KR101504865B1 - Measuring device for the catalyst of the catalytic converter - Google Patents

Abstract

The present invention relates to a catalyst measuring apparatus for a catalytic converter. The catalyst measuring apparatus improves the quality of a catalytic converter by maintaining accurate cohesion after assembling a catalyst with an insulating material and inserting the assembly into a cylindrical case by: accurately measuring the external diameter of the cylindrical catalyst composing the catalyst converter used to purify exhaust gas of a vehicle; and accurately calculating cohesion with the insulating material surrounding the catalyst. According to the present invention, the catalyst measuring apparatus for a catalytic converter comprises: a carriage which moves back and forth by a transfer cylinder; catalyst arrangement equipment which comprises a jig cylinder installed in the carriage and a pair of jigs installed symmetrically, adjusting an interval between the jigs while being moved by the jig cylinder simultaneously, and having facing surfaces which have an arc shape corresponding to the outer circumference of a catalyst; a pair of pressure zones which rotates the catalyst by pressing both end parts of the catalyst on the jig; and a laser measuring device which is positioned on the upper part of the catalyst and measures the outer circumference of the catalyst while being moved along a rail.

Description

[0001] The present invention relates to a catalytic converter for a catalytic converter,

The present invention relates to a catalyst for improving the quality of a catalytic converter by accurately measuring an outer diameter of a cylindrical catalyst constituting a catalytic converter used for purifying an exhaust gas of an automobile, And a catalyst measuring apparatus for a converter.

The catalytic converter is a component of the exhaust system of an automobile. The catalytic converter converts harmful gas such as hydrocarbon (HC) and carbon monoxide (CO) generated by incomplete combustion into carbon dioxide (CO ₂ ), water vapor (H ₂ O) N ₂ ).

Such a catalytic converter is a structure in which a cylindrical case and a catalyst surrounded by a heat insulating material are inserted into the cylindrical case. When the catalyst case and the heat insulating material are inserted into the cylindrical case, a method of pushing the catalyst and the heat insulating material wrapped around the cylindrical case through the opening of one side of the cylindrical case is used.

The outer diameter of the heat insulating material wrapped around the catalyst is inserted into the cylindrical case, and then a certain bonding force is maintained.

Therefore, conventionally, the diameter of the catalyst has been measured, and the weight (which is not easy to measure the density and instead, the weight is measured) is assembled with the measured heat insulating material, inserted into the cylindrical case and then the cylindrical case is shrunk, And inserted into an expanded cylindrical case.

As described above, an accurate coupling force must be maintained after inserting the catalyst and the heat insulating material wrapping the catalyst into the cylindrical case. Therefore, the outer diameter of the catalyst and the weight of the heat insulator must be accurately determined to achieve a uniform quality. If the coupling force is not made to meet the specified value, it will cause a great loss due to excessive exhaust of toxic exhaust gas due to catalyst breakdown and engine breakage.

Thus, in the conventional case, one integrated catalyst was used, but some automobile manufacturers manufacture a catalytic converter by connecting a plurality of short-length catalysts in order to lower the production cost of the catalytic converter. In addition, it is difficult to continuously measure the outer diameter of a plurality of connected catalysts. Therefore, each catalyst was measured using a separate laser measuring device, and then they were separately prepared and wrapped with a heat insulating material.

Thus, in the conventional manufacturing method, each measuring apparatus was required, and a separate apparatus and machinery for arranging order management were required. As a result, a rise in production cost has occurred.

Therefore, it is an object of the present invention to improve the productivity of the catalytic converter as well as the manufacturing cost by making it possible to continuously measure the outer diameter of the catalytic converter at a high precision while simultaneously connecting a plurality of catalysts.

In order to achieve the above object, the present invention provides a catalyst measuring device for a catalytic converter, which comprises a plurality of catalysts connected to each other, lying on the center of the plurality of catalysts and centering the plurality of catalysts,

According to the present invention, by connecting a plurality of catalysts and automatically aligning their centers, it is possible to produce a catalytic converter using a catalyst having a short length, which is low in manufacturing cost and cost, Can be measured. Therefore, the production quality of the catalytic converter is greatly improved.

1 is a front view of the present invention
Fig. 2 is a side view of Fig.
Fig. 3 shows a state in which the catalyst is not aligned by the jig
4 and 5 are diagrams showing a state in which the catalyst is centered by the jig action
6 is a plan view showing a jig operation relationship
7 is an operation explanatory diagram of the laser measuring apparatus
8 is an exploded perspective view of the catalytic converter
9 is a cross-sectional view of the catalytic converter

A catalyst measuring apparatus for a catalytic converter according to the present invention comprises: a reciprocating table (2) reciprocated by a transfer cylinder (1); A jig cylinder 3 provided symmetrically on the reciprocating table 2 and moving simultaneously by the jig cylinder 3 to adjust the gap therebetween and having an arc shape corresponding to the outer circumferential surface of the catalyst 50 A catalyst alignment device 5 composed of a pair of jigs 4; A pair of pressure rollers 6 for pressing both ends of the catalyst 50 placed on the jig 4 to rotate the catalyst 50; And a laser measuring device 7 positioned above the catalyst 50 and measuring the outer circumferential surface of the catalyst 50 while being moved along the rail.

The catalyst aligning apparatus 5 includes a jig cylinder 3, a jig 9a fixed to the jig cylinder 3 and having a rack gear 8 formed on one side thereof, A base 9b on which a rack gear 8 screwed to the pinion 10 is formed and a jig 4 provided on the guides 9a and 9b respectively.

A plurality of alignment pieces 11, which are elastically supported on the inner surface of the jig 4 by a spring and are pressed against the surface of the catalyst 50, are symmetrically installed. It is preferable that the spring has the same elastic force.

And a motor 12 for rotating the pressure pad 6 to rotate the pressed catalyst 50 may be installed. One of the pressure rods 6 is connected to the motor 12 and the other pressure rods 6 are connected to the catalyst 50 ) In a state of being pressed. The other pressure belt 6 may also have a configuration that pushes the catalyst 50 by the pressure cylinder 13 and presses the pressure belt 6 against the pressure belt 6. [

A moving cylinder 14 for moving the catalyst 50 to one pressurizing unit 6 may also be provided. In this case, the structure of moving the entire reciprocating carriage 2 is such that the reciprocating carriage 2 is moved by the moving cylinder 14, and then the pressing cylinder 13 precisely presses the paper.

Hereinafter, the operation of the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, the catalyst 50 is characterized in that a plurality of catalysts 50 are connected and measured in a lying-down state. This is easier to align the center of gravity than in the case of stacking up, so that the outer diameter can be measured more accurately. And furthermore, can be aligned along the center line by the catalyst aligning device 5, thereby improving the accuracy.

As shown in Figs. 1 and 2, a plurality of catalysts 50 are placed between a pair of jigs 4 installed symmetrically. In this state, the catalyst 50 is separated from the inner arc surface of the jig 4 as shown in Fig.

In order to measure the diameters of the outer circumferential surfaces of the plurality of catalysts 50, the centers of the catalysts 50 must be aligned and then rotated. Therefore, the present invention makes it possible to arrange the catalyst aligning apparatus 5 in this way.

6, when the jig cylinder 3 is operated, the guide 9a moves to the right, and a rack gear 8 is formed on the lower side of the guide 9a. Thus, the pinion 10 Respectively. Therefore, the pinion 10 is rotated clockwise, and the lower rack gear 8 meshed with the pinion 10 is moved to the left since it is formed on the guide 9b. Thus, by the operation of the jig cylinder 3, the guide 9a and the guide 9b move in opposite directions and become narrowed and widened.

Since the jig 4 is provided on the guides 9a and 9b, the catalyst 50 is pressed. As shown in FIG. 3, a plurality of alignment pieces 11 are provided on the inner arc surface of the jig 4. The arc surface is formed to have the same curvature as the outer circumferential surface of the catalyst 50, and the catalyst 50 has an error in curvature due to manufacturing problems. Therefore, this error is precisely measured by the laser measuring device 7, and the degree of the shaft of the cylindrical case 70 constituting the catalytic converter 100 is determined.

The jig cylinder 3 shown in Fig. 6 is actuated so that the jig 4 on both sides of the catalyst 50 presses the catalyst 50. As a result, . ≪ / RTI >

In the above state, a plurality of the alignment pieces 11 support the catalyst 50 and are aligned in the same center. This is because a plurality of alignment pieces 11 are arranged in a row, and a plurality of such alignment pieces are installed It is because. That is, FIGS. 3 and 4 are in the same state as the section, in which the six alignment pieces 11 form their respective columns. Therefore, the catalyst 50 is in contact with the tips of at least six alignment pieces 11.

Since the four symmetrical alignment pieces 11 on the upper side are installed in a radial shape, they act on the force of concentrating the circular catalyst 50. The two alignment pieces 11 on both sides of the lower part support the load of the catalyst 50 and assist in performing the role of the upper four alignment pieces 11 properly.

When the alignment is performed as described above, the moving cylinder 14 moves the entire reciprocating table 2 to the left as shown in FIG. On the left side, there is provided one pressure pad 6 rotated by the motor 12. Therefore, the left end of the catalyst 50 is brought into close contact with the pressure belt 6 by the moving cylinder 14. And the other pressing belt 6 on the right side presses and fixes the other end of the catalyst 50 by the operation of the pressing cylinder 13 on the right side.

Then, the catalyst 50 in which the motor 12 is rotated is rotated. Of course, the pressing belt 6 on the right side has a structure that is rotated while pressing the catalyst 50.

When the catalyst 50 is rotated as described above, the laser measuring device 7 is moved at a constant speed to irradiate the surface of the catalyst 50 with a laser to measure its diameter, as shown in FIG.

When the measurement of one catalyst 50 is completed as described above, the catalyst 50, which has been measured by the transfer cylinder 1 as shown in FIG. 1, is further transported and taken out, and is again transported by the transport cylinder 1 After the reciprocating unit 2 is moved to the other side, the new catalyst 50 is loaded and the measurement is repeated again through the above process.

When the measurement of the diameter of the catalyst 50 is completed in the above-described process, the length of the heat insulating material 60 completely covering the diameter of the catalyst 50 can be known. Therefore, it is possible to cut the heat insulating material 60 accurately in a separate apparatus, and the insertion into the cylindrical case 70 from this becomes very easy, and the adhesion in the cylindrical case 70 is increased to prevent breakage during use .

1: Feed cylinder 2:
3: Jig cylinder 4: Jig
5: Catalytic Aligner 6: Compressor
7: Laser measuring device 8: Rack gear
9a, 9b: Guide 10: Pinion
11: Alignment piece 12: Motor
13: Crimp cylinder 14: Transfer cylinder
50: catalyst 60: insulation
70: cylindrical case 100: catalytic converter

Claims (3)

A reciprocating table 2 reciprocated by the transfer cylinder 1; A jig cylinder 3 provided symmetrically on the reciprocating table 2 and moving simultaneously by the jig cylinder 3 to adjust the gap therebetween and having an arc shape corresponding to the outer circumferential surface of the catalyst 50 A catalyst alignment device 5 composed of a pair of jigs 4; A pair of pressure rollers 6 for pressing both ends of the catalyst 50 placed on the jig 4 to rotate the catalyst 50; And a laser measuring device (7) located on the top of the catalyst (50) and measuring the outer circumferential surface of the catalyst (50) while being moved along the rail;
The catalyst aligning apparatus 5 includes a jig cylinder 3, a base 9a fixed to the jig cylinder 3 and having a rack gear 8 formed on one side thereof, And a jig (4) provided on the guides (9a) and (9b), respectively, the rack (8) having a pinion (10) screwed to the pinion
Wherein a plurality of alignment pieces (11), which are resiliently supported by a spring and are pressed against the surface of the catalyst (50), are symmetrically provided on the inner surface of the jig (4).
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