CN214918323U - Detection equipment for shaft gear part of powder metallurgy electric tool - Google Patents
Detection equipment for shaft gear part of powder metallurgy electric tool Download PDFInfo
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- CN214918323U CN214918323U CN202120222038.9U CN202120222038U CN214918323U CN 214918323 U CN214918323 U CN 214918323U CN 202120222038 U CN202120222038 U CN 202120222038U CN 214918323 U CN214918323 U CN 214918323U
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- upper layer
- conveying belt
- lower floor
- conveyer belt
- layer conveying
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Abstract
The utility model relates to a check out test set of powder metallurgy electric tool shaft gear part, it includes upper conveyer belt and lower floor's conveyer belt, the top of upper conveyer belt is provided with an upper detection probe, and the top that lower floor's conveyer belt is close to front end department is provided with the upset manipulator, the top of lower floor's conveyer belt is provided with a lower floor's detection probe, and the end of lower floor's conveyer belt all detects qualified pressed compact with the positive and negative and sends to the collection basket in. The utility model discloses powder metallurgy electric tool shaft gear part's check out test set can carry out the image detection contrast to gear, gear shaft etc. collects the certified products, and the defective work is retrieved and is reprocessed, has improved product quality to the testing process is accomplished by equipment is automatic, has greatly saved the manual work, and testing process convenient and fast has improved production efficiency.
Description
Technical Field
The utility model relates to a check out test set of powder metallurgy electric tool axle gear part.
Background
Powder metallurgy is a process technology for preparing metal powder or using metal powder (or a mixture of metal powder and nonmetal powder) as a raw material to manufacture metal materials, composite materials and various products through forming and sintering, and belongs to a powder sintering technology. Powder metallurgy has unique chemical compositions and mechanical and physical properties that are not attainable using conventional melt casting methods.
The electric tool shaft gear part that original powder metallurgy made needs to detect through the manual work, however the mode that the manual work detected is not only efficient to receive the influence of workman quantity degree, also can not guarantee the accuracy that detects, therefore detection efficiency is not high, has also influenced holistic production efficiency.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to overcome the aforesaid not enough, provide an improve product detection efficiency, guarantee the check out test set of powder metallurgy electric tool axle gear part of the accuracy that detects.
The purpose of the utility model is realized like this:
the detection device for the shaft gear part of the powder metallurgy electric tool comprises an upper layer conveying belt and a lower layer conveying belt, wherein a pressed compact to be detected is placed at the front end of the upper layer conveying belt, the lower layer conveying belt is positioned at the rear side of the upper layer conveying belt and is lower than the upper layer conveying belt, a material baffle plate is arranged at the front side of the top of the upper layer conveying belt, an upper layer limiting plate is arranged at the rear side of the material baffle plate, the upper layer limiting plate is a left limiting baffle plate and a right limiting baffle plate, an upper layer detection probe is arranged above the rear side of the upper layer limiting plate on the upper layer conveying belt, the upper layer detection probe is vertically arranged downwards, an upper layer material pushing cylinder is arranged at the rear side of the upper layer detection probe at the top of the upper layer conveying belt, the upper layer material pushing cylinder is perpendicular to the upper layer conveying belt, an upper layer product channel is arranged at the push rod end of the upper layer material pushing cylinder on the side of the upper layer conveying belt, and the front end of the lower layer conveying belt extends below the rear end of the upper layer conveying belt, the upper side that lower floor's conveyer belt is close to front end department is provided with the upset manipulator, the rear side of upset manipulator is provided with lower floor's limiting plate, the conveyer belt of lower floor is provided with a lower floor's test probe in the top that is located lower floor's limiting plate rear side, and upper and lower floor's test probe is vertical to be set up downwards, lower floor's conveyer belt top is provided with lower floor at the rear side of lower floor's test probe and pushes away the material cylinder, and lower floor pushes away the material cylinder and set up with lower floor's conveyer belt is perpendicular, and the side of lower floor's conveyer belt is provided with lower floor's substandard product passageway at the push rod end department that lower floor pushed away the material cylinder, and the terminal of lower floor's conveyer belt is sent the qualified compact of positive and negative all detecting to the collection basket.
The lower layer conveying belt and the upper layer conveying belt of the detection equipment are both driven by a motor and a gear.
A material baffle plate, an upper layer detection probe, a lower layer detection probe, an upper layer material pushing cylinder, a lower layer material pushing cylinder and a turning manipulator of the detection device are all fixed with a rack below a conveying belt.
The utility model discloses powder metallurgy electric tool shaft gear part's check out test set has following advantage:
the utility model discloses powder metallurgy electric tool shaft gear part's check out test set can carry out the image detection contrast to gear, gear shaft etc. collects the certified products, and the defective work is retrieved and is reprocessed, has improved product quality to the testing process is accomplished by equipment is automatic, has greatly saved the manual work, and testing process convenient and fast has improved production efficiency.
Drawings
FIG. 1 is a schematic structural diagram of the detection equipment for the shaft gear part of the powder metallurgy electric tool of the present invention.
In the figure: the device comprises an upper-layer conveying belt 1, a lower-layer conveying belt 2, a material baffle plate 3, an upper-layer limiting plate 4, an upper-layer detection probe 5, a lower-layer detection probe 6, an upper-layer material pushing cylinder 7, an upper-layer product channel 8, a lower-layer material pushing cylinder 9, a lower-layer defective product channel 10, a turnover manipulator 11 and a lower-layer limiting plate 12.
Detailed Description
Referring to fig. 1, the utility model relates to a detection device for powder metallurgy electric tool shaft gear parts, comprising an upper layer conveyer belt 1 and a lower layer conveyer belt 2, wherein a pressed compact to be detected is placed at the front end of the upper layer conveyer belt 1, the lower layer conveyer belt 2 is positioned at the rear side of the upper layer conveyer belt 1 and is lower than the upper layer conveyer belt 1, the lower layer conveyer belt 2 and the upper layer conveyer belt 1 are both driven by a motor and a gear, a baffle plate 3 is arranged at the front side of the top of the upper layer conveyer belt 1, the height between the baffle plate 3 and the top of the upper layer conveyer belt 1 is only slightly higher than the height of a pressed compact, so that the pressed compact is prevented from being stacked and passing through, an upper layer limiting plate 4 is arranged at the rear side of the baffle plate 3, the upper layer limiting plate 4 is provided with a left limiting baffle plate and a right limiting baffle plate for righting the pressed compact, so as to facilitate subsequent detection, an upper layer detecting probe 5 is arranged above the rear side of the upper layer limiting plate 4, the upper layer detection probe 5 is vertically arranged downwards and used for shooting an image of a pressed compact and then comparing the image with a standard qualified product in a system for detection, the top of the upper layer conveying belt 1 is provided with an upper layer pushing cylinder 7 at the rear side of the upper layer detection probe 5, the upper layer pushing cylinder 7 is perpendicular to the upper layer conveying belt 1, the side face of the upper layer conveying belt 1 is provided with an upper layer product channel 8 at the push rod end of the upper layer pushing cylinder 7, and the push rod end of the upper layer pushing cylinder 7 is used for pushing an unqualified pressed compact detected by the upper layer detection probe 5 away from the upper layer product channel 8 at the side face. The front end of the lower layer conveying belt 2 extends below the rear end of the upper layer conveying belt 1, an overturning mechanical arm 11 is arranged above the lower layer conveying belt 2 close to the front end, the overturning mechanical arm 11 is used for grabbing a pressed blank and then overturning the pressed blank, a lower layer limiting plate 12 is arranged on the rear side of the overturning mechanical arm 11, the lower layer limiting plate 12 is used for righting the pressed blank, a lower layer detection probe 6 is arranged above the rear side of the lower layer limiting plate 12 on the lower layer conveying belt 2, the upper layer detection probe 6 and the lower layer detection probe 6 are vertically arranged downwards and are used for shooting an image of the turned pressed blank and carrying out comparison detection with standard qualified products in a system, a lower layer pushing cylinder 9 is arranged on the rear side of the lower layer detection probe 6 at the top of the lower layer conveying belt 2, the lower layer pushing cylinder 9 is perpendicular to the lower layer conveying belt 2, and a lower layer defective product channel 10 is arranged at the push rod end of the lower layer pushing cylinder 9 on the side of the lower layer conveying belt 2, and the push rod end of the lower-layer material pushing cylinder 9 is used for pushing the unqualified pressed blank detected by the lower-layer detection probe 6 away from the lower-layer defective product channel 10 on the side surface. The upper-layer product channel 8 and the lower-layer defective product channel 10 collect defective products and then reprocess the defective products, and the tail end of the lower-layer conveyer belt 2 sends the pressed blanks with qualified front and back surfaces to a collection basket.
The striker plate 3, the upper layer detection probe 5, the lower layer detection probe 6, the upper layer material pushing cylinder 7, the lower layer material pushing cylinder 9 and the overturning manipulator 11 are all fixed with a rack below the conveying belt. The upper layer detection probe 5, the lower layer detection probe 6, the upper layer material pushing cylinder 7 and the lower layer material pushing cylinder 9 are all connected with the PLC.
Claims (3)
1. Powder metallurgy electric tool axle gear part's check out test set, its characterized in that: the device comprises an upper layer conveying belt and a lower layer conveying belt, wherein a pressed blank to be detected is placed at the front end of the upper layer conveying belt, the lower layer conveying belt is positioned at the rear side of the upper layer conveying belt and is lower than the upper layer conveying belt, a material baffle plate is arranged at the front side of the top of the upper layer conveying belt, an upper layer limiting plate is arranged at the rear side of the material baffle plate, the upper layer limiting plate is a left limiting baffle plate and a right limiting baffle plate, an upper layer detection probe is arranged above the rear side of the upper layer limiting plate of the upper layer conveying belt, the upper layer detection probe is vertically arranged downwards, an upper layer material pushing cylinder is arranged at the rear side of the upper layer detection probe at the top of the upper layer conveying belt, the upper layer material pushing cylinder is perpendicular to the upper layer conveying belt, an upper layer product channel is arranged at the push rod end of the upper layer material pushing cylinder at the side of the upper layer conveying belt, the front end of the lower layer conveying belt extends below the rear end of the upper layer conveying belt, and a turnover manipulator is arranged above the lower layer conveying belt close to the front end, the rear side of upset manipulator is provided with lower floor's limiting plate, lower floor's conveyer belt is provided with a lower floor's test probe in the top that is located lower floor's limiting plate rear side, and upper and lower floor's test probe is vertical to be set up downwards, lower floor's conveyer belt top is provided with lower floor at lower floor's test probe's rear side and pushes away the material cylinder, and lower floor pushes away the material cylinder and sets up with lower floor's conveyer belt is perpendicular, and the side of lower floor's conveyer belt is provided with lower floor's substandard product passageway at lower floor's push rod end department that pushes away the material cylinder, and the end of lower floor's conveyer belt is sent the qualified pressed compact of positive and negative all detection to the collection basket.
2. The apparatus for inspecting shaft gear parts of powder metallurgy power tools according to claim 1, wherein: the lower layer conveying belt and the upper layer conveying belt of the detection equipment are both driven by a motor and a gear.
3. The apparatus for inspecting shaft gear parts of powder metallurgy power tools according to claim 1, wherein: a material baffle plate, an upper layer detection probe, a lower layer detection probe, an upper layer material pushing cylinder, a lower layer material pushing cylinder and a turning manipulator of the detection device are all fixed with a rack below a conveying belt.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120222038.9U CN214918323U (en) | 2021-01-27 | 2021-01-27 | Detection equipment for shaft gear part of powder metallurgy electric tool |
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CN202120222038.9U CN214918323U (en) | 2021-01-27 | 2021-01-27 | Detection equipment for shaft gear part of powder metallurgy electric tool |
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CN214918323U true CN214918323U (en) | 2021-11-30 |
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CN202120222038.9U Active CN214918323U (en) | 2021-01-27 | 2021-01-27 | Detection equipment for shaft gear part of powder metallurgy electric tool |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113942682A (en) * | 2021-12-20 | 2022-01-18 | 常州市沃凯轴承制造有限公司 | Bearing conveying device |
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2021
- 2021-01-27 CN CN202120222038.9U patent/CN214918323U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113942682A (en) * | 2021-12-20 | 2022-01-18 | 常州市沃凯轴承制造有限公司 | Bearing conveying device |
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