CN217843311U - Automatic shell test all-in-one of level pressure assembly shop self-control SIP - Google Patents

Abstract

The utility model discloses an automatic shell test all-in-one of level pressure assembly shop self-control SIP, including the test shell, set up a plurality of mounting holes on the test shell, still include the support body, still be provided with fixture and accredited testing organization on the support body, wherein: the clamping mechanism comprises a clamping plate and a second locking rod; the testing mechanism includes a threaded rod. The utility model discloses a level pressure assembly shop self-control SIP automatic shell test all-in-one machine, utilize fixture and accredited testing organization, clamp plate and No. two check lock poles will test the fixed locking on the assigned position of support body of shell, the threaded rod with the mounting hole one-to-one is driven the rotation and is close to the mounting hole, if the position of mounting hole is correct, then threaded rod meeting threaded mounting is in the mounting hole be convenient for measure the position of the mounting hole on the test shell correctly with rejecting the defective part fast, do not need the handheld slide caliper of people to detect, can guarantee stable long-time work, increase detection efficiency.

Description

Automatic shell test all-in-one of level pressure assembly shop self-control SIP

Technical Field

The utility model relates to a test all-in-one technical field relates to an automatic shell test all-in-one of level pressure assembly shop self-control SIP particularly.

Background

Need be tested the sip casing by measurement personnel before the assembly is carried out in the level pressure assembly shop, whether satisfy the installation requirement like the mounting hole position of measuring the sip casing to reject the great defective member of sip casing mounting hole position error, nevertheless because need the handheld slide caliper of people in order to measure the position of sip casing mounting hole, use the slide caliper to measure comparatively difficult to operate, need consume a large amount of efforts of measurement personnel, measurement efficiency is lower when carrying out measurement work for a long time.

Disclosure of Invention

The utility model aims at providing a level pressure assembly shop self-control SIP automatic shell test all-in-one for solve above-mentioned problem.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides an automatic shell test all-in-one of level pressure assembly shop self-control SIP, includes the test shell, set up a plurality of mounting holes that have on the test shell, still include the support body, still be provided with fixture and a plurality of accredited testing organization that equals with the mounting hole quantity on the support body, wherein:

the clamping mechanism comprises a clamping plate and a second locking rod, and the clamping plate and the second locking rod are driven to push the test shell to abut against the first side face of the frame body;

the testing mechanism comprises a threaded rod, the threaded rod is coaxially arranged with the mounting hole, and the threaded rod is driven to rotate and is close to the mounting hole.

Preferably, the testing mechanism further comprises a pressing block, the pressing block is arranged in the sliding hole formed in the threaded rod in a sliding mode, the first contact is arranged on the clamping plate and the two second locking rods, the second contact is arranged at the first end of the pressing block, the third contact is arranged on the surface of the second end of the pressing block, and the fourth contact is arranged in the sliding hole.

Preferably, the fixture still includes the check lock lever No. one, the support body is provided with the supporting part and is the installation department of symmetric distribution, the clamp plate slide set up in on the supporting part, check lock lever screw thread install in on the clamp plate, just the tip of check lock lever rotate set up in on the supporting part, two No. two check lock lever respectively screw thread install in be on the installation department of symmetric distribution.

Preferably, the testing mechanism further comprises a sliding seat, a motor base and a driving motor, the driving motor is fixedly connected to the motor base, sliding blocks are symmetrically arranged on the sliding seat and the motor base, sliding grooves are formed in the frame body, the sliding blocks are slidably arranged in the sliding grooves, the threaded rod is rotatably arranged on the sliding seat, and the second end of the threaded rod is fixedly connected to the output end of the driving motor.

Preferably, the testing mechanism further comprises a first spring, wherein the first end of the first spring is fixedly connected to the motor base, and the second end of the first spring is fixedly connected to the frame body.

Preferably, the testing mechanism further comprises a second spring, wherein the first end of the second spring is fixedly connected to the pressing block, and the second end of the second spring is fixedly connected to the inside of the sliding hole.

Preferably, the first side surface of the frame body is symmetrically provided with a limiting part.

In the technical scheme, the utility model provides a pair of level pressure assembly shop self-control SIP automatic shell test all-in-one possesses following beneficial effect: utilize fixture and accredited testing organization, clamp plate and No. two check lock levers will test the fixed locking of shell on the assigned position of support body, and the threaded rod with the mounting hole one-to-one is driven the rotation and is close to the mounting hole, if the position of mounting hole is correct, then threaded rod meeting threaded mounting is in the mounting hole be convenient for measure the position of the mounting hole on the test shell correctly with rejecting the defective part fast, do not need the handheld slide caliper of people to detect, can guarantee stable long-time work, increase detection efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a general schematic structural diagram provided by an embodiment of the present invention;

fig. 2 is a schematic structural view of a frame body and a clamping mechanism provided by an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a testing mechanism according to an embodiment of the present invention;

fig. 4 is a general cross-sectional view provided by an embodiment of the present invention;

fig. 5 is an enlarged partial cross-sectional view of an embodiment of the present invention.

Description of reference numerals:

1. a frame body; 11. a support portion; 12. a limiting part; 13. an installation part; 14. a chute; 2. testing the shell; 21. mounting holes; 3. a clamping mechanism; 31. a clamping plate; 32. a first locking lever; 33. a second locking lever; 4. a testing mechanism; 41. a threaded rod; 411. a slide hole; 42. pressing into blocks; 43. a sliding seat; 431. a slider; 44. a motor base; 45. a drive motor; 46. a first spring; 47. a second spring; 48. a hydraulic cylinder; 5. a first contact; 6. a contact number two; 7. a contact point number three; 8. and a contact number four.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described below clearly and completely with reference to the accompanying drawings of the embodiments of the present disclosure. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without inventive step, are within the scope of protection of the disclosure.

As shown in fig. 1-5, a level pressure assembly shop self-control automatic shell test all-in-one of SIP, including test shell 2, set up a plurality of mounting holes 21 on the test shell 2, still include support body 1, still be provided with fixture 3 and a plurality of accredited testing organization 4 that equals with mounting holes 21 quantity on the support body 1, wherein: the clamping mechanism 3 comprises a clamping plate 31 and a second locking rod 33, and the clamping plate 31 and the second locking rod 33 are driven to push the test shell 2 to abut against the first side surface of the frame body 1; the testing mechanism 4 includes a threaded rod 41, the threaded rod 41 is disposed coaxially with the mounting hole 21, and the threaded rod 41 is driven to rotate and is close to the mounting hole 21.

Specifically, as shown in fig. 2, the surface of the frame body 1 facing the test shell 2 is a first side surface, the test shell 2 has four mounting holes 21, four test mechanisms 4 are arranged on the frame body 1, the clamping plate 31 and the second locking rod 33 are driven to push against the first side surface of the test shell 2 abutting against the frame body 1 so as to fix and lock the test shell 2 at the designated position of the frame body 1, the threaded rods 41 of the test mechanisms 4 are arranged according to the standard positions of the mounting holes 21 of the test shell 2, the threaded rods 41 in one-to-one correspondence with the mounting holes 21 are driven to rotate close to the mounting holes 21, if the positions of the mounting holes 21 are correct, the threaded rods 41 are threadedly mounted in the mounting holes 21, if the position deviation of the mounting holes 21 is large, the threaded rods 41 are not threadedly mounted in the mounting holes 21, so as to measure whether the positions of the mounting holes 21 on the test shell are correct to quickly remove defective parts.

Among the above-mentioned technical scheme, utilize fixture 3 and accredited testing organization 4, clamp plate 31 and No. two check lock levers 33 will test shell 2 fixed locking on the assigned position of support body 1, threaded rod 41 with mounting hole 21 one-to-one is driven the rotation and is close to mounting hole 21, if the position of mounting hole 21 is correct, threaded rod 41 can threaded mounting be convenient for measure in mounting hole 21 whether the position of mounting hole 21 on the test shell 2 is correct in order to reject bad part fast, do not need the people to hold vernier caliper and detect, can guarantee stable long-time work, increase detection efficiency.

As a further embodiment provided in the present disclosure, the testing mechanism 4 further includes a press block 42, the press block 42 is slidably disposed in a sliding hole 411 formed in the threaded rod 41, the clamping plate 31 and the two second locking rods 33 are both provided with a first contact 5, a first end of the press block 42 is provided with a second contact 6, a second end surface of the press block 42 is provided with a third contact 7, a fourth contact 8 is disposed in the sliding hole 411, as shown in fig. 5, a left end of the press block 42 is a first end, and a right end is a second end, when the position of the mounting hole 21 on the testing shell 2 is correct, the threaded rod 41 is driven to rotate close to the mounting hole 21 and is threadedly mounted in the mounting hole 21, the second contact 6 on the press block 42 contacts the first contact 5 to conduct an external green indicator light corresponding to the electrical connection of the mounting hole 21, so that the green indicator light is turned on to indicate that the position corresponding to the mounting hole 21 is correct, when the position of the mounting hole 21 on the mounting hole on the testing shell 2 has an error, the press block 42 is driven to rotate and is close to the mounting hole 21 and close to the mounting hole 21, the mounting hole, the press block 42 cannot be in a press the sliding contact with the sliding indicator, and the sliding indicator, the sliding contact with the sliding indicator, the sliding contact indicator 21, the sliding rod 42, the sliding contact indicator, the sliding rod 21, the sliding contact indicator, the sliding contact with the sliding contact indicator.

As a further embodiment provided in the present invention, the clamping mechanism 3 further includes a locking lever 32, the support body 1 is provided with the supporting portion 11 and the mounting portion 13 that is symmetrically distributed, the clamping plate 31 slides and sets up on the supporting portion 11, a locking lever 32 is threaded and installed on the clamping plate 31, and the end of a locking lever 32 rotates and sets up on the supporting portion 11, two locking levers 33 are threaded and installed on the mounting portion 13 that is symmetrically distributed respectively, the locking lever 32 is rotated to order about the clamping plate 31 to push against the first side of the support body 1 that the test shell 2 collides, two locking levers 33 are rotated to make the end thereof push against the test shell 2, and the bottom of the test shell 2 collides against the top surface of the supporting portion 11, the test shell 2 is fixed and locked on the designated position of the support body 1, the inaccurate measurement caused by the looseness of the test shell 2 is avoided, the test of the subsequent test mechanism 4 is convenient, and the stability of the device is increased.

As a further embodiment provided by the present invention, the testing mechanism 4 further includes a sliding seat 43, a motor seat 44 and a driving motor 45, the driving motor 45 is fixedly connected to the motor seat 44, sliding blocks 431 are symmetrically disposed on the sliding seat 43 and the motor seat 44, a sliding slot 14 is disposed on the frame body 1, the sliding block 431 is slidably disposed in the sliding slot 14, a threaded rod 41 is rotatably disposed on the sliding seat 43, and a second end of the threaded rod 41 is fixedly connected to an output end of the driving motor 45, as shown in fig. 3, a left end of the threaded rod 41 is a first end, a right end is a second end, and a hydraulic cylinder 48 is further included, an output end of the hydraulic cylinder 48 pushes the motor seat 44 to be away from the testing case 2 for resetting, when detecting, the sliding blocks 431 of the sliding seat 43 and the motor seat 44 are located in the sliding slot 14 to slide, so as to drive the threaded rod 41 and the driving motor 45 to be close to the testing case 2, and the output end of the driving motor 45 rotates clockwise to drive the threaded rod 41 to rotate clockwise, and when the position of the mounting hole 21 is correct and the threaded rod 41 is installed in the mounting hole 21 in a threaded manner, the second contact 6 on the pressing block 42 contacts with the first contact 5, so that the driving motor 45 stops rotating, when the position of the mounting hole 2 deviates, the threaded rod 41 rotates close to the test shell 2, the pressing block 42 butts against the test shell 2, the pressing block 42 is driven to slide in the sliding hole 411, at the moment, the second contact 6 is not contacted with the first contact 5, the third contact 7 is contacted with the fourth contact 8, so that the driving motor 45 stops rotating, then the output end of the hydraulic cylinder 48 pushes the motor seat 44 to make the output end far away from the test shell 2 to reset, so as to be convenient for long-time use, and when the threaded rod 41 rotates or is close to the place, the output end of the driving motor 45 stops rotating, so that the threaded rod 41 is prevented from scratching the surface of the test shell 2, surface scratches of the test case 2 are avoided.

As a further embodiment provided by the present invention, the testing mechanism 4 further includes a first spring 46, a first end of the first spring 46 is fixedly connected to the motor seat 44, and a second end of the first spring 46 is fixedly connected to the frame body 1, as shown in fig. 3, a left end of the first spring 46 is a first end, a right end of the first spring 46 is a second end, and the first spring 46 drives the sliding block 431 of the motor seat 44 and the sliding seat 43 to slide along the sliding groove 14 to be close to the testing case 2.

As a further embodiment provided by the present application, the testing mechanism 4 further includes a second spring 47, a first end of the second spring 47 is fixedly connected to the pressing block 42, and a second end of the second spring 47 is fixedly connected to the sliding hole 411, as shown in fig. 3, a left end of the second spring 47 is a first end, a right end of the second spring 47 is a second end, and the second spring 47 drives the pressing block 42 to slide along the sliding hole 411 toward the testing case 2.

As the utility model provides an embodiment further provides, the symmetry is provided with spacing portion 12 on the first side of support body 1, utilizes spacing portion 12 in order to inject the position that test shell 2 was fixed in on the support body 1, guarantees that the position of test shell 2 is unchangeable, avoids because the measurement of avoiding the not hard up of test shell 2 to cause is inaccurate, and the test of the follow-up accredited testing organization 4 of being convenient for increases device stability.

The working principle is as follows: firstly, the bottom surface of the testing shell 2 is abutted against the top of the supporting part 11, the testing shell 2 is positioned between the two limiting parts 12, the first locking rod 32 is rotated to drive the clamping plate 31 to push against the first side surface of the testing shell 2 abutted against the frame body 1, the two second locking rods 33 are rotated to drive the end parts of the two locking rods to push against the testing shell 2, the testing shell 2 is fixedly locked at the appointed position of the frame body 1, then the first spring 46 drives the motor seat 44 and the sliding block 431 of the sliding seat 43 to slide along the sliding groove 14 to be close to the testing shell 2, the output end of the driving motor 45 rotates clockwise to drive the threaded rod 41 to rotate clockwise, when the position of the mounting hole 21 is correct and the threaded rod 41 is installed in the mounting hole 21, the threaded rod 41 is driven to rotate to be close to the mounting hole 21 and is installed in the mounting hole 21 in a threaded manner, the second spring 47 drives the pressing block 42 to slide towards the testing shell 2 along the sliding hole 411, the second contact 6 on the pressing block 42 contacts with the first contact 5 to conduct the electrically connected green indicator light corresponding to the mounting hole 21 from the outside, and simultaneously the output end of the driving motor 45 stops rotating, so that the green indicator light is lighted to indicate that the position corresponding to the mounting hole 21 is correct, when the position of the mounting hole 21 on the test shell 2 has an error, the threaded rod 41 is driven to rotate and is close to the mounting hole 21, the threaded rod 41 cannot be installed in the mounting hole 21 in a threaded manner, and at the moment, the pressing block 42 is abutted against the test shell 2, the pressing block 42 is driven to slide in the sliding hole 411, at the moment, the second contact 6 is not contacted with the first contact 5, the third contact 7 is contacted with the fourth contact 8 to conduct the electrically connected red indicator light corresponding to the mounting hole 21 from the outside, and simultaneously the output end of the driving motor 45 stops rotating, so that the red indicator light is lighted to indicate that the position corresponding to the mounting hole 21 is wrong, the test housing 2 is defective and when the detection of the mounting hole 21 is completed, the output end of the hydraulic cylinder 48 pushes the motor base 44 to be reset away from the test housing 2.

It should be noted that the device is externally connected with a 24v power supply, and the electrical connection between the first contact 5, the second contact 6, the third contact 7, the fourth contact 8, the red indicator light, the green indicator light and the driving motor 45 and the corresponding procedures thereof mentioned in the above embodiments are all common technical knowledge of those skilled in the art and will not be described in detail.

Certain exemplary embodiments of the present invention have been described above by way of illustration only, and it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (7)

1. The utility model provides an automatic shell test all-in-one of level pressure assembly shop self-control SIP, includes test shell (2), it has mounting hole (21) to set up a plurality of on test shell (2), its characterized in that still includes support body (1), still be provided with fixture (3) and a plurality of accredited testing organization (4) that equal with mounting hole (21) quantity on support body (1), wherein:

the clamping mechanism (3) comprises a clamping plate (31) and a second locking rod (33), and the clamping plate (31) and the second locking rod (33) are driven to push the test shell (2) to abut against the first side face of the frame body (1);

the testing mechanism (4) comprises a threaded rod (41), the threaded rod (41) and the mounting hole (21) are coaxially arranged, and the threaded rod (41) is driven to rotate and is close to the mounting hole (21).

2. The self-made SIP automatic shell testing all-in-one machine for the constant-pressure assembly shop according to claim 1, wherein the testing mechanism (4) further comprises a pressing block (42), the pressing block (42) is slidably arranged in a sliding hole (411) formed in the threaded rod (41), the clamping plate (31) and the two second locking rods (33) are respectively provided with a first contact (5), a second contact (6) is arranged at a first end of the pressing block (42), a third contact (7) is arranged on a second end surface of the pressing block (42), and a fourth contact (8) is arranged in the sliding hole (411).

3. The self-made SIP automatic shell testing all-in-one machine for the constant-pressure assembly shop is characterized in that the clamping mechanism (3) further comprises a locking rod (32), the frame body (1) is provided with a supporting portion (11) and installation portions (13) which are symmetrically distributed, the clamping plate (31) is arranged on the supporting portion (11) in a sliding mode, the locking rod (32) is arranged on the clamping plate (31) in a threaded mode, the end portion of the locking rod (32) is arranged on the supporting portion (11) in a rotating mode, and the locking rods (33) are arranged on the installation portions (13) which are symmetrically distributed in a threaded mode respectively.

4. The self-made SIP automatic shell testing all-in-one machine for the constant-pressure assembly shop according to claim 1, wherein the testing mechanism (4) further comprises a sliding seat (43), a motor base (44) and a driving motor (45), the driving motor (45) is fixedly connected to the motor base (44), sliding blocks (431) are symmetrically arranged on the sliding seat (43) and the motor base (44), a sliding groove (14) is formed in the frame body (1), the sliding blocks (431) are slidably arranged in the sliding groove (14), the threaded rod (41) is rotatably arranged on the sliding seat (43), and the second end of the threaded rod (41) is fixedly connected to the output end of the driving motor (45).

5. The self-made SIP automatic shell testing all-in-one machine for the constant-pressure assembly workshop according to claim 4, wherein the testing mechanism (4) further comprises a first spring (46), a first end of the first spring (46) is fixedly connected to the motor base (44), and a second end of the first spring is fixedly connected to the frame body (1).

6. The self-made SIP automatic shell testing all-in-one machine of the constant-pressure assembly workshop as set forth in claim 2, wherein the testing mechanism (4) further comprises a second spring (47), a first end of the second spring (47) is fixedly connected to the pressing block (42), and a second end of the second spring is fixedly connected to the inside of the sliding hole (411).

7. The self-made SIP automatic shell testing all-in-one machine of the constant-pressure assembly workshop according to claim 1, characterized in that limiting parts (12) are symmetrically arranged on the first side surface of the frame body (1).

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