CN210108317U

CN210108317U - 64-diameter measuring device

Info

Publication number: CN210108317U
Application number: CN201920373701.8U
Authority: CN
Inventors: 吴冰
Original assignee: Guangzhou Youni Precision Co Ltd
Current assignee: Guangzhou Youni Precision Co Ltd
Priority date: 2019-03-22
Filing date: 2019-03-22
Publication date: 2020-02-21
Anticipated expiration: 2029-03-22

Abstract

The utility model discloses a 64-diameter measuring device, which comprises a feeding groove, a qualified product sliding groove, an unqualified product sliding groove, a base support, a rack, three clamping hands and two measuring mechanisms, wherein the rack is arranged above the base support; the utility model discloses a be connected by translation cylinder and vertical cylinder between base support and the rack, whether automatic feeding, automatic measurement and automatic judgement are surveyed the part and are accorded with the standard to the part classification that will have measured finishing according to the judged result.

Description

64-diameter measuring device

Technical Field

The utility model relates to an auto parts measures the field, especially relates to a survey 64 footpaths device.

Background

The clutch is installed between engine and derailleur, be the assembly that directly associates with the engine in the automobile transmission system, the outer parcel of clutch has the casing part of one, same with other parts of car, the manufacturing process of clutch housing must be accurate and rigorous, need detect the length of its internal diameter in the production process of clutch housing, standard length should be 64mm, also need detect its smooth finish simultaneously, the utility model patent of patent No. 201620666238.2 discloses an automobile double clutch semi-assembly casing end face runout automatic checkout device, this kind of mechanical device measures the size of clutch housing, the production efficiency has been improved greatly, but the defect lies in that the device can only measure the relative runout volume of clutch housing, do not measure the function of 64 footpaths and smooth finish, also do not have automatic classification's function, this problem is urgent to be improved.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a survey 64 footpaths device mainly solves the problem of background art.

The utility model provides a 64-diameter measuring device, which comprises a feeding groove, a qualified product chute, a unqualified product chute, a base support, a rack, three clamping hands and a measuring mechanism, wherein the rack is arranged above the base support, the right end above the rack is provided with the feeding groove, the left side of the feeding groove is provided with the measuring mechanism, the number of the measuring mechanism is two, the upper side of the rack is respectively provided with a first measuring mechanism and a second measuring mechanism from right to left, the first measuring mechanism comprises a fixed plate, a sliding block and a probe, the front surface of the fixed plate is provided with the sliding block, the lower end of the sliding block is provided with the probe, a fixed seat is arranged right below the probe, the three clamping hands are fixed at the upper end of the rack, the rack is connected with the base support through a translation cylinder and a vertical cylinder, the left rear part of the rack is provided with the qualified product chute, the left end of, the front of the push plate cylinder is provided with a push plate.

The further improvement lies in that: the feeding groove inclines to one side of the three clamping hands, and the qualified product sliding groove and the unqualified product sliding groove incline to one side far away from the rack.

The further improvement lies in that: the first measuring mechanism is used for detecting the length of the inner diameter of the clutch shell, and the second measuring mechanism is used for detecting the smoothness of the inner diameter of the clutch shell.

The further improvement lies in that: the three tong has three tong monomers, three tong monomer horizontal direction equidistance is arranged, and the free left end of the tong that is located the leftmost end is equipped with the protection piece.

The further improvement lies in that: the probe is cylindrical, and the diameter of the probe is smaller than the inner diameter of the part to be measured.

The utility model has the advantages that: the 64-diameter measuring device can perform automatic feeding, automatic measurement and automatic judgment on whether the measured part meets the standard or not, and can classify the measured part according to the judgment result.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a top view of the present invention.

Wherein: 1-feeding trough, 2-qualified product chute, 3-unqualified product chute, 4-base support, 5-rack, 6-clamping hand, 7-fixing seat, 8-translation cylinder, 9-vertical cylinder, 10-first measuring mechanism, 11-second measuring mechanism, 12-fixing plate, 13-sliding block, 14-probe, 15-push plate cylinder, 16-push plate and 17-protection block.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to shown in fig. 1 and 2, the embodiment provides a device for measuring 64 diameters, which comprises a feeding chute 1, a qualified product chute 2, an unqualified product chute 3, a base bracket 4, a rack 5, three clamping hands 6 and a measuring mechanism, and is characterized in that: a rack 5 is arranged above the base support 4, a feeding groove 1 is arranged at the right end above the rack 5, measuring mechanisms are arranged on the left side of the feeding groove 1, the number of the measuring mechanisms is two, a first measuring mechanism 10 and a second measuring mechanism 11 are respectively arranged above the rack 5 from right to left, the first measuring mechanism 10 comprises a fixed plate 12, a sliding block 13 and a probe 14, the sliding block 13 is arranged on the front side of the fixed plate 12, the probe 14 is arranged at the lower end of the sliding block 13, a fixed seat 7 is arranged under the probe 14, a three-clamping hand 6 is fixed at the upper end of the rack 5, the rack 5 is connected with the base support 4 through a translation cylinder 8 and a vertical cylinder 9, a qualified product chute 2 is arranged at the left rear side of the rack 5, a unqualified product chute 3 is arranged at the left end of the rack 5, and a push plate cylinder 15 is arranged above the feeding, a push plate 16 is arranged in front of the push plate cylinder 15.

The feeding groove 1 inclines towards one side of the three clamping hands 6, the qualified product sliding groove 2 and the unqualified product sliding groove 3 incline towards one side far away from the rack 5, and the inclined sliding grooves enable parts to slide in and out of the device under the action of gravity without being pushed by extra energy.

The first measuring mechanism 10 is used for detecting the length of the inner diameter of the clutch housing, and the second measuring mechanism 11 is used for detecting the smoothness of the inner diameter of the clutch housing.

Three tong 6 has three tong monomer, three tong monomer horizontal direction equidistance is arranged, and the free left end of the tong that is located the leftmost end is equipped with protection piece 17.

The probe 14 is cylindrical, and the diameter of the probe 14 is smaller than the inner diameter of the measured part.

The push plate cylinder 15 drives the push plate 16 to move, a part is pushed from the feeding chute 1 to the three clamping hands 6, after the clamping hand monomer at the rightmost end clamps the part, the vertical cylinder 9 on the base support 4 vertically pushes the rack 5 upwards, then the translation cylinder 8 on the base support 4 horizontally moves the rack 5 for a certain distance, the horizontal displacement distance is equal to the distance between the two clamping hand monomers, at the moment, the part comes between the first measuring mechanism 10 and the fixed seat 7, the clamping hand monomer at the rightmost end places the part onto the fixed seat 7 under the action of the vertical cylinder 9, the three clamping hands 6 with the placed part are lifted and moved to the original position, the sliding block 13 and the fixed plate 12 move relatively, the sliding block 13 drives the probe 14 to extend downwards into the part, the bottom of the fixed seat 7 is provided with a motor, the motor drives the fixed seat 7 to rotate for 360 degrees, and then the probe 14 measures data, the new parts transmitted by the feeding trough 1 come to the feeding trough 1 again under the thrust of the push plate 16, the parts with the measured inner diameter length of the shell are clamped by the clamping hand single bodies positioned in the middle and move left to the lower part of the second measuring mechanism 11 to finish the detection of the degree of finish, finally the parts clamped by the clamping hand single body positioned at the leftmost end are placed at the inlet of the qualified product sliding groove 2, the parts with the required inner diameter length and degree of finish of the shell are judged to be qualified, one part which is not qualified is judged to be unqualified, the part which is judged to be qualified is pushed into the qualified product sliding groove 2 by the push plate 16, the part which is judged to be unqualified is left in place and is not processed, and when the three clamping hands 6 move left integrally, the part which is unqualified is pushed into the unqualified product sliding groove 3 by the protection block 17 positioned on the.

In the whole measurement and classification process, the three clamping hand monomers move simultaneously, the clamping hand monomer at the rightmost end moves each time to clamp a new part and place the new part below the first measuring mechanism 10 to measure the inner diameter length of the shell, the clamping hand monomer in the middle sends the part with the measured inner diameter length of the shell to the lower part of the second measuring mechanism 11 to measure the smoothness, the clamping hand monomer at the leftmost end sends the part with the measured smoothness to an area to be classified, namely, inlets of the qualified product sliding groove 2 and the unqualified product sliding groove 3, and the translation cylinder 8 and the vertical cylinder 9 serve as power sources for moving up and down left and right.

The 64-diameter measuring device can perform automatic feeding, automatic measurement and automatic judgment on whether the measured part meets the standard or not, and can classify the measured part according to the judgment result.

The above-described embodiments are merely illustrative of the embodiments of the present invention, and do not limit the spirit and scope of the present invention. Under the prerequisite that does not deviate from the design concept of the utility model, the ordinary person in the art should fall into the protection scope of the utility model to the various changes and improvements that the technical scheme of the utility model made.

Claims

1. The utility model provides a survey 64 footpaths device, includes material loading groove (1), certified products spout (2), defective products spout (3), base support (4), rack (5), three tong (6), measuring mechanism, its characterized in that: the automatic measuring device is characterized in that a rack (5) is arranged above the base support (4), a feeding groove (1) is arranged at the right end above the rack (5), a measuring mechanism is arranged on the left side of the feeding groove (1), the measuring mechanism is provided with two measuring mechanisms, a first measuring mechanism (10) and a second measuring mechanism (11) are respectively arranged above the rack (5) from right to left, the first measuring mechanism (10) comprises a fixed plate (12), a sliding block (13) and a probe (14), the fixed plate (12) is positively provided with the sliding block (13), the lower end of the sliding block (13) is provided with the probe (14), a fixed seat (7) is arranged under the probe (14), the three clamping hands (6) are fixed at the upper end of the rack (5), the rack (5) is connected with the base support (4) through a translation cylinder (8) and a vertical cylinder (9), and a qualified product chute (2) is arranged at the left rear side of the, the left end of the rack (5) is provided with an unqualified product sliding groove (3), the upper parts of the feeding groove (1) and the qualified product sliding groove (2) are respectively provided with a push plate cylinder (15), and a push plate (16) is arranged in front of the push plate cylinder (15).

2. A device for measuring 64 diameters as defined in claim 1, wherein: the feeding groove (1) inclines to one side of the three clamping hands (6), and the qualified product sliding groove (2) and the unqualified product sliding groove (3) incline to one side far away from the rack (5).

3. A device for measuring 64 diameters as defined in claim 1, wherein: the first measuring mechanism (10) is used for detecting the length of the inner diameter of the clutch housing, and the second measuring mechanism (11) is used for detecting the smoothness of the inner diameter of the clutch housing.

4. A device for measuring 64 diameters as defined in claim 1, wherein: three tong (6) have three tong monomer, three tong monomer horizontal direction equidistance is arranged, and the free left end of tong that is located the leftmost end is equipped with protection piece (17).

5. A device for measuring 64 diameters as defined in claim 1, wherein: the probe (14) is cylindrical, and the diameter of the probe (14) is smaller than the inner diameter of the part to be measured.