CN208847458U - A kind of transition detection structure in cubing - Google Patents

Abstract

The utility model relates to the transition detection structures in a kind of cubing, the difference is that: it includes support base, is set in cubing, is used to support part；Fixing seat, the side in cubing and positioned at support base, end face of the fixing seat far from cubing one end is benchmark face, offers a pilot hole on datum level；And activity detection block, it is configured to Contraband shape, it has the opposite linking arm for being arranged in parallel and at interval leading arm and detect arm and connection leading arm and detection arm, the leading arm and pilot hole of activity detection block cooperate, the end of the detection arm of activity detection block is configured to the mating surface to offset with card access surface, in leading arm insertion pilot hole and when mating surface and card access surface offset, linking arm is configured to detection faces towards datum level on one side, and detection faces are parallel with datum level.Whether the buckle that the utility model can smoothly detect part is qualified, and is easy to implement the handling between part and cubing, is not limited by a space.

Description

A kind of transition detection structure in cubing

Technical field

Transition detection structure the utility model relates to cubing field, in especially a kind of cubing.

Background technique

In order to cooperate with environment part, the card for it to be fixed together with environment part is often provided on part to be detected Buckle structure.Buckle structure and cubing after part to be detected is installed in cubing, since space is limited, on part to be detected Between gap it is too small, lead to not detect part buckle structure it is whether qualified.

Summary of the invention

The shortcomings that the purpose of the utility model is to overcome the prior arts provides the transition detection structure in a kind of cubing, Whether the buckle that can smoothly detect part is qualified, and is easy to implement the handling between part and cubing, is not limited by a space.

In order to solve the above technical problems, the technical solution of the utility model are as follows: the transition detection structure in a kind of cubing is used There is the part of buckle in detection, the buckle has the card access surface cooperated with environment part, the difference of the transition detection structure Place is:

It includes support base, is set in the cubing, is used to support the part；

Fixing seat, the side in the cubing and positioned at the support base, the fixing seat is far from the cubing one The end face at end is benchmark face, offers a pilot hole on the datum level；

And

Activity detection block is configured to Contraband shape, has and is arranged in parallel and at interval leading arm and detection arm relatively and connects It connects leading arm and detects the linking arm of arm, the leading arm and the pilot hole of the activity detection block cooperate, the activity detection The end of the detection arm of block is configured to the mating surface to offset with the card access surface, when the leading arm is inserted into the pilot hole And the mating surface and the card access surface, when offseting, the linking arm is configured to detection faces towards the datum level on one side, The detection faces are parallel with the datum level.

By above technical scheme, the fixing seat includes pedestal and is removably embedded in the intracorporal guide sleeve of the seat, institute Stating one end end face of the pedestal far from the cubing is the datum level, is offered on the datum level and guide sleeve cooperation Pilot hole offers the pilot hole with leading arm cooperation on the guide sleeve.

By above technical scheme, the cross-sectional shape of the leading arm is square.

By above technical scheme, the cross-sectional shape of the detection arm is square.

By above technical scheme, the cross-sectional area of the leading arm is greater than the cross-sectional area of the detection arm.

By above technical scheme, the length of the leading arm is greater than the length of the detection arm.

By above technical scheme, the depth of the pilot hole is greater than the length of the leading arm.

By above technical scheme, relief hole is offered with the buckle corresponding position in the fixing seat.

Compare the prior art, the beneficial features of the utility model are as follows: the transition detection structure in the cubing detects detection faces Whether the whether qualified card access surface that can detect buckle in gap between datum level is qualified, can quickly and smoothly detect part Buckle it is whether qualified, and activity detection block can take out from pilot hole, the handling being easy to implement between part and cubing, not by Space limitation.

Detailed description of the invention

Fig. 1 is the utility model embodiment structural schematic diagram；

Fig. 2 is the utility model embodiment usage state diagram；

Fig. 3 is the Section A-A structural schematic diagram of Fig. 2；

Fig. 4 is the schematic perspective view of Fig. 2；

Fig. 5 is the local B structure enlarged drawing of Fig. 4；

Wherein: 1- part (101- buckles (101a- card access surface)), 2- cubing, 3- support base, 4- fixing seat (4a- benchmark Face, 4b- pilot hole, 4c- pilot hole, 4d- relief hole, 401- pedestal, 402- guide sleeve), 5- activity detection block (5a- mating surface, 5b- detection faces, 501- leading arm, 502- detect arm, 503- linking arm), 6- pressing tongs, between X- detection faces and datum level between Gap.

Specific embodiment

The utility model is described in further detail below by specific embodiment combination attached drawing.

Fig. 1 to Fig. 5 is please referred to, the transition detection structure in the utility model embodiment cubing has buckle for detecting 101 part 1, buckle 101 have the card access surface 101a cooperated with environment part.Transition detection structure includes being arranged in cubing 2 Support base 3, the fixing seat 4 being arranged in cubing 2 and the activity detection block 5 being detachably connected with fixing seat 4.Support base 3 is set It sets in cubing 2, is used to support part 1.Fixing seat 4 is set to 101 corresponding positions of side and buckle of support base 3, fixing seat 4 One end end face far from cubing 2 is benchmark face 4a, offers a pilot hole 4b vertical with datum level 4a on datum level 4a.It is living Dynamic detection block 5 is configured to Contraband shape, activity detection block 5 have it is opposite be arranged in parallel and at interval leading arm 501, detection arm 502, And connection leading arm 501 and the linking arm 503 for detecting arm 502, leading arm 501, detection arm 502 and linking arm 503 are integrally formed, The leading arm 501 of activity detection block and pilot hole 4b are with merge can be along the longitudinal movement of pilot hole 4b, the detection of activity detection block The end of arm 502 is configured to the mating surface 5a to offset with card access surface 101a, when leading arm 501 is inserted into pilot hole 4b and is cooperated When face 5a and card access surface 101a offset, linking arm 503 is configured to detection faces 5b towards datum level 4a's on one side, detection faces 5b with Datum level 4a is parallel, and whether the gap detected between detection faces 5b and datum level 4a is qualified, and you can get it buckles 101 card access surface Whether 101a is qualified.

Preferably, in order to improve the service life of fixing seat 4, fixing seat 4 includes pedestal 401 and removably embedded in pedestal Guide sleeve 402 in 401, one end end face of the pedestal 401 far from cubing 2 is benchmark face 4a, is offered on datum level 4a for pacifying The pilot hole 4c of guide sleeve 402 is filled, the pilot hole 4b cooperated with leading arm 501 is offered on guide sleeve 402.Guiding is used for a long time After 402 abrasion of set, guide sleeve 402 is taken out out of pedestal 401 and is replaced, no replacement is required pedestal 401 has been saved and has been produced into This.It is highly preferred that the bottom hole of leading arm 501 and pilot hole 4c offset and influence measurement result in order to prevent, the depth of pilot hole 4c Greater than the length of leading arm 501.

Preferably, activity detection block 5 rotates when using in order to prevent, and in order to quickly determine leading arm 501 Position, the cross-sectional shape of leading arm 501 are square.

Preferably, in order to increase the contact area for detecting arm 502 and card access surface 101a, the cross-sectional shape of arm 502 is detected It is square.

Preferably, in order to increase the weight of leading arm 501, prevent detection arm 502 with buckle 101 contact after, leading arm 501 It is smoothly moved in pilot hole 4b, the cross-sectional area of leading arm 501 is greater than the cross-sectional area of detection arm 502.

Preferably, in order to improve the precision of guide effect and measurement result, the length of leading arm 501 is greater than detection arm 502 length.

Preferably, the interference of fixing seat 4 buckles 101 in order to prevent, offers in fixing seat 4 with 101 corresponding positions of buckle Relief hole 4d.

Preferably, the pressing tongs 6 for being pressed abd fixed on part 1 on support base 3 is additionally provided in cubing 2.

Please refer to Fig. 1 to Fig. 5, the application method of the utility model embodiment are as follows: after part 1 is placed on support base 3, Part 1 is pressed on support base 3 using pressing tongs 6, the leading arm 501 of activity detection block is inserted into pilot hole 4b until detection The card access surface 101a that arm 502 is buckled with part offsets, and whether the gap measured between detection faces 5b and datum level 4a is equal to theory Gap.If the gap X between detection faces 5b and datum level 4a is equal to theoretical gap, instruction card buckle side 101a is qualified；If detection Gap X between face 5b and datum level 4a is greater than theoretical gap, then instruction card buckle side 101a is higher；If detection faces 5b and datum level Gap X between 4a is less than theoretical gap, then instruction card buckle side 101a is relatively low.

The utility model is able to achieve the detection of part, and installation easy to disassemble under the cubing confined space.

The above content is the further description for combining specific embodiment to do the utility model, and it cannot be said that The specific implementation of the utility model is only limited to these instructions.For the ordinary skill people of technical field belonging to the utility model For member, without departing from the concept of the premise utility, a number of simple deductions or replacements can also be made, all should be considered as Belong to the protection scope of the utility model.

Claims (8)

1. the transition detection structure in a kind of cubing, for detecting the part with buckle, the buckle has matches with environment part The card access surface of conjunction, it is characterised in that:

It includes support base, is set in the cubing, is used to support the part；

Fixing seat, the side in the cubing and positioned at the support base, the fixing seat is far from described cubing one end End face is benchmark face, offers a pilot hole on the datum level；

And

Activity detection block is configured to Contraband shape, has to be arranged in parallel and at interval leading arm and detection arm relatively and connect and lead To the linking arm of arm and detection arm, the leading arm and the pilot hole of the activity detection block cooperate, the activity detection block The end of detection arm is configured to the mating surface to offset with the card access surface, when the leading arm is inserted into the pilot hole and institute State mating surface and when the card access surface offsets, the linking arm is configured to detection faces towards the datum level on one side, described Detection faces are parallel with the datum level.

2. the transition detection structure in cubing as described in claim 1, it is characterised in that: the fixing seat includes pedestal and can It is releasably embedded in the intracorporal guide sleeve of the seat, one end end face of the pedestal far from the cubing is the datum level, described The pilot hole with guide sleeve cooperation is offered on datum level, and the institute with leading arm cooperation is offered on the guide sleeve State pilot hole.

3. the transition detection structure in cubing as described in claim 1, it is characterised in that: the cross-sectional shape of the leading arm It is square.

4. the transition detection structure in cubing as described in claim 1, it is characterised in that: the cross-sectional shape of the detection arm It is square.

5. the transition detection structure in cubing as described in claim 1, it is characterised in that: the cross-sectional area of the leading arm Greater than the cross-sectional area of the detection arm.

6. the transition detection structure in cubing as described in claim 1, it is characterised in that: the length of the leading arm is greater than institute State the length of detection arm.

7. the transition detection structure in cubing as described in claim 1, it is characterised in that: the depth of the pilot hole is greater than institute State the length of leading arm.

8. the transition detection structure in cubing as described in any one of claim 1 to 7, it is characterised in that: in the fixing seat Relief hole is offered with the buckle corresponding position.