CN212434563U - Remote signaling series structure suitable for multi-mode - Google Patents

Abstract

The utility model discloses a remote signaling series structure suitable for multiple modes, which comprises module remote signaling mechanisms, wherein each group of module remote signaling mechanisms are connected in series through a base remote signaling mechanism; the module remote signaling mechanism comprises a sliding assembly and a remote signaling elastic sheet assembly, wherein a pair of separated remote signaling pins are arranged on the remote signaling elastic sheet assembly, and the remote signaling pins are in movable contact with the sliding assembly; the base remote signaling mechanism comprises a remote signaling pin assembly, and the remote signaling pin assembly is inserted into the module remote signaling mechanism; the remote signaling pin assembly comprises a pair of separated remote signaling pins, and two adjacent remote signaling pins in the two adjacent pairs of remote signaling pin assemblies are connected in series through a first connecting spring; the remaining remote signaling pins are connected to the remote signaling terminals through remote signaling wires. The remote signaling series structure suitable for the multiple modes has the advantages of novel structural design, small space requirement, reliable performance, simple process and simple and convenient assembly; the problems of large space requirement, complex process, more assembly working hours, high material cost and the like of the remote signaling series connection between the microswitch and the PCB and the remote signaling series connection of external wiring are solved.

Description

Remote signaling series structure suitable for multi-mode

Technical Field

The utility model relates to a telesignalling series connection structure suitable for multi-mode.

Background

The surge protector is a protection device for providing safety protection for various electronic equipment, instruments and meters and communication lines, and can cut off a power supply in time to protect rear-end equipment when an electric loop and the communication line are damaged by lightning attack or other instantaneous overvoltage.

At present, surge protectors are being developed towards miniaturization in order to meet the need for multiple environmental conditions. Along with the limitation on the installation space requirement of the surge protector, especially for the multi-mode panel lightning protector, the micro switch designed by the internal structure has large requirements on the space for connecting the micro switch with the PCB in the remote signaling mode and connecting the micro switch with the PCB in the external wiring remote signaling mode, the process is complex, and the problems of large assembly working hours, high material cost and the like exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel structure, installation space demand are little, the dependable performance, and simple process can effectively save the remote signalling series connection structure of production man-hour and material cost more.

In order to solve the technical problem, the utility model provides a telesignalling series connection structure suitable for multi-mode, which comprises at least two groups of module telesignalling mechanisms for transmitting telesignalling signals, and each group of module telesignalling mechanisms are connected in series through a base telesignalling mechanism;

the module remote signaling mechanism comprises a sliding assembly and a remote signaling elastic sheet assembly, and the sliding assembly is used for being connected with the pressure-sensitive element or the air release element; the remote signaling elastic sheet assembly is provided with a pair of separated remote signaling pins, the remote signaling pins are used for being connected with the sliding assembly, and one remote signaling pin and the sliding assembly adopt a detachable connection mode;

the base remote signaling mechanism comprises remote signaling pin assemblies with the same number as the module remote signaling mechanisms, and the remote signaling pin assemblies are respectively in one-to-one corresponding insertion connection with the module remote signaling mechanisms; each group of remote signaling pin assemblies comprises a pair of separated remote signaling pins, and two adjacent remote signaling pins in the two adjacent groups of remote signaling pin assemblies are connected in series through a first connecting spring; the two remote signaling pins which are not connected with the first connecting spring are respectively connected with the remote signaling terminal through remote signaling wires.

Further, one of the two telecommand pins which are not connected with the first connecting spring is connected with the telecommand lead through the second connecting spring, and the connection position of the second connecting spring and the telecommand lead is adjacent to the position of the other telecommand pin which is not connected with the first connecting spring.

Furthermore, the first connecting spring is of a bent structure, and the bent end and the two connecting ends of the first connecting spring are both of a ring structure; the ring structure at the bent end of the first connecting spring is a positioning ring spring, the ring structures at the two connecting ends of the first connecting spring are contact ring springs, and the contact ring springs are connected with the remote signaling pins.

Furthermore, two connecting ends of the second connecting spring are arranged into ring structures, and the ring structures are arranged on the second connecting spring at intervals; the ring structures at the two connecting ends of the second connecting spring are contact ring springs, one of the contact ring springs is connected with the remote signaling pin, and the other contact ring spring is connected with the remote signaling lead; the ring structure which is arranged on the second connecting spring at intervals is a positioning ring spring.

Furthermore, the remote signaling support is further provided with a remote signaling support, a mounting plate protrudes out of the remote signaling support, positioning columns are arranged on two sides of the mounting plate and are used for being positioned and sleeved with the first connecting spring and/or the second connecting spring, and an insulating film is further arranged on the remote signaling support.

Furthermore, the sliding assembly comprises a sliding block, two sides of the sliding block are provided with hanging lugs, tension spring coils are hung on the hanging lugs, and the lower ends of the tension spring coils positioned on the two sides of the sliding block are connected through a connecting rod;

the remote signaling pins of the remote signaling elastic sheet assembly are in contact with the extension spring coil positioned on one side of the sliding block, the two remote signaling pins of the remote signaling elastic sheet assembly are distributed up and down, and the remote signaling pins positioned above are detachably connected with the extension spring coil positioned on one side of the sliding block; when the tension spring coil is tightened, the remote signaling pin at the upper part is separated from the tension spring coil, when the tension spring coil is stretched, the remote signaling pin at the upper part is connected with the tension spring coil, and the remote signaling pin at the lower part is always connected with the tension spring coil.

Furthermore, a connecting plate is arranged on the other side of the sliding block and above the hanging lugs, and a warning plate is arranged at the free end of the connecting plate.

Furthermore, a remote signaling elastic sheet is arranged at one end, used for being plugged with the base remote signaling mechanism, of the remote signaling elastic sheet assembly, and a first partition plate is arranged between the pair of separated remote signaling wires;

the two remote signaling elastic sheets are respectively and correspondingly connected with the pair of separated remote signaling pins, and the first partition plate is connected and arranged between the two remote signaling elastic sheets;

the remote signaling pin is of a four-section structure, and the remote signaling pin positioned above the remote signaling pin comprises a first section in a horizontal state, a second section in a vertical state, a third section in an inclined state and a fourth section in a vertical state; the first section is connected with one remote signaling elastic sheet, and the fourth section is detachably connected with the sliding assembly;

the remote signaling pin positioned below comprises a section A in a horizontal state, a section B bent horizontally, a section C in a horizontal state and a section D in a vertical state; the section A is connected with the other remote signaling elastic sheet, and the section D is used for being connected with the sliding assembly;

the fourth section of the upper remote signaling pin is positioned obliquely above the section D of the lower remote signaling pin.

Furthermore, the remote signaling pin is of a four-section structure and comprises a plug-in section in a horizontal state, a transition section in an inclined state, a series section in a horizontal state and an installation section in an inclined state; the first connecting spring is connected to the series section, and the plug-in section is used for being plugged with the module remote signaling mechanism;

a second partition plate is arranged between a pair of separated remote signaling pins on each group of remote signaling pin assemblies, one end of the second partition plate is obliquely and upwards provided with a resisting block, the other end of the second partition plate is obliquely and downwards also provided with a resisting block, and mounting grooves are formed in two sides of the lower end of the second partition plate;

the support block arranged at one end of the second partition board is abutted between the transition sections of the two remote signaling pins, the support block arranged at the other end of the second partition board is abutted between the installation sections of the two remote signaling pins, and the series sections of the two remote signaling pins are respectively arranged in the installation grooves at two sides of the lower end of the second partition board.

Further, the module remote signaling mechanisms are four groups, three groups are used for being connected with the pressure sensitive elements, and the rest group is connected with the air release elements.

The utility model has the advantages that: this remote signalling series connection structure suitable for multi-mode is through the effective design to its overall connection structure, and novel structure, space demand are little, and the dependable performance, simple process, and the assembly is simple and convenient, can effectively save production man-hour and material cost more.

The problems that the existing microswitch and a PCB are large in requirement on internal telecommand series connection and external wiring telecommand series connection space, complex in process, large in assembly time, high in material cost and the like are solved, and the problem of the hidden danger of telecommand false alarm caused by the fact that the microswitch is not in place in action and beryllium copper pieces are poor in contact is also solved.

Through the first connecting spring, the second connecting spring and the installation design thereof, the remote signaling device has the torsion elastic function, can be effectively and respectively in closer contact with the remote signaling pins, and avoids the phenomenon of false alarm caused by poor remote signaling contact.

Meanwhile, the auxiliary design of the structure can also effectively isolate the remote signaling signal or voltage between the two remote signaling pins, so that enough electrical safety distance is ensured; the insulating film can effectively increase the electrical safety distance between the base remote signaling mechanism and the case shell, and has good insulating effect.

Drawings

Fig. 1 is an exploded schematic diagram of a telecommand series architecture suitable for multiple modes.

Fig. 2 is an exploded view of a base telecommand mechanism adapted for use in a multi-mode telecommand series configuration.

Fig. 3 is a schematic diagram of a sliding assembly suitable for use in a multi-mode telecommand tandem configuration.

Fig. 4 is a schematic structural diagram of a telecommand spring assembly suitable for a multi-mode telecommand series configuration.

Fig. 5 is a schematic diagram of a telecommand cradle adapted for use in a multi-mode telecommand tandem configuration.

Fig. 6 is a schematic diagram of a first connecting spring suitable for use in a multi-mode telecommand series configuration.

Fig. 7 is a schematic diagram of a second connecting spring suitable for use in a multi-mode telecommand series configuration.

Fig. 8 is a schematic diagram of a second spacer suitable for use in a multi-mode telecommand series configuration.

Fig. 9 is a schematic structural view of a module remote signaling mechanism when a remote signaling signal is on.

Fig. 10 is a schematic structural view of a module remote signaling mechanism when a remote signaling signal is disconnected.

Wherein: 1. a sliding assembly; 2. a remote signaling spring assembly; 3. a remote signaling pin; 4. a remote signaling pin assembly; 5. a remote signaling pin; 6. a first connecting spring; 7. a remote signaling wire; 8. a remote signaling terminal; 9. a second connecting spring; 10. positioning the coil spring; 11. a contact coil spring; 12. a remote signaling cradle; 13. mounting a plate; 14. a positioning column; 15. a slider; 16. hanging a lug; 17. a tension spring coil; 18. a connecting rod; 19. a connecting plate; 20. a warning board; 21. a remote signaling spring plate; 22. a first separator; 23. a first stage; 24. a second stage; 25. a third stage; 26. a fourth stage; 27. a section A; 28. a section B; 29. c, section; 30. a stage D; 31. a plug section; 32. a transition section; 33. a series section; 34. an installation section; 35. a second separator; 36. a resisting block; 37. and (4) mounting the groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the utility model is used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element to be referred must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Furthermore, the term "vertical" or the like does not require that the components be perfectly vertical, but rather may be slightly inclined. For example, "vertical" merely means that the direction is more vertical than "horizontal", and does not mean that the structure must be perfectly vertical, but may be slightly inclined.

The following examples are given to illustrate the present invention.

As shown in fig. 1 to 10, the remote signaling series structure suitable for multiple modes includes at least two sets of module remote signaling mechanisms, the module remote signaling mechanisms are used for transmitting remote signaling signals, and each set of module remote signaling mechanisms is connected in series through a base remote signaling mechanism.

The number of the module remote signaling mechanisms can be set according to actual conditions so as to meet the requirements of use and adjustment of different modes. It should be noted that the present application mainly describes the three-phase 3+1 mode as an example, but is not limited to the use of the mode condition.

The module telecommand mechanism suitable for the multi-mode telecommand series structure comprises a sliding assembly 1, wherein the sliding assembly 1 is used for being connected with a pressure-sensitive element or an air release element.

When a three-phase 3+1 mode is adopted, the three-phase air-release device comprises three pressure-sensitive elements and one air-release element, the sliding assembly 1 adopts a four-group structure and is respectively connected with the three pressure-sensitive elements and the air-release element one by one; other mode conditions are the same, and are not described in detail.

The module remote signaling mechanism further comprises a remote signaling elastic sheet component 2, a pair of separated remote signaling pins 3 are arranged on the remote signaling elastic sheet component 2, the two remote signaling pins 3 are not in contact, the remote signaling pins 3 are used for being connected with the sliding component 1, and one remote signaling pin 3 and the sliding component 1 adopt a detachable connection mode, namely the remote signaling pin 3 can be in contact with or separated from the sliding component 1.

The sliding assembly 1 can be used as a low-temperature tripping point, and each group of remote signaling elastic sheet assemblies 2 and the sliding assembly 1 correspondingly connected with the remote signaling elastic sheet assemblies correspond to one contact switch similarly.

Specifically, the sliding assembly 1 includes a sliding block 15, two sides of the sliding block 15 are provided with hanging lugs 16, a tension spring coil 17 is hung on the hanging lugs 16, and the sliding block 15 can move up and down under the action of the tension spring coil 17.

The hanging lug 16 of the sliding block 15 is made of high-strength high-insulation plastic material, so that high and low voltages between the low-temperature elastic sheet and a remote signaling signal can be effectively isolated, and a good insulation effect is achieved.

And the lower ends of the tension spring coils 17 positioned at the two sides of the sliding block 15 are connected through the connecting rod 18, so that the two tension spring coils 17 are positioned, and the stability and effectiveness of the up-and-down movable movement are ensured.

The remote signaling pins 3 of the remote signaling elastic sheet component 2 are in contact with the extension spring coils 17 on one side of the sliding block 15, the two remote signaling pins 3 of the remote signaling elastic sheet component 2 are distributed up and down, and the remote signaling pins 3 on the upper side are detachably connected with the extension spring coils 17 on one side of the sliding block 15.

When the tension spring coils 17 are tightened, the remote signaling pin 3 located above is separated from the tension spring coils 17, and when the tension spring coils 17 are stretched, the remote signaling pin 3 located above is connected with the tension spring coils 17, and the remote signaling pin 3 located below is always connected with the tension spring coils 17.

A connecting plate 19 is arranged at the other side of the sliding block 15 and above the hanging lug 16, a warning plate 20 is arranged at the free end of the connecting plate 19, and when the sliding block 15 moves up and down, the warning plate 20 moves up and down along with the sliding block 15, so that tripping is reminded, and on-off of a remote signaling signal is reminded.

In practical installation, it can be adopted that a window is arranged on the installation shell, and when the sliding block 15 moves upwards and is connected with the remote signaling pin 3 positioned above, the position of the warning board 20 positioned on the window is indicated.

The remote signaling elastic sheet 21 is arranged at one end, used for being plugged with the base remote signaling mechanism, of the remote signaling elastic sheet component 2, and the remote signaling elastic sheet 21 is plugged with the base remote signaling mechanism in an elastic copper sheet mode, so that the plugging firmness and effectiveness are guaranteed.

Meanwhile, a first partition plate 22 is arranged between the pair of separated remote signaling pins 3, and the first partition plate 22 is in a high-strength insulating plastic partition plate form, so that remote signaling signals or voltages between the splicing positions of the two remote signaling pins 3 can be effectively isolated during splicing, and an enough electrical safety distance is ensured.

This base telecommand mechanism suitable for telesignalling series connection structure of multi-mode includes that the same telesignalling of quantity and module telecommand mechanism quantity is participated in the subassembly 4, and the telesignalling is participated in the subassembly 4 and is pegged graft with module telecommand mechanism one-to-one respectively, and every group base telecommand mechanism corresponds each group module telecommand mechanism of pegging graft promptly, and the one-to-one corresponds, each other noninterference influences.

Each group of remote signaling pin assemblies 4 comprises a pair of separated remote signaling pins 5, and the two remote signaling pins 5 of each group of remote signaling pin assemblies 4 are respectively in one-to-one corresponding insertion connection with each group of module remote signaling mechanisms and are not interfered with each other.

Correspondingly, the two remote signaling pins 3 can be correspondingly connected with the two remote signaling elastic sheets 21, and the two remote signaling elastic sheets 21 are respectively correspondingly connected with the pair of separated remote signaling pins 5 in an inserted manner in a one-to-one corresponding manner without mutual influence; meanwhile, the first partition 22 is connected and arranged between the two telecommand shrapnels 21.

In the two adjacent groups of remote signaling pin assemblies 4 of the remote signaling series structure suitable for the multi-mode, two adjacent remote signaling pins 5 are connected in series through a first connecting spring 6, and two remote signaling pins 5 which are not connected with the first connecting spring 6 are respectively connected with a remote signaling terminal 8 through remote signaling wires 7.

Taking four groups of remote signaling pin assemblies 4 as an example, the remote signaling pin assemblies comprise four pairs of remote signaling pins 5, and at the moment, the remote signaling pin 5 positioned on the right side in the first pair is connected with the remote signaling pin 5 positioned on the left side in the second pair through a first connecting spring 6; the remote signaling pin 5 on the right in the second pair is connected with the remote signaling pin 5 on the left in the third pair through a first connecting spring 6, and the remote signaling pin 5 on the right in the third pair is connected with the remote signaling pin 5 on the left in the fourth pair through a first connecting spring 6.

And the remote signaling pin 5 on the left in the first pair and the remote signaling pin 5 on the right in the fourth pair are connected to the remote signaling terminal 8 through the remote signaling wires 7, respectively.

Of course, for a compact structure, the installation space requirement is further reduced, and one of the two remote signaling pins 5 which is not connected to the first connecting spring 6 is connected to the remote signaling wire 7 through the second connecting spring 9.

And the connection of the second connecting spring 9 to the telecommand wire 7 is adjacent to the other telecommand pin 5 which is not connected to the first connecting spring 6.

This telesignalling series structure's that is applicable to multi-mode first connecting spring 6 is the structure of buckling, and the end of buckling and the both ends of first connecting spring 6 set up to the ring structure.

The loop structure at the bent end of the first connecting spring 6 is a positioning loop spring 10, the loop structure at the two connecting ends of the first connecting spring 6 is a contact loop spring 11, and the contact loop spring 11 is connected with the remote signaling pin 5.

The two connecting ends of the second connecting spring 9 of the remote signaling series structure suitable for the multiple modes are arranged to be ring structures, and the ring structures are arranged on the second connecting spring 9 at intervals.

The ring structures at the two connecting ends of the second connecting spring 9 are contact ring springs 11, one of the contact ring springs 11 is connected with the remote signaling pin 5, the other contact ring spring 11 is connected with the remote signaling wire 7, and the ring structure at the interval on the second connecting spring 9 is a positioning ring spring 10.

Wherein, prescribe a limit to through the structural design to first connecting spring 6 and second connecting spring 9 for first connecting spring 6 and second connecting spring 9 all have a torsion elasticity function, can insert foot 5 in closer contact with the remote signalling effectively respectively, avoid the remote signalling contact failure to cause the mistake and report an emergency and ask for help or increased vigilance the phenomenon.

Meanwhile, the base remote signaling mechanism further comprises a remote signaling support 12 which plays a role in fixing and installing each group of remote signaling pins 5, so that the stability and safety performance of the base remote signaling mechanism are ensured, and the integrity and the installation performance of the base remote signaling mechanism are improved.

A mounting plate 13 protrudes from the remote signaling support 12, positioning columns 14 are disposed on two sides of the mounting plate 13, and the positioning columns 14 are used for being positioned and sleeved with the first connecting spring 6 and/or the second connecting spring 9.

Specifically, a space is provided between the first connecting spring 6 and the second connecting spring 9, and the space is used for installing the mounting plate 13; the first connecting spring 6 is sleeved on the positioning column 14 on one side of the mounting plate 13, and the second connecting spring 9 is sleeved on the positioning column 14 on the other side of the mounting plate 13, so that the overall mounting performance of the base remote signaling mechanism is improved.

And the remote signaling support 12 is also provided with an insulating film, and the insulating film can be preferably a high-insulation plastic sheet, so that the electrical safety distance between the base remote signaling mechanism and the case shell can be effectively increased, and a good insulating effect is achieved.

The remote signaling pin 3 of the remote signaling series structure suitable for the multi-mode may be designed as a four-stage structure, and the remote signaling pin 3 located above includes a first stage 23 in a horizontal state, a second stage 24 in a vertical state, a third stage 25 in an inclined state, and a fourth stage 26 in a vertical state.

The first section 23, the second section 24, the third section 25 and the fourth section 26 are sequentially connected, the second section 24 is vertically upward, the third section 25 is obliquely upward, the fourth section 26 is vertically downward, and the height of the free end of the fourth section 26 is higher than that of the first section 23 in a horizontal state.

The first section 23 is connected to one of the telecommand shrapnels 21, and the fourth section 26 is detachably connected to the sliding assembly 1.

The lower remote signaling pin 3 comprises a section a 27 in a horizontal state, a horizontally bent section B28, a section C29 in a horizontal state, and a section D30 in a vertical state.

The section A27, the section B28, the section C29 and the section D30 are sequentially connected, wherein the section A27, the section B28 and the section C29 are positioned on the same horizontal plane, the section A27 and the section C29 are in a parallel state, and the section D30 is vertically downward.

While the section a 27 is connected to the other telecommand spring 21 and the section D30 is used to connect to the sliding assembly 1.

Meanwhile, to ensure the passage and opening of the telecommand signal, the fourth section 26 located at the upper telecommand pin 3 is located obliquely above the D section 30 located at the lower telecommand pin 3.

Specifically, when the tension coil 17 is tightened, the fourth section 26 of the upper remote signaling pin 3 is separated from the tension coil 17; when the tension coil 17 is stretched, the fourth section 26 of the upper remote signaling pin 3 is in close contact with the tension coil 17, and the lower remote signaling pin 3 is always in close contact with the tension coil 17.

Wherein, through the close contact and disconnection between the remote signaling pin 3 and the tension spring coil 17, a remote signaling signal path and an open circuit are formed.

The remote signaling series structure suitable for multiple modes is novel in design, reliable in performance, simple in process and simple and convenient to assemble, production working hours and material cost are effectively saved, and the hidden danger of remote signaling error alarm caused by the fact that the micro switch does not operate in place and the beryllium copper sheet is poor in contact is improved.

Meanwhile, the remote signaling pin 5 can also be designed into a four-section structure, which comprises a plug-in section 31 in a horizontal state, a transition section 32 in an inclined state, a series section 33 in a horizontal state and an installation section 34 in an inclined state; the first connecting spring 6 is connected to the series section 33, and the plug section 31 is used for plugging the module telecommand means.

And, a second partition plate 35 is provided between a pair of spaced remote signaling pins 5 on each group of remote signaling pin assembly 4, one end of the second partition plate 35 is obliquely and upwardly provided with a resisting block 36, the other end of the second partition plate 35 is also obliquely and downwardly provided with a resisting block 36, and both sides of the lower end of the second partition plate 35 are provided with mounting grooves 37.

The abutting block 36 arranged at one end of the second partition plate 35 abuts between the transition sections 32 of the two remote signaling pins 5, the abutting block 36 arranged at the other end of the second partition plate 35 abuts between the mounting sections 34 of the two remote signaling pins 5, and the series sections 33 of the two remote signaling pins 5 are respectively arranged in the mounting grooves 37 at both sides of the lower end of the second partition plate 35.

The second partition plate 35 and the installation mode thereof are effectively designed, so that the remote signaling signal or voltage between two adjacent remote signaling pins can be effectively isolated, and a sufficient electrical safety distance is ensured. Of course, the second partition 35 may be a plastic partition having high strength and high insulation.

This remote signalling series connection structure suitable for multi-mode is through the effective design to its overall connection structure, and novel structure, space demand are little, and the dependable performance, simple process, and the assembly is simple and convenient, can effectively save production man-hour and material cost more.

The problems that the existing microswitch and a PCB are large in requirement on internal telecommand series connection and external wiring telecommand series connection space, complex in process, large in assembly time, high in material cost and the like are solved, and the problem of the hidden danger of telecommand false alarm caused by the fact that the microswitch is not in place in action and beryllium copper pieces are poor in contact is also solved.

Through the structure and the installation design of the first connecting spring 6 and the second connecting spring 9, the remote signaling connecting device has the torsion elastic function, can be effectively and respectively in closer contact with remote signaling pins, and avoids the phenomenon of false alarm caused by poor remote signaling contact.

Meanwhile, the auxiliary design of the structure can also effectively isolate the remote signaling signal or voltage between the two remote signaling pins, so that enough electrical safety distance is ensured; and the electrical safety distance between the base remote signaling mechanism and the chassis shell can be effectively increased, and a good insulation effect is achieved.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," and "connected" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A telecommand series architecture adapted for multiple modes, comprising: the remote signaling device comprises at least two groups of module remote signaling mechanisms for transmitting remote signaling signals, wherein each group of module remote signaling mechanisms are connected in series through a base remote signaling mechanism;

the module remote signaling mechanism comprises a sliding assembly and a remote signaling elastic sheet assembly, and the sliding assembly is used for being connected with the pressure-sensitive element or the air release element; the remote signaling elastic sheet assembly is provided with a pair of separated remote signaling pins, the remote signaling pins are used for being connected with the sliding assembly, and one remote signaling pin and the sliding assembly adopt a detachable connection mode;

the base remote signaling mechanism comprises remote signaling pin assemblies with the same number as that of the module remote signaling mechanisms, and the remote signaling pin assemblies are correspondingly spliced with the module remote signaling mechanisms one by one respectively;

each group of remote signaling pin assemblies comprises a pair of separated remote signaling pins, and two adjacent remote signaling pins in the two adjacent groups of remote signaling pin assemblies are connected in series through a first connecting spring; the two remote signaling pins which are not connected with the first connecting spring are respectively connected with the remote signaling terminal through remote signaling wires.

2. A telecommand series architecture adapted for multiple modes, as claimed in claim 1, wherein: one of the two remote signaling pins which are not connected with the first connecting spring is connected with the remote signaling lead through the second connecting spring, and the connection position of the second connecting spring and the remote signaling lead is close to the position of the other remote signaling pin which is not connected with the first connecting spring.

3. A telecommand series architecture adapted for multiple modes, as claimed in claim 1, wherein: the first connecting spring is of a bent structure, and the bent end and the two connecting ends of the first connecting spring are both of ring structures; the ring structure at the bent end of the first connecting spring is a positioning ring spring, the ring structures at the two connecting ends of the first connecting spring are contact ring springs, and the contact ring springs are connected with the remote signaling pins.

4. A telecommand series architecture adapted for multiple modes, as claimed in claim 2, wherein: two connecting ends of the second connecting spring are arranged into ring structures, and the ring structures are arranged on the second connecting spring at intervals; the ring structures at the two connecting ends of the second connecting spring are contact ring springs, one of the contact ring springs is connected with the remote signaling pin, and the other contact ring spring is connected with the remote signaling lead; and the ring structure which is arranged on the second connecting spring at intervals is a positioning ring spring.

5. A telecommand series structure suitable for multiple modes according to any of claims 2 to 4, wherein: still include a remote signalling support, the protrusion has a mounting panel on the remote signalling support, the both sides of mounting panel are provided with the reference column, the reference column be used for with first connecting spring and/or second connecting spring location cup joint, just still be provided with the insulating film on the remote signalling support.

6. A telecommand series architecture adapted for multiple modes, as claimed in claim 1, wherein: the sliding assembly comprises a sliding block, two sides of the sliding block are provided with hanging lugs, tension spring coils are hung on the hanging lugs, and the lower ends of the tension spring coils positioned on the two sides of the sliding block are connected through a connecting rod;

the remote signaling pins of the remote signaling elastic sheet assembly are in contact with the extension spring coil positioned on one side of the sliding block, the two remote signaling pins of the remote signaling elastic sheet assembly are distributed up and down, and the remote signaling pins positioned above are detachably connected with the extension spring coil positioned on one side of the sliding block; when the tension spring coil is tightened, the remote signaling pin positioned above is separated from the tension spring coil, and when the tension spring coil is stretched, the remote signaling pin positioned above is connected with the tension spring coil; and the lower remote signaling pin is always connected with the tension spring coil.

7. A telecommand series architecture adapted for multiple modes, as claimed in claim 6, wherein: the other side of the sliding block and the position above the hanging lug are provided with a connecting plate, and a warning plate is arranged at the free end of the connecting plate.

8. A telecommand series architecture adapted for multiple modes, as claimed in claim 1, 6 or 7, wherein: a remote signaling elastic sheet is arranged on one end, used for being plugged with the base remote signaling mechanism, of the remote signaling elastic sheet assembly, and a first partition plate is arranged between a pair of separated remote signaling wires;

the two remote signaling elastic sheets are respectively and correspondingly connected with the pair of separated remote signaling pins, and the first partition plate is connected and arranged between the two remote signaling pins;

the remote signaling pin is of a four-section structure, and the remote signaling pin positioned above the remote signaling pin comprises a first section in a horizontal state, a second section in a vertical state, a third section in an inclined state and a fourth section in a vertical state; the first section is connected with one remote signaling elastic sheet, and the fourth section is detachably connected with the sliding assembly;

the remote signaling pin positioned below comprises a section A in a horizontal state, a section B bent horizontally, a section C in a horizontal state and a section D in a vertical state; the section A is connected with the other remote signaling elastic sheet, and the section D is used for being connected with the sliding assembly;

the fourth section of the upper remote signaling pin is positioned obliquely above the section D of the lower remote signaling pin.

9. A telecommand series architecture adapted for multiple modes, as claimed in claim 1, wherein: the remote signaling pin is of a four-section structure and comprises a plug-in section in a horizontal state, a transition section in an inclined state, a series section in a horizontal state and an installation section in an inclined state; the first connecting spring is connected to the serial section, and the inserting section is used for inserting the module remote signaling mechanism;

a second partition plate is arranged between a pair of separated remote signaling pins on each group of remote signaling pin assemblies, one end of the second partition plate is obliquely and upwards provided with a resisting block, the other end of the second partition plate is obliquely and downwards also provided with a resisting block, and mounting grooves are formed in two sides of the lower end of the second partition plate;

the support block arranged at one end of the second partition board is abutted between the transition sections of the two remote signaling pins, the support block arranged at the other end of the second partition board is abutted between the installation sections of the two remote signaling pins, and the series sections of the two remote signaling pins are respectively arranged in the installation grooves at two sides of the lower end of the second partition board.

10. A telecommand series architecture adapted for multiple modes, as claimed in claim 1, wherein: the module remote signaling mechanisms are four groups, wherein three groups are used for being connected with the pressure sensitive elements, and the rest group is connected with the air release elements.

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