CN116255383A

CN116255383A - Separated connecting piece controlled by wireless sensing

Info

Publication number: CN116255383A
Application number: CN202211708817.5A
Authority: CN
Inventors: 郑赵多; 叶迦勒
Original assignee: Jiangsu Shidode Sensor Technology Co ltd
Current assignee: Jiangsu Shidode Sensor Technology Co ltd
Priority date: 2022-12-29
Filing date: 2022-12-29
Publication date: 2023-06-13

Abstract

The invention discloses a wireless sensing control separated connecting piece, which comprises a female connecting piece, a child connecting piece and an automatic locking assembly, wherein the female connecting piece is of a hollow structure with one end open or two ends open, a clamping groove is formed in the inner wall, and a first connecting head for realizing function expansion is arranged at one end; the sub-connector is inserted from the open end of the main connector; the secondary connecting piece is of a hollow structure with an opening at one end, a second connector for realizing function expansion is arranged at the outer end of the secondary connecting piece, an opening for the automatic locking component to enter and exit is arranged at one end of the secondary connecting piece, and the automatic locking component is positioned in the hollow structure of the secondary connecting piece; the invention has simple structure and convenient operation, can remotely and wirelessly sense and control, overcomes the defect that the traditional connecting piece needs to be disassembled manually to bring a plurality of inconveniences, and utilizes the wireless transmission technology to control the wireless transmission mode, thereby being convenient for remote use.

Description

Separated connecting piece controlled by wireless sensing

Technical Field

The invention belongs to the technical field of mechanical parts, and particularly relates to a separated connecting piece controlled by wireless sensing.

Background

The connector is very popular in daily life and various industries, besides the traditional fasteners such as bolts, screws, pins, keys and other mechanical fasteners, the existing connectors for connecting two objects together are very various in types, such as threads, buckles, clamping rings, magnets, hinges and the like, and the connectors are not detachable and manually detachable, but the connector which can be automatically detached and is applied to special occasions is not very common, and the gravity of the connector depends on the self weight of the connector, such as application number: CN108584686a, entitled an automatic unhooking device, which relies on gravity to complete automatic unhooking, and is applied to the hoisting field of cranes, etc., while the operation on sea or water surface is performed by using advanced ultrasonic control, infrared control, etc. with complex structure and high cost; in the common ground operation, for example, the arrangement of the measuring line, one end of the measuring line needs to be fixed on an object, the other end of the measuring line needs to be manually measured, and the measuring line is detached in situ after the measurement is completed, so that the wire is very troublesome to take up, and the measuring line needs to be manually detached when applied to a plurality of detachable connecting pieces. In the case of a distance work required to be lowered for one end outside the field and not returned in the way, such as to a hillside or the like, the safety rope is required to be fixed above, and after the safety rope is lowered, the safety rope is difficult to retrieve.

Disclosure of Invention

The invention aims to: aiming at the defects existing in the prior art, the invention aims to provide the separated connecting piece which has the advantages of simple structure, convenient operation and remote wireless sensing control, and overcomes the defects that the traditional connecting piece needs manual disassembly and brings a plurality of inconveniences.

The technical scheme is as follows: in order to achieve the above object, the present invention adopts the following technical scheme: a wireless sensing control separated connecting piece comprises a female connecting piece, a child connecting piece and an automatic locking assembly, wherein the female connecting piece is of a hollow structure with one end open or two ends open, a clamping groove is formed in the inner wall, and a first connecting head for realizing function expansion is arranged at one end; the sub-connector is inserted from the open end of the main connector; the secondary connecting piece is of a hollow structure with an opening at one end, a second connector for realizing function expansion is arranged at the outer end of the secondary connecting piece, an opening for the automatic locking component to enter and exit is arranged at one end of the secondary connecting piece, and the automatic locking component is positioned in the hollow structure of the secondary connecting piece; the automatic locking assembly comprises a locking mechanism which is matched and locked with a clamping groove on the inner wall of the female connecting piece, a driving assembly which drives the locking mechanism to move, a wireless controller which controls the driving assembly to start and stop, and a power supply device; the child connector is provided with a notch for the locking mechanism to enter and exit to be connected with and separated from the clamping groove on the inner wall of the parent connector.

Preferably, the driving component is a screw rod, a nut matched with the screw rod and a gear motor.

Preferably, the locking mechanism is a combination of a fixed wedge and a movable wedge, wherein the fixed wedge is arranged on the nut or is in an integrated structure with the nut, the movable wedge is positioned in a notch of the sub-connecting piece and is positioned on the fixed wedge, the fixed wedge is matched with an inclined plane of the movable wedge, and the size of the clamping groove corresponds to that of the movable wedge.

Preferably, the locking mechanism is a locking bar hinged on the nut and a spring connected to the end part of the locking bar and the nut, and the locking bar stretches out of the notch and is clamped into the clamping groove in the initial state of the spring to realize the connection of the main connecting piece and the sub connecting piece.

Preferably, the driving assembly is a combination of an electric telescopic rod, a fixed end and a gear motor, the fixed end is connected with the telescopic rod of the electric telescopic rod or integrally formed, the fixed wedge block is fixed on the fixed end or the locking bar is hinged with the fixed end, the end part of the locking bar is connected with the fixed end through a spring, and the locking bar stretches out from the opening in an initial state of the spring and is clamped into the clamping groove to realize connection of the female connecting piece and the sub connecting piece.

Preferably, the cross sections of the sub-connecting piece and the main connecting piece are circular ring-shaped with a tangent plane, the notch is arranged on the tangent plane of the sub-connecting piece, and the width of the notch is equal to the width of the tangent plane; the clamping groove is arranged on a tangential plane of the female connecting piece; the locking mechanism is a cam, and the diameter of the inner wall of the sub-connecting piece is equal to the maximum diameter of the cam; the cam is positioned at the notch; the driving assembly is a gear motor and a transmission shaft, the transmission shaft is connected with a cam, the cam rotates in a hollow structure of the sub-connecting piece under the driving of the gear motor, and when the cam rotates to a tangent plane, the protruding end of the cam stretches out of the notch to be matched with the clamping groove, so that the connection between the main connecting piece and the sub-connecting piece is realized.

Preferably, the number of the clamping grooves, the openings and the locking mechanisms is 1-4.

Preferably, 1-4 grooves penetrating through the inner wall of the female connecting piece are formed in the inner wall of the female connecting piece, and protruding ends sliding along the grooves are formed in the outer surfaces of the corresponding sub connecting pieces; or the end face of the main connecting piece is provided with a positioning line or a positioning mark, and the surface of the corresponding sub connecting piece is provided with a positioning line or a positioning mark.

Preferably, the open end of the sub-connector is further provided with a tail plug, the tail plug comprising an end portion and an extension portion, wherein the extension portion is inserted from the open end of the sub-connector and abuts against the automatic locking assembly, and the end portion is fixed with the open end of the sub-connector.

The beneficial effects are that: compared with the prior art, the invention has the following advantages:

the wireless controller is connected with the mobile terminal in a wireless connection mode, so that wireless remote control of personnel and the connecting piece is realized, the wireless remote control device is applicable to various occasions, manual disassembly is not needed, automatic disassembly and connection of wireless remote control can be realized, the battery can be automatically charged or replaced to meet the power requirement of a driving assembly, the operation is simple, the carrying is convenient, and the wireless remote control device is suitable for field staff. The female connecting piece has a simple structure, can be used for producing a plurality of female connecting pieces matched with a son connecting piece, can be discarded when in use, is a disposable product, and is suitable for being used in the field or other places without returning to the original place.

Drawings

Fig. 1 is a schematic structural view of a state in which a female connector 1 is separated from a male connector 2;

fig. 2 is a schematic structural view of the connection state of the female connector 1 and the male connector 2;

FIG. 3 is a schematic view of the structure of the connection of the female connector with the male connector;

FIG. 4 is a schematic view of a structure in which a female connector is separated from a male connector;

FIG. 5 is a schematic cross-sectional view showing the connection state of the female connector and the male connector according to the present invention;

FIG. 6 is a schematic cross-sectional structure of a state in which a female connector is separated from a male connector;

FIG. 7 is a three-dimensional schematic view of the exterior of the female connector and the male connector;

fig. 8 is a three-dimensional schematic of the external structure of the present invention.

Detailed Description

The invention is further elucidated below in connection with the accompanying drawings.

The utility model provides a wireless sensing control's disconnect-type connecting piece, includes female connecting piece 1, son connecting piece 2 and automatic locking subassembly, and female connecting piece 1 is the hollow structure of one end opening or both ends opening, and the inner wall is equipped with draw-in groove 3, and one end is provided with the first connector 6 that realizes the function extension; the sub-connector 2 is inserted from the open end of the main connector 1; the sub-connecting piece 2 is a hollow structure with an opening at one end, wherein the outer end of the sub-connecting piece 2, which is positioned at the female connecting piece 1, is provided with a second connector 7 for realizing function expansion, one end, which is positioned at the female connecting piece 1, is provided with an opening for the automatic locking component to enter and exit, and the automatic locking component is positioned in the hollow structure of the sub-connecting piece 2.

The automatic locking component comprises a locking mechanism which is matched and locked with the clamping groove 3 on the inner wall of the female connecting piece 1, a driving component which drives the locking mechanism to move, a wireless controller 5 which controls the driving component to start and stop, and a power supply device; the subsidiary connecting piece 2 is provided with a notch 4 for the locking mechanism to enter and exit to be connected with and separated from the clamping groove 3 on the inner wall of the main connecting piece 1.

The wireless controller 5 can be connected with the mobile receiving end in a wireless connection manner such as wifi or bluetooth, for example, an operator mobile phone, a controller, and the like. The operator can control wireless controller 5 to control drive assembly, and drive assembly drives locking mechanism and gets in and out from opening 4, and locking assembly stretches out opening 4 and gets into draw-in groove 3 of female connecting piece 1, realizes being connected with female connecting piece 1, and locking mechanism contracts to in opening 4, and sub-connecting piece 2 and female connecting piece 1 separation.

The locking mechanism, the driving assembly and the connection relation of the invention have various modes, including but not limited to the following modes:

in the first embodiment, as shown in fig. 1 and 2, fig. 1 is a schematic structural view of a state in which a female connector 1 is separated from a male connector 2, and fig. 2 is a schematic structural view of a state in which the female connector 1 is connected to the male connector 2. The driving assembly comprises a screw rod 11, a nut 12 matched with the screw rod 11 and a gear motor 13; the locking mechanism is composed of a fixed wedge 21 and a movable wedge 22, wherein the fixed wedge 21 is arranged on the nut 12 or is in an integrated structure with the nut 12, the movable wedge 22 is positioned in the notch 4 of the sub-connector 2 and is positioned on the fixed wedge 21, the fixed wedge 21 is matched with the inclined surface of the movable wedge 22, and the size of the clamping groove 3 corresponds to the size of the movable wedge 22. During operation, the female connector 1 and the sub connector 2 are in a separated state, as shown in fig. 1, at the moment, the wireless controller 5 is remotely controlled, the wireless controller 5 controls the gear motor 13 to rotate, the gear motor 13 rotates to drive the screw rod 11 to rotate, the screw rod 11 drives the nut 12 to move rightwards, the inclined plane of the fixed wedge 21 moves rightwards, at the moment, the movable wedge 22 positioned at the upper part of the fixed wedge 21 is upwards and slidably clamped into the clamping groove 3, and the female connector 1 is connected with the sub connector 2 as shown in fig. 2. In contrast, if the female connector 1 and the sub connector 2 need to be separated, the wireless controller 5 needs to be remotely controlled, the wireless controller 5 controls the gear motor 13 to rotate reversely, the screw rod 11 rotates reversely to drive the nut 12 to move leftwards, the movable wedge 22 moves downwards to slide out of the clamping groove 3, and the female connector 1 and the sub connector 2 are separated, and the final state is shown in fig. 1.

In the second embodiment, as shown in fig. 3 and 4, fig. 3 is a schematic structural diagram of connection between the female connector and the male connector, and fig. 4 is a schematic structural diagram of disconnection between the female connector and the male connector. Unlike the first embodiment, the locking mechanism comprises a locking bar 23 hinged on the nut 12 and a spring 24 connected with the end part of the locking bar 23 and the nut 12, the locking bar 23 stretches out of the notch 4 and is clamped into the clamping groove 3 in the initial state of the spring 24 to realize the connection of the female connector 1 and the sub connector 2, when the nut 12 moves rightwards, the spring 24 is compressed, the locking bar 23 descends under the driving of the spring 24 to be separated from the clamping groove 3, and the sub connector 2 is separated from the female connector 1.

The driving assembly in the first embodiment and the second embodiment may be a combination of an electric telescopic rod, a fixed end and a gear motor 13, the fixed end is connected with the telescopic rod of the electric telescopic rod or integrally formed, the fixed wedge 21 is fixed on the fixed end 15 or the locking bar 23 is hinged with the fixed end, the end of the locking bar 23 is connected with the fixed end through a spring 24, and the locking bar 23 extends out from the opening 4 and is clamped into the clamping groove 3 in an initial state of the spring 24 to realize connection between the female connector 1 and the sub connector 2.

In the third embodiment, unlike the above two embodiments, as shown in fig. 5, 6 and 7, fig. 5 is a schematic cross-sectional structure of the connection state of the female connector and the male connector according to the present invention; FIG. 6 is a schematic cross-sectional structure of a state in which a female connector is separated from a male connector; fig. 7 is a three-dimensional schematic view of the exterior of the female connector and the male connector. The cross sections of the sub-connecting piece 2 and the main connecting piece 1 are circular ring-shaped with a tangent plane, the notch 4 is arranged on the tangent plane of the sub-connecting piece 2, and the width of the notch 4 is equal to the width of the tangent plane; the clamping groove 3 is arranged on a tangential plane of the female connecting piece 1; the locking mechanism is a cam 25, and the diameter of the inner wall of the sub-connector 2 is equal to the maximum diameter of the cam 25; the cam 25 is positioned at the notch 4; the drive assembly is gear motor and transmission shaft 16, is connected with cam 25 on the transmission shaft 16, and cam 25 rotates in the hollow structure of son connecting piece 2 under gear motor's drive, and when cam 25 rotated the tangent plane, cam 25 protruding end stretches out opening 4 and draw-in groove 3 cooperation, realizes the connection of female connecting piece 1 and son connecting piece 2, and cam 25 continues to rotate then cam 25 protruding end rotates other positions of inner wall of son connecting piece 2, and female connecting piece 1 and son connecting piece 2 separation.

The number of the clamping grooves 3, the notches 4 and the locking mechanisms is not only one, but also can be 2-4, which are uniformly arranged, so that the locking effect is better, in order to accurately position the locking mechanisms and the clamping grooves 3 when the sub-connecting piece 2 is connected with the main connecting piece 1, as shown in fig. 8, 1-4 grooves 9 penetrating front and back are arranged on the inner wall of the main connecting piece 1, and the outer surface of the corresponding sub-connecting piece 2 is provided with a protruding end 10 sliding along the grooves 9; or the end face of the main connecting piece 1 is provided with a positioning line or a positioning mark, and the surface of the corresponding sub connecting piece 2 is provided with a positioning line or a positioning mark.

The power supply device is a storage battery, an electronic battery or a rechargeable battery, and if the power supply device is a rechargeable battery, a charging port, such as a USB interface or other charging ports, is arranged at one end of the sub-connector 2. In addition, a tail plug 8 is further arranged at the opening end of the sub-connecting piece 2, the tail plug 8 comprises an end 81 and an extension part 82, the extension part 82 is inserted from the opening end of the sub-connecting piece 2 and abuts against the automatic locking component, the end 81 is fixed with the opening end of the sub-connecting piece 2, and the tail plug 8 limits the automatic locking component and prevents the automatic locking component from shaking.

The first connector 6 of the female connector 1 is a connection end provided with external threads, and can be directly connected with the device or can be connected with an expanded intermediate connector, and in addition, the first connector 6 can also be a ring, a buckle, a magnet, a clamping device and the like connected with the device.

The second connector 7 of the sub-connection 2 is a connection end provided with external threads, which can be directly connected with the device or with an expanded intermediate connection piece, and the first connector 6 can also be a ring, a buckle, a magnet, a clamping device, etc. connected with the device.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims

1. A wireless sensing controlled disconnect-type connecting piece, its characterized in that: the novel multifunctional electric connector comprises a female connecting piece (1), a child connecting piece (2) and an automatic locking assembly, wherein the female connecting piece (1) is of a hollow structure with one end open or two ends open, a clamping groove (3) is formed in the inner wall, and a first connecting head (6) for realizing function expansion is arranged at one end; the son connecting piece (2) is inserted from the opening end of the mother connecting piece (1); the secondary connecting piece (2) is of a hollow structure with an opening at one end, wherein a second connector (7) for realizing function expansion is arranged at the outer end of the secondary connecting piece (2) positioned at the primary connecting piece (1), an opening for the automatic locking component to enter and exit is arranged at one end positioned in the primary connecting piece (1), and the automatic locking component is positioned in the hollow structure of the secondary connecting piece (2); the automatic locking assembly comprises a locking mechanism which is matched with the clamping groove (3) on the inner wall of the female connecting piece (1), a driving assembly which drives the locking mechanism to move, a wireless controller (5) which controls the driving assembly to start and stop, and a power supply device; the child connecting piece (2) is provided with a notch (4) for a locking mechanism to enter and exit to be connected with and separated from the clamping groove (3) on the inner wall of the parent connecting piece (1).

2. The wireless sensor controlled breakaway connector of claim 1, wherein: the driving assembly comprises a screw rod (11), a nut (12) matched with the screw rod (11) and a gear motor (13).

3. The wireless sensor controlled breakaway connector of claim 2, wherein: the locking mechanism is composed of a fixed wedge block (21) and a movable wedge block (22), wherein the fixed wedge block (21) is arranged on a nut (12) or is of an integrated structure with the nut (12), the movable wedge block (22) is positioned in a notch (4) of a sub-connecting piece (2) and is positioned on the fixed wedge block (21), the fixed wedge block (21) is matched with an inclined plane of the movable wedge block (22), and the clamping groove (3) corresponds to the movable wedge block (22) in size.

4. The wireless sensor controlled breakaway connector of claim 2, wherein: the locking mechanism comprises a locking bar (23) hinged on the nut (12) and a spring (24) connected to the end part of the locking bar (23) and the nut (12), wherein the locking bar (23) stretches out of the notch (4) and is clamped into the clamping groove (3) in an initial state of the spring (24) to realize connection of the main connecting piece (1) and the sub connecting piece (2).

5. The wireless sensor controlled breakaway connector of claim 2 or 3 or 4, wherein: the driving assembly is a combination of an electric telescopic rod, a fixed end and a gear motor (13), the fixed end is connected with the telescopic rod of the electric telescopic rod or is integrally formed, the fixed wedge block (21) is fixed on the fixed end or the locking bar (23) is hinged with the fixed end, the end part of the locking bar (23) is connected with the fixed end through a spring (24), and the locking bar (23) stretches out from the opening (4) to be clamped into the clamping groove (3) in an initial state of the spring (24) to realize connection of the female connecting piece (1) and the sub connecting piece (2).

6. The wireless sensor controlled breakaway connector of claim 1, wherein: the cross sections of the sub-connecting piece (2) and the main connecting piece (1) are circular with a tangent plane, the notch (4) is arranged on the tangent plane of the sub-connecting piece (2), and the width of the notch (4) is equal to the width of the tangent plane; the clamping groove (3) is arranged on a tangential plane of the female connecting piece (1); the locking mechanism is a cam (25), and the diameter of the inner wall of the sub-connecting piece (2) is equal to the maximum diameter of the cam (25); the cam (25) is positioned at the notch (4); the driving assembly is a gear motor and a transmission shaft (16), the transmission shaft (16) is connected with a cam (25), the cam (25) rotates in a hollow structure of the sub-connecting piece (2) under the drive of the gear motor, when the cam (25) rotates to a tangent plane, the protruding end of the cam (25) extends out of the notch (4) to be matched with the clamping groove (3), and the connection of the female connecting piece (1) and the sub-connecting piece (2) is realized.

7. The wireless sensor controlled breakaway connector of claim 1, wherein: the number of the clamping grooves (3), the openings (4) and the locking mechanisms is 1-4.

8. The wireless sensor controlled breakaway connector of claim 1, wherein: 1-4 grooves (9) penetrating front and back are formed in the inner wall of the female connecting piece (1), and protruding ends (10) sliding along the grooves (9) are formed in the outer surfaces of the corresponding sub connecting pieces (2); or the end face of the main connecting piece (1) is provided with a positioning line or a positioning mark, and the surface of the corresponding sub connecting piece (2) is provided with a positioning line or a positioning mark.

9. The wireless sensor controlled breakaway connector of claim 1, wherein: the open end of the sub-connector (2) is further provided with a tail plug (8), the tail plug (8) comprises an end part (81) and an extension part (82), the extension part (82) is inserted from the open end of the sub-connector (2) and abuts against the automatic locking assembly, and the end part (81) is fixed with the open end of the sub-connector (2).