CN215575717U - Workpiece on-site detection device for cleaning environment - Google Patents

Workpiece on-site detection device for cleaning environment Download PDF

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Publication number
CN215575717U
CN215575717U CN202121340071.8U CN202121340071U CN215575717U CN 215575717 U CN215575717 U CN 215575717U CN 202121340071 U CN202121340071 U CN 202121340071U CN 215575717 U CN215575717 U CN 215575717U
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China
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special
starting shaft
electromechanical converter
shaped
workpiece
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CN202121340071.8U
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Chinese (zh)
Inventor
王朋达
陈双双
任海宇
芦晓增
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Dalian Modern Auxiliary Machinery Development Andmanufacturing Co ltd
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Dalian Modern Auxiliary Machinery Development Andmanufacturing Co ltd
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Abstract

A workpiece on-site detection device for cleaning environment relates to industrial cleaning equipment. Comprises a command device and an electromechanical converter device which are connected by a special-shaped connecting device; the starting device comprises a starting shaft and a spring, the upper part of the starting shaft is connected with the water discharge cover, the lower part of the starting shaft is connected with a starting shaft mounting block, the lower end of the starting shaft mounting block is connected with an end cover, the spring is placed in a central groove of the end cover, and the spring is connected with the starting shaft; the special-shaped connecting device comprises a special-shaped plate, a special-shaped screw and a special-shaped screw sleeve, the special-shaped screw is positioned in the special-shaped screw sleeve, the tail end of the special-shaped screw is connected with the starting shaft, and the front part of the special-shaped screw is connected with the special-shaped plate; the electromechanical converter device comprises a left electromechanical converter and a right electromechanical converter which are positioned in the electromechanical converter mounting box. The utility model solves the problem that the detection device is influenced by the particularity of the detection environment, has accurate detection result, reduces the frequent replacement of the detection switch, improves the production efficiency and reduces the cost.

Description

Workpiece on-site detection device for cleaning environment
Technical Field
The utility model relates to industrial cleaning equipment, in particular to a workpiece on-site detection device for a cleaning environment of an automobile engine processing production line.
Background
In a mature automatic production line for engine processing, a workpiece in-place detection device has long become an indispensable component. The workpiece in-place detection of the cleaning environment is characterized in that the workpiece in-place detection is frequently accompanied by moist working environments with different pH values, the detection forms are also various, the proximity switch is a common in-place detection form, although the detection form is simple in structure, the service life of the switch is greatly influenced, parts are frequently maintained and replaced, and due to the moist working environments, misdetection and detection failure exist frequently, and the detection stability is poor.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the problems and provides a novel workpiece on-site detection device for a cleaning environment.
The technical scheme adopted by the utility model for realizing the purpose is as follows: a workpiece on-site detection device for cleaning environment is characterized by comprising a command issuing device and an electromechanical converter device which are connected by a special-shaped connecting device; the starting device comprises a starting shaft and a spring, the upper part of the starting shaft is connected with the water discharge cover, the lower part of the starting shaft is connected with a starting shaft mounting block, the lower end of the starting shaft mounting block is connected with an end cover, the spring is placed in a central groove of the end cover, and the spring is connected with the starting shaft; the special-shaped connecting device comprises a special-shaped plate, a special-shaped screw and a special-shaped screw sleeve, the special-shaped screw is positioned in the special-shaped screw sleeve, the tail end of the special-shaped screw is connected with the starting shaft, and the front part of the special-shaped screw is connected with the special-shaped plate; the electromechanical converter device comprises a left electromechanical converter and a right electromechanical converter which are positioned in an electromechanical converter mounting box, the electromechanical converter mounting box is respectively connected with a special-shaped screw sleeve and a starting shaft mounting block, the left electromechanical converter and the right electromechanical converter are respectively connected to the left side and the right side of the electromechanical converter mounting box, a sensing device of one converter is connected with a special-shaped plate during no-load, and a sensing device of the other converter is connected with the special-shaped plate during load.
The starting shaft is connected with the water discharge cover through a hose clamp.
The starting shaft is connected with the starting shaft mounting block in sequence from top to bottom through a sealing ring, a small O-shaped sealing ring, an upper oil-free bushing, a spacer bush, a lower oil-free bushing and a small spacer bush, the sealing ring and the small O-shaped sealing ring are sequentially mounted in a groove of the starting shaft mounting block, and the upper oil-free bushing, the spacer bush, the lower oil-free bushing and the small spacer bush are sequentially connected with the starting shaft mounting block through clearance fit.
The end cover and the starting shaft mounting block are connected in a combined mode through screws, and an O-shaped sealing ring is placed in a groove of the end cover.
The number of the special-shaped screws is two, and the special-shaped screws are arranged in an up-down structure.
The electromechanical converter mounting box is connected with the starting shaft mounting block through a sealing strip placed in a groove on the side surface of the starting shaft mounting block.
The left side electromechanical converter and the right side electromechanical converter are respectively connected with a left side electromechanical converter mounting plate and a right side electromechanical converter mounting plate, and the two mounting plates are respectively combined on the left side and the right side of the electromechanical converter mounting box through screws.
The end part of the electromechanical converter mounting box is connected with the cover plate through a screw, and a large sealing strip is placed in a groove at the front end of the electromechanical converter mounting box.
When a workpiece is in place, the shaft lever moves downwards, the spring is compressed, the shaft lever moves downwards and simultaneously drives the shifting lever connected with the side surface of the shaft lever to move together, the shifting lever drives the special-shaped plate at one end of the shaft lever to move horizontally to finish movement conversion, the electromechanical converter at one end is compressed at the moment, mechanical signals are converted into electric signals, the workpiece is in place and displayed, the workpiece leaves the spring to reset, the shaft lever returns to the original position, the profiling plate compresses the electromechanical converter at the other end at the moment, and no-load is displayed at the moment. The utility model solves the problem that the detection device is influenced by the particularity of the detection environment, has accurate detection result, reduces the frequent replacement of the detection switch, improves the production efficiency and reduces the cost.
Drawings
Fig. 1 is a schematic view of the unloaded configuration of the present invention.
Fig. 2 is a sectional view taken along line a-a of fig. 1.
Fig. 3 is a schematic view of the load structure of the present invention.
Fig. 4 is a sectional view taken along line a-a of fig. 3.
Detailed Description
The present invention will be further described with reference to the following drawings and specific embodiments, but the present invention is not limited to the specific embodiments.
Examples
A workpiece in-situ inspection apparatus for use in a cleaning environment is shown in fig. 1-4.
Comprises a command device and an electromechanical converter device which are connected by a special-shaped connecting device; the starting device comprises a starting shaft 1 and a spring 10, wherein the upper part of the starting shaft 1 is connected with the water discharging cover 3, the lower part of the starting shaft 1 is connected with a starting shaft mounting block 7, the lower end of the starting shaft mounting block 7 is connected with an end cover 13, the spring 10 is placed in a central groove of the end cover 13, and the spring 10 is connected with the starting shaft 1; the special-shaped connecting device comprises a special-shaped plate 19, a special-shaped screw 20 and a special-shaped screw sleeve 16, wherein the special-shaped screw 20 is positioned in the special-shaped screw sleeve 16, the tail end of the special-shaped screw 20 is connected with the starting shaft 1, and the front part of the special-shaped screw is connected with the special-shaped plate 19; the electromechanical converter device comprises a left electromechanical converter 24 and a right electromechanical converter 23 which are positioned in an electromechanical converter mounting box 22, the electromechanical converter mounting box 22 is respectively connected with the special-shaped screw sleeve 16 and the starting shaft mounting block 7, the left electromechanical converter 24 and the right electromechanical converter 23 are respectively connected with the left side and the right side of the electromechanical converter mounting box 22, an inductive device of one of the converters is connected with the special-shaped plate 19 in a no-load state, and an inductive device of the other converter is connected with the special-shaped plate 19 in a load state.
The starting shaft 1 is connected with the water discharge cover 3 through a throat hoop 2.
It connects gradually sealing washer 4, little O type sealing washer 5, upper portion oilless bush 6, spacer 8, lower part oilless bush 9, little spacer 11 to serve between axle 1 and the axle installation piece of serving 7 from top to bottom to serve, sealing washer 4, little O type sealing washer 5 are installed in proper order at the axle installation piece of serving 7 ditch inslot, upper portion oilless bush 6, spacer 8, lower part oilless bush 9, little spacer 11 are connected through clearance fit with axle installation piece 7 of serving in proper order.
The end cover 13 is connected with the starting shaft mounting block 7 through a screw handle, and an O-shaped sealing ring 12 is placed in a groove of the end cover 13.
The number of the special-shaped screws 20 is two, and the special-shaped screws are arranged in an up-down structure.
The electromechanical converter mounting box 22 is connected with the starting shaft mounting block 7 through a sealing strip 14 placed in a groove on the side surface of the starting shaft mounting block 7.
The left electromechanical converter 24 and the right electromechanical converter 23 are respectively connected with a left electromechanical converter mounting plate 25 and a right electromechanical converter mounting plate 15, and the two mounting plates are respectively combined on the left side and the right side of the electromechanical converter mounting box 22 through screws.
The end part of the electromechanical converter mounting box 22 is connected with the cover plate 21 through a screw 18, and a large sealing strip 17 is placed in a groove at the front end of the electromechanical converter mounting box 22.
The specific movement steps are as follows:
the method comprises the following steps: the robot carries the workpiece load 26 downwards, pushing the starting shaft 1 with it. The starting shaft 1 drives the shaped plate 19 to move downwards, the shaped plate 19 pushes the sensing device of the left electromechanical converter 24, the right electromechanical converter 23 (shown in figure 3) is released to transmit an electric signal, the spring is compressed (shown in figure 4), and the workpiece load is displayed in place.
Step two: the robot carries the workpiece load 26 upward, at which point the spring is released pushing the starting shaft 1 with it. The starting shaft 1 drives the shaped plate 19 to move upwards, the shaped plate 19 pushes the sensing device of the right electromechanical converter 23, the left electromechanical converter 24 (shown in figure 1) is released to transmit an electric signal, the spring is stretched (shown in figure 2), and the idle state is displayed.

Claims (8)

1. A workpiece on-site detection device for cleaning environment is characterized by comprising a command issuing device and an electromechanical converter device which are connected by a special-shaped connecting device; the starting device comprises a starting shaft and a spring, the upper part of the starting shaft is connected with the water discharge cover, the lower part of the starting shaft is connected with a starting shaft mounting block, the lower end of the starting shaft mounting block is connected with an end cover, the spring is placed in a central groove of the end cover, and the spring is connected with the starting shaft; the special-shaped connecting device comprises a special-shaped plate, a special-shaped screw and a special-shaped screw sleeve, the special-shaped screw is positioned in the special-shaped screw sleeve, the tail end of the special-shaped screw is connected with the starting shaft, and the front part of the special-shaped screw is connected with the special-shaped plate; the electromechanical converter device comprises a left electromechanical converter and a right electromechanical converter which are positioned in an electromechanical converter mounting box, the electromechanical converter mounting box is respectively connected with a special-shaped screw sleeve and a starting shaft mounting block, the left electromechanical converter and the right electromechanical converter are respectively connected to the left side and the right side of the electromechanical converter mounting box, a sensing device of one converter is connected with a special-shaped plate during no-load, and a sensing device of the other converter is connected with the special-shaped plate during load.
2. The workpiece in-place detection device for the environment cleaning as recited in claim 1, wherein the starting shaft and the water discharge cover are connected through a hose clamp.
3. The workpiece on-site detection device for the cleaning environment as claimed in claim 1, wherein a sealing ring, a small O-shaped sealing ring, an upper oilless bushing, a spacer bush, a lower oilless bushing and a small spacer bush are sequentially connected between the starting shaft and the starting shaft mounting block from top to bottom, the sealing ring and the small O-shaped sealing ring are sequentially mounted in a groove of the starting shaft mounting block, and the upper oilless bushing, the spacer bush, the lower oilless bushing and the small spacer bush are sequentially connected with the starting shaft mounting block through clearance fit.
4. The workpiece in-place detection device for the environment cleaning as claimed in claim 1, wherein the end cover is connected with the starting shaft mounting block through a screw handle, and an O-shaped sealing ring is placed in a groove of the end cover.
5. The workpiece in-place detection device for the environment cleaning as recited in claim 1, wherein the number of the special-shaped screws is two, and the special-shaped screws are arranged in an up-down structure.
6. The workpiece in-place detection device for the environment cleaning as claimed in claim 1, wherein the electromechanical converter mounting box is connected with the starting shaft mounting block through a sealing strip placed in a groove on the side surface of the starting shaft mounting block.
7. The workpiece in-place detection device for the environment cleaning according to claim 1, wherein the left electromechanical converter and the right electromechanical converter are respectively connected with a left electromechanical converter mounting plate and a right electromechanical converter mounting plate, and the two mounting plates are respectively combined on the left side and the right side of the electromechanical converter mounting box through screws.
8. The workpiece in-place detection device for the environment cleaning is characterized in that the end part of the electromechanical converter mounting box is connected with the cover plate through a screw, and a large sealing strip is placed in a groove at the front end of the electromechanical converter mounting box.
CN202121340071.8U 2021-06-17 2021-06-17 Workpiece on-site detection device for cleaning environment Active CN215575717U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121340071.8U CN215575717U (en) 2021-06-17 2021-06-17 Workpiece on-site detection device for cleaning environment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121340071.8U CN215575717U (en) 2021-06-17 2021-06-17 Workpiece on-site detection device for cleaning environment

Publications (1)

Publication Number Publication Date
CN215575717U true CN215575717U (en) 2022-01-18

Family

ID=79817694

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202121340071.8U Active CN215575717U (en) 2021-06-17 2021-06-17 Workpiece on-site detection device for cleaning environment

Country Status (1)

Country Link
CN (1) CN215575717U (en)

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Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant
PE01 Entry into force of the registration of the contract for pledge of patent right
PE01 Entry into force of the registration of the contract for pledge of patent right

Denomination of utility model: A Workpiece In-Place Detection Device for Cleaning Environment

Effective date of registration: 20230602

Granted publication date: 20220118

Pledgee: Dalian Branch of Shanghai Pudong Development Bank Co.,Ltd.

Pledgor: DALIAN MODERN AUXILIARY MACHINERY DEVELOPMENT ANDMANUFACTURING Co.,Ltd.

Registration number: Y2023980042834