CN112139048A - Backpressure, size and weight detection integrated assembly line - Google Patents

Abstract

The invention discloses a backpressure, size and weight detection integrated assembly line, which comprises a loading and unloading mechanism, a backpressure detection mechanism, a size detection mechanism and a weight detection mechanism, wherein the backpressure detection mechanism comprises a backpressure detection platform, a mounting plate and a detection mechanism, the size detection mechanism comprises a conveyor belt and two size limiting columns, and the weight detection mechanism comprises a weight detection platform, a grading conveying belt and a grading conveyor belt.

Description

Backpressure, size and weight detection integrated assembly line

Technical Field

The invention particularly relates to a backpressure, size and weight detection integrated assembly line

Background

The honeycomb ceramic carrier is a porous industrial ceramic, the inner shape of the honeycomb ceramic carrier is a plurality of through honeycomb-shaped parallel channels, the honeycomb units are divided by grid-shaped thin partition walls, and the honeycomb ceramic carrier is widely applied to industries such as automobile exhaust purifier carriers, ozone inhibition catalyst carriers and the like. However, with the continuous development of the technology, a novel silicon carbide honeycomb ceramic carrier is derived, the silicon carbide honeycomb ceramic carrier has high mechanical strength, does not generate plastic deformation at high temperature, is an ideal high-temperature structural material, and has a smaller expansion coefficient, so the silicon carbide honeycomb ceramic carrier has very good thermal stability, is particularly suitable for occasions with rapid and frequent temperature changes, and has great demand in the current market.

Disclosure of Invention

The invention aims to provide a backpressure, size and weight detection integrated assembly line which comprises a loading and unloading mechanism, a backpressure detection mechanism, a size detection mechanism and a weight detection mechanism, wherein the loading and unloading mechanism comprises a mechanical arm and a loading and unloading frame, a flange plate is arranged at a hand joint of the mechanical arm, and the flange plate is fixedly connected with the loading and unloading frame.

The backpressure detection mechanism include that the backpressure detects platform, mounting panel and detection mechanism, the backpressure detect and be equipped with the air feed subassembly in the platform, the mounting panel place on the backpressure detects the platform, the mounting panel on be equipped with a plurality of hold-down mechanism and fixed establishment, the detection subassembly includes receipts air cavity and perpendicular fly leaf, receipts air cavity divide into by perpendicular fly leaf and receive pressure chamber and pressure measurement chamber two parts, the pressure measurement intracavity be equipped with pressure sensor A.

Size detection mechanism include conveyer belt and two spacing posts of size, the conveyer belt left and right sides be equipped with first rotation axis and second rotation axis respectively, the left and right sides at the conveyer belt of two spacing post symmetries of size install to respectively with first rotation axis and second rotation axis coaxial coupling.

The weight detection mechanism comprises a weight detection platform, a grading conveying belt and grading conveying belts, wherein a pressure sensor B is arranged in the weight detection platform, the weight detection platform is installed on the grading conveying belt, and a plurality of grading conveying belts are arranged on one side, far away from the conveying belts, of the grading conveying belt.

In order to accurately realize the loading and unloading work of the loading and unloading frame, the work of the loading and unloading frame is automatically controlled by adopting a mechanical vision mode, and preferably, a visual identification device and a hydraulic clamping mechanism are arranged on the loading and unloading frame.

Preferably, the air supply assembly comprises an air blower, an equipment mounting seat, an air supply pipe and an air storage cavity, and an annular sealing ring is arranged at the joint of the air supply pipe and the air storage cavity.

In order to ensure that gas does not leak in the backpressure detection process, a plastic sealing ring is preferably arranged on the mounting plate.

Preferably, hold-down mechanism includes extrusion piece, bracing piece and housing screw, the extrusion piece be close to the one end in the mounting panel outside and the bracing piece is coaxial continuous, the one end card that the extrusion piece is close to the plastic sealing washer is equipped with the anti-skidding gluey piece, the middle part cover of extrusion piece be equipped with housing screw, housing screw with place the housing screw cooperation of extruding the piece upper surface and link to each other, housing screw on be equipped with the spring.

Preferably, the fixing mechanism comprises a fixing seat and a threaded rod, a threaded hole is formed in the middle of the fixing seat, and the threaded hole is meshed with the threaded rod.

In order to ensure that qualified honeycomb ceramics can smoothly pass through the two size limiting columns, the first rotating shaft preferably rotates clockwise, and the second rotating shaft preferably rotates anticlockwise.

In order to improve the detection efficiency, a loading and unloading mechanism is respectively installed at the equipment needing loading and unloading the honeycomb ceramics, and preferably, the loading and unloading mechanism is arranged above the back pressure detection mechanism and above the grading material conveying belt.

Preferably, the pressure sensor B is connected to the data processing unit and the staging belt is connected to the control unit.

Has the advantages that: the invention discloses a backpressure, size and weight detection integrated assembly line, which integrates three detection processes of backpressure, size and weight grading of honeycomb ceramics, so that the detection work of the honeycomb ceramics is more planned and reasonable, the production flow of the honeycomb ceramics is changed, the production efficiency is improved, the whole production period is shortened, an automatic loading and unloading mechanism is also used, the automation of the whole detection process is realized, and the production cost is reduced.

Drawings

FIG. 1 is a schematic three-dimensional structure diagram of a backpressure, size and weight detection integrated assembly line;

FIG. 2 is a schematic view of the structure of the loading mechanism of FIG. 1;

FIG. 3 is a schematic structural view of the back pressure detecting mechanism of FIG. 1;

FIG. 4 is a schematic three-dimensional structure of the mounting plate of FIG. 3;

FIG. 5 is a schematic three-dimensional view of the clamping mechanism of FIG. 4;

FIG. 6 is a schematic three-dimensional structure of the securing mechanism of FIG. 4;

FIG. 7 is a schematic three-dimensional view of the size detection mechanism of FIG. 1;

FIG. 8 is a schematic three-dimensional structure of the weight detecting mechanism of FIG. 1;

in the figure: 1. the loading and unloading mechanism 11, the mechanical arm 12, the flange 13, the loading and unloading frame 2, the backpressure detection mechanism 21, the backpressure detection table 211, the blower 212, the equipment installation base 213, the air supply pipe 214, the air storage cavity 215, the annular sealing ring 22, the installation plate 221, the pressing mechanism 2211, the extrusion block 2212, the support rod 2213, the pressing screw 2214, the pressing nut 2215, the anti-skid rubber block 2216, the spring 222, the fixing mechanism 2221, the fixing base 2222, the threaded rod 223, the plastic sealing ring 23, the detection mechanism 231, the pressure receiving cavity 232, the pressure measurement cavity 233, the vertical movable plate 234, the pressure sensor A3, the size detection mechanism 31, the conveyor belt 32, the size limit column 33, the first rotating shaft 34, the second rotating shaft 4, the weight detection mechanism 41, the weight detection platform 42, the grading conveyor belt 43, the grading conveyor belt 5

Detailed description of the preferred embodiments

For the purpose of enhancing the understanding of the present invention, the present invention will be described in further detail with reference to the following examples and the accompanying drawings, which are provided for the purpose of illustration only and are not intended to limit the scope of the present invention.

As shown in fig. 1, the backpressure, size and weight detection integrated assembly line comprises a loading and unloading mechanism 1, a backpressure detection mechanism 2, a size detection mechanism 3 and a weight detection mechanism 4.

As shown in fig. 2, the handling mechanism 1 includes a robot arm 11 and a handling frame 13, a flange 12 is disposed at a hand joint of the robot arm 11, the flange 12 is fixedly connected with the handling frame 13, and a visual recognition device (not shown) is disposed on the handling frame 2 and is an area CCD high-definition camera.

As shown in fig. 3, 4, 5 and 6, the backpressure detection mechanism 2 includes that the backpressure detects platform 21, mounting panel 22 and detection mechanism 23, the backpressure detect and be equipped with the air feed subassembly in the platform 21, the air feed subassembly include air-blower 211, equipment fixing base 212, air supply pipe 213 and gas storage chamber 214, the junction of air supply pipe 213 and gas storage chamber 214 be equipped with ring packing 215, mounting panel 22 place on the backpressure detects platform 21, the mounting panel on be equipped with a plurality of hold-down mechanism 221, fixed establishment 222 and sealing rubber circle 223, hold-down mechanism 221 include extrusion piece 2211, bracing piece 2212 and compression screw 2213, extrusion piece 2211 be close to the one end of the mounting panel outside and bracing piece 2212 coaxial and link to each other, extrusion piece 2211 is close to the one end card of plastic sealing circle 223 and is equipped with anti-slip rubber block 2215, the middle part cover of extrusion piece 2211 be equipped with compression screw 2213, the pressing screw 2213 is matched and connected with a pressing nut 2214 arranged on the upper surface of the extrusion block 2211, a spring 2216 is arranged on the pressing screw 2213, the fixing mechanism 222 comprises a fixing seat 2221 and a threaded rod 2222, a threaded hole is formed in the middle of the fixing seat 2221 and meshed and connected with the threaded rod 2222, the detection assembly 23 comprises a gas receiving cavity and a vertical movable plate 233, the gas receiving cavity is divided into a pressure receiving cavity 231 and a pressure measuring cavity 232 by the vertical movable plate 233, and a pressure sensor A234 is arranged in the pressure measuring cavity 232.

As shown in fig. 7, the size detection mechanism 3 includes a conveyor belt 31 and two size limiting columns 32, a first rotating shaft 33 and a second rotating shaft 34 are respectively disposed on the left and right sides of the conveyor belt 31, the two size limiting columns 32 are symmetrically installed on the left and right sides of the conveyor belt 31 and are respectively coaxially connected with the first rotating shaft 33 and the second rotating shaft 34, the first rotating shaft 33 drives the left size limiting column 32 to rotate clockwise, and the second rotating shaft 34 drives the right size limiting column 32 to rotate counterclockwise.

As shown in fig. 8, the weight detecting mechanism 4 includes a weight detecting platform 41, a grading conveyor belt 42 and a grading conveyor belt 43, a pressure sensor B (not shown) is disposed in the weight detecting platform 1, the pressure sensor B is connected with a data processing unit (not shown), the weight detecting platform 41 is mounted on the grading conveyor belt 42, the grading conveyor belt 42 is connected with a control unit (not shown), the loading and unloading mechanism 1 is disposed above the grading conveyor belt 42, and a plurality of grading conveyor belts 43 are disposed on one side of the grading conveyor belt 42 away from the conveyor belt 31.

The working condition is as follows: the handling mechanism 1 takes down the honeycomb ceramics 5 to be detected from a material preparation table (not shown in the figure), sleeves the honeycomb ceramics 5 in the upper plastic seal ring 223, tightly screws the compression nut 2214 in the compression mechanism 221, and the extrusion block 2211 clockwise moves around the upper end of the support rod 2212 until one end of the extrusion block 2211 close to the plastic seal ring 223 presses on the plastic seal ring 223, so that the plastic seal ring 223 is fixed, at the moment, the threaded rod 2222 in the fixing mechanism 222 is rotated until the threaded rod 2222 contacts the honeycomb ceramics 5, so that the honeycomb ceramics 5 is fixed.

As shown in fig. 3, after fixing the plastic sealing ring 223 and the honeycomb ceramics 5, the pressure receiving cavity in the detecting mechanism 23 is sleeved above the honeycomb ceramics 5, after the sealing operation is completed, the blower 211 on the equipment mounting seat 212 is opened, the air flows through the air supply pipe 213, the air storage cavity 214 and the honeycomb ceramics 5 from the blower 211, and reaches the pressure receiving cavity 231, because the air pressure in the pressure receiving cavity 231 is increased, the vertical movable plate 233 moves leftwards, the pressure in the pressure measuring cavity 232 is increased, the pressure sensor a234 in the pressure measuring cavity 232 reads the pressure data, and the pressure sensor a234 in the pressure measuring cavity 232 compares the pressure data with the standard pressure data, thereby completing the qualified detecting process of the honeycomb ceramics: for qualified honeycomb ceramics, the volume of gas passing through the honeycomb ceramics in unit time is larger than that of unqualified honeycomb ceramics, and the value read by the pressure sensor is larger in the process of detecting the qualified honeycomb ceramics, so that the purpose of detecting the qualification rate of the honeycomb ceramics can be achieved by setting a proper pressure standard.

As shown in fig. 1 and 7, after the back pressure detection process of the honeycomb ceramic 5 is completed, the handling mechanism 1 sends the honeycomb ceramic 5 to the conveyor belt 31 of the size detection mechanism 3, at this time, the conveyor belt 31 drives the honeycomb ceramic 5 to pass through the size limiting columns 32 on both sides of the conveyor belt, when the diameter of the honeycomb ceramic is not greater than the distance between the two size limiting columns 32, the honeycomb ceramic 5 smoothly passes through, the size detection result is qualified, when the diameter of the honeycomb ceramic 5 is greater than the distance between the two size limiting columns 32, the honeycomb ceramic 5 cannot smoothly pass through, at this time, the size detection result is unqualified, and the unqualified honeycomb ceramic is taken away from the conveyor belt 31 by the handling mechanism 1. This size detection mechanism 3 overlaps the spacing post 32 of two bilateral symmetry's size respectively on rotatory first rotation axis 33 and second rotation axis 34, and first rotation axis 33 drives the spacing post 32 clockwise of the left size of conveyer belt 31, second rotation axis 34 drives the spacing post 32 anticlockwise of the size on conveyer belt 32 right side, not only solved because honeycomb ceramic 5's direction of transfer and the spacing post 32 of size take place to interfere and lead to the problem that honeycomb ceramic 5 can not normally pass through, still through the rotation of first rotation axis 33 and second rotation axis 34 accelerated qualified product's speed of passing through, and the detection efficiency is improved, and the detection period is shortened.

As shown in fig. 1 and 8, the honeycomb ceramics 5 after passing the size test are transferred to the weight detecting platform 41 by the conveyer belt 31, the gravity data of the honeycomb ceramics 5 is read by the pressure sensor B (not shown in the figure) in the weight detecting platform 41, and transmitted to a data processing unit (not shown in the figure), after the gravity data signal is processed by the data processing unit, the feedback signal is transmitted to a control unit (not shown in the figure), the control unit controls the grading conveyor belt 42 to move until the weight detection platform 41 moves to one side of the grading conveyor belt 43 with the corresponding weight, the loading and unloading mechanism 1 loads and unloads the honeycomb ceramics 5 onto the grading conveyor belt 43, the weight grading detection work of the honeycomb ceramics is completed, when the honeycomb ceramics 5 are taken away by the loading and unloading mechanism 1, the data of the pressure sensor is changed back to the initial data, and at the moment, the gravity detection platform starts to reset.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. A backpressure, size and weight detection integrated assembly line is characterized by comprising a loading and unloading mechanism, a backpressure detection mechanism, a size detection mechanism and a weight detection mechanism, wherein the loading and unloading mechanism comprises a mechanical arm and a loading and unloading frame, a flange plate is arranged at a hand joint of the mechanical arm, and the flange plate is fixedly connected with the loading and unloading frame;

the back pressure detection mechanism comprises a back pressure detection table, a mounting plate and a detection mechanism, wherein an air supply assembly is arranged in the back pressure detection table, the mounting plate is placed on the back pressure detection table, a plurality of pressing mechanisms and fixing mechanisms are arranged on the mounting plate, the detection assembly comprises an air receiving cavity and a vertical movable plate, the air receiving cavity is divided into a pressure receiving cavity and a pressure measuring cavity by the vertical movable plate, and a pressure sensor A is arranged in the pressure measuring cavity;

the size detection mechanism comprises a conveyor belt and two size limiting columns, a first rotating shaft and a second rotating shaft are respectively arranged on the left side and the right side of the conveyor belt, and the two size limiting columns are symmetrically arranged on the left side and the right side of the conveyor belt and are respectively coaxially connected with the first rotating shaft and the second rotating shaft;

the weight detection mechanism comprises a weight detection platform, a grading conveying belt and grading conveying belts, wherein a pressure sensor B is arranged in the weight detection platform, the weight detection platform is installed on the grading conveying belt, and a plurality of grading conveying belts are arranged on one side, far away from the conveying belts, of the grading conveying belt.

2. The integrated assembly line for detecting back pressure, size and weight as claimed in claim 1, wherein a visual recognition device and a hydraulic clamping mechanism are arranged on the loading and unloading frame.

3. The integrated assembly line for backpressure, size and weight detection as claimed in claim 1, wherein the air supply assembly comprises an air blower, an equipment mounting seat, an air supply pipe and an air storage cavity, and an annular sealing ring is arranged at the joint of the air supply pipe and the air storage cavity.

4. The integrated assembly line for backpressure, size and weight detection of claim 1, wherein the mounting plate is provided with a plastic sealing ring.

5. The integrated assembly line for backpressure, size and weight detection as claimed in claim 1, wherein the pressing mechanism comprises an extrusion block, a support rod and a pressing screw rod, one end of the extrusion block, which is close to the outer side of the mounting plate, is coaxially connected with the support rod, one end of the extrusion block, which is close to the plastic sealing ring, is provided with an anti-slip rubber block in a clamped manner, the middle of the extrusion block is sleeved with the pressing screw rod, the pressing screw rod is connected with a pressing nut placed on the upper surface of the extrusion block in a matched manner, and the pressing screw rod is provided with a spring.

6. The backpressure, size and weight detection integrated assembly line of claim 1, wherein the fixing mechanism comprises a fixing seat and a threaded rod, a threaded hole is formed in the middle of the fixing seat, and the threaded hole is meshed with the threaded rod.

7. The integrated backpressure, size and weight sensing assembly line of claim 1, wherein the first rotating shaft rotates clockwise and the second rotating shaft rotates counterclockwise.

8. The integrated assembly line for backpressure, size and weight detection as claimed in claim 1, wherein a loading and unloading mechanism is arranged above the backpressure detection mechanism and above the grading material conveying belt.

9. The integrated backpressure, size and weight detection production line as claimed in claim 1, wherein the pressure sensor B is connected with the data processing unit, and the grading conveyor belt is connected with the control unit.

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