of the first detection body and is used for detecting the concave depth of the round hole in the top of the hinge shell; the depth detection block II is arranged on the first detection body, can move up and down along the height direction of the first detection body and is used for detecting the concave depth of the square hole in the top of the hinge shell. The hinge shell multi-position combined detection tool can be used for conveniently detecting or detecting the whole size, hole positions and other relevant sizes of the hinge shell in a combined mode, and therefore detection efficiency and detection effects are improved.

Description

Hinge shell multi-position combination checking fixture

Technical Field

The utility model relates to an examine utensil, concretely relates to utensil is examined in combination of hinge shell multiposition.

Background

In daily life, hinges are used in many places, and since a hinge housing needs to be assembled with other parts to form the hinge and then the hinge is installed in a required place, the overall size of the hinge housing and the processing quality and the position accuracy of the hole site size on the hinge housing are very important. Therefore, in the production process of the hinge shell, a special checking fixture is needed to detect the whole size and the critical hole site size of the hinge shell. However, the existing checking fixture can only detect the hole site size or the overall dimension, so that the detection work is complicated in the production process, and meanwhile, the detection time is prolonged and the detection effect is poor.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects existing in the prior art, the utility model aims to solve the technical problem of providing a hinge shell multi-position combined checking fixture which can conveniently detect the whole size of the hinge shell, the hole positions and other relevant sizes respectively or detect in a combined way, thereby improving the detection efficiency and the detection effect.

In order to achieve the above purpose, the present invention is realized by the following technical solution: a hinge housing multi-position combination gauge comprising:

the detection body I can support the hinge shell and is used for detecting the integral forming size and the opening size of the hinge shell;

the second detection body is used for detecting the shape size and the position size of the side hole of the hinge shell and can be detachably connected with the first detection body to fix the hinge shell;

the first depth detection block is arranged on the first detection body, can move up and down along the height direction of the first detection body and is used for detecting the concave depth of the round hole in the top of the hinge shell; and

and the depth detection block II is arranged on the first detection body, can move up and down along the height direction of the first detection body and is used for detecting the concave depth of the square hole at the top of the hinge shell.

Further, detecting body one including examine the piece outward and examine the piece in with, examine the top of piece outward and seted up and hold the chamber, interior examination piece sets up hold the chamber, interior examination piece can support and wait to examine the hinge shell, just the external dimension of interior examination piece cooperates with the inner chamber of hinge shell, interior examination piece the left and right sides and homonymy the distance that holds between the inner wall in chamber is the lateral wall thickness of hinge shell, and establishes when hinge shell lid when interior examination piece is last, examine the top surface of piece outward and the top surface adaptation of hinge shell.

Further, the inner detection block and the outer detection block can be detachably connected.

Furthermore, the inner detection block and the outer detection block can be detachably connected through an installation rod, a through groove communicated with the accommodating cavity is formed in the bottom of the outer detection block, the inner detection block is inserted in the through groove, a second installation hole which is through from left to right is transversely formed in the inner detection block, a first installation hole which is through from left to right is formed in the corresponding position of the outer detection block, and the installation rod is inserted in the first installation hole and the second installation hole.

Furthermore, there are two installation poles, and two installation poles are installed the interval and are set up.

Further, examine the piece outward and go up the horizontal first perforation of having seted up in the position of the side opening that corresponds the hinge shell on, the corresponding second that sets up on the interior piece is perforated, detect body two including installation piece and a plurality of detection pole, it is a plurality of detection pole spaced sets up one side of installation piece, and with the side opening one-to-one of hinge shell side, when detecting, detection pole can be followed examine piece one side outward first perforation penetrate, pass again the side opening of hinge shell with the second is perforated the back, follow examine the piece other side outward first perforation is worn out.

Furthermore, a first jack is formed in the position, corresponding to the round hole in the top of the hinge shell, of the inner detection block, and the first depth detection block can be inserted into the first jack in a vertically sliding mode.

Furthermore, the inner detection block is transversely provided with a first waist-shaped hole communicated with the first jack, the length direction of the first waist-shaped hole is the same as the height direction of the inner detection block, the first jack is provided with a first limiting rod, and the first limiting rod is inserted into the first waist-shaped hole and is in clearance fit with the first waist-shaped hole.

Furthermore, a second jack is vertically formed in the position, corresponding to the square hole in the top of the hinge shell, of the inner detection block, and the depth detection block II can be inserted into the second jack in a vertically sliding mode.

Furthermore, a second waist-shaped hole communicated with the second jack is transversely formed in the inner detection block, the length direction of the second waist-shaped hole is the same as the height direction of the inner detection block, a second limiting rod is arranged in the second jack, and the second limiting rod is inserted into the second waist-shaped hole and is in clearance fit with the second waist-shaped hole.

The utility model has the advantages that:

when the hinge shell multi-position combined detection tool is used, the first detection body can be used for independently detecting the integral forming size and the opening size of the hinge shell, and the second detection body can be used for independently detecting the shape size and the position size of the side hole of the hinge shell. When the molding size and the opening size of the hinge housing need to be detected, the hinge housing is supported on the detection body for detection. Meanwhile, the second detection body and the first detection body can be connected together, the hinge shell is fixed, and the overall forming size and the opening size of the hinge shell and the shape size and the position size of the side hole of the hinge shell can be detected. After the detection hinge is supported on the first detection body, the depth detection block I and the depth detection block II can move up and down to detect the concave depth of the round hole in the top of the hinge shell and the concave depth of the square hole in the top of the hinge shell.

By adopting the detection tool, the integral forming size and the opening size of the hinge shell can be detected, and the shape size and the position size of the side hole of the hinge shell can also be detected. And the concave depth of the round hole and the square hole at the top of the hinge shell can be detected. Meanwhile, the first detection body and the second detection body can be respectively and independently used for carrying out related detection, and can also be combined for carrying out related detection, so that the detection convenience is greatly improved, and the detection accuracy can also be improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention, the drawings used in the embodiments will be briefly described below. In all the drawings, the elements or parts are not necessarily drawn to actual scale.

FIG. 1 is a schematic view of a hinge housing of a product to be inspected;

fig. 2 is a schematic view of a hinge housing multi-position combination testing fixture according to an embodiment of the present invention;

fig. 3 is a schematic view of a multi-position combined detection tool for detecting the hinge housing according to an embodiment of the present invention;

FIG. 4 is a schematic view of a detection product of a detection body in the hinge housing multi-position combination detection tool shown in FIG. 1;

FIG. 5 is a schematic view of an outer detection block in the multi-position combination detection tool for a hinge housing shown in FIG. 1;

FIG. 6 is a diagram of an inner block of the multi-position combination check tool for a hinge housing shown in FIG. 1;

FIG. 7 is a schematic view of a second detection product of the detection body in the multi-position hinge housing combination detection tool shown in FIG. 1;

FIG. 8 is a schematic view of a product detected by a first depth detection block and a second depth detection block in the multi-position combined detection tool for a hinge housing shown in FIG. 1;

reference numerals are as follows:

1. a hinge housing; 2. a side hole; 3. a circular hole; 4. a square hole;

100. detecting a first body; 110. an external inspection block; 111. an accommodating chamber; 112. a through groove; 113. a first mounting hole; 114. a first perforation; 120. an internal detection block; 121. a second mounting hole; 122. a second perforation; 130. mounting a rod; 200. detecting a second sample; 210. mounting blocks; 220. a detection lever; 300. a first depth detection block; 310. a first limit rod; 320. a first kidney-shaped hole; 400. a second depth detection block; 410. a second limiting rod; 420. a second kidney shaped aperture.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only used to illustrate the technical solutions of the present invention more clearly, and therefore are only used as examples, and the protection scope of the present invention is not limited thereby.

Referring to fig. 1 to 8, the present invention provides a multi-position combination testing tool for hinge housing 1, which includes a first testing body 100, a second testing body 200, a first depth testing block 300 and a second depth testing block 400, for testing the external dimension of hinge housing 1 and the size of the holes thereon.

Referring to fig. 2 to 8, in particular, the first detecting body 100 can support the hinge housing 1 for detecting the overall molding size and the opening size of the hinge housing 1. Second detecting body 200 is used for detecting the shape and position of side hole 2 of hinge housing 1, and can be detachably connected with first detecting body 100 to fix hinge housing 1. The depth detection block 300 is arranged on the first detection body 100, can move up and down along the height direction of the first detection body 100, and is used for detecting the concave depth of the round hole 3 at the top of the hinge housing 1. The second depth detection block 400 is provided on the first detection body 100, can move up and down along the height direction of the first detection body 100, and is used for detecting the concave depth of the square hole 4 at the top of the hinge housing 1.

In use, first detector 100 can detect the overall molding size and opening size of hinge housing 1 alone (see fig. 4), and second detector 200 can detect the shape size and position size of side hole 2 of hinge housing 1 alone (see fig. 7). When the molding size and the opening size of the hinge housing 1 need to be detected, the hinge housing 1 is supported on the first detection body 100 for detection. Meanwhile, the second detection body 200 and the first detection body 100 can be connected together, and the overall molding size and the opening size of the hinge housing 1 and the shape size and the position size of the side hole 2 of the hinge housing 1 can be detected while fixing the hinge housing 1 (see fig. 3). After the detection hinge is supported on the first detection body 100, the depth of the concave of the round hole 3 at the top of the hinge housing 1 and the depth of the concave of the square hole 4 at the top of the hinge housing 1 can be detected by the vertical movement of the first depth detection block 300 and the second depth detection block 400.

Referring to fig. 4 to 6, in the present embodiment, the first detection body 100 includes an outer detection block 110 and an inner detection block 120. The top of outer check block 110 has been seted up and has been held chamber 111, interior check block 120 sets up and is holding chamber 111, interior check block 120 can support and wait to examine hinge housing 1, and the external dimension of interior check block 120 and the inner chamber cooperation of hinge housing 1, the distance between the inner wall of the left and right sides of interior check block 120 and homonymy is hinge housing 1's lateral wall thickness, and when hinge housing 1 lid was established on interior check block 120, outer check block 110's top surface and hinge housing 1's top surface adaptation.

When in use, the hinge housing 1 is covered on the inner detection block 120. If the hinge housing 1 can be smoothly covered on the inner detection block 120 and clamped in the accommodating cavity 111, the opening size of the hinge housing 1 and the side wall thickness of the hinge housing 1 are qualified in production, and meanwhile, the hinge housing 1 is not deformed; meanwhile, if the top surface of the outer inspection block 110 is flush with the hinge housing 1, the thickness of the top of the hinge housing 1 is qualified, and when the opening size, the side wall thickness and the top thickness are all qualified, the integral molding size is qualified.

With continued reference to fig. 4 to 6, as a preferred embodiment, the inner detection block 120 and the outer detection block 110 can be detachably connected, and the inner detection block 120 and the outer detection block 110 can be separately processed by the detachable connection, so as to reduce the processing difficulty. Of course, in specific implementations, the inner block 120 and the outer block 110 may be integrally formed.

Referring to fig. 7, in specific implementation, the inner detection block 120 and the outer detection block 110 are detachably connected through the mounting rod 130, the bottom of the outer detection block 110 is provided with a through groove 112 communicated with the accommodating cavity 111, the inner detection block 120 is inserted into the through groove 112, the inner detection block 120 is transversely provided with a second mounting hole 121 which is through from left to right, a first mounting hole 113 which is through from left to right is formed in a corresponding position on the outer detection block 110, and the mounting rod 130 is inserted into the first mounting hole 113 and the second mounting hole 121.

When the inner detection block 120 and the outer detection block 110 need to be installed together, the inner detection block 120 is inserted into the accommodating cavity 111 after passing through the through groove 112 from the bottom of the outer detection block 110, and then the installation rod 130 is inserted into the first installation hole 113 and the second installation hole 121, so that the inner detection block 120 and the outer detection block 110 can be installed together quickly and conveniently. In addition, for the installation stability, the installation rods 130 can be arranged in two, and the two installation rods 130 are arranged at intervals, so that the stability is further improved.

In other embodiments, the inner detection block 120 and the outer detection block 110 can be mounted together by screwing, clipping, etc.

Referring to fig. 8, in the present embodiment, a first through hole 114 is transversely formed on the outer detection block 110 at a position corresponding to the side hole 2 of the hinge housing 1. The inner detecting block 120 is correspondingly provided with a second through hole 122. The second detection body 200 includes an installation block 210 and a plurality of detection rods 220, the plurality of detection rods 220 are arranged at one side of the installation block 210 at intervals and correspond to the side holes 2 on the side of the hinge housing 1 one by one, and during detection, the detection rods 220 can penetrate through the first through holes 114 on one side of the external detection block 110, then penetrate through the side holes 2 and the second through holes 122 of the hinge housing 1, and then penetrate out of the first through holes 114 on the other side of the external detection block 110.

In practical implementation, the number and position of the detecting rods 220 should be matched with the position and number of the side holes 2 of the hinge housing 1 to be checked. When in use, when the shape size and the position size of the side hole 2 of the hinge housing 1 need to be detected, the side hole 2 can be detected by the second detection body 200 alone, and the specific mode is as follows: the detection rod 220 is inserted into the corresponding side hole 2, and if the detection rod 220 can be smoothly inserted, the shape and the position of the side hole 2 are qualified.

Of course, detection may be performed by matching the first detection body 100 and the second detection body 200. The concrete mode is as follows: the hinge housing 1 can be smoothly covered on the inner detection block 120, and then the detection rod 220 is inserted into the corresponding side hole 2, if the detection rod 220 can be smoothly inserted, the shape and the position of the side hole 2 are qualified. In this way, the hinge housing 1 can be fixed on the inner detection block 120, which facilitates the detection of the first depth detection block 300 and the second depth detection block 400, and meanwhile, the hinge housing 1 can be smoothly covered on the inner detection block 120 for detection, which means that the detection of the side hole 2 is performed under the condition that the forming size and the opening size of the hinge housing 1 are qualified, so that the detection of the product with unqualified forming size and opening size is not needed, unnecessary detection operation can be reduced, and the time waste can be reduced.

In this embodiment, a first insertion hole is formed in the position of the inner detection block 120 corresponding to the circular hole 3 at the top of the hinge housing 1, and the first depth detection block 300 can be inserted into the first insertion hole in a vertical sliding manner. A second jack is vertically formed in the position, corresponding to the square hole 4 in the top of the hinge housing 1, of the inner detection block 120, and the second depth detection block 400 can be inserted into the second jack in an up-and-down sliding mode.

When not detecting, the top of degree of depth detection piece one 300 flushes with the top surface of interior detection piece 120, when hinge housing 1 lid was established on interior detection piece 120, because round hole 3 and square hole 4 are recessed, then can push down degree of depth detection piece one 300 and degree of depth detection piece two 400, degree of depth detection piece one 300 and degree of depth detection piece two 400 slide down along first jack and second jack respectively, then degree of depth detection piece one 300 and degree of depth detection piece two 400 distance of gliding down are the recessed degree of depth of round hole 3 and square hole 4 promptly. By adopting the method, the depth of the concave parts of the round hole 3 and the square hole 4 can be conveniently detected.

In specific implementation, the first depth detection block 300 and the second depth detection block 400 can be respectively in tight fit with the first jack and the second jack, and the first depth detection block 300 and the second depth detection block 400 can be stopped at corresponding positions of the first jack and the second jack through friction force.

Referring to fig. 8, preferably, the inner detection block 120 is transversely provided with a first kidney-shaped hole 320 communicated with the first insertion hole, the length direction of the first kidney-shaped hole 320 is the same as the height direction of the inner detection block 120, a first limit rod 310 is arranged in the first insertion hole, and the first limit rod 310 is inserted in the first kidney-shaped hole 320 and is in clearance fit with the first kidney-shaped hole 320. The first depth detection block 300 can be prevented from sliding out of the top or bottom of the first jack arbitrarily by the first stopper 310.

Similarly, the inner detection block 120 is transversely provided with a second kidney-shaped hole 420 communicated with the second jack, the length direction of the second kidney-shaped hole 420 is the same as the height direction of the inner detection block 120, a second limiting rod 410 is arranged in the second jack, and the second limiting rod 410 is inserted into the second kidney-shaped hole 420 and is in clearance fit with the second kidney-shaped hole 420. The second depth detection block 400 can be prevented from sliding out of the top or bottom of the second insertion hole by the second limiting rod 410.

The use mode of the hinge housing 1 multi-position combined checking fixture is as follows:

when the opening size, the side wall thickness and the top thickness of the product need to be detected separately: the hinge housing 1 is placed over the inner panel 120. If the hinge housing 1 can be smoothly covered on the inner detecting block 120 and clamped in the accommodating cavity 111, the opening size of the hinge housing 1 and the thickness of the side wall of the hinge housing 1 are qualified in production, and the hinge housing 1 is not deformed. If the top surface of the external inspection block 110 is matched with the top surface of the hinge housing 1, the top thickness of the hinge housing 1 is qualified, and when the opening size, the side wall thickness and the top thickness are all qualified, the integral forming size is qualified.

When the shape and position of the side hole 2 of the hinge housing 1 need to be detected separately, the detection rod 220 is inserted into the corresponding side hole 2, and if the detection rod 220 can be inserted smoothly, the shape and position of the side hole 2 are qualified.

When in use, the first detection body 100 and the second detection body 200 can be matched for detection:

the specific operation is to cover the hinge housing 1 on the inner detection block 120, and then insert the detection rod 220 into the corresponding side hole 2, if the hinge housing 1 can be smoothly covered on the inner member, and the detection rod 220 can be smoothly inserted, it indicates that the overall relevant size of the product and the relevant size of the side hole 2 are qualified.

When the product lid is established on interior proof piece 120, can carry out top round hole 3 and top square hole 4 and detect, the concrete mode is:

the top of the first detection body 100 and the top of the second detection body 200 are flush with the top of the inner detection block 120, the to-be-detected product is covered on the inner detection block 120, the distance that the first detection body 100 and the second detection body 200 are pressed down is the distance of the concave depth of the top round hole 3 and the top square hole 4, and after the to-be-detected product is taken down, the distance that the first detection body 100 and the second detection body 200 move downwards is measured.

By adopting the detection tool, the integral forming size and the opening size of the hinge shell 1 can be detected, and the shape size and the position size of the side hole 2 of the hinge shell 1 can also be detected. And the concave depth of the round hole 3 and the square hole 4 at the top of the hinge shell 1 can be detected. Meanwhile, the first detection body 100 and the second detection body 200 can be used independently respectively for correlation detection, and can also be combined for correlation detection, so that the detection convenience is greatly improved, and the detection accuracy can also be improved.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (10)

1. The utility model provides a utensil is examined in combination of hinge shell multiposition which characterized in that includes:

the detection body I can support the hinge shell and is used for detecting the integral forming size and the opening size of the hinge shell;

the second detection body is used for detecting the shape size and the position size of the side hole of the hinge shell and can be detachably connected with the first detection body to fix the hinge shell;

the first depth detection block is arranged on the first detection body, can move up and down along the height direction of the first detection body and is used for detecting the concave depth of the round hole in the top of the hinge shell; and

and the depth detection block II is arranged on the first detection body, can move up and down along the height direction of the first detection body and is used for detecting the concave depth of the square hole at the top of the hinge shell.

2. The multi-position combined detection tool for the hinge housing according to claim 1, wherein the first detection body comprises an outer detection block and an inner detection block, a containing cavity is formed in the top of the outer detection block, the inner detection block is arranged in the containing cavity and can support the hinge housing to be detected, the outer size of the inner detection block is matched with the inner cavity of the hinge housing, the distance between the left side and the right side of the inner detection block and the inner wall of the containing cavity on the same side is the thickness of the side wall of the hinge housing, and when the hinge housing is covered on the inner detection block, the top surface of the outer detection block is matched with the top surface of the hinge housing.

3. The multi-position hinge housing combination check tool of claim 2, wherein the inner check block is detachably connected to the outer check block.

4. The multi-position hinge housing combination check tool according to claim 3, wherein the inner check block and the outer check block are detachably connected through a mounting rod, a through groove communicated with the accommodating cavity is formed in the bottom of the outer check block, the inner check block is inserted into the through groove, a second mounting hole which is through from left to right is transversely formed in the inner check block, a first mounting hole which is through from left to right is formed in the corresponding position of the outer check block, and the mounting rod is inserted into the first mounting hole and the second mounting hole.

5. The multi-position hinge housing assembly fixture of claim 4, wherein there are two of said mounting posts, and said two mounting posts are spaced apart.

6. The multi-position hinge housing combination check tool according to claim 2, wherein the outer check block is provided with a first through hole at a position corresponding to the side hole of the hinge housing, the inner check block is provided with a second through hole at a position corresponding to the side hole of the hinge housing, the second check body comprises a mounting block and a plurality of check rods, the plurality of check rods are arranged at one side of the mounting block at intervals and correspond to the side holes at the side of the hinge housing one by one, and during checking, the check rods can penetrate through the first through hole at one side of the outer check block and penetrate through the side hole of the hinge housing and the second through hole and then penetrate out of the first through hole at the other side of the outer check block.

7. The hinge housing multi-position combination check tool according to claim 2, wherein a first insertion hole is formed in the inner check block at a position corresponding to the round hole in the top of the hinge housing, and the depth check block can be inserted into the first insertion hole in a vertically sliding manner.

8. The multi-position combined checking fixture for the hinge housing according to claim 7, wherein the inner checking block is transversely provided with a first kidney-shaped hole communicated with the first jack, the length direction of the first kidney-shaped hole is the same as the height direction of the inner checking block, the first jack is provided with a first limiting rod, and the first limiting rod is inserted into the first kidney-shaped hole and is in clearance fit with the first kidney-shaped hole.

9. The hinge housing multi-position combination check tool according to claim 2, wherein a second jack is vertically formed in the position, corresponding to the square hole in the top of the hinge housing, of the inner check block, and the second depth check block can be inserted into the second jack in a vertically sliding manner.

10. The hinge housing multi-position combination check tool according to claim 9, wherein a second kidney-shaped hole communicated with the second jack is transversely formed in the inner check block, the length direction of the second kidney-shaped hole is the same as the height direction of the inner check block, a second limiting rod is arranged in the second jack, and the second limiting rod is inserted into the second kidney-shaped hole and is in clearance fit with the second kidney-shaped hole.

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