CN213629206U - Multi-standby-connection assembly line quick connection structure - Google Patents

Abstract

The utility model relates to a water, electricity and gas connect technical field, concretely relates to treat more and connect subassembly circuit quick connect structure. The multi-to-be-connected component line quick connection structure comprises components to be connected, wherein at least two types of lines to be connected can be arranged in the components to be connected, and at least two types of components to be connected are arranged; including interior line meeting piece: for each type of line to be connected, the internal line junction piece is provided with a bus, at least two tapping lines are branched from the bus, the tail end of each tapping line is connected with the line to be connected in the assembly to be connected, and the front end of the internal line junction piece is provided with an integrated interface for collecting various buses; the external line junction comprises an external line junction piece, wherein the external line junction piece is provided with external line interfaces for accessing at least two external lines, and the front end of the external line junction piece is provided with an integrated interface capable of collecting various external lines; the internal line junction piece and the external line junction piece are in butt joint through integrated interfaces of the internal line junction piece and the external line junction piece, and then the to-be-connected circuit in each to-be-connected assembly is communicated with an external line. The connecting structure is convenient and fast to install.

Description

Multi-standby-connection assembly line quick connection structure

Technical Field

The utility model relates to a water, electricity and gas connect technical field, concretely relates to treat more and connect subassembly circuit quick connect structure.

Background

Many intelligent assemblies, for example, intelligent equipment, functional unit in the intelligent equipment all have the demand of using water, electricity and gas, consequently not only need lay water, electricity and gas circuit in intelligent assembly, but also need let water, electricity and gas circuit in the intelligent assembly connect water, electricity and gas supply unit, just can satisfy the demand that water, electricity and gas used. The water, electricity and gas supply component can be a direct supply component for generating water, electricity and gas, and can also be an intelligent component with the function of transmitting water, electricity and gas. At present, the common water, electricity and gas connecting mode is to connect water, electricity and gas circuits in two assemblies to be connected one by one, and the operation is complex.

SUMMERY OF THE UTILITY MODEL

The utility model provides a multicomponent water, electricity and gas quick connect structure, this kind of connection structure convenient and fast when the installation.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a multi-to-be-connected component line quick connection structure comprises components to be connected, wherein at least two types of lines to be connected can be arranged in the components to be connected, and the number of the components to be connected is at least two; including interior line meeting piece: for each type of line to be connected, the internal line junction piece is provided with a bus, at least two tapping lines are branched from the bus, the tail end of each tapping line is connected with the line to be connected in the assembly to be connected, and the front end of the internal line junction piece is provided with an integrated interface for collecting various buses; the external line junction comprises an external line junction piece, wherein the external line junction piece is provided with external line interfaces for accessing at least two external lines, and the front end of the external line junction piece is provided with an integrated interface capable of collecting various external lines; the internal line junction piece and the external line junction piece are in butt joint through integrated interfaces of the internal line junction piece and the external line junction piece, and then the to-be-connected circuit in each to-be-connected assembly is communicated with an external line.

Furthermore, the lines to be connected include a clean water pipe line, a sewage pipe line, a steam pipe line, an exhaust pipe line and an electric wire line, correspondingly, the inner wire junction piece includes the clean water pipe line, the sewage pipe line, the steam pipe line, the exhaust pipe line and the electric wire line, the integrated interface at the front end of the inner wire junction piece includes a clean water pipe interface, a sewage pipe interface, a steam pipe interface, an exhaust pipe interface and an electric wire interface, and correspondingly, the integrated interface at the front end of the outer wire junction piece includes the clean water pipe interface, the sewage pipe interface, the steam pipe interface, the exhaust pipe interface and the electric wire interface.

Furthermore, the two interfaces which are mutually butted are a male interface and a female interface.

Furthermore, blocking plates are arranged in the integrated interface at the front end of the internal wire junction piece and the integrated interface at the front end of the external wire junction piece, and the blocking plates separate the pipe interfaces from the wire interfaces.

Further, there are two to-be-connected components, and correspondingly, there are two tapping lines; at least one of the at least two lines to be connected in each component to be connected is a pipeline line, the internal line junction piece comprises a three-way pipeline, the main line is connected to a main interface of the three-way pipeline, and the two tapping lines are respectively connected to two tapping interfaces of the three-way pipeline.

Furthermore, at least two assemblies to be connected are respectively recessed, the recessed positions of the at least two assemblies to be connected are spliced to form an installation position for installing the inner wire junction piece and the outer wire junction piece, and the inner wire junction piece and the outer wire junction piece sink into the installation position, so that the inner wire junction piece and the outer wire junction piece are in butt joint through integrated interfaces of the inner wire junction piece and the outer wire junction piece.

Furthermore, the connecting device comprises a shell, wherein an opening is formed in one side of the shell, at least two components to be connected are arranged in the shell from the opening, and the components are spliced to form the mounting position after being arranged; the corresponding mounting position on the shell is provided with a mounting hole for the inner wire junction piece and the outer wire junction piece to sink into the mounting position.

Further, a first locking member and a second locking member are included, one of which is provided on the external wire junction member and the other of which is provided on the housing; the outer wire junction is positioned in the installation position by operating the first and second locking members to lock each other.

The first locking piece and the second locking piece are further included, one of the first locking piece and the second locking piece is arranged on the external line junction piece, and the other one of the first locking piece and the second locking piece is arranged on the component to be connected; the first locking member and the second locking member are locked to each other by operation, and the external wire junction member and the member to be connected are locked together.

Further, the first locking member is an insertion member, and the second locking member is an insertion hole into which the insertion members are operatively inserted to be locked to each other.

Further, the rotary rod is included, one end of the rotary rod is used as an operation part to be exposed for operation, the other end of the rotary rod is connected with the inserting piece, and the operation part is operated to rotate so as to drive the inserting piece to rotate and be inserted into the inserting hole.

Further, a rotating lever and an insert are provided inside the external wire junction member.

Furthermore, the rear end face of the operation part is exposed out of the back face of the shell of the external wire junction piece, and a non-circular hole for allowing an external tool to be inserted into the non-circular hole and then to rotate to drive the rotating rod to rotate is formed in the rear end face of the operation part.

Furthermore, an external connecting wire is arranged in the external connecting piece, one end of the external connecting wire is connected with the external interface, and the other end of the external connecting wire is connected with the integrated interface.

Further, each of the pending components includes the line disposed therein.

Has the advantages that: the utility model discloses an interior line tandem will be at least two treat that the at least two kinds in the subassembly are waited to connect the line and are connected and collect the integrated form kneck at interior line tandem, join the integrated form kneck of piece at the outside line at two kinds at least outside line tandem through the outside line, only need make interior line tandem and outside line tandem both dock through their integrated form interface and just can make each treat that the treating in the subassembly of connecting the line switch-on outside line, convenient and fast.

Drawings

FIG. 1 is a schematic diagram of a hydroelectric quick-connect of two assemblies to be connected;

FIG. 2 is a block diagram of the left-hand module of FIG. 1;

FIG. 3 is a schematic view of two pending components and an internal wire junction after installation;

FIG. 4 is a block diagram of the housing;

FIG. 5 is a schematic view of two components to be connected, an inner wire junction and an outer wire junction, after installation;

FIG. 6 is a block diagram of an interior wire junction;

FIG. 7 is a block diagram of an external line junction;

FIG. 8 is an internal block diagram of the interior wiring junction;

fig. 9 is a structural view of a rotating lever, an insertion block and a non-circular hole.

Detailed Description

The specific embodiments described herein are merely illustrative of the invention and are not intended to be limiting of the invention.

Fig. 1 shows a schematic diagram of a water, electricity and gas quick connection between two components to be connected (e.g., two large devices) 11 and 12, two water, electricity and gas lines 31 and 32 extend from an internal line junction 21, a through hole 111 (see fig. 2) is formed in a recessed portion of a housing of the component to be connected 11, and the component to be connected 12 is also the same. Two groups of water, electricity and gas circuits 31 and 32 are respectively inserted into two assemblies 11 and 12 to be connected from through holes 111 of the two assemblies 11 and 12 to be connected, then the two assemblies 11 and 12 to be connected are mutually close until being spliced together, the concave parts on the shells of the two assemblies 11 and 12 to be connected are spliced to form a mounting position 3 (shown in figure 3), at the moment, an inner wire splicing piece 21 sinks into the mounting position 3 (shown in figure 3 in the state, at the moment, the rear side of the mounting position 3 is open), then the water, electricity and gas circuits 31 and 32 which extend into the shells of the assemblies 11 and 12 to be connected are connected with the water, electricity and gas circuits in the assemblies 11 and 12 to be connected (hidden from view), then the spliced assemblies 11 and 12 to be connected are inserted into the shell 4 from an opening 41 of the shell 4, the relative positions of the two assemblies 11 and 12 to be connected are limited through the shell 4, and the two assemblies 11 and 12 to be connected are kept in a spliced state. As shown in fig. 4, the rear wall 42 of the housing 4 protrudes inside to form an abutting portion 44, the abutting portion 44 has a semi-cylindrical groove 43, and the split components 11 and 12 to be connected are inserted into the housing 4 from the opening 41 of the housing 4, so that the abutting portion 44 presses the internal wire junction member 21 in the mounting site 3 and just surrounds the rear opening of the mounting site 3, and the cross section of the mounting site 3 becomes a circle same as the cross section of the internal wire junction member 21. The top of the housing 4 is provided with a mounting opening 45 corresponding to the mounting position 3. The cylindrical outer junction piece 22 is installed into the installation position 3 from the circular installation opening 45 at the top of the shell 4, the integrated female connector 6 (shown in fig. 7) which is vertically downward in the outer junction piece 22 is butted with the integrated male connector 7 (shown in fig. 6) which is vertically upward in the inner junction piece 21, and finally the outer junction piece 22 is locked in the installation position 3 through a locking mechanism (the specific structure is explained below), so that the connection is completed, and the figure 5 is shown after the connection. As shown in fig. 1, a through hole 221 is formed in the top of the external junction piece 22, one end of an external connection line (not shown) is connected to an external interface (not shown), the external interface can be accessed by at least two external lines (for example, external water and electricity and gas supply lines), and the other end of the external connection line extends into the external junction piece 22 from the through hole 221 to connect to the integrated female interface 6, so that the water and electricity and gas lines 31 and 32 in the two assemblies to be connected 11 and 12 are communicated with the external lines through the internal junction piece 21 and the external junction piece 22.

The above-mentioned locking of the external wire junction 22 in the installation location 3 by means of the locking mechanism is described in detail below: the locking mechanisms are two, each locking mechanism is shown in fig. 9 and comprises a rotating rod 53, an inserting block 51 and a slot 46 (see fig. 4), the slot 46 is arranged on the side wall (the side wall of the mounting position 3) of the butt joint part 44 of the shell 4, the rotating rod 53 and the inserting piece 51 are arranged in the external wire junction piece 22, the front end of the rotating rod 53 is connected with the inserting piece 51, the rear end of the rotating rod 53 is used as an operating part, the rear end face of the operating part is provided with a non-circular hole 52, and the rear end face of the operating part is exposed out of the back face of the shell of the external wire junction piece 22 for. When the external wire junction piece 22 sinks into the installation position 3, the insertion block 51 in the external wire junction piece 22 is aligned with the slot 46 formed in the side wall of the installation position 3, then the internal angle wrench (external tool) is inserted into the noncircular hole 52, and then the internal angle wrench is rotated to drive the rotating rod 53 and the insertion block 51 at the bottom of the rotating rod 53 to rotate, so that the insertion block 51 is rotated from the shell of the external wire junction piece 22 and inserted into the slot 46 on the shell 4, and the external wire junction piece 22 is locked and positioned in the installation position 3.

The lines to be connected in the assemblies 11, 12 to be connected include clean water lines, sewage lines, steam lines, exhaust lines and electric lines, correspondingly, the inner line junction 21 includes clean water lines, sewage lines, steam lines, exhaust lines and electric lines, the integrated male connector 7 thereof integrates the interfaces of all the lines as shown in fig. 6, includes the mounting member 71 and the clean water male connector 72, the sewage male connector 73, the steam male connector 74, the exhaust male connector 75 and the electric line male connector 76 mounted on the mounting member 71, the external line connecting lines in the external line junction 22 respectively include clean water lines, sewage lines, steam lines, exhaust lines and electric lines, the integrated female connector 6 thereof integrates the interfaces of all the external connecting lines as shown in fig. 7, includes the mounting member 61 and the clean water female connector 62 mounted on the mounting member 61, A sewage pipe female interface 63, a steam pipe female interface 64, an exhaust pipe female interface 65 and an electric wire female interface 66. The male connectors 72, 73, 74, 75 of the pipes of the internal line junction 21 are sleeved with sealing rings 77, the male connectors 72, 73, 74, 75 of the pipes are respectively inserted into the female connectors 62, 63, 64, 65 of the pipes in the state that the integrated female connector 6 is butted with the integrated male connector 7, and the sealing rings 77 are positioned between the female connectors 62, 63, 64, 65 of the pipes and the corresponding male connectors 72, 73, 74, 75 of the pipes to form sealing. The wire male interface 76 plugs into the wire female interface 66 to form an electrical connection. As shown in fig. 6, the inner wire junction 21 is provided with a blocking plate 10 for separating the pipe joints 72, 73, 74, 75 and the wire joint 76, and if water leaks from the pipe joints 72, 73, 74, 75, the blocking plate 10 can prevent the leaked water from entering the wire joint 76. The outer wire junction 22 also has a barrier plate 10 disposed therein.

Because there are two assemblies 11, 12 to be connected, two tapping lines need to be branched from the corresponding line buses in the internal line junction 21 to connect the lines in the assemblies 11, 12 to be connected, specifically, as shown in fig. 8, the tail end of the male port 74 of the steam pipe is connected to the main port 81 in the tee pipe 8, the trunk 86 of the tee pipe 8 serves as the steam pipe bus in the external line junction 22, the two tapping ports 82, 83 in the tee pipe 8 are connected to the two steam tapping lines 84, 85, and the two steam tapping lines 84, 85 extend out toward the two assemblies 11, 12 (see fig. 1) to be connected, respectively. The clean water pipe male connector 72, the sewage pipe male connector 73 and the exhaust pipe male connector 75 are connected with two tapping lines through three-way pipelines, which are not described in detail. The wire male interface 76 includes two live wire interfaces 761, 762 (see fig. 6) and two zero line interfaces 763, 764 (see fig. 6), each of the live wire interfaces 761, 762 tail end is respectively connected with a wire (invisible due to shielding) as a live wire, each of the zero line interfaces 763, 764 tail end is respectively connected with a wire (invisible due to shielding) as a zero line, the wires are wrapped by the line bus 90 and then divided into two groups of wire tapping lines 91, 92 extending towards the two assemblies 11, 12 to be connected, and each group of wires includes a live wire and a zero line. As can be seen from the above, the pipes and wires extending toward the module to be connected 11 are used as the water and electricity line 31, and the pipes and wires extending toward the module to be connected 12 are used as the water and electricity line 32.

In the above embodiment, the slot 46 is opened on the side wall of the abutting portion 44 of the housing 4, and the rotating rod 53 and the inserting piece 51 are provided in the external wire junction 22, but the slot 46 may be opened on the side wall of the external wire junction 22, and the rotating rod 53 and the inserting piece 51 may be provided on the members to be connected 11 and 12 instead.

In the above embodiment, the assemblies 1 and 2 to be connected are large-scale devices, and the external line is an external water, electricity and gas supply source line, for example, the assemblies 1 and 2 to be connected may be large-scale devices, and the external line may be a line of another large-scale device.

The above is only the preferred embodiment of the present invention, the present invention is not limited to the above embodiment, there may be local minor structural modification in the implementation process, if it is right that various modifications or variations of the present invention do not depart from the spirit and scope of the present invention, and belong to the claims and the equivalent technical scope of the present invention, then the present invention is also intended to include these modifications and variations.

Claims (16)

1. The utility model provides a treat more and connect subassembly circuit quick connect structure, includes to treat and connects the subassembly, can establish at least two kinds in treating the subassembly and treat that the circuit, its characterized in that:

at least two components to be connected are provided;

including interior line meeting piece: for each type of line to be connected, the internal line junction piece is provided with a bus, at least two tapping lines are branched from the bus, the tail end of each tapping line is connected with the line to be connected in the assembly to be connected, and the front end of the internal line junction piece is provided with an integrated interface for collecting various buses;

the external line junction comprises an external line junction piece, wherein the external line junction piece is provided with external line interfaces for accessing at least two external lines, and the front end of the external line junction piece is provided with an integrated interface capable of collecting various external lines;

the internal line junction piece and the external line junction piece are in butt joint through integrated interfaces of the internal line junction piece and the external line junction piece, and then the to-be-connected circuit in each to-be-connected assembly is communicated with an external line.

2. The quick connection structure of multiple-to-be-connected component lines according to claim 1, wherein the lines to be connected include a clean water line, a sewage line, a steam line, an exhaust line and an electric line, and accordingly, the inner line junction includes a clean water line, a sewage line, a steam line, an exhaust line and an electric line, the integrated interface at the front end thereof includes a clean water pipe interface, a sewage pipe interface, a steam pipe interface, an exhaust pipe interface and an electric line, and correspondingly, the integrated interface at the front end of the outer line junction includes a clean water pipe interface, a sewage pipe interface, a steam pipe interface, an exhaust pipe interface and an electric line.

3. The quick connection structure for multi-standby module lines according to claim 1, wherein the two interfaces which are butted with each other are a male interface and a female interface.

4. The multi-module line quick connect configuration of claim 2, wherein a barrier plate is disposed within the integrated interface at the front end of the inner junction and within the integrated interface at the front end of the outer junction, the barrier plates separating the tube interface from the wire interface.

5. The multi-drop assembly line quick connect structure of claim 1, wherein: the number of the assemblies to be connected is two, and correspondingly, the number of the tapping lines is two; at least one of the at least two lines to be connected in each component to be connected is a pipeline line, the internal line junction piece comprises a three-way pipeline, the main line is connected to a main interface of the three-way pipeline, and the two tapping lines are respectively connected to two tapping interfaces of the three-way pipeline.

6. The quick connection structure for lines of multiple components to be connected according to claim 1, wherein at least two components to be connected are respectively recessed, and after the at least two components to be connected are spliced together, the recessed positions of the at least two components to be connected are spliced together to form a mounting position for mounting the inner line junction and the outer line junction, and the inner line junction and the outer line junction are sunk into the mounting position, so that the inner line junction and the outer line junction are butted through integrated interfaces of the inner line junction and the outer line junction.

7. The multi-drop assembly line quick connect structure of claim 6, wherein: the connecting device comprises a shell, wherein an opening is formed in one side of the shell, at least two components to be connected are arranged in the shell from the opening, and the components are spliced to form the mounting position after being arranged; the corresponding mounting position on the shell is provided with a mounting hole for the inner wire junction piece and the outer wire junction piece to sink into the mounting position.

8. The multi-drop assembly line quick connect structure of claim 7, wherein: the locking device comprises a first locking piece and a second locking piece, wherein one of the first locking piece and the second locking piece is arranged on the external wire junction piece, and the other one is arranged on the shell; the outer wire junction is positioned in the installation position by operating the first and second locking members to lock each other.

9. The multi-drop assembly line quick connect structure of claim 1, wherein: the device comprises a first locking piece and a second locking piece, wherein one of the first locking piece and the second locking piece is arranged on an external wire junction piece, and the other one is arranged on a component to be connected; the first locking member and the second locking member are locked to each other by operation, and the external wire junction member and the member to be connected are locked together.

10. A multi-ready module line quick connect structure as claimed in claim 8 or claim 9, wherein the first locking member is an insert and the second locking member is a socket into which the insert is operatively inserted to lock the insert to the socket.

11. The quick connection structure for multi-standby module lines according to claim 10, comprising a rotating rod, one end of the rotating rod is exposed as an operating part for operation, the other end of the rotating rod is connected with the insertion member, and the operating part is operated to rotate to drive the insertion member to rotate and insert into the insertion hole.

12. The multi-module line quick connect structure of claim 11, wherein the rotating lever and the insert are disposed within the external line junction.

13. The quick connection structure for multi-standby module lines according to claim 12, wherein the rear end surface of the operation portion is exposed to the back surface of the housing of the external line junction, and the rear end surface of the operation portion is provided with a non-circular hole for allowing an external tool to be inserted therein and then rotated to drive the rotation rod to rotate.

14. The quick connection structure of a multi-standby module line according to claim 1, wherein an external connection line is arranged in the external connection piece, one end of the external connection line is connected with the external interface, and the other end of the external connection line is connected with the integrated interface.

15. The quick connection structure of multi-connection-component lines as claimed in any one of claims 1 to 9 and 11 to 14, wherein each connection component comprises the line arranged therein.

16. The multi-connection-module line quick connect structure of claim 10, wherein each connection module includes the line disposed therein.

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