FR2714467A1 - Vehicle silencer exhaust gas sampling probe - Google Patents

Abstract

The probe has a rigid tube (30) as well as a positioning clip (50) for holding the tube in a silencer (11). A flexible part (40) has a region (42) which extends past a front end of the rigid tube and which terminates in a gas sampling ferrule (60). The flexible part slides in the tube and extends past a rear end (31) of the tube. A front end ring (46) is fixed on the flexible part behind the tube end (35) and a rear end ring (45) is fixed on the flexible part in front of the tube rear end. The sliding movement of the flexible part is designed to take place between a position defining an initial set length (L1) in the region (42) of the flexible part and another position defining another set length (L2) of the region in the flexible element (40).

Description

EXHAUST GAS SAMPLING PROBE,
OF A MOTOR VEHICLE.

 The present invention relates to an exhaust gas sampling probe in an exhaust pipe of a motor vehicle, said probe comprising a rigid element having a rigid tube and a handle as well as a positioning clip of the rigid element in the exhaust pipe, and having a hose comprising a region protruding from a front end of the rigid tube and ending in a gas sampling nozzle.

A sampling probe of the aforementioned type is marketed by the applicant company, SOURIAU
ELECTRONIC DIAGNOSIS. This prior art probe has a hose which is welded to the front part of the rigid tube. It has a hose connection at the rear. The flexible hose is a stainless steel hose with a braid at the front of which is welded a gas sampling nozzle.

The positioning clip is welded to the rigid tube. This gives an exhaust gas tight assembly which withstands the temperatures to which it is subjected inside the exhaust of a motor vehicle. This sampling probe generally meets the characteristics of the OIML recommendations, but it has three drawbacks. On the one hand, its cost is relatively high because of the numerous and delicate welding operations that its assembly requires. On the other hand, this assembly by welded parts means that the flexible pipe has only one standard dimension. If you want to use hoses of different lengths, use as many probes as hose lengths. Finally, the welds are sensitive to mechanical stress, which means that the probe can only be used a limited number of times.

 The subject of the invention is a sampling probe of the aforementioned type which at least partially avoids the drawbacks of the probe of the prior art and, possibly, meets the characteristics of the OIML and UTAC recommendations.

 The invention thus relates to a probe of the aforementioned type characterized in that the flexible hose is slidable in the rigid tube and also protrudes from a rear end of the rigid tube and in that it has a first stop element fixed to the flexible hose downstream of the front end of the rigid tube and a second stop element fixed to the hose upstream of the rear end of the rigid tube, the sliding of the hose being able to occur between a first position or the first element d 'stop comes into abutment on the front end of the rigid tube, to define a first given penetration length of said region, and a second position where the second stop element comes into abutment on the rear end of the rigid tube to define a second given length of penetration of said region of the hose, greater than the first length.

 The gas sampling nozzle and / or a hose connector are advantageously crimped for one at a front end of the hose and for the other at a rear end of the latter.

 At least one said stop element can advantageously be a ring crimped on the periphery of the flexible.

 The positioning clip may have two branches connected together by a central portion and forming a mechanically locked clamp. According to a preferred embodiment, the two branches each have an opening whose diameter is substantially equal to an outside diameter of the rigid tube, the two openings not being coaxial in a rest position of the clip in which no effort is required. 'is exerted on the branches, rest position in which the branches form between them a given angle t0, and has a so-called locking position where the two openings are substantially coaxial when a determined force is applied so that the angle + between the branches has a value o (other than 2 and in that the rigid tube passes through the two openings while maintaining the openings substantially coaxial.

 For example C = 0 and ia is positive with the convention that ic is counted positively for an increase in the spacing of the branches.

Other characteristics and advantages of the invention will appear better on reading the description which follows, given by way of nonlimiting example, in conjunction with the drawings which represent
- Figure 1 a probe according to the aforementioned prior art
- Figure 2 a probe according to a preferred embodiment of the invention
- Figure 3 a longitudinal sectional view of a sampling tip according to the invention
- Figures 4a to 4c respectively in side view, in top view and in view along A, an elastic clip or spring / clip according to a preferred embodiment of the invention.

 According to FIG. 1, an exhaust gas sampling probe 1 in an exhaust pipe 11 of a motor vehicle V comprises a rigid tube, the rear part 2 of which has a connection sleeve 3.

The linear rear part 2 is extended forward by a bend 4, a second section of linear 2 ′, a bend 5 and finally a linear front region 6 on which a staple 7 is welded. To the front part 6 of the rigid tube is welded by means of a sleeve 6 ′ a flexible 9 made of stainless steel with a single braid with fixing reinforced by a staple cuff 8 formed of a metal braid. The front part of the hose 9 is welded to the gas sampling end piece 10. To sample gas in the exhaust pipe 11 of a vehicle, the probe is introduced through the rear part 12 of the exhaust pipe 11 until the clip 7 comes into abutment on the exhaust pipe. This defines a measurement length which, according to the OIML recommendations, is 400 mm.

 According to FIG. 2, an exhaust gas sampling probe 20 according to the present invention comprises a rigid tube designated by the general reference 30 which comprises a grip handle 34 the rear part 31 of which constitutes a rear edge of the rigid tube, the gripping portion extending forward by a bent region 32 which itself is extended by a straight region 33 which ends with a front edge 35. This sampling probe 20 comprises a flexible hose designated by the general reference 40 and which has a rear part 41 which protrudes from the rear edge 31 of the rigid tube 30 and which continues forward passing through the interior of the rigid tube 30 to a front region 42 in the front part of which is crimped a fitting 60 making gas sampling nozzle function. In addition, a positioning clip 50 is mechanically locked on the front part 33 of the rigid tube 30.

A variable length of penetration of the hose 40 into the exhaust pipe 11 of a motor vehicle V is obtained by limiting the travel of the hose 40 in the rigid tube between two positions defined by two positioning rings crimped around the hose 40 , these two rings (for example split rings) being referenced 45 for the rear ring and 46 for the front ring. This then allows a movement of the hose in a short position in which the ring 46 is in abutment against the front part 35 of the rigid tube 30 as shown in FIG. 2 (penetration length L1) and a position of greater penetration length L2 in the exhaust pipe 11, position in which the rear ring 45 abuts against the rear edge 31 of the rigid tube 30, this position being represented in FIG. 2 by the position 45 'of the ring 45 and by the position 60 ′ of the sampling end piece 60. In this way, the length of the hose 40 in the exhaust pipe can vary between the two nominal values L1 and L2 which in particular allows the sampling probe to meet both the standard
UTAC which requires a length L1 equal to 300 mm while for example the OIML standard (Organization
Internationale de Métrologie Légale) imposes a length L2 equal to 400 mm. In addition, the sealing of the probe is obtained by mounting the parts without welding, which makes it possible to increase the reliability of the probe, namely by crimping the end piece 60 for gas sampling as well as the fitting 70 of the pipe. 71 located at a rear end 48 of the hose 40. In particular, the critical point is the hot part of the probe which is located inside the exhaust pipe 11. Furthermore, the design of a hose 40 sliding in the rigid tube 30 eliminates the welding of the flexible 40 in the front part of the rigid tube 30, welding which would prove to be fragile in operation with the probe of the prior art. I1 therefore results from the realization of this probe lower costs at the same time as an increase in functionality and reliability.

 FIG. 3 shows the gas sampling nozzle designated by the general reference 60. I1 has gas sampling openings 61, a sampling channel 62 and in the rear part a flange 63 intended for crimping around the front end of the flexible 40 which is constituted by a PTFE tube (registered trademark TEFLON) and referenced 66 surrounded by a metallic braid referenced 67.

 The spring clip present in FIGS. 4a to 4c comprises a front region in an arc of a circle 51 ending in a front end 52, the apex 51 ′ of the region 51 coming to bear on the outside edge of the rigid tube 30 in its front part 33. This region 51 is extended towards the rear of the probe by an inclined linear section 53 continuing with a curved region 54 whose concavity is directed towards the rigid tube 30. This region 54 is extended by a clamp having two branches 56 and 59 connected by a central branch 55, the branches 56 and 57 being provided with openings 58 and 59 whose diameter is substantially the same as the outside diameter of the front part 33 of the rigid tube 30. In the rest position, the branches 56 and 57 form an angle iO I the axes of the openings 58 and 59 are offset from each other and form the same angle. By cons if we apply to branches 56 and 57 a force along arrow F ', so as to cancel the angle, the two branches 56 and 57 become parallel (see Figure 2) and the openings 58 and 59 are coaxial as this is shown in dotted lines in Figure 4a and Figure 4b.

 The mounting of the probe is then carried out as follows.

 Firstly, the front end 35 of the rigid tube 30 introduces the staple pin 50 through the branch 57 having exerted a force such that the two branches are parallel and the openings 58 and 59 are aligned along the axis II. When the staple pin is positioned in the desired way along the region 33, the force is released on the branches of the pin and then the latter remains locked in position by the elastic force which tends to spread the branches and offset the openings 58 and 59. In this way, the staple pin remains positioned always in the same place along the front region 33. On the other hand, its rotational mobility around the longitudinal axis of the front region 33 remains possible.

 Then the hose 40 is introduced into the tube 30, for this, for example the ring 45 has not been crimped around the hose 40. The crimping operation or operations are then carried out.

Claims (6)

 1 - Exhaust gas sampling probe in an exhaust pipe of a motor vehicle, said probe comprising a rigid element having a rigid tube as well as a clip for positioning the rigid element in the exhaust pipe , and having a hose comprising a region protruding from a front end of the rigid tube ending in a gas sampling nozzle, characterized in that the hose (40) is sliding in said rigid tube (30) and also protrudes from a rear end (31) of the rigid tube (30), in that it has a first stop element (46) fixed on the hose (40) downstream of the front end (35) of the rigid tube (30 ) and a second stop element (45) fixed on the hose (40) upstream from the rear end (31) of the rigid tube (30), the sliding of the hose (40) being able to occur between a first position where the first stop element (46) abuts on the front end (35) of the rigid tube (30) to define a first given length (L1) of penetration of said region (42) of the hose (40) and a second position where the second stop element (45) comes in abutment (45 ') on the rear end (31) of the rigid tube (30) to define a second given length (L2) of penetration of said region (42) of the hose (40).  2 - Sampling probe according to claim 1, characterized in that said nozzle (60) for sampling gas is crimped at a front end (47) of the hose (40).  3 - Sampling probe according to one of claims 1 or 2 characterized in that it comprises a fitting (70) of pipe (71) crimped at a rear end (48) of the hose (40).  4 - Sampling probe according to one of claims 1 to 3, characterized in that at least one said stop element (45, 46) is a ring crimped on the periphery of the hose (40).  5 - Sampling probe according to one of the preceding claims characterized in that said positioning clip (50) has two branches (56, 57) connected together by a central portion (55) forming a mechanically locked clamp.  6 - Sampling probe according to one of the preceding claims characterized in that the two branches (56, 57) each having an opening (58, 59) whose diameter is substantially equal to an outside diameter (D) of the rigid tube (30) , the two openings not being coaxial in a rest position of the clip in which no force is exerted on the branches (56, 57), rest position in which the branches (56, 57) form between them a given angle but have a so-called locking position where the two openings (58, 59) are substantially coaxial when a determined force is applied so that the angle between the branches has a value t different from 0, and in that the rigid tube (30 passes through the two openings (58, 59) while maintaining the openings (58, 59) substantially coaxial.  o counted positively for an increase in the spacing of the branches (56, 57).  - Sampling probe according to claim 6, characterized in that o (= 0 and in that 0 <is positive, with the convention that is