CN113332606A

CN113332606A - Electromagnetic wave generator

Info

Publication number: CN113332606A
Application number: CN202110601087.8A
Authority: CN
Inventors: 陈必善
Original assignee: Guangzhou Aofang Beauty Equipment Co ltd
Current assignee: Guangzhou Aofang Beauty Equipment Co ltd
Priority date: 2021-05-31
Filing date: 2021-05-31
Publication date: 2021-09-03

Abstract

The invention discloses an electromagnetic wave generator, relates to the technical field of electromagnetic wave generators, and solves the problem that the usability of equipment is reduced because the electromagnetic wave generator cannot process the back or other parts which cannot be operated by hands under the condition of one person. The utility model provides an electromagnetic wave generator, includes the device main part, the removal base is installed to the bottom of device main part, the upper surface of device main part is provided with two support post, the place ahead of support post is provided with the connecting wire, the electromagnetic wave output head is installed to the tip of connecting wire. The electromagnetic wave output head and the isolation mechanism are arranged on the pull plate, the lifting adjustment mechanism, the electromagnetic wave output head clamping adjustment mechanism, the electromagnetic wave output head and the isolation mechanism, so that magnetic therapy operation can be automatically performed on a user through a program under the condition that the user uses one person, the use performance of the device is improved, the use is more convenient, the output head is isolated from the skin of the human body, and the skin is prevented from being scalded.

Description

Electromagnetic wave generator

Technical Field

The invention relates to the technical field of electromagnetic wave generators, in particular to an electromagnetic wave generator.

Background

With the rapid development of socio-economic, electromagnetic waves are generated by electron accelerated exercise, electromagnetic wave generators utilize electromagnetic waves, which pass non-invasively through the body and interact with motor neurons, which then trigger exaggerated muscle contractions due to action potentials, the brain will transmit information stimulating motor neurons, the high-speed frequent contractions of muscles will lead to muscle strengthening, the energy penetrates deeper muscle tissues through default programs designed according to different body parts and different purposes, strengthening stimulation and training muscles, the stimulated muscles will increase blood circulation and the effect of burning calories.

However, the existing electromagnetic wave generator cannot process the back or other parts which cannot be operated by hands under the condition of one person, so that the usability of the equipment is reduced; therefore, the existing requirements are not met, for which we propose an electromagnetic wave generator.

Disclosure of Invention

The invention aims to provide an electromagnetic wave generator to solve the problems that the conventional electromagnetic wave generator cannot process the back or other parts which cannot be operated by hands under the condition of one person, so that the usability of equipment is reduced and the like.

In order to achieve the purpose, the invention provides the following technical scheme: an electromagnetic wave generator comprises a device main body, wherein a movable base is installed at the bottom end of the device main body, two supporting upright columns are arranged on the upper surface of the device main body, connecting wires are arranged in front of the supporting upright columns, an electromagnetic wave output head is installed at the end part of each connecting wire, an isolation mechanism is arranged on the outer side surface of each electromagnetic wave output head, a pull plate is movably arranged in front of the device main body, and a lifting adjusting mechanism is installed on the surface of the pull plate;

the lifting adjusting mechanism comprises a double-end lead screw, the double-end lead screw is positioned on the surface of the drawing plate, two ends of the double-end lead screw are inserted into the drawing plate, two lifting slide blocks are movably mounted on the outer side of the double-end lead screw, two limiting blocks are arranged below the double-end lead screw, a lifting platform is movably mounted above the lifting slide blocks, two connecting slide blocks are movably arranged on the bottom surface of the lifting platform, and a lifting connecting rod is arranged between each connecting slide block and each lifting slide block;

the electromagnetic wave output head clamping and adjusting mechanism is movably mounted above the lifting platform and comprises a translation rod, a power sleeve is arranged inside one end of the translation rod, a telescopic lead screw is movably arranged in the middle of the power sleeve in a penetrating mode, and a clamping head is fixedly mounted at one end of the telescopic lead screw in penetrating mode and on the end face of one end of the translation rod.

Preferably, the isolation mechanism includes the side connecting plate, the bottom surface of side connecting plate is provided with the connecting rod, the inside of connecting rod is provided with buffer spring, buffer beam is installed to buffer spring's bottom, buffer beam runs through the bottom and the bottom terminal surface fixed mounting of connecting rod and has the contact plate.

Preferably, the outer sides of the two sides of the clamping head are respectively provided with two L-shaped side surface clamping rods, and the L-shaped side surface clamping rods and the clamping head are integrally formed through injection molding.

Preferably, the bottom surface fixed mounting of translation pole has the translation slider, the surface of lift platform is provided with the power lead screw, the translation slider activity is provided with the outside at the power lead screw.

Preferably, the end parts of the two ends of each lifting connecting rod and the middle position of the adjacent lifting connecting rod are respectively provided with a shaft pin, and the lifting connecting rods are connected with the lifting connecting rods through shaft lines.

Preferably, the telescopic screw rod is inserted in the outer side of the end part inside the translation rod, and two guide sliding blocks are arranged on the outer side of the end part inside the translation rod and fixed at the end part of the telescopic screw rod through welding.

Preferably, the upper end of the support column is provided with an electromagnetic wave output head placing seat, the bottom end of the electromagnetic wave output head placing seat is provided with a connecting sleeve, and the connecting sleeve is made of plastic and is sleeved at the top end of the support column.

Preferably, the bottom surface of the contact plate is embedded with a rollable massage ball.

Preferably, the top end face of buffer lever is provided with the trigger lever, the trigger lever is located buffer spring's centre, the top of trigger lever is provided with pressure sensor, trigger lever and equipment control terminal electric connection.

Preferably, the lower end surface of the L-shaped side surface clamping rod is provided with a rubber gasket, and the rubber gasket and the L-shaped side surface clamping rod are fixed through an adhesive.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention drives the clamping head and the clamped electromagnetic wave output head to synchronously move and extend towards the side edge of the device main body through the translation rod until the electromagnetic wave output head moves to the position above the use position of a user lying on the stomach, at the moment, the power mechanism connected with the double-end screw rod drives the double-end screw rod to rotate reversely, so that the double-end screw rod drives the lifting slide block to reset, the lifting platform descends, the electromagnetic wave output head synchronously descends, the contact plate can firstly contact with the skin of a human body in the descending process of the electromagnetic wave output head and drives the buffer rod to contract towards the inside of the connecting rod, so that the buffer spring is passively compressed, at the moment, the trigger rod can move along with the buffer rod and gradually contact with the pressure sensor, when the trigger rod contacts with the pressure sensor, the pressure sensor can feed back a signal to a control terminal of the device main body, and the control terminal stops the movement of the double-end screw rod after judging the signal, the output head and the skin of the human body are isolated from each other during the magnetic therapy operation, so that the skin is prevented from being scalded, and the actual operation efficiency is not influenced;

2. after the pull plate is pulled out of the device body, the double-end screw rod is started to drive the two lifting slide blocks to move, so that the lifting platform is jacked up, the power screw rod drives the translation slide blocks to move axially, so that the translation rod drives the clamping heads to extend out of the side edges of the device body, then the electromagnetic wave output head is taken down, the handle of the electromagnetic wave output head is inserted between the clamping heads and the L-shaped side clamping rod, the power mechanism connected with the power sleeve is switched on to drive the telescopic screw rod to extend out of the translation rod, the clamping heads and the electromagnetic wave output head are driven to move, the position of the electromagnetic wave output head is adjusted, the electromagnetic wave output head is ensured to be positioned above the appointed position of a human body, then the double-end screw rod is started reversely to drive the clamping heads and the electromagnetic wave output head to move downwards, so that the electromagnetic wave output head is positioned on the surface of the skin of the human body for carrying out magnetic therapy data operation, and the user can carry out magnetic therapy operation automatically through a program under the condition that the user can use one person, the service performance of the equipment is improved, and the use is more convenient.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic structural diagram of an electromagnetic wave output head according to the present invention;

FIG. 3 is a schematic view of the isolation mechanism of the present invention;

FIG. 4 is a cross-sectional view of a connecting rod of the present invention;

FIG. 5 is a schematic structural view of the lift adjustment mechanism of the present invention;

fig. 6 is a schematic structural diagram of an electromagnetic wave output head clamping and adjusting mechanism of the present invention.

In the figure: 1. a device main body; 2. moving the base; 3. supporting the upright post; 4. an electromagnetic wave output head placing seat; 5. a drawing plate; 6. a lifting adjusting mechanism; 601. a lifting platform; 602. connecting the sliding block; 603. a lifting connecting rod; 604. a lifting slide block; 605. a double-end screw rod; 7. the electromagnetic wave output head clamps the regulating mechanism; 701. a translation rod; 702. a power bushing; 703. a telescopic screw rod; 704. a clamping head; 705. an L-shaped side clamping rod; 8. a connecting wire; 9. an isolation mechanism; 901. side edge connecting plates; 902. a contact plate; 903. a connecting rod; 904. a buffer rod; 905. massaging balls; 906. a pressure sensor; 907. a trigger lever; 908. a buffer spring; 10. an electromagnetic wave output head; 11. a translation slide block; 12. a power screw rod; 13. and a limiting block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 6, an embodiment of the present invention includes: an electromagnetic wave generator comprises a device main body 1, wherein a movable base 2 is installed at the bottom end of the device main body 1, two supporting upright posts 3 are arranged on the upper surface of the device main body 1, connecting wires 8 are arranged in front of the supporting upright posts 3, an electromagnetic wave output head 10 is installed at the end part of each connecting wire 8, an isolation mechanism 9 is arranged on the outer side surface of each electromagnetic wave output head 10, a drawing plate 5 is movably arranged in front of the device main body 1, and a lifting adjusting mechanism 6 is installed on the surface of the drawing plate 5;

the lifting adjusting mechanism 6 comprises a double-end screw rod 605, the double-end screw rod 605 is positioned on the surface of the drawing plate 5, two ends of the double-end screw rod 605 are inserted into the drawing plate 5, two lifting slide blocks 604 are movably mounted on the outer side of the double-end screw rod 605, two limiting blocks 13 are arranged below the double-end screw rod 605, a lifting platform 601 is movably mounted above the lifting slide blocks 604, two connecting slide blocks 602 are movably arranged on the bottom surface of the lifting platform 601, and a lifting connecting rod 603 is arranged between the connecting slide blocks 602 and the lifting slide blocks 604;

an electromagnetic wave output head clamping and adjusting mechanism 7 is movably mounted above the lifting platform 601, the electromagnetic wave output head clamping and adjusting mechanism 7 comprises a translation rod 701, a power sleeve 702 is arranged inside one end of the translation rod 701, a telescopic lead screw 703 is movably arranged in the middle of the power sleeve 702 in a penetrating mode, and a clamping head 704 is fixedly mounted at one end portion and the end face of the telescopic lead screw 703 in a penetrating mode.

Further, isolating mechanism 9 includes side connecting plate 901, the bottom surface of side connecting plate 901 is provided with connecting rod 903, the inside of connecting rod 903 is provided with buffer spring 908, buffer rod 904 is installed to buffer spring 908's bottom, buffer rod 904 runs through the bottom and the bottom end face fixed mounting of connecting rod 903 and has contact plate 902, pass through connecting rod 903 in the middle of contact plate 902 and the side connecting plate 901, buffer rod 904 and buffer spring 908 are connected, cushion and keep apart when electromagnetic wave output head 10 contacts with human skin, the temperature of avoiding electromagnetic wave output head 10 during operation to cause the scald to skin.

Further, two L-shaped side face clamping rods 705 are arranged on the outer sides of two sides of the clamping head 704, the L-shaped side face clamping rods 705 and the clamping head 704 are integrally formed through injection molding, and parts after the integral injection molding are stable in integral connection, high in mechanical strength and stable in bearing, and cannot be damaged or broken easily.

Further, the bottom surface fixed mounting of translation pole 701 has translation slider 11, and the surface of lift platform 601 is provided with power lead screw 12, and translation slider 11 activity is provided with in the outside of power lead screw 12, and power lead screw 12 can rotate and drive translation slider 11 and drive translation pole 701 and remove for translation pole 701 drives clamping head 704 and stretches out device main part 1 side, avoids electromagnetic wave output head 10 to appear interfering when the installation.

Further, both ends of the lifting connecting rod 603 and the middle position of the adjacent lifting connecting rod 603 are provided with shaft pins, the lifting connecting rod 603 is connected with the lifting connecting rod 603 through an axis, and the shaft pins ensure that the lifting connecting rod 603 and the lifting connecting rod 603 are connected with each other without separation and do not influence the relative motion between the lifting connecting rod 603 and the lifting connecting rod 603.

Further, the telescopic lead screw 703 is inserted in the end outside of the inside of the translation rod 701 and is provided with two guide sliders, the guide sliders are fixed at the end of the telescopic lead screw 703 through welding, the guide sliders can limit the stroke of the telescopic lead screw 703, the telescopic lead screw 703 is prevented from being separated from the inside of the translation rod 701, the motion of the telescopic lead screw 703 is limited, and the telescopic lead screw 703 can only move axially and cannot rotate.

Further, the upper end of support post 3 is provided with electromagnetic wave delivery head and places seat 4, and the bottom that seat 4 was placed to electromagnetic wave delivery head is provided with the adapter sleeve, and the material of adapter sleeve is plastics and overlaps on the top of support post 3, and the convenience is fixed a position the placing to electromagnetic wave delivery head 10 after the use, is convenient for wholly accomodate equipment, guarantees that equipment is clean and tidy.

Furthermore, the bottom surface of the contact plate 902 is embedded with a rollable massage ball 905, and when the contact plate 902 moves in contact with the skin surface of a human body, the massage ball 905 can massage the skin locally.

Further, a trigger rod 907 is arranged on the end face of the top end of the buffer rod 904, the trigger rod 907 is located in the middle of the buffer spring 908, a pressure sensor 906 is arranged above the trigger rod 907, the trigger rod 907 is electrically connected with the equipment control terminal, and the trigger rod 907 can be in contact with the pressure sensor 906 when the buffer rod 904 contracts towards the inside of the connecting rod 903, so that the pressure sensor 906 feeds back a signal to the control terminal, and the downward movement stroke of the electromagnetic wave output head 10 is conveniently controlled.

Further, the lower end surface of the L-shaped side surface clamping rod 705 is provided with a rubber gasket, the rubber gasket is fixed to the L-shaped side surface clamping rod 705 through an adhesive, and when the end of the electromagnetic wave output head 10 is inserted into the middle of the clamping head 704 and the L-shaped side surface clamping rod 705, the rubber gasket can increase the connectivity between the electromagnetic wave output head 10 and the clamping head 704 and between the electromagnetic wave output head 10 and the L-shaped side surface clamping rod 705, so that the electromagnetic wave output head 10 is prevented from falling.

The working principle is as follows: when the device is used, firstly, the drawing plate 5 is drawn out from the front of the device body 1, so that the lifting adjusting mechanism 6 and the electromagnetic wave output head clamping adjusting mechanism 7 are exposed outside the device body 1, then the movable base 2 is moved, the device is moved to the position near a bed where a user lies on the front, then the electromagnetic wave output head 10 is taken down from the electromagnetic wave output head placing seat 4, a handheld handle of the electromagnetic wave output head 10 is inserted between the clamping head 704 and the L-shaped lateral clamping rod 705, then the power supply of the device is switched on, the power mechanism connected with the double-head screw rod 605 and the power screw rod 12 is synchronously started after the power supply is switched on, the double-head screw rod 605 drives the two lifting slide blocks 604 to move towards the middle of the double-head screw rod 605 when rotating, so that one ends of the lifting connecting slide blocks 602 and a plurality of lifting connecting rods 603 in the middle of the lifting slide blocks 604 are driven to synchronously move towards the middle position of the double-head screw rod 605 when the two lifting slide blocks 604 move, so that the lifting connecting rod 603 jacks up the lifting platform 601, meanwhile, the power screw 12 drives the translation slider 11 to move along the axis thereof, so as to drive the translation rod 701 to move, so that the translation rod 701 drives the clamping head 704 and the clamped electromagnetic wave output head 10 to synchronously move and extend towards the side of the device main body 1 until the electromagnetic wave output head 10 moves to the position above the user position lying on the back, at this time, the power mechanism connected with the double-head screw 605 drives the double-head screw 605 to reversely rotate, so that the double-head screw 605 drives the lifting slider 604 to reset, so that the lifting platform 601 descends, so as to synchronously descend the electromagnetic wave output head 10, the contact plate 902 first contacts with the skin of the human body and drives the buffer rod 904 to contract towards the inside of the connecting rod 903 in the descending process of the electromagnetic wave output head 10, so that the buffer spring 904 is passively compressed, at this time, the trigger rod 908 moves along with the buffer rod 904 and gradually contacts with the pressure sensor 907, when the contact of trigger bar 907 and pressure sensor 906, pressure sensor 906 can be with signal feedback at the control terminal of device main part 1, control terminal stops double-end lead screw 605's motion after through judging the signal, switch on electromagnetic wave output head 10 power and start this moment, carry out the magnetotherapy operation can, can carry out the magnetotherapy operation to the user of through the procedure automation under the condition that the user is alone, improve equipment's performance, it is more convenient to use, and keep apart output head and human skin, avoid causing the scald to skin.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. An electromagnetic wave generator comprising a device body (1), characterized in that: the device is characterized in that a movable base (2) is installed at the bottom end of the device main body (1), two supporting upright columns (3) are arranged on the upper surface of the device main body (1), a connecting wire (8) is arranged in front of each supporting upright column (3), an electromagnetic wave output head (10) is installed at the end part of each connecting wire (8), an isolation mechanism (9) is arranged on the outer side surface of each electromagnetic wave output head (10), a drawing plate (5) is movably arranged in front of the device main body (1), and a lifting adjusting mechanism (6) is installed on the surface of each drawing plate (5);

the lifting adjusting mechanism (6) comprises a double-end screw rod (605), the double-end screw rod (605) is positioned on the surface of the drawing plate (5), two ends of the double-end screw rod (605) are inserted into the drawing plate (5), two lifting slide blocks (604) are movably mounted on the outer side of the double-end screw rod (605), two limit blocks (13) are arranged below the double-end screw rod (605), a lifting platform (601) is movably mounted above the lifting slide blocks (604), two connecting slide blocks (602) are movably arranged on the bottom surface of the lifting platform (601), and a lifting connecting rod (603) is arranged between each connecting slide block (602) and each lifting slide block (604);

the electromagnetic wave output head clamping and adjusting mechanism (7) is movably mounted above the lifting platform (601), the electromagnetic wave output head clamping and adjusting mechanism (7) comprises a translation rod (701), a power sleeve (702) is arranged inside one end of the translation rod (701), a telescopic lead screw (703) is movably arranged in the middle of the power sleeve (702) in a penetrating mode, and a clamping head (704) is fixedly mounted at one end part and the end face of the telescopic lead screw (703) penetrating through the end part of the translation rod (701).

2. An electromagnetic wave generator as claimed in claim 1, wherein: the isolation mechanism (9) comprises a side connecting plate (901), a connecting rod (903) is arranged on the bottom surface of the side connecting plate (901), a buffer spring (908) is arranged inside the connecting rod (903), a buffer rod (904) is installed at the bottom end of the buffer spring (908), and a contact plate (902) is fixedly installed on the buffer rod (904) through the bottom end of the connecting rod (903) and the end face of the bottom end.

3. An electromagnetic wave generator as claimed in claim 1, wherein: the clamping head is characterized in that two L-shaped side surface clamping rods (705) are arranged on the outer sides of two sides of the clamping head (704), and the L-shaped side surface clamping rods (705) and the clamping head (704) are integrally formed through injection molding.

4. An electromagnetic wave generator as claimed in claim 1, wherein: the bottom surface fixed mounting of translation pole (701) has translation slider (11), the surface of lift platform (601) is provided with power lead screw (12), translation slider (11) activity is provided with the outside at power lead screw (12).

5. An electromagnetic wave generator as claimed in claim 1, wherein: the lifting connecting rod (603) is characterized in that shaft pins are arranged at the end parts of two ends of the lifting connecting rod (603) and the middle position of the adjacent lifting connecting rod (603), and the lifting connecting rod (603) is connected with the lifting connecting rod (603) through an axis.

6. An electromagnetic wave generator as claimed in claim 1, wherein: two guide sliding blocks are arranged on the outer side of the end part of the telescopic screw rod (703) inserted in the translation rod (701), and the guide sliding blocks are fixed at the end part of the telescopic screw rod (703) through welding.

7. An electromagnetic wave generator as claimed in claim 1, wherein: the electromagnetic wave output head placing device is characterized in that an electromagnetic wave output head placing seat (4) is arranged at the upper end of the supporting upright post (3), a connecting sleeve is arranged at the bottom end of the electromagnetic wave output head placing seat (4), and the connecting sleeve is made of plastic and is sleeved at the top end of the supporting upright post (3).

8. An electromagnetic wave generator as claimed in claim 2, wherein: the bottom surface of the contact plate (902) is embedded with a rolling massage ball (905).

9. An electromagnetic wave generator as claimed in claim 2, wherein: the end face of the top end of the buffer rod (904) is provided with a trigger rod (907), the trigger rod (907) is located in the middle of the buffer spring (908), a pressure sensor (906) is arranged above the trigger rod (907), and the trigger rod (907) is electrically connected with the equipment control terminal.

10. An electromagnetic wave generator as claimed in claim 3, wherein: the rubber gasket is arranged on the lower end surface of the L-shaped side clamping rod (705), and the rubber gasket and the L-shaped side clamping rod (705) are fixed through an adhesive.