CN107582350B - Breast enhancement instrument - Google Patents

Breast enhancement instrument Download PDF

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Publication number
CN107582350B
CN107582350B CN201710931026.1A CN201710931026A CN107582350B CN 107582350 B CN107582350 B CN 107582350B CN 201710931026 A CN201710931026 A CN 201710931026A CN 107582350 B CN107582350 B CN 107582350B
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conductive
cup
column
pipe
joint
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CN107582350A (en
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李继前
胡光耀
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Individual
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Individual
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Abstract

The invention discloses a breast enlargement apparatus, which comprises a main machine, a connecting conduit, a conductive multi-way joint and a cup assembly. The host computer can be connected with the connector of connecting pipe one end through connecing the electric seat with the vent column with pipe intercommunication and with the host computer conductive needle with the conductive post electricity of connecting pipe be connected, the connector of connecting pipe other end can be connected with one of them connecting pipe post that electrically conducts the multi-way joint with pipe and connect conductive needle electricity and be connected, other connecting pipe posts that electrically conducts the multi-way joint further can be connected with the cup subassembly through other connecting pipe that inserts to the cup in connect the electric tank with connect the multi-way pipe with the pump column intercommunication and connect conductive needle of joint and cup conductive needle electricity be connected, because host computer, connecting pipe, electrically conductive multi-way joint and cup subassembly are electrically conductive, the design of air guide integration, need not to introduce too much joint on the part, the wiring is convenient.

Description

Breast enhancement instrument
Technical Field
The invention relates to the field of beauty and health care equipment, in particular to a breast enlargement apparatus.
Background
With the development of science and technology, the society is advancing continuously, and people's living standard is higher and higher, and more people pay attention to health care, for example adopt the breast plumping instrument to build the body of chest. Most breast enlargement machines cover the breast with a cup, and negative pressure is formed in the cup to enlarge the suction of the breast. However, the traditional breast enlargement apparatus is complex in wiring, the guide pipe and the guide wire are arranged separately, especially the guide pipe joint and the guide wire joint are often arranged separately, the joints of the main body and the using end of the apparatus are more, the wires are more, the connection is complicated, the use is very inconvenient, and the situation of wrong connection can also occur during wiring, so that the normal use of the apparatus is affected.
Disclosure of Invention
Based on the above, it is necessary to provide a breast enlargement apparatus with simple and convenient wiring to solve the problem of complicated wiring of the traditional equipment.
The technical scheme for solving the technical problems is as follows.
A breast enlargement apparatus comprises a main machine, a connecting conduit, a conductive multi-way joint and a cup assembly;
the host comprises a host shell, a circuit board, a processor and an air extractor, wherein the circuit board, the processor and the air extractor are arranged in the host shell; the main machine shell is provided with a power receiving seat, the power receiving seat is provided with a main machine power receiving groove, a hollow ventilation column is arranged in the main machine power receiving groove, the ventilation column is communicated with an extraction opening of the air extractor, a main machine conductive needle is arranged around the periphery of the ventilation column in the main machine power receiving groove, the main machine conductive needle is electrically connected with the circuit board, and the processor is electrically connected with the air extractor and the circuit board;
the connecting conduit comprises a conduit and a connector; the guide pipe is provided with a hollow fluid channel, a wire is arranged in the pipe wall of the guide pipe in a penetrating way, and the wire extends along the pipe body; the connectors are arranged at two ends of the guide pipe, and conductive columns electrically connected with the wires are arranged in the connectors at each end;
The conductive multi-way joint comprises a multi-way pipe, a joint conductive needle and a conductive connecting piece; the multi-way pipe is provided with a plurality of connecting pipe columns with hollow tubular structures, the connecting pipe columns are communicated with each other, a conductive positioning seat is arranged on the connecting pipe column, and a conductive positioning hole is arranged on the conductive positioning seat; the joint conductive pin is arranged in the conductive positioning hole in a penetrating way; the conductive connecting piece is electrically connected with the joint conductive pins positioned on different connecting tubular columns;
the cup assembly comprises a cup body and a functional electric device arranged on the cup body; the cup body is provided with an air pressure cavity, one end of the air pressure cavity is opened to form an abutting joint, and the other end of the air pressure cavity is provided with an air extraction column communicated with the air pressure cavity; the cup assembly is provided with a cup electric connection groove around the air extraction column, the air extraction column penetrates through the cup electric connection groove, and a cup conductive needle is further arranged in the cup electric connection groove around the air extraction column; the functional electric device is electrically connected with the cup conductive pin;
the host can be connected through the electric connection seat with the connector of connecting pipe one end with the post of ventilating with pipe intercommunication and with the host conductive needle with the conductive post electricity of connecting pipe is connected, the connector of connecting pipe other end can with one of them connect tubular column of electrically conductive multi-way joint be connected with the pipe with multi-way pipe intercommunication and with the conductive post with connect conductive needle electricity and be connected, other connect tubular columns of electrically conductive multi-way joint further can pass through other inserts to connect the pipe with in the cup electric connection groove be connected with the cup subassembly with the multi-way pipe with the post intercommunication of bleeding and with connect conductive needle with the cup conductive needle electricity is connected.
In one embodiment, a damping device is arranged in the main machine shell, and the air extracting device is arranged above the damping device; and/or
A heat dissipation device is arranged in the main machine shell, and a heat dissipation hole is formed in the main machine shell corresponding to the heat dissipation device; and/or
The negative ion generator comprises a negative ion output port, the ventilation column is communicated with the negative ion output port, and the processor is electrically connected with the negative ion generator to control the operation and closing of the negative ion generator; and/or
The host shell is provided with a display screen and an input device; and/or
The bottom of the host shell is provided with an air inlet and outlet hole, and a sound insulation device and/or a filtering device are arranged in the air inlet and outlet hole.
In one embodiment, the connector comprises a fixing frame and a protective layer; one end of the fixing frame is abutted to the end part of the catheter, the other end of the fixing frame is a joint end, the fixing frame is provided with a hollow plug hole, the plug hole is communicated with the fluid channel, and a conductive column mounting position is arranged on the fixing frame; the conductive column is arranged in the conductive column installation position, one end of the conductive column is connected with the lead, and the other end of the conductive column is exposed out of the joint end of the fixing frame; the protective layer at least covers the butt joint area of the catheter and the fixing frame and the section where the lead and the conductive column are connected, and the fixing frame is connected with the catheter through the protective layer.
In one embodiment, the connector further comprises a gasket; the gasket is hollow, the gasket is arranged in the plug hole of the fixing frame, one end of the gasket is in butt joint with the end part of the catheter, and the other end of the gasket is exposed in the plug hole; the guide wire at the end of the catheter is located between the fixing frame and the protective layer or in the protective layer.
In one embodiment, the conductive positioning seat is sleeved on the connection pipe column, the outer periphery of the conductive positioning seat extends outwards to form a limiting ring, and a gap for the connector to be inserted is formed between the limiting ring and the corresponding connection pipe column.
In one embodiment, the conductive connection member is a PCB adapter plate, a conductive line is provided on the PCB adapter plate, and the connector conductive pins on different connection pipe columns are respectively connected with the conductive line on different sides of the PCB adapter plate.
In one embodiment, the conductive multi-way joint further includes a conductive mounting seat, a plurality of conductive mounting seats are provided on the conductive mounting seat, and a plurality of conductive mounting seats are respectively and correspondingly clamped on the connection pipe column provided with the conductive positioning seat and located at one side of the corresponding conductive positioning seat facing inwards; one end of the joint conductive pin penetrates through the conductive mounting hole, and the other end of the joint conductive pin penetrates through the conductive positioning hole.
In one embodiment, the cup assembly further comprises a cup assist mechanism mounted on the cup body; the cup auxiliary mechanism comprises a cup mounting shell and the functional electric device; the cup mounting shell is provided with a containing cavity and a sleeve joint communicated with the containing cavity, and the cup mounting shell penetrates through the air extraction column to be sleeved on the cup body; the cup mounting shell is provided with the cup electricity receiving groove.
In one embodiment, the cup auxiliary mechanism further comprises a filter element, wherein the filter element is arranged in the air extraction column, or in a connection area where the air extraction column is communicated with the air pressure cavity, or in a communication area where the air extraction column is connected with the air extraction device.
In one embodiment, the functional electrical device comprises a vibrator, and the vibrator is arranged on the cup body and is arranged close to the air extraction column;
the cup body is provided with a clamping groove, and the vibrator is arranged in the clamping groove.
In one embodiment, the plurality of vibrators are provided, correspondingly, the plurality of clamping grooves are provided, the plurality of clamping grooves are symmetrically distributed on the cup body, and the plurality of vibrators are respectively arranged in the plurality of clamping grooves;
The plurality of vibrators in the same cup body can vibrate in the same vibration direction.
In one embodiment, the functional electrical device includes an infrared light bead disposed toward a side of the air pressure chamber.
In one embodiment, the main machine conductive needle, the joint conductive needle and the cup conductive needle are elastic conductive needles with telescopic single ends, and one telescopic end is exposed.
In one embodiment, at least one of the connecting columns is a main connecting column, and the rest is branch connecting columns; the host is connected with the main connecting pipe column through a connecting pipe, and the branch connecting pipe column is connected with the cup assembly through a connecting pipe.
In one embodiment, the multi-way pipe is a three-way pipe, wherein one of the connecting pipe columns is a main connecting pipe column, the other two connecting pipe columns are branch connecting pipe columns, and accordingly, at least two cup assemblies are arranged.
In one embodiment, two groups of conductive pins are arranged in the main machine power receiving groove and on the main connecting pipe column, and a group of conductive pins are arranged in the branch connecting pipe column and the cup power receiving groove; four conductive pins are arranged in each group and are respectively used for connecting two conductive loops, and different functional electric devices are connected with different conductive loops through corresponding conductive pins;
The host is connected with the plurality of cup assemblies through the connecting guide pipe and the conductive multi-way joint.
The breast enlargement apparatus comprises a main machine, a connecting conduit, a conductive multi-way joint and a cup assembly. The host computer can be connected through the connector that connects electric seat and connecting pipe one end with the vent column with pipe intercommunication and with the host computer conductive needle with connect the conductive post electricity of pipe and be connected, the connector of connecting the pipe other end can be connected with one of them connecting pipe post that electrically conducts the multi-way joint with pipe and connect conductive needle electricity and be connected, other connecting pipe posts that electrically conducts the multi-way joint further can be connected with the cup subassembly through other connecting pipe that insert to cup connect the electric tank with connect multi-way pipe and the suction column intercommunication with connect conductive needle and cup conductive needle electricity and be connected, because host computer, connecting pipe, electrically conductive multi-way joint and cup subassembly are electrically conductive, the design of air guide integration, need not to introduce too much joint on the part, the wiring is convenient.
Drawings
FIG. 1 is a schematic diagram of a breast enlargement apparatus according to an embodiment;
FIG. 2 is a schematic diagram of an external structure of the host in FIG. 1;
FIG. 3 is a schematic view of the power socket of FIG. 2;
FIG. 4 is a schematic view of the power socket of FIG. 3 from another view;
FIG. 5 is a schematic diagram illustrating an internal structure of the host shown in FIG. 2;
FIG. 6 is a schematic view of the main structure of the connecting catheter in FIG. 1;
FIG. 7 is a schematic view in partial cross-section of the connecting conduit of FIG. 6;
FIG. 8 is a schematic cross-sectional structural view of the connecting conduit of FIG. 6 from another perspective;
FIG. 9 is a schematic view of a part of a fixing frame in the connecting duct of FIG. 6;
FIG. 10 is a schematic diagram of the overall structure of the conductive multi-way connector of FIG. 1;
FIG. 11 is a schematic view of the conductive multi-way connector of FIG. 10 from another perspective;
FIG. 12 is a cross-sectional view of the conductive multi-way junction shown in FIG. 10;
FIG. 13 is a schematic view of a portion of the conductive multi-way joint of FIG. 10 with the sheath removed;
FIG. 14 is an exploded view of the conductive multi-way connector of FIG. 10;
FIG. 15 is an exploded view of the conductive multi-way junction of FIG. 10 from another perspective;
FIG. 16 is a schematic view of the portion of the adjustment knob of the conductive multi-way connector of FIG. 10;
FIG. 17 is an assembled schematic view of the quick pressure regulator assembly of the adjustment knob portion of FIG. 16;
FIG. 18 is an exploded view of the adjustment knob portion of FIG. 16;
FIG. 19 is an exploded view of another view of the adjustment knob portion of FIG. 16;
FIG. 20 is a schematic view of the construction of the cup assembly of FIG. 1;
FIG. 21 is a schematic cross-sectional structural view of the cup assembly of FIG. 20;
FIG. 22 is a schematic view of the cup assembly of FIG. 20 from another perspective;
FIG. 23 is a schematic view of the cup body and vibrator of FIG. 20;
FIG. 24 is a schematic view of the support stand of FIG. 20;
FIG. 25 is a schematic view of the abutment collar of FIG. 20;
FIG. 26 is a schematic view of the cup mounting housing of FIG. 20;
FIG. 27 is a schematic top view of the cup mounting housing of FIG. 26;
fig. 28 is a schematic structural view of the cup mounting housing of fig. 26 from another perspective.
Detailed Description
In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.
As shown in fig. 1, the breast enlargement apparatus 10 of one embodiment includes a main machine 100, a connecting conduit 200, a conductive multi-way connector 300, and a cup assembly 400.
Referring to fig. 2 to 5, the host 100 includes a host housing 110, and a processor 120, a circuit board 130 and an air extractor 140 disposed in the host housing. The processor 120 is electrically connected with the circuit board 130 and the air extractor 140, and the processor 120 controls the air extractor 140 to be turned on and off. The host shell 110 is provided with a power receiving seat 111, the power receiving seat 111 is provided with a host power receiving groove 1112, a hollow ventilation column 1114 is arranged in the host power receiving groove 1112, the ventilation column 1114 is communicated with a pumping hole of the pumping device 140, a host conductive needle 1116 is arranged around the periphery of the ventilation column 1114 in the host power receiving groove 1112, and the host conductive needle 1116 is electrically connected with the circuit board 130.
In an alternative embodiment, the inner wall of the main electrical connection slot 1112 is provided with a positioning protrusion 1118, and accordingly, the end of the connecting conduit 200 connected to the main electrical connection slot is provided with a positioning slot (specifically, see later) that can be matched with the positioning protrusion 1118, so that the connecting conduit 200 can be conveniently connected to the electrical connection seat 111 at a specific angle and fixed, and the dislocation between the main electrical conductor 1116 and the wire contact on the connecting conduit 200 is prevented, so as to ensure the communication of the circuit.
Alternatively, as in the illustrated embodiment, there are multiple host conductive pins 1116, and the multiple host conductive pins 1116 may be divided into multiple groups, each connected to a different control circuit in the circuit board 130. Further, the number of host pins 1116 per set needs to be guaranteed to be at least available for connecting one conductive loop. In one specific embodiment, the number of the host conductive pins 1116 is 8, the 8 host conductive pins 1116 are equally divided into two groups, and are respectively connected with different control circuits in the circuit board 130, wherein one group of 4 host conductive pins 1116 is used for connecting with one cup assembly 400, two host conductive pins 1116 are used for connecting with infrared lamp beads in the cup assembly 400, and the other two host conductive pins 1116 are used for connecting with vibrators in the cup assembly 400; another set of 4 host conductive pins 1116 is similarly used to connect to another cup assembly 400.
In an alternative embodiment, the host housing 110 is provided with a display 112 and an input device 113. In one particular embodiment, the host housing 110 has a display and keys disposed thereon; in another specific embodiment, the host housing 110 is provided with a touch display, and in this embodiment, the input device 113 includes the display itself and may also include physical keys.
In an alternative embodiment, the outer surface of the host housing 110 is streamlined to make the host 100 more aesthetically pleasing.
In an alternative embodiment, the host housing 110 is provided with a handle 114 to facilitate carrying and carrying of the host 100. Further, the handle 114 is optionally integrally designed with the main housing 110, which facilitates manufacturing and shaping and also provides a more attractive appearance. Still further, the handle 114 may optionally be surface treated, such as by sanding, adding ribs, etc., to improve the handle of the pull, and also to prevent slippage.
In an alternative embodiment, the bottom cover 115 of the main body case is provided with an air inlet and outlet hole 1151. Further, optionally, a sound insulator 1152 is disposed within the air inlet and outlet port 1151. Specifically, the sound isolation device 1152 may be, but is not limited to, a sponge, a soundproof cotton, and the like. Still further, optionally, a filter 1153 is disposed within the access port 1151. Specifically, the filtering device 1153 may be, but is not limited to, a sponge, a filter mesh, an activated carbon filter, and the like. In a specific embodiment, the air inlet and outlet holes 1151 are adhered with a sponge sheet, which can reduce wind noise generated during air suction and air discharge, and can also play a role in filtering dust, so as to prevent dust from entering the inside of the main machine 100, the air suction device 140 and even entering the cup assembly 400 along with the air passage.
Alternatively, suction device 140 may be, but is not limited to, a vacuum pump, suction fan, or the like. In one particular embodiment, the suction device 140 is a vacuum pump. In an alternative embodiment, the air extraction device 140 is wrapped with soundproof cotton to reduce the operating noise of the air extraction device 140. In an alternative embodiment, the air exhaust device 140 is provided with an air release valve 141, and the processor 120 is electrically connected to the air release valve 141 to control opening and closing of the air release valve 141.
In an alternative embodiment, the main housing 110 has a shock absorbing device 150 disposed therein, and the air extracting device 140 is disposed above the shock absorbing device 150. The shock absorbing device 150 may be, but is not limited to, a rubber pad, an inflatable cushion, a spring cushion bracket, etc. In one particular embodiment, the shock absorbing device 150 is a high damping silicone cushion.
In an alternative embodiment, the heat dissipation device 160 is disposed in the main housing 110, and the heat dissipation hole 116 is disposed on the main housing 110 corresponding to the heat dissipation device 160. Alternatively, heat sink 160 may be, but is not limited to, an electric fan, a heat pipe, or the like. In one embodiment, the heat dissipation device 160 is an electric fan.
In an alternative embodiment, a negative ion generator 170 is disposed within the main housing 110, the negative ion generator 170 including a negative ion output 171, and the vent posts 1114 in communication with the negative ion output 171. The processor 120 is electrically connected to the negative ion generator 170 to control the operation and the shutdown of the negative ion generator 170.
In an alternative embodiment, the host 100 is provided with an infrared sensing device 180, the processor 120 is electrically connected to the infrared sensing device 180, and the peripheral remote controller can control the host 100 through the infrared sensing device 180.
By arranging the electricity-connecting seat 111 with electricity and air conduction on the host shell 110, when the instrument is used, the air conduction and electricity conduction devices can be simultaneously connected through the electricity-connecting seat 111, so that the number of interfaces on the host 100 is reduced, and the connection operation is convenient.
Referring to fig. 6, 7 and 8, in the present embodiment, the connection conduit 200 includes a conduit 210 and a connector 220.
The catheter 210 includes a body and a wire 213, and is a conductive, fluid-conducting, multi-functional catheter. Specifically, the tube body has a hollow cylindrical structure, and the hollow portion is a fluid channel 212 for air flow. The wire 213 penetrates the pipe wall 211 of the pipe body and extends along the pipe body, and two ends of the wire 213 are respectively exposed at two ends of the pipe body for directly or indirectly connecting with an external circuit of the electric mechanism.
The pipe body is preferably a soft rubber pipe, has good insulativity, can be conveniently bent for use or placed, and is convenient for use and storage. Further, the inner diameter of the pipe body is preferably 6+/-1 mm, so that the gas flow requirement can be met. The outer diameter of the pipe body is preferably 11+/-2 mm, the thickness requirement of the buried wire 213 in the pipe wall 211 can be met, meanwhile, the wire 213 has good conductive stability and is not easy to damage, the whole wall thickness is minimized to further reduce the volume, raw materials are saved, the production cost is reduced, and the appearance is concise.
Further, in a specific embodiment, the eight wires 213 are divided into two groups, each group is four, each wire 213 is individually inserted into the tube wall 211, the eight wires 213 are arranged in parallel at intervals in the tube wall 211 of the tube body, and the two groups of wires 213 are respectively located at two sides of the tube body and are arranged oppositely, so that each group of wires 213 is respectively connected with an external circuit of a different electricity utilization mechanism.
In other embodiments, the wires 213 may be provided in one, two, three or more as desired. When the number of the wires 213 is plural, the plural wires 213 are disposed in parallel at intervals in the wall 211 of the pipe body. The plurality of wires 213 can be divided into a plurality of groups according to the requirement, and at least two groups of wires 213 can be oppositely arranged at two sides of the tube body, so that each group of wires 213 is connected with external circuits of different power utilization mechanisms respectively. Preferably, eight wires 213 are provided in each catheter 210.
Referring to fig. 15, the connector 220 includes a fixing frame 221 and a conductive post 222.
The fixing frame 221 is preferably a hollow cylinder structure, one end of the fixing frame 221 is abutted with the end of the pipe body, and the other end of the fixing frame 221 is a joint end for matching with the host 100 or the conductive multi-way joint 300. The hollow part of the fixing frame 221 is a plug hole 223, the plug hole 223 is used for being connected with a ventilation column 1114 on the host 100 or a connection column 111 on the conductive multi-way joint 300, and the plug hole 223 is communicated with the fluid channel 212 of the pipe body. The outer wall of the fixing frame 221 is provided with a conductive column mounting hole 224 around the plug hole 223 at the joint end for mounting and fixing the conductive column 222, so as to realize the contact stability between the electrical contact of the conductive column 222 and the conductive needle 120 and ensure the stability of the energizing effect. Preferably, the inner diameter of the fixing frame 221 is 12±1mm, and the outer diameter may be 20±1mm. In other embodiments, the dimensions of the mount 221 may also be adjusted as desired.
It will be appreciated that in other embodiments, the conductive post mounting holes 224 may be replaced by conductive post mounting locations such as conductive post detents provided on the outer wall of the mount 221, the conductive post mounting locations may extend around the entire outer wall of the mount 221, or may be located in the middle of the mount 221 to the connector end.
Preferably, the fixing frame 221 may be made of hard plastic, which has good insulation, and can ensure that the plugging hole 223 has plugging stability and is not easy to deform, and meanwhile, the installation stability of the conductive column 222 can be ensured, so that the mechanical strength of the whole structure is improved.
Preferably, ten conductive post mounting holes 224 on the fixing frame 221 are arranged, and ten conductive post mounting holes 224 are sequentially arranged around the periphery of the fixing frame 221 at intervals, and the number of the conductive post mounting holes 224 is preferably not less than the number of the conductive posts 222, so as to meet the requirements of the number of the conductive post mounting holes 224 and the arrangement positions. In other embodiments, the number of conductive post mounting holes 224 and the size of the holes may be configured according to actual needs.
Further, the fixing frame 221 is provided with a positioning groove 225, and the positioning groove 225 is preferably located between two adjacent conductive post mounting holes 224, so as to facilitate effective positioning during plugging, improve plugging efficiency, for example, the positioning groove is matched with a positioning protrusion 1118 in the power socket 111, and for example, the positioning groove is matched with a corresponding positioning structure in the conductive multi-way connector 300 and the cup assembly 400.
Further, a buffer slot 226 is provided on the outer wall of the fixing frame 221 corresponding to the lower portion of the conductive post mounting hole 224 to increase the contact area with the encapsulation layer 227, improve the effectiveness and connection strength of the encapsulation layer 227 to the coating of the conductive wire 212 and the conductive post 222, and further prevent the conductive wire 212 from being damaged.
Referring to fig. 13, the conductive post 222 is mounted in the conductive post mounting hole 224, and one end of the conductive post 222 is connected with the wire 213 in the tube wall 211, and the other end of the conductive post 222 protrudes out of the connector end of the fixing frame 221 for connecting with an external circuit of the electric mechanism. Preferably, the conductive posts 222 are conductive copper posts that are soldered to the ends of the wires 212 to improve the stability of the connection and thus the stability of the electrical connection.
In a specific embodiment, the connection conduit 200 may be divided into a main connection conduit for connecting the main connection pipe column in the main machine 100 and the conductive multi-way joint 300 and a branch connection conduit for connecting the branch connection pipe column in the conductive multi-way joint 300 and the cup assembly 400 (see later in detail) according to the number of the conductive posts 222 in the connection head 220, and the branch connection conduit may branch the conductive loop for connecting the main connection conduit into a plurality of circuits. More specifically, in one embodiment, there are eight conductive posts 222 in the connector 220 at each end of the main connecting conduit, and the eight conductive posts 222 are arranged in parallel on the fixing frame 221, wherein four conductive posts 222 are arranged in one group, and two groups of conductive posts 222 are arranged opposite to each other on the fixing frame 221; the four conductive columns 222 in each connector 220 of the branch connecting conduits are sequentially adjacent to the same side of the fixing frame 221, and the conductive loops for connecting the main connecting conduits can be divided into two groups by the conductive multi-way connector 300 to be respectively conducted into the two branch connecting conduits and finally conducted into different cup assemblies 400.
In one embodiment, the connector 220 also includes a protective layer for further protecting the conductive lines 212 and the conductive posts 222 from damage. The protective layer is preferably an encapsulation layer 227 with a hardness less than the hardness of the mount 221 to enhance the touch.
Preferably, the encapsulation layer 227 extends from the end of the tube body of the conduit 210 to the end of the connector end of the fixing frame 221 and wraps the conductive post 222 protruding from the connector end, so that only the electrical contact of the conductive post 222 is exposed from the end face of the encapsulation layer 227, thereby improving the energizing effect, improving the plugging feel, and further protecting the conductive post 222 from being damaged easily. In other embodiments, the encapsulation layer 227 covers at least the area where the tube body and the fixing frame 221 are butted and the area where the conductive wire 212 and the conductive post 222 are connected, and connects the fixing frame 221 and the tube body through the encapsulation layer 227. The arrangement of the glue coating layer can realize that the protection wire 212 is not easy to be damaged, and can simultaneously improve the connection strength of the connector 220 and the catheter 210.
In addition, when the number of holes of the required conductive post mounting holes 224 is small, the fixing frame 221 may have a semi-cylindrical structure, for example, the fixing frame 221 having the above-mentioned cylindrical structure may be disposed in the main connecting duct, and the fixing frame 221 having a semi-cylindrical structure may be disposed in the branch connecting duct. When the fixing frame 221 has a semi-cylindrical structure, the fixing frame 221 can be directly buried in the encapsulation layer 227, and only the conductive column 222 is exposed, and the encapsulation layer 227 can form the plug hole 223 to be connected to the externally ventilated column.
Further, the encapsulation layer 227 is provided with anti-slip lines to improve the hand feeling of plugging. In addition, the glue wrapping layer 227 correspondingly wraps the outer wall of the positioning groove 225 on the fixing frame 221 and cooperatively retains the positioning groove 225.
In one embodiment, the connector 220 further includes a hollow washer 228. The gasket 228 may be made of plastic material having a hardness greater than that of the encapsulation layer 227, so as to enhance the stability of the overall structure during plugging, further prevent deformation, and enable the overall product to have stable and durable performance. The gasket 228 is hollow, the gasket 228 is arranged in the insertion hole 223 of the fixing frame 221, one end of the gasket 228 is in butt joint with the pipe body, and the other end is exposed in the insertion hole 223. The gasket 228 presses the wire 212 at the end of the tube body, and the section of the wire 212 connected to the conductive post 222 is located in the region between the fixing frame 221 and the encapsulation 227 or in the encapsulation 227 outside the gasket 228, to prevent the wire 212 exposed at the end of the tube body from being exposed in the insertion hole 224 or the fluid passage 212.
Further, the gasket 228 is further connected to the inner wall of the encapsulation layer 227 and cooperates with the encapsulation layer 227 to form a limiting groove, and the fixing frame 221 is inserted into the limiting groove, so as to improve the stability of the fixing frame 221.
The connecting conduit 200 comprises a conduit 210 and a connector 220, the connector 220 comprising a fixing frame 221, a conductive post 222, a gasket 228 and an encapsulation 227. In other embodiments, the connecting conduit 200 may be composed of only the fixing frame 221, the conductive post 222 and the conduit 210, where the connecting section of the conductive post 222 and the wire 213 can be hidden in the conductive post mounting hole 224 of the fixing frame 221. The connecting conduit 200 may further comprise a fixing frame 221, a conductive post 222, an encapsulation layer 227, and a conduit 210, where a connection section between the conductive post 222 and the conductive wire 213 can be hidden in the encapsulation layer 227. When the connecting catheter 200 is used for connecting two mechanisms in an instrument system, the phenomenon of disordered distribution of a connecting honeycomb duct, a line and the like in the instrument system can be effectively improved, an internal wire can be protected from being damaged by external force, and the assembly and use efficiency can be improved.
The host 100 of the present embodiment is connected to the connection conduit 200 through the power socket 111, and further can simultaneously realize ventilation and conductive connection with the cup assembly 400 via the conductive multi-way connector 300. The breast enlargement circuitry communicates with the contact via the main conductive needle 1116 with the conductive post 222 in the connecting conduit 200. The main machine power receiving groove 1112 is matched with the connector 220 in shape, and the connector 220 is connected into the main machine power receiving groove 1112 to realize the communication between the circuit and the air circuit. When the connector 220 is inserted into the power socket 111, the ventilation column 1113 is inserted into the connector 220, so that the air path can be better communicated, and the connecting conduit 200 can be more firmly connected to the power socket 111.
Referring to fig. 10, 11, 12 and 13, the conductive multi-way connector 300 includes a multi-way tube 310, a connector conductive pin 320 and a conductive connector 330.
Referring to fig. 14 and 15, the multi-way pipe 310 of the present embodiment has a plurality of connecting strings 311 having a hollow tubular structure. The plurality of connection strings 311 are connected to each other. The connection pipe column 311 is adapted to the connection head 220 and can be inserted into the connection head 220. At least two connecting columns 311 are provided with conductive positioning seats 312. The conductive positioning seat 312 is provided with a conductive positioning hole 313. The joint conductive pin 320 is installed in the conductive positioning hole 313 in a penetrating manner. Each conductive positioning hole 313 has a connector conductive pin 320 independently mounted therein. The conductive connection 330 electrically connects the connector pins 320 located on different connection strings 311. The conductive multi-way joint 300 not only can transfer the fluid flowing in one connecting pipe column 311 to other connecting pipe columns 311, for example, can divide the fluid into a plurality of connecting pipe columns 311 or realize fluid confluence, but also can transfer a conductive loop used for connection in one connecting pipe column 311 to other connecting pipe columns 311.
Specifically, in one embodiment, at least one of the plurality of connection strings 311 is a main connection string and the rest is a branch connection string. The main connecting pipe column is provided with a conductive positioning seat 312, and at least one branch connecting pipe column is also provided with a conductive positioning seat 312. Further, there are a plurality of branch connection columns provided with the conductive positioning seat 312, and the joint conductive pins 320 on the plurality of branch connection columns are electrically connected with the joint conductive pins 320 on the main connection column through the conductive connecting piece 330. Still further, the number of connector pins 320 mounted on each conductive nest 312 is required to ensure that at least one conductive loop can be connected, so that by providing a plurality of branch connection strings having conductive nest 312, the conductive loop for connection by the main connection string can be branched into multiple strands, which may originate from the connector pins 320 on the main connection string for connection to the same conductive loop or from the connector pins 320 on the main connection string for connection to different conductive loops.
If the branched multi-strand is derived from the connector conductive pins 320 on the main connecting string for connecting different conductive loops, correspondingly, the conductive positioning seats 312 on the main connecting string are provided with a plurality of groups of conductive positioning holes 313, preferably, the conductive positioning holes 313 on different branch connecting strings are respectively close to the conductive positioning holes 313 on different groups of the main connecting string, so that the conductive connector 320 is electrically connected with the connector conductive pins 320 on the main connecting string and the branch connecting string.
The joint conductive pins 320 on the branch connection pipe columns and the joint conductive pins 320 on the main connection pipe columns can be electrically connected through the same conductive connecting piece 330 or through different conductive connecting pieces 330, for example, the branches are the joint conductive pins 320 which are derived from the main connection pipe columns and are used for connecting the same conductive loop, and the joint conductive pins 320 on each branch connection pipe column and the joint conductive pins 320 on the main connection pipe columns can be electrically connected through the same conductive connecting piece 330; as another example, the multiple branches are connector pins 320 from the main connecting string for connecting different conductive loops, and the connector pins 320 on each branch connecting string and the connector pins 320 on the main connecting string may be electrically connected through different conductive connectors 330, or may be electrically connected through the same conductive connector 330, for example, different conductive lines may be provided on the conductive connector 330 to branch the connector pins 320 on the main connecting string into multiple branches for respectively electrically connecting with the connector pins 320 on different branch connecting strings.
In a more specific embodiment, the multi-way pipe 310 is a three-way pipe having three connecting pipes 311, wherein one connecting pipe 311 is a main connecting pipe, the other two connecting pipes are branch connecting pipes, the main connecting pipe is located between the two branch connecting pipes, and the main connecting pipe and the branch connecting pipe are provided with conductive positioning seats 312. In the particular embodiment shown in fig. 10, two branch connection strings communicate with a main connection string to form a T-shaped tee.
Further, in the embodiment shown in fig. 10, the conductive positioning seat 312 on the main connection string has two sets of conductive positioning holes 313. The two sets of conductive positioning holes 313 are oppositely disposed. The conductive positioning seats 312 on each branch connecting pipe column are respectively provided with a group of conductive positioning holes 313, and the conductive positioning holes 313 on two branch connecting pipe columns are positioned at two sides of the multi-way pipe 310 and respectively correspond to the two groups of conductive positioning holes 313 on the main connecting pipe column. The joint conductive pins 320 on the two branch connecting strings are connected with the two group of joint conductive pins 320 on the main connecting string through two independent conductive connecting pieces 330 positioned on two sides of the multi-way pipe.
Still further, in the embodiment shown in fig. 10, four conductive positioning holes 313 are formed as a group, and four joint conductive pins 320 installed in the four conductive positioning holes 313 are used to connect two conductive loops, so that eight joint conductive pins 320 on the main connection string are used to connect four conductive loops, and four joint conductive pins 320 on each branch connection string are used to connect two conductive loops. The multifunctional three-way connector not only can divide the fluid flowing in the main connecting pipe column into two streams, but also can branch the connector conductive needles 320 used for connecting four conductive loops on the main connecting pipe column to different branch connecting pipe columns.
As described above, the multiple strands branching from the main connection string may be the joint conductive pins 320 from the main connection string for connecting the same conductive loop, or may be the joint conductive pins 320 from the main connection string for connecting different conductive loops. When the multiple strands branching from the main connecting string originate from the joint conductive pins 320 on the main connecting string for connecting the same conductive loop, the conductive condition of the equipment connected to each branching connecting string can be synchronously controlled; when the multiple strands branching from the main connecting string originate from the connector pins 320 on the main connecting string for connecting different conductive loops, the conductivity of the equipment connected to each branching connecting string can be independently controlled.
In one embodiment, the conductive positioning seat 312 is sleeved on the connection pipe column 311. The outer periphery of the conductive positioning seat 312 extends outwardly to form a stop collar 314. A clearance 315 is provided between the stop collar 314 and the corresponding connection string 311 for insertion of the connection conduit 200. Further, in the embodiment shown in fig. 10, the connecting string 311 sleeved with the conductive positioning seat 312 has its axial direction perpendicular to the conductive positioning seat 312 thereon. The inner wall of the limiting ring 314 is provided with a positioning protrusion 316 to accurately position the connector 220 of the connecting catheter 200. The connecting pipe column 311 and the conductive positioning seat 312 are preferably integrally formed.
In one embodiment, the conductive connection 330 is a PCB interposer. The PCB adapter plate 330 is provided with conductive traces (not shown). The connector pins 320 on different connection columns 311 are connected to the conductive traces on different sides of the PCB adapter plate, respectively. Preferably, the connector conductive pins 320 are directly and electrically connected to the conductive traces of the PCB interposer by soldering. In the embodiment shown in fig. 10, referring to fig. 13, the pcb adapter plate is placed on the multi-way pipe 310, specifically, inside the conductive positioning seat 312. Further, in the embodiment shown in fig. 10, there are two PCB adapter plates respectively located at two sides of the multi-way pipe 310 to electrically connect the main connection pipe columns located at two sides of the multi-way pipe 310 with the connector conductive pins 320 on the branch connection pipe columns, respectively. The connecting conductive pins 320 on the different conductive positioning seats 312 are connected through the PCB adapter plate, so that the connecting stability is better than that of the connecting conductive pins 320 through a wire and other connecting modes, the connecting conductive pins are more convenient to manufacture, one end of each connecting conductive pin 320 is welded with a conductive circuit of the PCB adapter plate, the effect of fixing the connecting conductive pins 320 from one end can be achieved, and other fixing elements are not needed to be used for fixing the connecting conductive pins 320.
In one embodiment, the conductive multi-way connector 300 further includes a conductive mount 340. The conductive mounting seat 340 is provided with a conductive mounting hole 341. The plurality of conductive mounting seats 340 are provided, and the plurality of conductive mounting seats 340 are respectively and correspondingly clamped on the connecting pipe column 311 provided with the conductive positioning seats 312 and positioned on one inward side (opposite to one end of the connecting pipe column 311 for connecting with the connecting pipe 200) of the corresponding conductive positioning seats 312. One end of the joint conductive pin 320 is installed in the conductive mounting hole 341 in a penetrating manner, and the other end passes through the conductive positioning hole 313. As in the embodiment shown in fig. 10, referring to fig. 13, 16 and 17, the connection string 311 is cylindrical, and accordingly, the conductive mount 340 is kidney-shaped to fit with the outer wall of the connection string 311 to be stably mounted on the connection string 311.
The multi-way pipe 310, the joint conductive needle 320 and the conductive connector 330 or the multi-way conductive joint 300 with the multi-way pipe 310, the joint conductive needle 320, the conductive connector 330 and the conductive mounting seat 340 can be independently used to realize the functions of turning, splitting, converging and the like of fluid and realize the switching, splitting and the like of current.
In one embodiment, the conductive multi-way junction 300 further includes a cladding 350. The coating 350 integrally coats the portion of the multi-way pipe 310 located inside the conductive positioning seat 312, the conductive connecting member 330, and the like. The cladding sleeve 350 is preferably a silicone sleeve, etc., and may be directly injection molded in a mold after the components such as the multi-way pipe 310, the joint conductive pin 320, the conductive connector 330, etc. described in any of the above embodiments are mounted. Further, in one embodiment, a sealing post 352 is provided on the wrap 350. The outer diameter of the seal post 352 is identical to the outer diameter of the connection string 311, but the seal post 352 is not in communication with the multi-way tube 310. Through setting up seal post 352, when the connecting catheter 200 other end that is connected with multi-way pipe 310 need not to be connected with external equipment, but the direct insertion cover is on this seal post 352, and need not to carry out other sealing treatment to it, convenient operation, the practicality is strong.
By adding the cladding sleeve 350 and the sealing post 352 on the conductive multi-way joint 300, the conductive multi-way joint 300 with the cladding sleeve 350 and the sealing post 352 structure can form a conductive multi-way joint with a self-sealing function, and the conductive multi-way joint with the self-sealing function can be independently used, can realize the functions, can also play a self-sealing function on one end of an external conduit, does not need to introduce other sealing elements, and has simple and convenient operation and strong applicability.
Referring to fig. 12, 16, 18 and 19, in one embodiment, the conductive multi-way junction 300 further includes a pneumatic adjustment assembly 360. The air pressure adjustment assembly 360 includes an adjustment string 361, an adjustment knob 362, a knob mounting post 363, and a first seal 364. The adjusting pipe column 361 is of a hollow tubular structure, and the adjusting pipe column 361 is communicated with the connecting pipe column 311 of the multi-way pipe 310. The pipe wall of the adjusting pipe column 361 is provided with an air hole 365. The adjustment knob 362 is fixedly connected to one end of the knob mounting post 363. The adjustment knob 362 is threadably coupled to the adjustment tube 361 by a knob mounting post 363. The first seal 364 is sleeved on the knob mounting post 363. When the knob installing column is screwed with the adjusting column thread, the knob installing column can be tightly abutted with the adjusting column to form a seal, and the first sealing ring is also abutted with the end part of the adjusting column in a sealing way. Along with the gradual unscrewing between knob erection column and the regulation tubular column, form the gap with the gas pocket intercommunication between knob erection column and the regulation tubular column and this gap can be along with increasing gradually.
Further, the air pressure regulating assembly 360 also includes a hollow connection tube holder 366. Connection tube holder 366 is fixedly disposed within adjustment tube column 361. Connection tube holder 366 has internal threads that mate with knob mounting post 363, and knob mounting post 363 is connected to adjustment tube 361 by threaded connection with connection tube holder 366. The air hole 365 simultaneously penetrates the wall of the adjusting pipe column 361 and the wall of the connecting pipe seat 366. The end of knob mounting post 363 is tapered and the inner wall of the inwardly facing end of connection tube holder 366 (i.e., the end facing multi-way tube 310) is tapered inwardly to accommodate it. When the knob mounting post 363 is screwed with the connection tube holder 366, the end of the knob mounting post 363 is in close contact with the inner wall of the connection tube holder 366 to form a seal. As the threads unscrew, a gap is formed between the end of the knob mounting post 363 and the inner wall of the connection tube socket 366 and gradually increases.
In the embodiment shown in fig. 10, the adjusting column 361 is disposed opposite to the main connecting column, and the adjusting column 361, the main connecting column, and the branch connecting columns form a cross-shaped structure after being communicated. Preferably, the adjusting pipe column 361 and the multi-way pipe 310 and the conductive positioning seat 312 on the multi-way pipe 310 are integrally formed with a plastic insulating structure. The connection tube seat 366 and the knob mounting post 363 are preferably made of metal or alloy materials with better wear resistance and high hardness, and particularly, the connection tube seat 366 and the end part of the knob mounting post 363 which are in sealing fit are made of materials with better wear resistance and high hardness, so that the tightness can be effectively ensured, and the abrasion or deformation after multiple operations can be prevented, so that the air tightness can be ensured.
Still further, in one embodiment, the adjustment knob 362 is a tube cap. The knob mounting post 363 is fixedly coupled to the cap portion of the adjustment knob 362. A limit baffle 367 is also arranged between the side wall of the adjusting knob 362 and the knob mounting post 363. The end of the adjustment tubular column 361 is provided with a limit post 368 protruding from the end. The limit posts 368, in cooperation with limit stops 367, may be used to limit the rotational adjustment range of the adjustment knob 362.
Further, by introducing the air pressure adjusting assembly 360 on the basis of the conductive multi-way joint 300, the conductive multi-way joint 300 with the air pressure adjusting assembly 360 forms a conductive multi-way joint with an air pressure adjusting function, and the conductive multi-way joint with other adjusting functions can be independently used, and can realize the functions, and also has the air pressure adjusting function, so that for the air joint, the air pressure of external equipment can be conveniently adjusted, and the operation is simple and convenient. The air pressure adjustment assembly 360 may be slowly adjusted in pressure by rotating the adjustment knob 362.
Referring to fig. 12, 14, 15 and 17, in one embodiment, the conductive multi-way connector 300 further includes a fast voltage regulator assembly 370. The quick adjustment assembly 370 includes a press cap 371, a connecting post 372, a sealing post 373, a spring 374, and a second seal 375. One end of the connection post 372 is fixedly provided at one side of the pressing cap 371, and the connection post 372 is a hollow cylindrical structure having an internal thread. One end of the sealing column 373 is provided with an external thread for threaded connection with the connecting column 372, and a second sealing ring 375 is sleeved on the other end of the sealing column 373. The knob mounting post 363 has a hollow tubular structure and is internally provided with a blocking ring (not shown). The connection post 372 is inserted into the knob mounting post 363 from one end of the knob mounting post 363 fixed to the adjustment knob 362, the spring 374 is provided between the connection post 372 and the blocking ring, and the sealing post 373 is inserted into the knob mounting post 363 from the other end of the knob mounting post 363 and is screwed with the connection post 372 after passing through the spring 374. The outer diameter of the connection post 372 and the portion of the sealing post 373 inserted into the knob mounting post 363 is smaller than the inner diameter of the knob mounting post 363. In a natural state, the spring 374 is in a compressed state, a gap is provided between the pressing cap 371 and the knob mounting post 363, and the second seal ring 375 abuts against an end portion of the knob mounting post 363 to seal an opening of the end portion. Pressing the pressing cap 371 along the axial direction of the knob mounting post 363 can drive the second seal ring 375 to be away from the end of the knob mounting post 363, and then can open the opening of the end, communicating the multi-way pipe 310 with the knob mounting post 363.
Further, in one embodiment, the circumference of the adjustment knob 362 is formed with a locating ring 376 extending outwardly. The positioning ring 376 and the side wall of the adjusting knob 362 are respectively located at two sides of the cap portion of the adjusting knob 362. Preferably, the retaining ring 376 is integrally formed with the adjustment knob 362. The inner wall of the positioning ring 376 is provided with positioning strips 377. The edge of the press cap 371 is provided with a positioning notch 378. The pressing cap 371 is located in a groove defined by the outer sides of the cap portions of the positioning ring 376 and the adjusting knob 362 and is positioned with the positioning bar 377 by the positioning notch 378.
Still further, in one embodiment, the adjustment knob 362 is provided with a stop protrusion 379 outwardly protruding from the end of the knob mounting post 363 about the outside of its cap. The stopper protrusion 379 serves to prevent the pressing cap 371 from coming into close contact with the end of the knob mounting post 363 to seal the end opening of the knob mounting post 363 when the pressing cap 371 is pressed.
Further, by introducing the rapid pressure regulating component 370 on the basis of the conductive multi-way joint 300 with the function of regulating air pressure, the conductive multi-way joint with the function of regulating air pressure can be formed, can be independently used, can realize the functions, and also has the function of rapidly regulating air pressure, so that for being used as an air joint, the rapid pressure regulating component can be pressed by one key, and is very convenient to use, and particularly has very strong applicability for equipment needing rapid pressure regulating.
The conductive multi-way connector 300 is provided with the conductive positioning seat 312 on the multi-way pipe 310, the connector conductive needle 320 can be installed in the conductive positioning seat 312, and the connector conductive needles 320 on different connecting pipe columns 311 of the multi-way pipe 310 can be electrically connected through the conductive connecting piece 330, so that the conductive switching can be realized while the switching of the conduit is realized. The conductive multi-way connector 300 can realize fluid conduction and conductive functions simultaneously, and the fluid conduction and conductive functions are not mutually influenced, but are combined together finely, and the problem of complicated wiring caused by separate connection of the conduit and the wire in the prior art can be solved by matching the conduit with the conductive functions simultaneously. By using the conductive multi-way connector 300, the wiring of the device can be optimized, so that the wiring and the use of the device are more convenient.
Referring to fig. 20 to 22, the cup assembly 400 includes a cup body 410 and a cup assistance mechanism.
Referring to fig. 23, the cup body 410 has an air pressure cavity 411, one end of the cup body 410 has an abutting port communicated with the air pressure cavity 411, and the other end has an air extraction column 412 communicated with the air pressure cavity 411.
In one embodiment, the cup body 410 preferably has a gradually narrowing structure from the abutting port to the end of the air extraction column, and is similar to a semicircle, and is mainly used for breast enlargement. Further, the end of the contact port of the cup body 410 has an outwardly extending contact flange 413 to increase the contact area between the cup body 410 and the skin and increase the adsorption force. Meanwhile, the abutting end face of the abutting flange 413 can be uneven so as to further fit the peripheral framework of the breast, and comfort is improved.
It will be appreciated that the cup body 410 may also be designed to have a plurality of different specifications according to the size of the woman's breast to meet the needs of different users and enhance comfort. In addition, in other embodiments, the main body of the cup body 410 may also have a cylindrical shape, a spherical shape, etc., and the application range may be further improved by adaptively adjusting the main body according to the structural characteristics of the body part, such as the back, the buttocks, the chest, the abdomen, etc.
In one embodiment, the cup body 410 is preferably transparent throughout to facilitate viewing of tissue skin conditions in real time during use. It will be appreciated that in other embodiments, the cup body 410 may be only partially transparent, which may be the light transmission area corresponding to the light emitting beads 440 and/or the area convenient for viewing the skin condition.
The air pumping column 412 is used for connecting an air pumping pipeline and an air pumping device to form negative pressure in the air pressure cavity 411 and absorb the cup body 410 and the whole cup assembly on the periphery of the breast and cover the breast, and the negative pressure state of the air pressure cavity 411 can promote the congestion of the breast, promote the blood circulation of the breast, promote the development of the breast and improve the breast enlarging effect. The exhaust pipeline is provided with an air pressure adjusting structure, and can be a conductive and air-guide integrated pipeline.
In one embodiment, the cup assistance mechanism includes a cup mounting housing 420. The cup mounting housing 420 can be sleeved on the cup body 410 through the air suction column 412.
In one embodiment, the suction post 412 of the cup body 410 is provided with a mounting post 414 at the end thereof for securing the cup mounting housing 420 to the cup body 410. Preferably, there are four mounting posts 414, and the four mounting posts 414 are symmetrically disposed about the axis of the suction post 412 to enhance the stability of the cup mounting housing 420 on the cup body 410. In other embodiments, there may be two, three, five, six, etc. mounting posts 414, and the plurality of mounting posts 414 may be symmetrically disposed about the axis of the suction post 412 or symmetrically disposed on the cup body 410. It is understood that in other embodiments, the placement and number of the mounting posts 414 may be adaptively adjusted according to the shape and size of the cup mounting housing 420 and the cup body 410. The cup mounting case 420 may be mounted on the end of the cup body 410 where the suction column is located by fastening or the like.
In one embodiment, the end of the suction column of the cup body 410 is further provided with a clamping groove (also referred to as a mounting position) 415 for arranging the vibrator 430, so as to further perform vibration massage on the breast, promote the blood circulation of the breast and improve the breast enlarging effect. Preferably, two clamping grooves 415 are provided, the two clamping grooves 415 are symmetrically distributed at the end of the air extraction column, and the vibration frequencies of the two vibrators 430 are overlapped by adjusting the installation directions of the two vibrators 430, so that the vibration massage effect of the vibrators 430 is further improved. The two clamping grooves 415 are respectively positioned between the mounting posts 414 to further save space and reduce the volume of the cup mounting shell 420. In addition, a shielding coating is provided on the inner wall of the cup body 410 in a region corresponding to the latching groove 415 to enhance the aesthetic property of the cup body 410.
In one embodiment, the cup assist mechanism includes a filter (not shown). The filter element may preferably be a sponge and/or adsorbent particles. The filter is used for being placed in the air extraction column 412 to adsorb impurities such as skin oil extracted in the process that the air pressure cavity 411 forms negative pressure, so that the diffusion of the impurities into the air extraction pipeline and the air extraction device is effectively avoided, and the service life of the whole device is prolonged.
Further, the filter may be mounted within the suction column 412 by a support bracket 416.
With further reference to fig. 24, the support frame 416 includes two hollow sleeves 4161 and a plurality of support bars 4162, wherein two ends of each support bar 4162 are respectively connected to the two hollow sleeves 4161, and the plurality of support bars 4162 are spaced apart along the circumferential direction of the hollow sleeves 4161. The support frame 416 can be supported by stainless steel, and is strong, firm and durable. In addition, the support strips 4162 may also be fine support wires, so long as the filter element is conveniently abutted against the inner wall of the air pumping column 412 to improve the filtering effect.
Further, four blocking plates 4163 for blocking the filter are disposed at two ends of the supporting frame 416, the four blocking plates 4163 are distributed at intervals at the end of the supporting frame 416, and one end of each blocking plate 4163 protrudes outwards to enable the supporting frame 416 to be clamped on the air extraction column 412, and the holding is convenient. In other embodiments, the number of the baffle plates 4163 on the support frame 416 may be adjusted according to needs, and may be one, or may be two, three, or more, wherein at least one end of the baffle plate 4163 protrudes outwards to enable the support frame 416 to be clamped on the air extraction column 412.
It will be appreciated that in other embodiments, the filter may be disposed in a connection area where the pumping column 412 is in communication with the air pressure chamber 411 or in a connection area where the pumping column 412 is in communication with the air pumping device, so long as the filter is capable of adsorbing volatile impurities such as various oils in the air pressure chamber 411.
In one embodiment, the cup assist mechanism includes an abutment collar 417. With further reference to fig. 25, the shape of the contact ring 417 contacts the cup body 410, and the contact ring 417 can be fastened to the contact flange 413 of the cup body 410 at the end of the contact port. The abutting collar 417 may be a silica gel cushion, soft and elastic, and can further improve comfort and sealing performance of the air pressure chamber 411, and can prevent the abutting flange 413 of the cup body 410 from being contaminated by grease, sweat, etc. of human skin, so as to facilitate cleaning of the cup body 410.
Referring further to fig. 26 to 28, the cup mounting case 420 includes a mounting portion 421 and a connecting portion 422.
The mounting portion 421 has a receiving cavity and a socket connected to the receiving cavity, and the receiving cavity is used for accommodating functional electrical devices such as the vibrator 430 and the light-emitting lamp bead 440. The functional electric device is arranged in the accommodating cavity of the cup mounting shell 420, so that the whole cup assembly is compact in structure, saves volume, develops toward the miniaturization direction, and is attractive and elegant.
The mounting portion 421 has an annular flange 4211 extending toward the outside of the socket to facilitate handling when the cup mounting housing 420 is mounted on the cup body 410.
Further, the mounting portion 421 is correspondingly provided with a mounting hole 4212 corresponding to the mounting post 414 on the cup body 410, and the cup mounting housing 420 can be fixed on the mounting post 414 through the mounting hole 4212 by a screw. The detachable mounting manner can facilitate independent assembly of the cup mounting housing 420 and the functional electrical devices disposed within the cup mounting housing 420 as separate components of the cup body 410.
The connection portion 422 is provided with a cup power receiving groove 4221 for supplying power to the functional electric device.
Further, a jack 4222 matched with the air extraction column 412 is arranged at the bottom in the cup power receiving groove 4221, and the jack 4222 is communicated with the accommodating cavity. The cup mounting shell 420 passes through the air extraction column 412 to be sleeved on the cup body 410, and the air extraction column 412 passes through the cup power receiving groove 4221, so that the volume of the cup mounting shell 420 can be remarkably reduced, the cup mounting shell 420 can be attached to the end of the cup body 410 where the air extraction column is located, the stacking placement of the whole cup assembly 400 is facilitated, the stability of the gravity center of the whole cup assembly 400 can be improved, and the whole cup assembly is convenient to integrally store, carry and transfer.
Further, the sidewall of the cup receiving slot 4221 is provided with a positioning protrusion 4223. Preferably, the positioning ribs 4223 are provided on the inner side wall of the cup receiving slot 4221 so that the connection head 220 connected to the tube 200 can be accurately positioned.
Further, the cup assist mechanism further includes a wiring board 423 for electrically connecting with the functional electric device. The circuit board 423 is fixedly arranged in the accommodating cavity of the mounting portion 421, and the cup conductive pins 450 of the circuit board 423 extend into the cup power receiving slots 4221. Preferably, the inner wall of the accommodating cavity of the mounting portion 421 is provided with a fixing column, the circuit board 423 is provided with a fixing hole, the circuit board 423 is fixed to the fixing column by a screw, and the fixing manner is convenient for replacing and maintaining the circuit board 423.
Further, the wiring board 423 is further provided with a wiring groove 4231, and the wiring groove 4231 is connected to a functional electric device such as a vibrator 430 via a wire.
Compared with the existing mechanism box installed below the side wall of the cup body, the mode that the cup installation shell 420 is directly installed at the end where the air extraction column of the cup body 410 is located can integrally move the gravity center of the cup auxiliary mechanism to the top end, so that the cup assembly can be stably placed, the cup assembly can be conveniently folded and placed, the occupied space in the placement process is small, and the cup assembly is integrally more convenient to carry.
In one embodiment, the cup assistance mechanism includes a vibrator 430. Vibrator 430, which is one of the functional electrical devices, has a vibratory massage effect on the body part. Vibrator 430 is disposed on cup body 410 and adjacent to suction post 412, and cup mounting housing 420 houses vibrator 430. Vibrator 430 is preferably a miniature motor, more preferably an eccentric vibration motor, and can save occupation space, and the noise is little, and the fixed mode is simple, light, and it is more comfortable to use, and vibrations massage effect is good.
Please further combine fig. 20, eccentric wheel vibration motor horizontal installation is in the screens groove 415 on cup body 410, and two eccentric wheel vibration motors all personally submit 45 equiangular tilt setting with the symmetry of two screens grooves 415 and can make vibration frequency stack, can form the turbine vibration ripple of same clockwise (four thick line arrow indication in fig. 20) in the horizontal direction, form balanced vibration ripple in the depth direction in cup body 410, form 360 three-dimensional space vibration modes promptly, it is obvious to break through the effect in acupuncture point, can further improve the effect of abundant breast massage.
It will be appreciated that the power, size and number of vibrators 430 may also be adjusted as desired. When the number of vibrators 430 is plural, the vibrators 430 may be symmetrically distributed around the air suction column 412 or along the circumferential direction of the cup body 410, and the vibrators 430 are disposed in the plurality of clamping grooves 415 in the same clockwise direction so that the vibrators 430 meet the appropriate vibration frequency requirement. And correspondingly adjusts the number and arrangement modes of the clamping grooves 415 on the cup body 410.
In addition, in other embodiments, the vibrator 430 may be disposed in the accommodating cavity of the cup mounting housing 420, for example, a mounting position for mounting the vibrator 430 is provided in the accommodating cavity or the vibrator 430 is directly mounted on the inner wall of the cup mounting housing 420, and at this time, the outer wall of the cup body 410 may be abutted against the inner wall of the cup mounting housing 420 to enhance the vibration massage effect.
In one embodiment, the cup assistance mechanism includes a light emitting bulb 440 for irradiating a body part to heat it. The light-emitting lamp beads 440 are one of the functional electrical devices, are disposed in the accommodating cavity of the cup mounting housing 420 and are disposed toward the side of the abutting port of the cup body 410, so that the light-emitting lamp beads 440 can vertically irradiate the breast and the like, and further promote the blood circulation of the breast. At this time, at least the end of the cup body 410 where the suction column is located is transparent.
Preferably, there are a plurality of the light emitting beads 440, the plurality of light emitting beads 440 are symmetrically arranged around the gas pumping column 410, or the plurality of light emitting beads 440 are arranged in a row. Further, when the light-emitting lamp beads 440 are arranged in multiple rows, at least two rows of light-emitting lamp beads 440 are disposed relatively in the accommodating cavity, so as to increase the light radiation range.
Further, the light-emitting lamp beads 440 are preferably infrared lamp beads, the light-emitting wavelength of the infrared lamp beads can be any wavelength in an infrared light range of 850nm, and the light-emitting power can be set according to requirements, so that the qi and blood circulation of breasts can be effectively improved, and no side effect is caused to a human body.
Further, the light-emitting lamp beads 440 are directly disposed on the circuit board 423. In other embodiments, the light-emitting beads 440 may also be fixed into the receiving cavity by a fixing plate in the form of a non-wiring board. At this time, the functional electric devices such as the light emitting lamp beads 440 and the vibrator 430 may be connected to the cup conductive pins 450 in the cup conductive grooves 4221 through wires.
The cup conductive pins 450 are disposed around the gas post 412 within the cup power receiving slots 4221. In a specific embodiment, each cup assembly 400 has four cup conductive pins 450, the four cup conductive pins 450 of each cup assembly 400 being respectively used for the conductive stud contact electrical connection of the branch connection conduit, the four cup conductive pins 450 being respectively used for connecting two conductive loops, specifically one for connecting the vibrator 430 and the other for connecting the light emitting lamp beads 440.
Further, in one embodiment, the main conductive pin 1116, the connector conductive pin 320 and the cup conductive pin 450 are single-ended flexible elastic connector conductive pins, and the flexible ends are exposed in corresponding electrical grooves (corresponding to the gaps 315 of the conductive multi-way connector) for the connectors 220 to be plugged.
In addition, a reflective coating may be provided on the inner wall of the cup mounting housing 420 to prevent light generated by the light emitting bulb 440 from being reflected in the direction of the air pressure chamber 411 to be directed toward the body part. Further, a decorative coating may be provided on the outer wall of the cup mounting housing 420 to shield the elements within the receiving cavity, improving aesthetics.
The cup assembly 400 includes the cup body 410 and a filter (not shown), the abutment collar 417, the cup mounting housing 420, the vibrator 430, the light emitting beads 440, and the like, and has an optimal effect on promoting qi and blood circulation in the breast as a whole. Meanwhile, the whole cup device or the cup assembly is compact in integral structure, convenient to firmly place, convenient to carry, light in weight, small in size and low in noise, various impurities in the air pressure cavity 411 can be adsorbed continuously in the use process, the impurities are prevented from being diffused into the air extraction pipeline and the air extraction device effectively, the breasts can be enlarged, and the qi and blood circulation of the breasts and other parts is promoted.
In other embodiments, the cup body 410 may be reasonably combined with the elements of the cup auxiliary mechanism to meet the needs of different situations. For example, the combination of the cup body 410 and the filter element may form a multi-functional cup assembly. As another example, the combination of the cup body 410 and vibrator 430 may form a vibratory massage cup apparatus. For another example, the combination of the cup body and the light emitting beads 440 may form a radiation cup assembly.
In a specific embodiment, the power socket 111 of the host 100 has two sets of host conductive pins 1116, where the two sets of host conductive pins 1116 are disposed opposite to each other, and each set of host conductive pins 1116 has four pins; the connectors 220 at two ends of the main connecting conduit are respectively provided with two groups of conductive posts 222, the two groups of conductive posts 222 are oppositely arranged, and each group of conductive posts 222 is provided with four; the connectors 220 at the two ends of the branch connecting conduit are provided with only one group of conductive posts 222, and each group of conductive posts 222 is provided with four; the multi-way pipe 110 of the conductive multi-way joint 300 is a three-way pipe, wherein the main connecting pipe column is provided with two groups of conductive pins 320, the two groups of conductive pins 320 are oppositely arranged, and each group of conductive pins 320 is provided with four groups of conductive pins; a group of conductive pins 320 are arranged on the two branch connecting pipe columns, and each group of conductive pins 320 is provided with four groups; at least two cup assemblies 400 are provided, and a group of cup conductive pins 450 are arranged in the cup receiving slots 4221 of each cup assembly 400, and four cup conductive pins 450 are respectively used for connecting two conductive loops, such as two of the cup conductive pins are used for connecting the vibrator 430, and the other two cup conductive pins are used for connecting the light-emitting lamp beads 440. In this embodiment, after the host 100 is connected to the conductive multi-way connector 300 through the main connection pipe and the two branch connection strings of the conductive multi-way connector 300 are connected to different cup assemblies 400 through the branch connection pipes, the host 100 can control four conductive loops, for example, each cup assembly 400 can be independently controlled, and the vibrator 430 and the light emitting lamp beads 440 can also be independently controlled.
The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.
The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (15)

1. The utility model provides a breast enlargement apparatus which is characterized in that the breast enlargement apparatus comprises a main machine, a connecting conduit, a conductive multi-way joint and a cup assembly;
the host comprises a host shell, a circuit board, a processor and an air extractor, wherein the circuit board, the processor and the air extractor are arranged in the host shell; the main machine shell is provided with a power receiving seat, the power receiving seat is provided with a main machine power receiving groove, a hollow ventilation column is arranged in the main machine power receiving groove, the ventilation column is communicated with an extraction opening of the air extractor, a main machine conductive needle is arranged around the periphery of the ventilation column in the main machine power receiving groove, the main machine conductive needle is electrically connected with the circuit board, and the processor is electrically connected with the air extractor and the circuit board;
The connecting conduit comprises a conduit and a connector; the guide pipe is provided with a hollow fluid channel, a guide wire is arranged in the pipe wall of the guide pipe in a penetrating way, and the guide wire extends along the pipe body of the guide pipe; the connectors are arranged at two ends of the guide pipe, and conductive columns electrically connected with the wires are arranged in the connectors at each end;
the conductive multi-way joint comprises a multi-way pipe, a joint conductive needle and a conductive connecting piece; the multi-way pipe is provided with a plurality of connecting pipe columns with hollow tubular structures, the connecting pipe columns are communicated with each other, a conductive positioning seat is arranged on the connecting pipe column, and a conductive positioning hole is arranged on the conductive positioning seat; the joint conductive pin is arranged in the conductive positioning hole in a penetrating way; the conductive connecting piece is electrically connected with the joint conductive pins positioned on different connecting tubular columns;
the cup assembly comprises a cup body and a functional electric device arranged on the cup body; the cup body is provided with an air pressure cavity, one end of the air pressure cavity is opened to form an abutting joint, and the other end of the air pressure cavity is provided with an air extraction column communicated with the air pressure cavity; the cup assembly is provided with a cup electric connection groove around the air extraction column, the air extraction column penetrates through the cup electric connection groove, and a cup conductive needle is further arranged in the cup electric connection groove around the air extraction column; the functional electric device is electrically connected with the cup conductive pin;
The host can be connected through the electric connection seat with the connector of connecting pipe one end with the post of ventilating with pipe intercommunication and with the host conductive needle with the conductive post electricity of connecting pipe is connected, the connector of connecting pipe other end can with one of them connect tubular column of electrically conductive multi-way joint be connected with the pipe with multi-way pipe intercommunication and with the conductive post with connect conductive needle electricity and be connected, other connect tubular columns of electrically conductive multi-way joint further can pass through other inserts to connect the pipe with in the cup electric connection groove be connected with the cup subassembly with the multi-way pipe with the post intercommunication of bleeding and with connect conductive needle with the cup conductive needle electricity is connected.
2. The breast enlargement apparatus according to claim 1, wherein a damping device is provided in the main body case, and the air extraction device is provided above the damping device; and/or
A heat dissipation device is arranged in the main machine shell, and a heat dissipation hole is formed in the main machine shell corresponding to the heat dissipation device; and/or
The negative ion generator comprises a negative ion output port, the ventilation column is communicated with the negative ion output port, and the processor is electrically connected with the negative ion generator to control the operation and closing of the negative ion generator; and/or
The host shell is provided with a display screen and an input device; and/or
The bottom of the host shell is provided with an air inlet and outlet hole, and a sound insulation device and/or a filtering device are arranged in the air inlet and outlet hole.
3. The breast enlargement apparatus according to claim 1, wherein the connector comprises a fixing frame and a protective layer; one end of the fixing frame is abutted to the end part of the catheter, the other end of the fixing frame is a joint end, the fixing frame is provided with a hollow plug hole, the plug hole is communicated with the fluid channel, and a conductive column mounting position is arranged on the fixing frame; the conductive column is arranged in the conductive column installation position, one end of the conductive column is connected with the lead, and the other end of the conductive column is exposed out of the joint end of the fixing frame; the protective layer at least covers the butt joint area of the catheter and the fixing frame and the section where the lead and the conductive column are connected, and the fixing frame is connected with the catheter through the protective layer.
4. The breast enlargement apparatus according to claim 3 wherein the connector further comprises a washer; the gasket is hollow, the gasket is arranged in the plug hole of the fixing frame, one end of the gasket is in butt joint with the end part of the catheter, and the other end of the gasket is exposed in the plug hole; the guide wire at the end of the catheter is located between the fixing frame and the protective layer or in the protective layer.
5. The breast enlargement apparatus according to claim 1, wherein the conductive positioning seat is sleeved on the connecting pipe column, and the outer periphery of the conductive positioning seat extends outwards to form a limiting ring, and a gap for the connector to be inserted is arranged between the limiting ring and the corresponding connecting pipe column.
6. The breast enlargement apparatus according to claim 1 wherein the conductive connector is a PCB adapter board, the PCB adapter board is provided with conductive lines, and connector conductive pins on different connecting strings are connected to the conductive lines on different sides of the PCB adapter board.
7. The breast enlargement apparatus according to claim 1, wherein the conductive multi-way connector further comprises a conductive mounting seat, a plurality of conductive mounting seats are provided on the conductive mounting seat, and a plurality of conductive mounting seats are respectively and correspondingly clamped on the connecting pipe column provided with the conductive positioning seat and are positioned on one side of the corresponding conductive positioning seat facing inwards; one end of the joint conductive pin penetrates through the conductive mounting hole, and the other end of the joint conductive pin penetrates through the conductive positioning hole.
8. The breast enlargement apparatus according to claim 1 wherein the cup assembly further comprises a cup assist mechanism mounted on the cup body; the cup auxiliary mechanism comprises a cup mounting shell and the functional electric device; the cup mounting shell is provided with a containing cavity and a sleeve joint communicated with the containing cavity, and the cup mounting shell penetrates through the air extraction column to be sleeved on the cup body; the cup mounting shell is provided with the cup electricity receiving groove.
9. The breast enlargement apparatus according to claim 8 wherein the cup assist mechanism further comprises a filter member disposed within the suction column, or within a connection region where the suction column communicates with the air pressure chamber, or within a communication region where the suction column communicates with the suction device.
10. The breast enlargement apparatus according to claim 1 wherein the functional electrical device comprises a vibrator disposed on the cup body and disposed adjacent to the suction column;
the cup body is provided with a clamping groove, and the vibrator is arranged in the clamping groove.
11. The breast enlargement apparatus according to claim 10, wherein there are a plurality of said vibrators, and correspondingly, there are a plurality of said detent grooves, a plurality of said detent grooves are symmetrically distributed on said cup body, and a plurality of said vibrators are respectively installed in a plurality of said detent grooves;
the plurality of vibrators in the same cup body can vibrate in the same vibration direction.
12. The breast enlargement apparatus according to claim 1, wherein the functional electrical device comprises infrared light beads disposed toward the side of the pneumatic chamber.
13. The breast enlargement apparatus of claim 1 wherein said main frame conductive needle, said connector conductive needle, and said cup conductive needle are single ended flexible elastic conductive needles with one end thereof being exposed.
14. The breast enlargement apparatus according to any one of claims 1-13 wherein the multi-way tube is a three-way tube, wherein one of the connecting strings is a main connecting string and the other two are branch connecting strings, and accordingly, the cup assemblies are at least two;
the host is connected with the main connecting pipe column through a connecting pipe, and the branch connecting pipe column is connected with the cup assembly through a connecting pipe.
15. The breast enlargement apparatus according to claim 14, wherein two groups of conductive pins are provided in the main machine power receiving groove and on the main connecting pipe column, and a group of conductive pins are provided in the branch connecting pipe column and the cup power receiving groove; four conductive pins are arranged in each group and are respectively used for connecting two conductive loops, and different functional electric devices are connected with different conductive loops through corresponding conductive pins;
the host is connected with the plurality of cup assemblies through the connecting guide pipe and the conductive multi-way joint.
CN201710931026.1A 2017-10-09 2017-10-09 Breast enhancement instrument Active CN107582350B (en)

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