CN207209235U - Electronic component testing apparatus slipway mechanism - Google Patents
Electronic component testing apparatus slipway mechanism Download PDFInfo
- Publication number
- CN207209235U CN207209235U CN201720939305.8U CN201720939305U CN207209235U CN 207209235 U CN207209235 U CN 207209235U CN 201720939305 U CN201720939305 U CN 201720939305U CN 207209235 U CN207209235 U CN 207209235U
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- CN
- China
- Prior art keywords
- microscope carrier
- locking bar
- lock
- electronic component
- slipway mechanism
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- Testing Of Individual Semiconductor Devices (AREA)
Abstract
A kind of electronic component testing apparatus slipway mechanism, including bottom plate, a secondary guide rail, microscope carrier and to lock the locking device of microscope carrier, wherein, the guide rail is elongated, and what is be parallel to each other is arranged on the side surface of bottom plate one;The microscope carrier is slidably mounted on the guide rail;The locking device includes lock and tapered end, and the lock is fixed on the bottom surface of the microscope carrier and close to microscope carrier side marginal position;The tapered end is fixed on bottom plate side marginal position and is located at the same side of slipway mechanism with the lock;And the tapered end is optionally with the lock phase clip or separating;Slipway mechanism of the present utility model can be transported to electronic component and its locking device is not likely to produce damage.
Description
Technical field
A kind of mechanical device slide unit structure is the utility model is related to, especially a kind of electronic component testing apparatus slide unit
Mechanism.
Background technology
With the development of industrial technology, electronic component is in processing and making process, it usually needs test device detects electricity
Subcomponent performance, to determine whether the electronic component of processing and fabricating meets to require;In test device testing electronic element performance,
Generally require and electronic component is fixed in test device, before fixed electronic component, to improve testing efficiency, it will usually to survey
Carry out feeding is put in trial assembly, i.e., electronic component materials and parts is transported;And the most frequently used mechanism of feeding is carried out to electronic component and is exactly
Slipway mechanism;It is that larger materials and parts are carried out mostly because of electronic component volume generally all smaller, conventional mechanical devices slipway mechanism
Feeding, structure is also more complicated, and because of the particularity of electronic component, traditional slipway mechanism is generally less applicable, and multiple
In feeding process, the electronic locking device that it is locked is easy to produce damage;Surveyed therefore, it is necessary to develop a kind of electronic component
Trial assembly, which is put, uses slipway mechanism.
Utility model content
The technical problems to be solved in the utility model is to provide a kind of electronic component testing apparatus slipway mechanism, the slide unit
Mechanism can carry out feeding to electronic component, and its locking device is not likely to produce damage.
In order to solve the above technical problems, the utility model uses following technical proposals:The electronic component testing apparatus is slided
Platform mechanism, including bottom plate, a secondary guide rail, microscope carrier and to lock the locking device of microscope carrier, wherein, the guide rail is in strip
Shape, what is be parallel to each other is arranged on the side surface of bottom plate one;The microscope carrier is slidably mounted on the guide rail;The locking
Device includes lock and tapered end, and the lock is fixed on the bottom surface of the microscope carrier and close to microscope carrier side marginal position;The lock
Head is fixed on bottom plate side marginal position and is located at the same side of slipway mechanism with the lock;And the tapered end may be selected
Property with the lock phase clip or separating.
According to technical concept of the present utility model, lock described in the utility model includes matrix, and the matrix is projectedly solid
It is scheduled on the basal surface position of the microscope carrier;It is low for the high both sides in middle part on the surface of side corresponding with described tapered end in the matrix
Inclined-plane, a high position offers screens through hole in the middle part of the inclined-plane.
According to technical concept of the present utility model, tapered end described in the utility model include fixed seat and with the fixed seat
The locking bar assembly of scalable connection, the locking bar assembly include locking bar and the spring being set on the locking bar;The microscope carrier
During locking, the locking bar is slided along the matrix inclined-plane and elasticity is caught in the screens through hole of the tapered end;The microscope carrier unblock
When, the tapered end is pulled, the locking bar slides along the matrix inclined-plane and the locking bar takes off out of the tapered end screens through hole
From.
According to technical concept of the present utility model, locking bar assembly described in the utility model is also included to pull the locking bar
Handle and the spring to being set in the locking bar surface the positioning nut that is adjusted of elastic force, the handle and the lock
The outboard end of bar is connected, and the positioning nut is rotatably positioned on locking bar.
According to technical concept of the present utility model, the utility model installs in the top surface side of the microscope carrier close to margin location
It is equipped with to the pull-push piece of microscope carrier described in push-and-pull.
Compared with prior art, the utility model has following beneficial effects:(1)Due to slipway mechanism of the present utility model
Locking device include lock and tapered end, the lock and tapered end be mechanical device, therefore, relatively conventional electronic locking device and
Speech, it is not likely to produce damage, and service life is long;(2)Because electronic component volume is smaller, weight is lighter, and this practicality
New slipway mechanism includes guide rail and the microscope carrier that can be slided along guide rail, is transported to electronic component, the microscope carrier exists
Guide rail described in man-driven lower edge enters line slip, and its relatively full automatic slipway mechanism is compared, and cost is relatively low, simple in construction, easily
Processing and fabricating;(3)Due to lock of the present utility model to set bevelled matrix, and tapered end include fixed seat and with it is described
The locking bar assembly of the scalable connection of fixed seat, when needing to lock microscope carrier, the locking bar of locking bar assembly is caught in the screens of the matrix
In through hole;When needing to be unlocked microscope carrier, the outer handle for drawing the locking bar, locking bar is separated with matrix, completes unblock;
Therefore, the locking of the utility model locking device and the action of unblock microscope carrier are simple, and manual operation is very convenient, and whole locking dress
Mechanical device is set to, wear-resistant, service life is long.
Brief description of the drawings
Fig. 1 is dimensional structure diagram of the present utility model, when the utility model is shown in the figure being in released state
Structure;
Fig. 2 is dimensional decomposition structure diagram of the present utility model, shown in figure bottom plate of the present utility model, guide rail,
The structure and relative position relation of the part such as microscope carrier and locking device, and it is illustrated that the structure feelings that locking device is two sets
Shape;
Fig. 3 is overlooking the structure diagram of the present utility model;It is illustrated that the architectural scenarios that locking device is two sets;
Fig. 4 be Fig. 3 A-A to cross section structure diagram, be shown in the figure when the utility model is in the lock state
The structural relation of tapered end and lock;
Fig. 5 is the dimensional structure diagram of the utility model lock.
Component names shown in the utility model label are detailed as follows:
1 bottom plate
2 guide rails
The pull-push piece of 3 microscope carrier 31
The screens through hole of 4 locking device, 41 lock, 411 inclined-plane 412
The locking bar assembly of 42 tapered end, 421 fixed seat 422
The spring of 4221 locking bar 4222
4223 handles 4224 positioning nut.
Embodiment
Electronic component testing apparatus slipway mechanism of the present utility model, for installed in electronic component testing apparatus,
Electronic component is tested, to solve traditional slipway mechanism huge structure and locking device is also easy to produce the technical problem of damage.
Referring to Fig. 1 and Fig. 2, the utility model electronic component testing apparatus slipway mechanism include bottom plate 1, guide rail 2 and
Microscope carrier 3;Wherein, the quantity of guide rail 2 is two, and elongated setting, two guide rails 2 are arranged on bottom plate in parallel to each other
1 side surface, and the microscope carrier 3 is arranged on guide rail 2, and electronic component is being transported using slipway mechanism of the present utility model
When, electronic component is positioned over the microscope carrier 3, promotes the microscope carrier 3, and the microscope carrier 3 slides along the guide rail 2.
To make microscope carrier 3 be fixed sliding into predetermined position, carried out with the electronic component being pointed on the microscope carrier 3
Test, slipway mechanism of the present utility model also include locking device 4, and the locking device 4 slides into predetermined position in microscope carrier 3
When, the microscope carrier 3 can be fixed;The locking device 4 can be two sets, that is, be separately positioned on the two of the slipway mechanism
Side position, it is of course also possible to be a set of, that is, a side position of slipway mechanism is arranged on, the microscope carrier 3 can equally be consolidated
It is fixed.In introduced below, with locking device 4 for it is a set of when, concrete structure of the present utility model.
Locking device 4 of the present utility model includes lock 41 and tapered end 42, wherein, the lock 41 is fixed on the microscope carrier
The position of 3 basal surface position and the close lateral edges of microscope carrier 3 one;And the tapered end 42 is fixed on the lateral edges of bottom plate 1 one
Position, and it is located at the lock 41 the same side of slipway mechanism;In the lock 41 tapered end is slid into the microscope carrier 3
During 42 position, the tapered end 42 and the phase clip of lock 41, so that the microscope carrier 3 is fixed;Being pointed to
After stating the electronic components test on microscope carrier 3, can adopt manually makes the tapered end 42 and the lock 41, and then right
The realization unblock of the microscope carrier 3.
Referring to Fig. 5, lock 41 of the present utility model includes matrix, and the matrix is projectedly fixed on the bottom surface of the microscope carrier 3
Position;Be the inclined-plane 411 that middle part is high and both sides are low in a side surface of the matrix, the position on the inclined-plane 411 be located at it is described
42 corresponding side of tapered end, offer screens through hole 412 in the middle part high position of inclined-plane 411.
Corresponding with lock 41 of the present utility model, tapered end 42 of the present utility model includes fixed seat 421 and locking bar assembly
422, wherein, the locking bar assembly 422 can stretch out or retract along the fixed seat 421;
When the lock 41 slides into 42 position of tapered end with the microscope carrier 3, the locking bar assembly 422 is first
It is in contact with the side inclined-plane 411 of the matrix of lock 41, as slip of the microscope carrier 3 along the guide rail 2 promotes, locking bar group
Part 422 along the inclined-plane 411 slip into the screens through hole 412 and with the phase clip of screens through hole 412 so that the microscope carrier
3 are fixed;When being unlocked to the microscope carrier 3, the locking bar assembly 422, the locking bar assembly 422 and institute are pulled out
State in screens through hole 412, meanwhile, the microscope carrier 3 is promoted, the locking bar assembly 422 slides along the inclined-plane 411, and then
It is separated with the lock 42, realizes the unblock to the microscope carrier 3.
Referring to Fig. 3 and Fig. 4, furtherly, locking bar assembly 422 of the present utility model includes locking bar 4221 and spring
4222, wherein, the spring 4222 is set on the locking bar 4221, and the outboard end of the locking bar 4221 is also associated with handle
4223, the positioning nut 4224 to be adjusted to the elastic force of spring 4222 is provided between the handle 4223 and spring 4222,
When the elastic force to the spring 4222 is adjusted, can the turn positioning nut 4224 rotate so that spring 4222 is with adjusting
The distance between position nut 4224 produces change, and then makes the elastic force of spring 4222 adjusted.
When transporting electronic component using slipway mechanism of the present utility model, the microscope carrier 3 is promoted, microscope carrier 3 is led along described
The slip of rail 2 promotes, when the microscope carrier 3 is close to the locking bar assembly 422, the locking bar 4221 and the matrix of lock 41
Side inclined-plane 411 is in contact, and as slip of the microscope carrier 3 along the guide rail 2 promotes, locking bar 4221 is slided along the inclined-plane 411
Enter in the screens through hole 412, and spring 4222 elastic force effect and clip is located in the screens through hole 412 so that institute
Microscope carrier 3 is stated to be fixed;When being unlocked to the microscope carrier 3, handle 4223 is pulled out, the locking bar 4221 is from the card
Deviate from the through hole 412 of position, meanwhile, the microscope carrier 3 is promoted, the locking bar 4221 acts against under the elastic force effect of spring 4222
On the side inclined-plane 411 of the matrix of lock 41, and slide along the inclined-plane 411, and then be separated with the lock 42, realized
Unblock to the microscope carrier 3.
The structure of locking device 4 of the present utility model can be seen that locking device 4 of the present utility model as machinery more than
Device, therefore, for relatively conventional electronic locking device, locking device 4 of the present utility model is not likely to produce damage, uses the longevity
Order long.
In addition, for ease of microscope carrier 3 described in push-and-pull, the top surface of the microscope carrier 3 of the present utility model is additionally provided with pull-push piece 31,
The pull-push piece 31 is set close to the marginal position of microscope carrier 3;By operating the pull-push piece 31, microscope carrier 3 in 2 enterprising line slip of guide rail,
Very laborsaving, manual operation is very convenient.
Claims (5)
1. a kind of electronic component testing apparatus slipway mechanism, including bottom plate;And a secondary guide rail, it is elongated, it is parallel to each other
Be arranged on the side surface of bottom plate one;And a microscope carrier, it is slidably mounted on the guide rail;
Characterized in that, slipway mechanism is also included to lock the locking device of microscope carrier;The locking device includes:
One lock, it is fixed on the bottom surface of the microscope carrier and close to microscope carrier side marginal position;And a tapered end, it is fixed on the bottom
Plate side marginal position and the same side for being located at slipway mechanism with the lock;And the tapered end optionally with the lock
Phase clip or separation.
2. electronic component testing apparatus slipway mechanism as claimed in claim 1, it is characterised in that the lock includes base
Block, the matrix are projectedly fixed on the basal surface position of the microscope carrier;In the matrix in side corresponding with described tapered end
Surface is the low inclined-plane in the high both sides in middle part, and a high position offers screens through hole in the middle part of the inclined-plane.
3. electronic component testing apparatus slipway mechanism as claimed in claim 2, it is characterised in that the tapered end includes fixing
Seat and the locking bar assembly with the scalable connection of the fixed seat, the locking bar assembly include locking bar and are set in the locking bar
On spring;During the microscope carrier locking, the locking bar is slided along the matrix inclined-plane and the elastic screens for being caught in the tapered end is led to
In hole;During microscope carrier unblock, pull the tapered end, the locking bar along the matrix inclined-plane slide and the locking bar from the lock
Depart from the screens through hole of head.
4. electronic component testing apparatus slipway mechanism as claimed in claim 3, it is characterised in that the locking bar assembly also wraps
Include the positioning spiral shell for pulling the handle of the locking bar and the elastic force of the spring to being set in the locking bar surface to be adjusted
Mother, the handle are connected with the outboard end of the locking bar, and the positioning nut is rotatably positioned on locking bar.
5. the electronic component testing apparatus slipway mechanism as described in any one of Claims 1-4, it is characterised in that described
The top surface side of microscope carrier is provided with to the pull-push piece of microscope carrier described in push-and-pull close to marginal position.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720939305.8U CN207209235U (en) | 2017-07-29 | 2017-07-29 | Electronic component testing apparatus slipway mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720939305.8U CN207209235U (en) | 2017-07-29 | 2017-07-29 | Electronic component testing apparatus slipway mechanism |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207209235U true CN207209235U (en) | 2018-04-10 |
Family
ID=61814710
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720939305.8U Active CN207209235U (en) | 2017-07-29 | 2017-07-29 | Electronic component testing apparatus slipway mechanism |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207209235U (en) |
-
2017
- 2017-07-29 CN CN201720939305.8U patent/CN207209235U/en active Active
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