FR3104256A3 - MEASUREMENT ELEMENT - Google Patents

Abstract

The present invention relates to a measuring element (30) for taking measurements on the bearing cups (21) in arms of a spider (20) engaging with shaft seals (10). a drive transferring movement to one another, comprising the following: a body (31) including a lower body (312) and an upper cover (311) engaged with said lower body (312); a housing (313) having a closed volume which allows positioning of a circuit (50) configured for a sensor (60), said housing being formed inside said body (31) and being arranged to be accessible by opening the top cover (311); a circuit (50), which is positioned in said circuit housing (313) and is configured to work with a sensor (60); an adhesion surface (3141) configured to engage the lower body (312) with the bearing cup (21); a sensor (60) which is connected to said circuit (50) and is arranged to extend from said lower body (312) towards the front surface of the bearing cup (21); a power source (40) configured to provide a power supply to said sensor (60) and to said circuit (50).

Description

MEASUREMENT ELEMENT

The invention relates to a measuring element comprising at least one sensor so as to perform measurements in the seal component in the drive shafts.

In particular, the invention relates to a measuring element for sensing a temperature on the bearing cups (or rolling cups) engaged on the spider journals positioned in the connecting flanges in the joints of the drive shafts when vehicles are moving.

Drive shafts are transmission elements used in moving a vehicle by receiving the rotational motion and power generated by the engine in motor vehicles, and by transmitting to the vehicle differential. Continuity of movement is provided by joints during transmission.

Generally, universal joints are used in drive shafts. In this type of joint, the spider is engaged by inserting the arms of the spider, i.e. the journals, into the openings in the fork. The cross journal is positioned in the fork openings with a bearing sleeve. The bearing sleeve includes needle bearings, a bearing cup body which surrounds said needle bearings, and a bearing cup base washer to cover the body, such items as gaskets and oil trays. dust, etc., against external and internal factors. The temperature of the seal, in particular that of the spider, increases due to the friction of the above elements when the vehicle is in motion.

The temperature resistance of the gasket is tested in environments which are prepared under certain conditions. Said test is insufficient to simulate general conditions of use.

In patent application TR2018 / 13386, a temperature sensing element for drive shafts is described. The element includes a body which is arranged to carry at least one temperature sensor, so as to sense a temperature on the bearing cups engaged on the spider journals positioned in the fork openings in the shaft seals. drive, and includes arms engaged to the fork so as to engage said body with the fork in such a way that the temperature sensor faces the front surface of the bearing cup. In the solution mentioned here, the arms increase the distance between the sensor and the bearing cup surface, so that the position of the temperature sensor is not optimal for measurement, due to the shape of the fork.

In patent document number CN109708887A, the temperature sensor is positioned directly on the body of the spider using a screw, and measures the temperature of the spider. In said structure, in addition to the measurement failure on the bearing cup, the threaded connection on the spider reduces the resistance of the spider.

Therefore, all of the above-mentioned problems have made it necessary to achieve improvement in the relevant technical field.

PURPOSE OF THE INVENTION

The object of the present invention is to eliminate the above-mentioned problems and to achieve development in the technical field concerned.

The main object of the invention is to provide a structure for easily measuring from the seal bearing cups.

Another object of the present invention is to provide a measuring element structure which is secured to the bearing cup through adhesion thereof to the seal bearing cups.

Another object of the present invention is to provide a measuring element structure which provides a seal so as to protect the circuit from external factors, the circuit working with the sensor to perform a measurement.

Another object of the invention is to provide a measuring element structure so as to perform measurements without requiring modifications in the seal structure.

BRIEF DESCRIPTION OF THE INVENTION

To achieve the above-mentioned objects, the present invention relates to a measuring element configured to perform measurements on bearing cups (or bearing cups) in arms of a cross member connecting drive shaft joints configured. to transfer movement from one to another. Accordingly, the measuring element of the present invention comprises the following: a body comprising a lower body and an upper cover engaged with said lower body; a housing with a closed volume which allows positioning of a circuit configured for a sensor, said housing being formed inside said body and arranged to be accessible through an opening in the top cover; a circuit which is positioned in said housing of said body, also called a circuit housing, said circuit being configured to operate with a sensor; a grip surface configured to allow the lower body to engage the bearing cup; a sensor which is connected to said circuit and is arranged to extend from said lower body towards the front surface of the bearing cup; a power source, configured to provide power to said sensor and to said circuit.

In a preferred embodiment of the invention, the measuring element comprises a power source housing arranged to position the power source on said top cover.

In another preferred embodiment of the invention, the measuring element comprises a power source holder which is connected to the body passing over said power source so as to apply pressure to the body. power supply.

In a preferred embodiment of the invention, the measuring element comprises screws which engage said upper cover on said lower body.

In another preferred embodiment of the invention, the measuring element comprises a retaining ring which is positioned between said upper cover and said lower body so as to increase a seal.

In a preferred embodiment of the invention, the measuring element comprises threads configured to engage said upper cover and said lower body with each other.

In a preferred embodiment of the invention, said threads are arranged on the inner surface of the cover and on the outer surface of the lower body.

In another preferred embodiment of the invention, said threads are arranged on the outer surface of the cover and on the inner surface of the lower body.

In another preferred embodiment of the invention, said adhesion surface is arranged in the form of a ring.

In a preferred embodiment of the invention, said adhesion surface is arranged on an assembly mouth extending from the lower body towards the bearing cup.

In another preferred embodiment of the invention, said adhesion surface is arranged on an assembly mouth extending from the lower body towards the bearing cup.

In another preferred embodiment of the invention, said sensor is arranged to extend from said lower body towards the front surface of the bearing cup passing through the assembly mouth.

In another preferred embodiment of the invention, said sensor is a temperature sensor.

is an isometric view showing the connection of the measuring element to the drive shaft, according to one embodiment of the invention.

is a schematic view representative of the measuring element according to one embodiment of the invention. Here, the elements of the internal section of the structure are represented by dotted lines.

is an isometric view showing the connection of the measuring element to the drive shaft, according to one embodiment of the invention.

is an isometric view showing the connection of the measuring element to the drive shaft, according to one embodiment of the invention.

is the top view of the embodiment of the .

is the sectional view of the embodiment of the along axis A.

is an isometric view of the measuring element according to another embodiment of the invention.

is the bottom view of the embodiment of the .

is a side view of the measuring element according to another embodiment of the invention.

The figures are not necessarily to scale, and details which are not necessary for an understanding of the present invention are omitted. In addition, elements which are substantially identical or which have at least substantially identical functions are indicated by the same reference numeral.

DESCRIPTION OF REFERENCES IN THE FIGURES

10 .Seal
11.Fork
12.Bearing bush seat
20.Cross
21.Bearing cup
30.Measuring element
31.Body
311.Top cover
3111.Power source housing
312.Lower body
313.Housing
314.Assembly mouth
3141.Grip surface
3142.Sensor space
315.Shoulder
316.Power source support
3161.Connection element
317.Screw
40.Power supply
50.Circuit
51.Circuit board
52.Cable opening
60.Sensor
70.Retaining ring

DETAILED DESCRIPTION OF THE INVENTION

Embodiments of the measuring element of the invention are described below by way of non-limiting examples.

In particular, the invention relates to a measuring element (30) for sensing a temperature on the bearing cups (21) engaged with the journals of the spider (20) located in the forks in the joints (10) of the shaft. drive when vehicles are in motion.

The is an isometric view showing the connection of the measuring element (30) to the drive shaft, according to one embodiment.

Referring to the , movement in the drive shafts is transmitted through joints (10). The two seals (10) are engaged with each other via the cross member (20) whose journals (arms) are positioned in the bearing sleeve seat (12) formed on the forks (11). ). Said spacer journals (20) are placed in said bearing sleeve seats (12) by means of a bearing cup (21). Said engagement method is explicitly described in the prior art.

The measuring element (30) is engaged on the surface of said bearing cup (21) facing the outer surface.

Referring to the , the measuring element (30) comprises a body (31) consisting of a lower body (312) and an upper cover (311). A housing (313) is formed inside the body (31). Said housing (313) is configured as a closed volume in such a way that it will not be affected by factors from the external environment.

Said closed volume is formed by closing the top cover (311) on the formed housing (313).

The housing (313) can be arranged inside the lower body (312), just as a volume arranged inside the upper cover (311) can also form part of said housing (313).

A circuit (50) is placed in said housing (313). Said circuit (50) is configured such that it notably operates a sensor (60) to which it is connected. The sensor (60) mentioned here is arranged in particular to face the outer surface of the bearing cup (21).

The sensor (60) can be arranged in the center of the base of the body (31) as on the , where it can be positioned at eccentric points, as on the .

In a preferred embodiment of the invention, said sensor (60) is in particular a temperature sensor (60).

On the , the sectional view of the along the axis A is shown. Here, the inner structure of the measuring element (30) can be seen. As can be seen, the base section of the housing (313) is provided with a circuit board (51), and a circuit (50) is connected to said circuit board (51). The sensor (60) is connected to the circuit (50). In particular, the sensor (60) can be positioned outside the body (31) and its connection to the circuit (50) can be enabled by means of a cable passing through the cable opening (52). Likewise, it can be arranged so that it can pass through the cable opening (52), and thus the cable connection can be made in the housing (313).

Said circuit (50) not only controls the operation of the sensor (60), but also includes a memory module which may be able to save information received from the sensor (60), and / or wireless transmission modules to transmit these. information to an external system.

Preferably, the device can perform a centering of the circuit (50) by means of an additional part located between the upper cover (311) and the lower body (312).

Said circuit (50) and said sensor (60) are electrically supplied by means of a power source (40). Said power source (40) may be a disposable or rechargeable battery, and preferably in the form of a square prism.

Said power source (40) can be positioned on the top cover (311), as shown in figure 2.

The measuring element (30) includes an adhesion surface (3141) on the base section of the lower body (312). The adhesion surface (3141) is preferably arranged in the form of a ring. Said adhesion surface (3141) facilitates engagement of the measuring element (30) on the surface of the bearing cup (21).

The adhesion surface (3141) may be provided on the bottom section of the lower body (312), and may also be provided on the end portion of a tubular assembly mouth (314) formed at the bottom. of the lower body (312).

Accordingly, the measuring element (30) mainly comprises the following elements:
a body (31) comprising a lower body (312) and an upper cover (311) engaged with said lower body (312);
a housing (313) with a closed volume which allows positioning of a circuit (50) configured for a sensor (60), said housing (313) being formed inside said body (31) and being arranged to be accessible by opening the top cover (311);
a circuit (50) which is positioned in said circuit housing (313) and is configured to operate with a sensor (60);
an adhesion surface (3141) configured to allow the lower body (312) to be engaged with the bearing cup (21);
a sensor (60) which is connected to said circuit (50) and is arranged to extend from said lower body (312) towards the front surface of the bearing cup (21);
a power source (40) configured to provide a power supply to said sensor (60) and to said circuit (50).

Referring to the , a power source housing (3111) is arranged on the top cover (311) so as to locate said power source (40) relative to the measuring element (30). The power source housing (3111) and said power source (40) are preferably arranged in the form of a rectangular prism.

The power source holder (316) is engaged with the measuring element (30) in such a manner that when the power source (40) is placed in the power source housing (3111 ), said power source holder (316) will adjust / apply pressure to the power source (40).

The power source holder (316) may be provided in the form of a ribbon and may be engaged with the top cover (311) from both ends thereof through the connection members (3161). or with shoulders (315) which are mutually arranged on the upper part of the top cover (311).

As can be seen clearly from the , the shoulders (315) may preferably be arranged to wrap the power supply (40) from the side surfaces, and they also help secure the power supply (40).

Referring to the , it was previously established that the lower body (312) has an assembly mouth (314) of tubular shape. Said sensor (60) can be positioned a minimum distance from the bearing cup (21) extending from said assembly mouth (314).

Referring to Figures 4 and 4A, the upper cover (311) and the lower body (312) are engaged with each other by means of screws or the like connection members. Here, preferably, the tightness of said body (31) is increased by placing a seal (70) between the upper cover (311) and the lower body (312) before the engagement is made.

Referring to the , in an alternative embodiment, the upper cover (311) and the lower body (312) are engaged with each other by means of threads. As in the structure of the , the upper cover (311) can be closed on the lower body (312) and thus, threads can be arranged on the inner surface of the upper cover (311) and on the outer surface of the lower body (312). In addition, the top cover (311) is placed in a suitable volume inside the lower body (312), and thus threads can be arranged on the outer surface of the top cover (311) and on the inner surface of said volume. inside the lower body (312).

The invention is specified by the appended claims and cannot be limited to the contents of the above description given for illustrative purposes. Likewise, it is clear that those skilled in the art can envision similar embodiments in light of the above description.

Claims (13)

Measuring element (30) for performing measurements on the bearing cups (21) in arms of a spider (20) connecting driveshaft joints (10) transferring motion to each other, characterized by that it includes the following elements:
a body (31) comprising a lower body (312) and an upper cover (311) engaged with said lower body (312);
a housing (313) with a closed volume allowing positioning of a circuit (50) configured for a sensor (60), said housing being formed inside said body (31) and being arranged to be accessible by opening the cover upper (311);
a circuit (50) which is positioned in said circuit housing (313) and which is configured to operate with a sensor (60);
an adhesion surface (3141) configured to engage the lower body (312) with the bearing cup (21);
a sensor (60) which is connected to said circuit (50) and is arranged to extend from said lower body (312) towards the front surface of the bearing cup (21);
a power source (40) configured to provide a power supply to said sensor (60) and to said circuit (50). A measuring element (30) according to claim 1, characterized in that it further comprises a power source housing (3111) arranged to position the power source (40) on said body (31). A measuring element (30) according to claim 1, characterized in that it further comprises a power source housing (3111) arranged to position the power source (40) on said top cover (311). A measuring element (30) according to any one of the preceding claims, characterized in that it further comprises a power source support (316) connected to the body (31) passing above said power source. The power source (40) so as to apply pressure to the power source (40). Measuring element (30) according to claim 1, characterized in that it comprises screws (317) which engage said upper cover (311) on the lower body (312). Measuring element according to claim 1 or 4, characterized in that it comprises a retaining ring (70), which is positioned between said upper cover (311) and said lower body (312), so as to increase the tightness . A measuring element (30) according to claim 1, characterized by further comprising threads configured to engage said upper cover (311) and said lower body (312) with each other. Measuring element (30) according to claim 7, characterized in that said threads are arranged on the inner surface of the upper cover (311) and on the outer surface of the lower body (312). Measuring element (30) according to claim 7, characterized in that said threads are arranged on the outer surface of the upper cover (311) and on the inner surface of the lower body (312). Measuring element (30) according to any one of the preceding claims, characterized in that said adhesion surface (3141) is arranged in the form of a ring. A measuring element (30) according to claim 10, characterized in that said adhesion surface (3141) is arranged on an assembly mouth (314) extending from said lower body (312) towards the bearing cup ( 21). A measuring element (30) according to claim 11, characterized in that said sensor (60) is arranged to extend from said lower body (312) towards the front surface of the bearing cup (21) passing through the mouth assembly (314). Measuring element (30) according to any one of the preceding claims, characterized in that said sensor (60) is a temperature sensor.