CN210186239U - Pulse stimulator consuming calories - Google Patents
Pulse stimulator consuming calories Download PDFInfo
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- CN210186239U CN210186239U CN201820859353.0U CN201820859353U CN210186239U CN 210186239 U CN210186239 U CN 210186239U CN 201820859353 U CN201820859353 U CN 201820859353U CN 210186239 U CN210186239 U CN 210186239U
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Abstract
A pulse stimulator consuming calories comprises a main machine and an electrode patch, and is characterized in that: the host computer provides 0.1mW/cm2‑0.25W/cm2And the pulse output intensity and the pulse output frequency of 0.1-60Hz, and the pulse is output to the electrode paste in a wired or wireless way, the electrode paste is a sticky electrode paste, or a binding electrode paste, or a wearable electrode paste, and a heating element is optionally arranged on the electrode paste. The utility model discloses an improvement of above-mentioned structure can be used to the electrode subsides of shank, also can be used to other positions, and its pulse output intensity is higher than conventional muscle stimulator, and pulse output frequency is than conventional muscle stimulatorThe low calorie compound essential oil has the advantages of low content, rhythmical and heavy stimulation on muscles, more calories consumed in unit time, obvious effects of exercising and losing weight, more calories consumed in unit time, fast and more sweating, good effects of exercising muscles and losing weight, and strong practicability.
Description
Technical Field
The utility model relates to a pulse stimulator consuming calories, in particular to a high-intensity pulse stimulator consuming calories for legs.
Background
The existing pulse stimulator is generally composed of a control host and an electrode patch attached to the skin, and in order to adapt to popularization and use of various parts of a human body, the pulse intensity output by the host is set to be low, so that the intensity of stimulated muscle groups is insufficient, the muscle exercising effect is poor, the calorie of the human body is consumed less, and the fat burning capacity is weak. For example, the pulse stimulator for exercising abdominal muscles has the advantages that the output pulse intensity of the main machine is limited by the organ bearing capacity of the abdomen, the exercising intensity of the abdominal muscles is limited, less calories are consumed within a limited time, no or little sweating is caused, and the effect of consuming calories is not ideal. In contrast, the muscles on the thighs are thick and strong and can withstand high-intensity pulses. The current low-frequency physiotherapy equipment on the market often has TENS + EMS (TENS stands for alleviating painful therapeutic instrument, EMS stands for the muscle stimulator that is used for taking exercises and recovers) function concurrently, for example the product that chinese patent number is 201630003398.4, this product is belly muscle exercise stimulator, it uses in order to adapt to the universalization and compromise other positions of human body, the pulse intensity upper limit of host computer output sets up lowly, the output frequency of host computer is on the high side in use experience, the product is bulky simultaneously, no heating, user experience is poor. Therefore, further improvements are necessary.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a calorie-consuming pulse stimulator which has simple and reasonable structure, excellent performance, convenient use, easy realization, safety and reliability, and overcomes the defects in the prior art.
The pulse stimulator for consuming calories designed according to the purpose comprises a host and an electrode patch, and is characterized in that: the host computer provides 0.1mW/cm2-0.25W/cm2And the pulse output intensity and the pulse output frequency of 0.1-60Hz, and the pulse is output to the electrode paste in a wired or wireless way, the electrode paste is a sticky electrode paste, or a binding electrode paste, or a wearable electrode paste, and a heating element is optionally arranged on the electrode paste.
The main machine is provided with a pulse output end and is connected with a connecting wire through the pulse output end, and the main machine outputs pulses to the electrode paste through the connecting wire.
The host comprises a function key, a face shell, a machine core and a bottom shell; wherein, the function key is made of hard or soft materials; the face shell is made of hard or soft materials and is provided with a window or area for displaying or indicating and a window or area for placing function keys; the machine core is fixed on the face shell or the bottom shell, a pulse output end is arranged on the machine core, and a plurality of electronic elements are arranged on the machine core; the bottom shell is made of hard or soft materials, an output hole matched with the pulse output end is formed in the bottom shell, and the bottom shell is fixedly connected with the face shell.
The connecting wire consists of a plug, a connecting wire and a connecting wire connector; wherein, the plug is connected with the pulse output end electric connection of core, and pulse output passes to the connecting wire connector through the line on, and the electrode subsides connector electric connection that the connecting wire connector set up with the electrode subsides to the electrode is pasted to the pulse is exported.
The host machine is provided with a host machine connector which is electrically connected with the electrode paste connector arranged on the electrode paste so as to output pulses to the electrode paste; the connection of the main machine and the electrode paste is split or integrated; and/or the host is provided with a remote control receiving device, and the pulse is output to the electrode paste through the remote control receiving device.
The host comprises a face shell, a machine core, a bottom shell and a host connector; wherein, the core is fixed on the face shell or the bottom shell and is provided with a pulse output end, and the core is also provided with a plurality of electronic elements; the face shell is made of hard or soft materials and is provided with a window or an area for displaying or indicating, and the face shell is fixedly connected with the bottom shell; the bottom shell is made of hard or soft materials and is provided with an output hole matched with the pulse output end; the host connector is made of hard or soft conductive materials and is electrically connected with the pulse output end, and the host connector is electrically connected with the electrode paste connector through a magnetic suction type, a snap button type, a pasting type or a plug-in type, so that the pulse is transmitted to the electrode paste.
The electrode paste is composed of an electrode paste connector, a surface layer, a conductive layer and conductive adhesive or conductive liquid; the electrode paste connector is made of hard or soft conductive materials, is arranged on the surface layer and is electrically connected with the conductive layer, and is electrically connected with the host machine through a magnetic suction type, a snap button type, an attaching type or a plug-in type so as to transmit pulse output; the surface layer is a carrier of the electrode paste and is made of soft insulating materials; the conducting layer is made of soft conducting materials and is electrically connected with the electrode paste connector, and the conducting layer is arranged on the surface layer through pasting, sewing, knitting or hot pressing; the conductive adhesive or the conductive liquid is made of conductive soft materials or liquid and is arranged on the conductive layer.
The electrode paste is a wearable electrode paste and consists of a wearable device and a conductive material; the host is provided with a host connector and is connected with the conductive material through the host connector, the conductive material is arranged on the wearing device, and the host transmits the pulse to the conductive material through the host connector; the host machine and the wearing device are connected into a split or integrated body; and/or the host is provided with a remote control receiving device, and the pulse is transmitted to the conductive material through the remote control receiving device.
The host comprises a face shell, a machine core, a bottom shell and a host connector; wherein, the movement is provided with a pulse output end and fixed on the bottom shell or the face shell, and the movement is also provided with a plurality of electronic elements; the face shell is made of hard or soft materials and is provided with a window or an area for displaying or indicating; the bottom shell is made of hard or soft materials and is fixedly connected with the face shell; the host connector is made of hard or soft conductive materials, is arranged on the bottom shell and is electrically connected with the pulse output end, and the host connector is electrically connected with the conductive materials so as to output pulses to the conductive materials.
The wearable device is made of elastic insulating materials; the conductive materials are fixedly arranged on the left inner side and the right inner side of the wearable device respectively in a sewing, knitting, hot pressing or pasting mode.
The utility model discloses an above-mentioned structure's improvement can be used to the electrode subsides of shank, also can be used to other positions, and the type of electrode subsides has viscidity electrode subsides, binding type electrode subsides, wearing formula electrode subsides, and the host computer provides 0.1mW/cm2-0.25W/cm2Pulse output intensity of (1) and 0.1-60HzThe pulse output frequency of (2).
Compared with the prior art, the method has the following advantages:
1. the host output frequency is lower than the conventional pulse frequency.
2. The designed electrode paste is very suitable for the thigh and can also be used for other parts, and the thigh muscle is far away from the five viscera and six entrails of the human body.
4. Does not need to buy high-price and large-volume fitness equipment.
5. The product has light weight, small volume and convenient collection and carrying, and can be used by users at any time and any place.
6. The product can also be added with a heating function, and the use experience of a user is further improved. And an external power supply can also be used for providing electric energy for the heating function.
In summary, the multifunctional electric heating cooker has the characteristics of simple and reasonable structure, excellent performance, convenience in use, easiness in implementation, safety, reliability and the like, and is high in practicability.
Drawings
Fig. 1 is a schematic view of an assembly structure according to a first embodiment of the present invention.
Fig. 2 is a schematic view of a connection line structure according to a first embodiment of the present invention.
Fig. 3 is a schematic exploded view of the host according to the first embodiment of the present invention.
Fig. 4 is a schematic view (front view) of an electrode paste assembly structure according to a first embodiment of the present invention.
Fig. 5 is a schematic view (back side) of an electrode paste assembly structure according to a first embodiment of the present invention.
Fig. 6 is an exploded view of the electrode paste according to the first embodiment of the present invention.
Fig. 7-9 are schematic exploded views of a plurality of application examples of the electrode paste according to the first embodiment of the present invention.
Fig. 10 is an assembly structure diagram of the second embodiment of the present invention.
Fig. 11 is an exploded schematic view of a host according to a second embodiment of the present invention.
Fig. 12 is an assembly structure diagram of the third embodiment of the present invention.
Fig. 13 is an exploded schematic view of a third embodiment of the present invention.
Fig. 14 is an exploded schematic view of a host according to a third embodiment of the present invention.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and examples.
First embodiment
Referring to fig. 1-9, the calorie-consuming pulse stimulator includes a main body and an electrode patch, and is characterized in that: the host computer provides 0.1mW/cm2-0.25W/cm2And the pulse output intensity and the pulse output frequency of 0.1-60Hz, and the pulse is output to the electrode paste in a wired or wireless way, the electrode paste is a sticky electrode paste, or a binding electrode paste, or a wearable electrode paste, and a heating element is optionally arranged on the electrode paste.
Furthermore, the host is provided with a pulse output end and is connected with a connecting wire 1 through the pulse output end, and the host outputs pulses to the electrode paste through the connecting wire 1.
Furthermore, the host comprises a function key 7, a face shell 4, a movement 5 and a bottom shell 6; the function key 7 consists of a key surface, a key sheet and a key frame, wherein the key surface consists of a plurality of plastic parts with buckling positions, each plastic part is fixed on the key frame and respectively corresponds to the key sheet and the tact switches arranged on the machine core one by one, the key sheet is made of soft rubber and is provided with a plurality of bosses, the bosses correspond to the tact switches arranged on the machine core one by one, the key frame is made of hard plastic and is provided with a plurality of buckling positions, and the key frame is fixedly connected with the key surface through the plurality of buckling positions; the face shell 4 is made of plastic, the upper part of the face shell is provided with a concave position, the lens is placed on the concave position, the middle part of the concave position is provided with an observation window for displaying contents through the display screen, the lower part of the face shell is provided with a device window, and the key surface is placed on the device window; the machine core 5 is the core of the host, is the pulse generating and controlling part, is provided with a pulse output end, is provided with a rechargeable battery and/or a USB charging socket and is fixed on the bottom shell 6, and the machine core 5 is also provided with a key, a display and a plurality of electronic elements; the bottom shell 6 is made of plastic, an output opening matched with the pulse output end is formed in the upper side portion of the bottom shell 6, a socket opening matched with the USB charging socket is formed in the lower side portion of the bottom shell, a plurality of screw posts are further arranged on the bottom shell 6, and screws are arranged on the screw posts and are respectively fixedly connected with the movement 5 and the face shell 4.
Further, the connecting line 1 is composed of a plug 11, a connecting line 12 and a connecting line connector 13; wherein, plug 11 and the pulse output end electric connection of core 5, pulse output passes to on the connector 13 of connecting wire 12, and connector 13 of connecting wire and the electrode subsides that the electrode pasted the electrode connector 14 electric connection that sets up to on exporting the electrode subsides the pulse, the electrode subsides with pulse output transmission to the human body on.
Further, the electrode paste is composed of an electrode paste connector 14, a surface layer 18, a conductive layer 19 and conductive glue or conductive liquid 20; the electrode paste connector 14 is made of a hard or soft conductive material, is fixedly arranged on the surface layer 18 and is electrically connected with the conductive layer 19, and the electrode paste connector 14 is electrically connected with the host machine through a magnetic suction type, a snap button type, an attaching type or a plug-in type so as to transmit pulse output; the surface layer 18 is a carrier of the electrode paste and is made of a soft insulating material; the conducting layer 19 is made of soft insulating material and is electrically connected with the electrode paste connector 14, and the conducting layer 19 is arranged on the surface layer 18 through pasting, sewing, knitting or hot pressing; the conductive paste or liquid 20 is made of a soft material or liquid and is disposed on the conductive layer. The electrode paste is adhered to the leg through the conductive adhesive or bound on the leg through the surface layer, and can also be used at other parts to finally transmit the pulse to the human body.
The electrode paste may be provided with different shapes, and the specific shape thereof is shown in fig. 4 to 9, which is not described again.
Second embodiment
Referring to fig. 10 and 11, the calorie-consuming pulse stimulator differs from the first embodiment in that: the connection of host computer and electrode subsides is wireless, and its concrete structure is as follows:
the host computer is provided with a host computer connector 15 which is electrically connected with an electrode paste connector 14 arranged on the electrode paste, thereby outputting the pulse to the electrode paste.
Furthermore, the host comprises a face shell 4, a movement 5, a bottom shell 6 and a host connector 15; the machine core 5 is the core of the host, is a pulse generating and controlling part, is provided with a pulse output pad, is provided with a rechargeable battery and/or a USB charging socket, and is fixed on the panel shell 4 through screws, and is also provided with a sounder, a mechanical power supply switch and a display lamp; the face shell 4 is made of hard materials and is adhered to the concave containing cavity of the face mask, an observation window for displaying a content display lamp through a display screen is arranged on the face shell 4, a plurality of screw holes and a plurality of screw columns are also arranged on the face shell 4, the face shell 4 is fixedly connected with the bottom shell 6 by arranging screws on the screw holes, and the face shell 4 is fixedly connected with the machine core 5 by arranging screws on the screw columns; the bottom shell 6 is made of hard materials, one side of the bottom shell is provided with an opening, a power supply switch/key is arranged on the opening, the other opening is arranged at one end of the bottom shell, a USB dustproof cover is arranged on the opening, and the bottom of the bottom shell 6 is provided with two hole sites and an accommodating space for placing the movement 5; the host connector 15 is made of hard or soft conductive material and is electrically connected with the pulse output pad, and the host connector 15 is electrically connected with the electrode paste connector 14 through a magnetic attraction type, a snap button type, a pasting type or a plug-in type, so that the pulse is output to the electrode paste. And/or the host is provided with a remote control receiving device, and the pulse is output to the electrode paste through the remote control receiving device.
The structure of the electrode paste is shown in fig. 4-9, and the other parts are the same as the first embodiment.
Third embodiment
Referring to fig. 12-14, the present calorie consuming pulse stimulator differs from the first embodiment in that: the electrode paste is a wearable electrode paste and consists of a wearable device 22 and a conductive material 21; the host is provided with a host connector 15 and is connected with a connecting wire 12 through the host connector 15, the connecting wire 12 and the conductive material 21 are arranged on the wearing device 22, and the host outputs pulses to the conductive material 21 through the matching of the host connector 15, the connecting wire connector 13 and the connecting wire 12; and/or a remote control receiving device is arranged on the host machine, and the pulse is input to the conductive material 21 through the remote control receiving device.
Further, the host comprises a face shell 4, a movement 5, a bottom shell 6 and a host connector 15; the machine core 5 is provided with a pulse output pad, a rechargeable battery and/or a USB charging socket and is fixed on the bottom shell 6 through screws, and the machine core 5 is also provided with a plurality of electronic elements and even a nixie tube cover 17, a sounder, a touch key, a mechanical key, a display screen and a display lamp; the face shell 4 is made of hard plastic, and the middle part of the face shell is provided with an observation window for displaying contents through a display screen and a lens adhered on the observation window; the bottom shell 6 is made of hard plastic and is provided with hole sites, the right side surface of the bottom shell 6 is provided with two key openings and two socket openings which are respectively matched with the mechanical keys and the USB charging socket, the back surface of the bottom shell 6 is provided with a plurality of screw posts, and the screw posts are fixedly connected with the core 5 and the face shell 4 through screws arranged on the screw posts; the host connectors 15 are made of hard or soft conductive materials and are provided with four, the four host connectors 15 are mutually insulated and are respectively arranged on four hole sites of the bottom shell 6 and are electrically connected with the pulse output pad, the host connectors 15 are electrically connected with the connecting wire connectors 13 arranged at one ends of the connecting wires 12 in a magnetic attraction type, a snap-button type, an attaching type or a plug-in type, and the other ends of the connecting wires 12 are electrically connected with the conductive materials 21, so that pulses are output to the conductive materials 21; and/or the host machine transmits pulses to the conductive material 21 via a remote receiver on the movement 5.
Further, the wearing device 22 is made of an elastic insulating material; the connecting wires 12 are made of soft materials, have certain elasticity and are provided with four strips, the four connecting wires 12 are mutually insulated, one ends of the four connecting wires are respectively provided with a connecting wire connector 13, and the other ends of the four connecting wires are electrically connected with the conductive material 21 in a sewing, knitting, hot pressing or pasting mode; the four conductive materials 21 are insulated from each other and equally divided into two groups, and the two groups of conductive materials 21 are fixedly arranged on the left inner side and the right inner side of the wearing device 22 by sewing, knitting, hot pressing or pasting.
The wearing device 22, the conductive material 21 and the connecting wire 12 are all elastic, and a user can cling to the skin after wearing the wearing device, operate a power key of the host and start the device; the output of the main machine is adjusted, the muscles of the left leg and the right leg are stimulated by the high-intensity output waves of the main machine, the high calorie of the human body is consumed in unit time, the obvious sweating phenomenon is generated, and good exercise and weight-losing effects are achieved.
The user can directly operate and use the control keys on the host computer, and can also carry out remote control through the corresponding control terminals, such as Bluetooth and radio waves to control the host computer.
Specifically, the host can independently complete the operation and can be matched with a remote controller or an APP.
The other parts not described are the same as those of the first embodiment.
The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (10)
1. A pulse stimulator consuming calories comprises a main machine and an electrode patch, and is characterized in that: the host computer provides 0.1mW/cm2-0.25W/cm2The pulse output intensity and the pulse output frequency of 0.1-60Hz, and the pulse is output to the electrode paste in a wired or wireless way, and the electrode paste is a sticky electrode paste, a binding electrode paste or a wearable electrode paste.
2. The caloric pulse stimulator of claim 1, wherein: the pulse output end is arranged on the host machine, the host machine is connected with the connecting wire (1) through the pulse output end, and the host machine outputs pulses to the electrode paste through the connecting wire (1).
3. The caloric pulse stimulator of claim 2, wherein: the host comprises a function key (7), a face shell (4), a machine core (5) and a bottom shell (6); wherein, the function key (7) is made of hard or soft material; the face shell (4) is made of hard or soft materials and is provided with a window or area for displaying or indicating and a window or area for placing the function key (7); the machine core (5) is fixed on the face shell (4) or the bottom shell (6), a pulse output end is arranged on the machine core, and a plurality of electronic elements are arranged on the machine core (5); the bottom shell (6) is made of hard or soft materials, an output hole matched with the pulse output end is formed in the bottom shell, and the bottom shell (6) is fixedly connected with the face shell (4).
4. The caloric pulse stimulator of claim 3, wherein: the connecting wire (1) consists of a plug (11), a connecting wire (12) and a connecting wire connector (13); wherein, plug (11) and the pulse output end electric connection of core (5), pulse output passes through on line (12) reaches connector (13), and connector (13) and electrode subsides the electrode that sets up subsides connector (14) electric connection to the electrode is exported the pulse and is pasted.
5. The caloric pulse stimulator of claim 1, wherein: the host machine is provided with a host machine connector (15) which is electrically connected with an electrode paste connector (14) arranged on the electrode paste, so that the pulse is output to the electrode paste; the connection of the main machine and the electrode paste is split or integrated; and/or the host is provided with a remote control receiving device, and the pulse is output to the electrode paste through the remote control receiving device.
6. The caloric pulse stimulator of claim 5, wherein: the host comprises a face shell (4), a movement (5), a bottom shell (6) and a host connector (15); wherein, the machine core (5) is fixed on the face shell (4) or the bottom shell (6) and is provided with a pulse output end, and the machine core (5) is also provided with a plurality of electronic elements; the face shell (4) is made of hard or soft materials, a window or an area for displaying or indicating is arranged on the face shell, and the face shell (4) is fixedly connected with the bottom shell (6); the bottom shell (6) is made of hard or soft materials and is provided with an output hole matched with the pulse output end; the host connector (15) is made of hard or soft conductive materials and is electrically connected with the pulse output end, and the host connector (15) is electrically connected with the electrode paste connector (14) through a magnetic suction type, a snap button type, a pasting type or a plug-in type, so that the pulse is transmitted to the electrode paste.
7. The caloric expenditure pulse stimulator of any one of claims 1-6, wherein: the electrode paste consists of an electrode paste connector (14), a surface layer (18), a conducting layer (19) and conducting glue or conducting liquid (20); the electrode paste connector (14) is made of hard or soft conductive materials, is arranged on the surface layer (18) and is electrically connected with the conductive layer (19), and the electrode paste connector (14) is electrically connected with the host machine through a magnetic suction type, a snap button type, an attaching type or a plug-in type so as to transmit pulse output; the surface layer (18) is a carrier of the electrode paste and is made of soft insulating materials; the conducting layer (19) is made of soft conducting materials and is electrically connected with the electrode paste connector (14), and the conducting layer (19) is arranged on the surface layer (18) through pasting, sewing, knitting or hot pressing; the conductive glue or liquid (20) is made of a conductive soft material or liquid and is arranged on the conductive layer (19).
8. The caloric pulse stimulator of claim 1, wherein: the electrode paste is a wearable electrode paste and consists of a wearable device (22) and a conductive material (21); the host is provided with a host connector (15) and is connected with the conductive material (21) through the host connector (15), the conductive material (21) is arranged on the wearing device (22), and the host outputs pulses to the conductive material (21) through the host connector (15); the main machine and the wearing device (22) are connected into a split or an integral body; and/or a remote control receiving device is arranged on the host machine, and the pulse is input to the conductive material (21) through the remote control receiving device.
9. The caloric pulse stimulator of claim 8, wherein: the host comprises a face shell (4), a movement (5), a bottom shell (6) and a host connector (15); wherein, the machine core (5) is provided with a pulse output end and is fixed on the bottom shell (6) or the face shell (4), and the machine core (5) is also provided with a plurality of electronic elements; the face shell (4) is made of hard or soft materials and is provided with a window or an area for displaying or indicating; the bottom shell (6) is made of hard or soft materials and is fixedly connected with the face shell (4); the host connector (15) is made of hard or soft conductive materials, is arranged on the bottom shell (6) and is electrically connected with the pulse output end, and the host connector (15) is electrically connected with the conductive materials (21) so as to output the pulse to the conductive materials (21).
10. The caloric pulse stimulator as in claim 9, wherein: the wearing device (22) is made of elastic insulating materials; the conductive materials (21) are fixedly arranged on the left inner side and the right inner side of the wearing device (22) respectively in a sewing, knitting, hot pressing or pasting mode.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201820859353.0U CN210186239U (en) | 2018-06-04 | 2018-06-04 | Pulse stimulator consuming calories |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201820859353.0U CN210186239U (en) | 2018-06-04 | 2018-06-04 | Pulse stimulator consuming calories |
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| CN210186239U true CN210186239U (en) | 2020-03-27 |
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| CN201820859353.0U Active CN210186239U (en) | 2018-06-04 | 2018-06-04 | Pulse stimulator consuming calories |
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