RU2575248C1 - Connecting device used to connect measuring device and contact module - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: the invention relates to a connecting device used to connect a contact module and a device, such as a shunt, current transformer, relay, etc. Both contact modules accommodate mounting holes. In the axial direction at one end of the contact module is a cylindrical coupling, its external dimension corresponds to the size of the connecting holes in the shunt. Cylindrical coupling is a grooved serrated cylindrical structure or a cylindrical structure with a lateral planar surface and provides a connection to the shunt by means of mechanical contact. Between the cylindrical coupling and the contact module a truncated conical structure is located.

EFFECT: technical effect is an increase in rigidity of the connection between the contact module and the shunt without using complicated technologies such as welding and a reduction of the contact resistance, which improves the technical characteristics of the shunt as well as decreased dimensions of the entire device having a simple structure, convenient for manufacturing and assembly, and complexity to detach and tear down.

34 cl, 2 dwg

Description

Technical field

The present invention relates to a connecting device for connecting the device and the contact module, such as a measuring device similar to a shunt, transformer, relay, etc., which are used in the technical field related to the exchange of data, research, measuring components, such as the area of counters Electricity, in particular, relates to a connecting device for connecting a measuring device and a contact module.

State of the art

Devices, such as a shunt, current transformer (CT), relays, etc., are widely used in the field of electrical industry and other industrial fields, for example in communication systems and measuring components. Thus, the connecting device is an industrial design with a wide market around the world. According to scattered statistics, the annual sales of these products worldwide exceed US $ 50 billion.

In particular, in the industry of electronic energy meters, there are two ways in which devices, such as a shunt, current transformer, relay, etc., are connected from measuring components to a contact module. One of the most common methods is to make a protrusion at one end of the contact module, make screw holes on this protrusion, directly fasten a device, such as a shunt, current transformer or relay, on the protrusion with screw holes. This type of design requires that the protrusion surface and the contact surface of the device be made flat and with tight contact, and the screws must be screwed into the required position so that they can provide a relatively low contact resistance, therefore there is a relatively poor stability of mass production. Another method is to directly weld a device, such as a shunt, current transformer, relay, etc., onto a protrusion or lateral end plane. For example, a shunt that can maintain normal atmospheric temperature even when a high current is excited is disclosed in JP 19960008033 from AGENCY OF IND SCICECE & TECHNOL. Manganese-copper resistance is welded on a dielectric film. An ammeter used in an electronic unit is disclosed in DE 10000500 B4 from BOSCH GMBH. The resistance circuit in the ammeter is welded directly to the sensor, which is located at the end of the current divider. This type of design requires the use of silver soldering in the contact surface between the device and the contact module when welding at high temperature. After welding, the surface requires cleaning and protection against oxidation, the material of the contact module is incorrectly spent on the connecting protrusion, low production efficiency and increased production costs are ensured. In addition, it is difficult to ensure uniformity of welding and thermofusion, in particular, there may be dirt during electrodeposition on the surface of the contact module in the place of welding, incorrect welding may occur. After welding, the electrodeposited coating is easy to remove, so that this can affect the normal operation of the device and the increase in errors in the operation of the unit, for example, lead to insufficient high accuracy when functioning as a detecting unit or measuring unit.

SUMMARY OF THE INVENTION

Thus, a connecting device for connecting a device and a contact module with a simplified assembly and a robust design is essential in the market of communications, research and measuring electronic devices such as shunts, current transformers and relays, and other similar applications. As a supplier who is well aware of the needs of the market, Yongtailong Electronic Co., Ltd is well aware of these issues and organized a research group, invested a large sum of money and after two years of intensive research work, including a large number of tests, finding solutions and huge work on the survey of customers, received the final technical solution of the present invention.

The connection device according to the present invention was tested for total resistance, power consumption, the effects of axial torsional deformation and high pressure, and a wear test was performed for 2000 hours at a temperature of + 80 ° C, and the results showed that this connection device was not only durable, but also works with high stability. Resistance to environmental influences, such as temperature, humidity and vibration, is significantly higher compared to the products that are currently sold on the market, and fully meets various requirements. In particular, after being used by some customers, the company received orders of approximately one billion US dollars worldwide. The present invention will retain its technical leadership in the field of connectors for connecting devices and contact modules.

The objective of the present invention is to provide a connecting device for connecting the measuring device and the contact module, obtaining patent protection in accordance with the law and receiving appropriate remuneration with the assistance of technological progress.

In the connecting device for connecting the device and the contact module according to the present invention, the cylindrical connection is made in the axial direction of one end of the contact module, the device containing connecting holes, and the external dimension of the cylindrical connection corresponds to the dimensions of the connecting holes on the device. At the two ends of the device are made connecting holes.

Preferably, the truncated conical structure is made between the cylindrical connection and the contact module.

Preferably, the connecting holes are made in the contact module.

Preferably, the ratio of the diameter of the two holes on the device to the distance between the two holes, to the diameter of the holes in the contact module and the distance between the holes in the contact module is 3: 10: 3: 6-8: 100: 12: 15. The value of the ratio in this group is provided by a large number of test samples. Tests confirm that these data represent the best choice that can ensure the operational state of the connecting device for connecting the device and the contact module. One preferred ratio is 3: 10: 3: 6. Another preferred ratio is 8: 100: 12: 15. If the device is a shunt, then a ratio of 2.88: 9.13: 3.00: 5.80 is particularly preferred, but this value is suitable when used on other devices. If the device is a current transformer, then the most preferred ratio is 5.00: 48.00: 5.28: 12.30, but this value is suitable for use on other devices. If the device is a relay, the ratio 7.80: 98.23: 11.52: 14.88 is particularly preferred, but this value is also suitable for use on other devices.

Preferably, the contact module is made of brass H69-H55, so it can provide a result in which the overall resistance is relatively low with optimal fastening intensity of the contact module and device and the screwing moment of the mounting holes. Alternatively, an aluminum alloy or a zinc alloy may be used. The truncated conical structure can be integral with the whole contact module to simplify manufacturing. In addition, the truncated conical structure may not be integral with the contact module, in which case it is made of red copper or brass, so that a relatively low contact resistance between the two surfaces of the device and the truncated conical structure can be provided.

Preferably, the cylindrical connection is a grooved gear structure that can be made with straight teeth, oblique teeth, or X-gear.

Alternatively, the cylindrical connection has a cylindrical structure with a flat side surface.

In the embodiment described above, the device may be a measuring device.

In the embodiment described above, the device may be a shunt.

In the embodiment described above, the device may be a current transformer.

In the embodiment described above, the device may be a relay.

In the embodiment described above, the measuring device may be a shunt measuring device.

In the embodiment described above, the measuring device may be a measuring device of a current transformer.

In the embodiment described above, the measuring device may be a relay measuring device.

In the embodiment described above, the measuring device may be a current transformer.

In the above embodiment, the measuring device may be a relay.

The connecting device for connecting the device and the contact module according to the present invention comprises a contact module and a device, such as a shunt, device, relay, etc., both contact modules having mounting holes, and a cylindrical connection is made in the axial direction of one end of the contact module, the outer dimension of which corresponds to the size of the connecting hole on the shunt. The cylindrical connection is moved into the connecting hole made in the device, and the subsequent application of pressure to ensure the expansion of the cylindrical connection and the connection with the connecting hole of the device, while the lower end surface of the device and the cylindrical connection simultaneously increase the head of the cylindrical connection compared to the part located in the closed position of the expanded cylindrical connection and the opening of the device. This design has advantages consisting in simplicity, ease of production and assembly, no need for surface treatment, no need for silver soldering, no need for screw fastening, proper axial location of the contact module, moreover, the design is more rigid and has greater tensile strength and the gap.

As an improvement, a truncated conical structure is made between the cylindrical connection and the contact module, which can provide an increase in the contact area between devices, such as a shunt, current transformer, relay, etc., and the contact module, a significant improvement in fastening, reduction in contact resistance, reduction device power consumption and device performance improvements.

To improve the accuracy of the axial position of the cylindrical connection and devices, such as a shunt, current transformer, relay, etc., and to improve the strength of the connection, the applied cylindrical connection is a corrugated gear structure or a cylindrical structure with irregular shape.

The method of assembly consists in the use of a compressing device for fastening a cylindrical connection during compression of a shunt, current transformer, relay, etc. with a truncated conical design of the contact module, as a result of which there is an increase in the head of the cylindrical connection compared to the part which is located in the closed position of the expanded cylindrical connection and the opening of the device.

This type of connecting device uses a cylindrical connection at one end of the contact module for tight connection with the shunt by fastening, as a result of which this connection is made more durable, the use of complex technology such as welding is prevented, the volume of the entire structure is reduced. In addition, this method of connection has the advantages of simple construction, ease of production and assembly, tensile and tensile strength. A truncated conical structure made between the cylindrical connection and the contact module improves contact between the shunt and the contact module, reduces contact resistance and improves the performance of the shunt. In addition, the cylindrical connection is a corrugated gear structure or a cylindrical structure with an irregular shape, so that a more precise mounting location between the shunt and the contact module and a stronger connection are provided.

The present invention further relates to a method for connecting a device to a contact module using a connecting device for connecting the device and the contact module, characterized in that it includes the following steps:

A. moving the cylindrical connection into the connecting hole;

B. the application of pressure to allow expansion of the cylindrical connection and the connection with the connecting hole of the device, while the lower end surface of the device and the cylindrical connection simultaneously provide an increase in the head of the cylindrical connection compared to the part located in the closed position of the expanded cylindrical connection and the opening of the device.

The method of connecting the device and the contact module described above does not require surface treatment and silver soldering.

Preferably, a compression device is used to fasten the cylindrical connection when compressing the shunt with a truncated conical design of the contact module.

Brief Description of the Drawings

In FIG. 1 schematically shows the construction of a cylindrical connection having a grooved gear type according to the invention.

In FIG. 2 schematically shows the construction of an irregularly shaped cylindrical joint according to the invention.

Moreover, in FIG. 1 and 2 show the contact module 1, the shunt 2, the mounting hole 3, the cylindrical connection 4, the truncated conical structure 5, the connecting hole 6.

DETAILED DESCRIPTION OF THE INVENTION

The present invention is described below according to the accompanying drawings and implementation examples. In the two described example implementations of the device are shunts.

First implementation example

In FIG. 1 shows an exemplary embodiment of a connecting device for connecting a shunt and a contact module according to the present invention. The connecting device as a whole comprises a contact module 1 and a shunt 2. In this embodiment, both contact modules 1 have mounting holes 3, and in the axial direction of one end of the contact module 1, a cylindrical connection 4 is made, the external dimension of which corresponds to the dimensions of the connecting holes 6 on the shunt 2 A truncated conical structure 5 is made between the cylindrical joint 4 and the contact module 1. The cylindrical joint 4 is a grooved gear structure. The function of the truncated conical structure is to control the connection between the two surfaces of the shunt and the contact module in the work area. The corrugated gear structure can control the axial rotation and direction of the attachment point of the contact module, providing an increase in the contact area between the end surfaces of the connecting hole and the cylindrical connection on the contact module.

When assembling, it is only necessary to move the cylindrical connection into the connecting hole on the device, then apply pressure to ensure the expansion of the cylindrical connection and the connection with the connecting hole of the device, while the lower end surface of the device and the cylindrical connection simultaneously increase the head of the cylindrical connection compared to the part located in the closed position of the expanded cylindrical connection and the opening of the device.

A connector for connecting the device and the contact module may not require surface treatment and silver soldering.

It is preferable to use a compression device for fastening a cylindrical connection when compressing a shunt with a truncated conical design of the contact module.

Second implementation example

In the embodiment of FIG. 2, the cylindrical joint 4 does not have a grooved gear structure, since a cylindrical structure with a flat lateral surface is used as a replacement. This cylindrical structure with a lateral flat surface is used for the case in which a relatively large rotation is provided.

It should be noted that the scope of the technical solution of the connecting device and the method of assembly of the device and the contact module according to the present invention includes any combination between each of the above components.

Claims (34)

1. A connecting device for connecting a device and a contact module, comprising a contact module and a device,
characterized in that
in the axial direction of one end of the contact module, a cylindrical connection is made, and connecting holes are made at the two ends of the device, wherein
the external size of the cylindrical connection corresponds to the size of the connecting holes on the device,
a truncated conical structure is made between the cylindrical connection and the contact module,
the contact module has a connecting hole, and
the cylindrical connection is a grooved gear structure or a cylindrical structure with a side flat surface. 2. The device according to p. 1, characterized in that the cylindrical connection is a corrugated gear structure. 3. The device according to claim 2, characterized in that the corrugated gear structure is a corrugated gear structure with straight teeth. 4. The device according to claim 2, characterized in that the corrugated gear structure is a corrugated gear structure with inclined teeth. 5. The device according to claim 2, characterized in that the corrugated gear structure is a helical corrugated structure with teeth having a horizontal deflection. 6. The device according to claim 1, characterized in that the cylindrical connection is a cylindrical structure with a side flat surface. 7. The device according to paragraphs. 1-6, characterized in that the ratio of the diameter of each of the two holes on the device, the distance between two holes on the device, the diameter of each of the two holes in the contact module and the distance between these two holes in the contact module is from 3: 10: 3: 6 to 8: 100: 12: 15. 8. The device according to claim 7, characterized in that the ratio is 3: 10: 3: 6. 9. The device according to claim 7, characterized in that the ratio is 8: 100: 12: 15. 10. The device according to claim 7, characterized in that the ratio is 2.88: 9.13: 3.00: 5.80. 11. The device according to claim 7, characterized in that the ratio is 5.00: 48.00: 5.28: 12.30. 12. The device according to claim 7, characterized in that the ratio is 7.80: 98.23: 11.52: 14.88. 13. The device according to paragraphs. 1-6, characterized in that the device is a measuring device. 14. The device according to p. 13, characterized in that the measuring device is a measuring device of the shunt. 15. The device according to p. 13, characterized in that the measuring device is a transformer measuring device. 16. The device according to p. 13, characterized in that the measuring device is a measuring device of the relay. 17. The device according to p. 13, characterized in that the measuring device is a transformer. 18. The device according to p. 13, characterized in that the measuring device is a relay. 19. The device according to p. 13, characterized in that the measuring device is a shunt. 20. The device according to paragraphs. 1-6, characterized in that the device is a shunt. 21. The device according to paragraphs. 1-6, characterized in that the device is a transformer. 22. The device according to paragraphs. 1-6, characterized in that the device is a relay. 23. The method of connecting the device to the contact module by using the device according to paragraphs. 1-6, characterized in that it includes the following steps:
A. moving the connecting hole on the device into a cylindrical connection;
B. applying pressure to allow expansion of the cylindrical connection and the connection with the connecting hole of the device, while the lower end surface of the device and the cylindrical connection simultaneously provide an increase in the head of the cylindrical connection compared to the part located in the closed position of the expanded cylindrical connection and the opening of the device. 24. The method according to p. 23, characterized in that at stage B, a compression device is used to fasten the cylindrical connection when compressing the shunt with the upper truncated cone of the contact module. 25. The method according to p. 23 or 24, characterized in that the device is a measuring device. 26. The method according to p. 25, wherein the measuring device is a shunt measuring device. 27. The method according to p. 25, characterized in that the measuring device is a measuring device of a transformer. 28. The method according to p. 25, wherein the measuring device is a measuring device relay. 29. The method according to p. 25, characterized in that the measuring device is a transformer. 30. The method according to p. 25, characterized in that the measuring device is a relay. 31. The method according to p. 25, characterized in that the measuring device is a shunt. 32. The method according to p. 23 or 24, characterized in that the device is a shunt. 33. The method according to p. 23 or 24, characterized in that the device is a transformer. 34. The method according to p. 23 or 24, characterized in that the device is a relay.

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