CN210494920U - Heating structure for brain health instrument - Google Patents

Abstract

The utility model relates to a physiotherapy treatment field specifically discloses a brain well-being appearance is with heating structure, including two at least far infrared emergence pieces, the far infrared takes place the piece and includes supporting part and a rotation portion, and rotation portion rotates with the skeleton of the top to be connected, is located the far infrared and takes place to be equipped with on the skeleton of below the piece and supports the groove with the supporting part joint. The heating structure for the brain health instrument in the scheme avoids the infrared heating device from being attached to the scalp when the head circumference of a wearer is larger.

Description

Heating structure for brain health instrument

Technical Field

The utility model relates to a physiotherapy treatment field, concretely relates to brain well-being is heating mechanism for appearance.

Background

The brain health instrument is a general name of brain rehabilitation and health care therapeutic instruments and has good rehabilitation and health care effects. I department's application number is 200710078576.X discloses an electromagnetic wave therapeutic instrument for treating brain, and the therapeutic instrument includes controller and headgear (headgear), installs structures such as magnetic chip, heating plate and temperature sensor on the headgear. And for better heating head skin, my patent application number 201320626051.6 discloses a brain therapeutic instrument with far infrared heating function, this kind of therapeutic instrument adopts far infrared to heat, far infrared is close with the vibration frequency of human inner cell molecule, be known as "life light wave", the atom that just can arouse human cell after far infrared permeates is internal and the resonance of molecule, see through the sympathetic response and absorb, so far infrared all has improvement and prevention and cure effect to the multiple diseases that blood circulation and microcirculation obstacle arouse, it is better than traditional resistance heating to the rehabilitation and the health care effect that play the head.

The far infrared heating device in the brain therapeutic apparatus is arranged on the pyramid-shaped therapeutic apparatus base body, and when the therapeutic apparatus base body is worn on the head of a patient, the far infrared heating device is positioned above the scalp of the patient. When far-infrared heating device is applied to portable headgear, for more portable, portable headgear includes from last a plurality of annular skeletons that are equipped with down, is connected with the flexible layer between the annular skeleton, and from last to down, and the diameter of skeleton increases gradually, and the skeleton of top can be accomodate in the skeleton of below. So when far infrared heating device installs at the top of portable headgear, when wearer's head circumference is great, the skeleton of top can't contact with wearer's head, because the flexible layer can't provide holding power, so portable headgear wears the back, and far infrared heating device can drive the skeleton of top to the top of the head of wearer that falls down under the action of self gravity, and far infrared heating device pastes with wearer's scalp mutually, leads to the high temperature of scalp, the sense of discomfort appears.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a heating structure for brain health appearance that avoids far infrared heating device to paste mutually with scalp when the person of wearing head circumference is great.

In order to achieve the above purpose, the technical scheme of the utility model is that:

the utility model provides a heating structure for brain well-being appearance, includes that two at least far infrared take place the piece, and the piece is taken place including supporting part and a rotation portion to the far infrared, and the rotation portion rotates with the skeleton of the top to be connected, is located to be equipped with on the skeleton of far infrared emergence below and supports the groove with the supporting part joint.

The beneficial effect of this scheme does: rotate the far infrared and take place the piece and can make the supporting part to being close to and support groove one side motion, after the supporting part with support groove joint, the far infrared takes place the piece and plays the supporting role to the skeleton of the top to after portable headgear wears, the skeleton of the top is unlikely to whereabouts to the person's of wearing top, thereby avoids the far infrared to take place the piece and directly pastes with the scalp mutually, improves the comfort level of wearing. Secondly, form the space that supplies the far infrared transmission between the skeleton of the top and the person's of wearing top, the scope that the far infrared can be used is bigger, and the physiotherapy effect is better.

Further, at least two far infrared generating pieces are evenly distributed on the framework along the circumferential direction of the framework.

The beneficial effect of this scheme does: the far infrared generating pieces are uniformly distributed, so that dead angle positions which are difficult to reach by far infrared rays can be reduced, and the physical therapy effect is further improved.

Furthermore, the skeleton at the top is provided with a holding tank which can hold the far infrared generating piece.

The beneficial effect of this scheme does: the piece is taken place to far infrared and is kept away from rotation portion one end and can accomodate in the holding tank, reduces the far infrared and takes place the hindrance that the piece led to the fact to accomodating of portable headgear.

Furthermore, a U-shaped elastic block is fixed in the accommodating groove.

The beneficial effect of this scheme does: after the piece accomodates in the holding tank, the piece and elastic component joint take place for the far infrared, can not fall out from holding the inslot when not receiving the exogenic action, and the piece is taken place for the far infrared can not fall out from holding the groove at the removal in-process, avoids the far infrared to take place the piece and fall out back and other equipment in the external world and bump and damage.

Furthermore, the support grooves on the framework below the far infrared generating piece are provided with a plurality of support grooves, and the support grooves are arranged in a clearance mode.

The beneficial effect of this scheme does: the number of supporting grooves is more, and the wearer can conveniently select a proper supporting groove to install the supporting part.

Furthermore, the number of the far infrared generating pieces is two; the rotating part is positioned in the middle of the far infrared generating piece, the number of the supporting parts is two, and the two supporting parts are respectively positioned at two end parts of the far infrared generating piece.

The beneficial effect of this scheme does: the number of the far infrared generating pieces which need to be adjusted before wearing is less, and the adjustment is more convenient. And the two supporting parts can provide better supporting function for the far infrared generating piece.

Further, the number of the far infrared generating pieces is three.

The beneficial effect of this scheme does: the supporting effect of the three far infrared generating pieces on the uppermost framework is better.

Further, the rotating part and the supporting part are respectively located at both ends of the far infrared generating member.

The beneficial effect of this scheme does: the three support portions are sufficient to provide better support for the uppermost framework.

Furthermore, the framework at the top is connected with a sliding part in a sliding way, and the rotating part is connected with the sliding part in a rotating way.

The beneficial effect of this scheme does: when needs increase the physiotherapy effect to a certain department of scalp, rotate the portion of rotating and can make the far infrared emergence piece of being connected with this portion of rotating rotate along with it to make this far infrared emergence piece be close to needs increase physiotherapy effect department, improve the physiotherapy effect of this department.

Furthermore, a limiting block for limiting the sliding part is fixed on the uppermost framework.

The beneficial effect of this scheme does: the stopper can avoid the sliding part too big along the sliding distance of skeleton, leads to the far infrared after the slip to take place the unable skeleton that supports the top of piece.

Drawings

FIG. 1 is a schematic view of a skeleton supported by a far infrared generating member in example 1 of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

fig. 3 is the embodiment of the utility model provides an in the embodiment far infrared takes place the piece and accomodates the schematic diagram in the holding tank.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the headgear comprises a headgear 1, a framework 2, a containing groove 21, a limiting block 22, a sliding part 23, a quartz tube 3, a supporting part 31, a rotating block 32, a gypsum tube 33 and far infrared carbon fibers 34.

Example 1

The utility model provides a heating structure for brain health appearance, as shown in fig. 1, fig. 2 and fig. 3, including at least two far infrared emergence pieces, it is concrete, the quantity that the piece was taken place to the far infrared in this embodiment is two, two far infrared emergence pieces are located the left and right sides of skeleton 2 of the top respectively, the piece is taken place to the far infrared in this embodiment includes quartz capsule 3, is located quartz capsule 3 interior gypsum capsule 33 and far infrared carbon fiber 34, quartz capsule 3 and gypsum capsule 33 all are C shape, gypsum capsule 33 both ends all pass through the viscose with quartz capsule 3 and are connected. Far infrared carbon fiber 34 twines respectively about gypsum pipe 33 both ends, forms two heating areas, and far infrared carbon fiber 34 both ends all are connected with the molybdenum filament lead wire, and far infrared carbon fiber 34 both ends and the winding of molybdenum filament lead wire realize the electricity to be connected. The end part of the molybdenum wire lead wire far away from the far infrared carbon fiber 34 penetrates through the middle part of the quartz tube 3 and extends out of the quartz tube 3, and the molybdenum wire lead wire is electrically connected with an external power supply.

2 bottoms of skeleton of the top are equipped with holding tank 21 that the opening is down, and the rubber joint has the elastic block of U-shaped in the holding tank 21, and the elastic block in this embodiment is the rubber material, and quartz capsule 3 and elastic block joint do not receive the exogenic action, and quartz capsule 3 can not fall out from holding tank 21.

The sliding part 23 is arranged below the uppermost framework 2, the top of the sliding part 23 is in a dovetail shape, the dovetail groove is formed in the bottom of the framework 2, and the top of the sliding part 23 is located in the dovetail groove, so that the sliding part 23 cannot be separated from the framework 2. The middle part of the quartz tube 3 runs through the sliding part 23 and is in clearance fit with the sliding part 23, the middle part of the quartz tube 3 is provided with a rotating part, the rotating part comprises two rotating blocks 32 which are respectively positioned on the front side and the rear side of the sliding part 23, the sliding of the quartz tube 3 relative sliding part 23 is avoided, and two heating areas formed by the far infrared carbon fibers 34 wound on the gypsum tube 33 are respectively positioned on the two sides of the rotating part. Both sides of the sliding part 23 are provided with limiting blocks 22 welded with the uppermost framework 2, gaps are reserved between the two limiting blocks 22 and the sliding part 23, and a space in which the sliding part 23 can slide is reserved between the two limiting blocks 22.

Two ends of the quartz tube 3 far away from the rotating part are supporting parts 31, and the diameter of the supporting parts 31 is smaller than that of other parts of the quartz tube 3; a plurality of supporting grooves are distributed on the framework 2 on the lower side of the framework 2 on the top along the circumferential direction, and the adjacent supporting grooves are arranged in a clearance mode. The diameter of the support groove is larger than that of the support portion 31, so that the support portion 31 can be snapped into the support groove.

The adjustment process of the heating mechanism in this embodiment is as follows:

when the wearer head circumference is greater than the internal diameter of the uppermost frame 2, the wearer's head cannot contact the uppermost frame 2, and the far infrared generating element needs to be adjusted. The far infrared ray generating member is manually adjusted before the headgear 1 is worn, and the quartz tube 3 is rotated during adjustment to make the support portion 31 fall out of the accommodating groove 21 and to make the support portion 31 be engaged in the support groove on the framework 2 located below the heating mechanism, so that the quartz tube 3 supports the uppermost framework 2. When the headgear 1 is worn, the uppermost frame 2 does not fall on the top of the wearer's head.

When the head circumference of the wearer is smaller than the uppermost framework 2, the head of the wearer is in contact with the uppermost framework 2, and the quartz tube 3 is positioned in the accommodating groove 21 and cannot be in direct contact with the head of the wearer.

Example 2

The present embodiment is different from embodiment 1 in that: the number of the far infrared generating pieces in this embodiment is three, and each far infrared generating piece only includes one supporting portion 31, the rotating portion and the supporting portion 31 are respectively located at two ends of the quartz tube 3 in this embodiment, and the molybdenum wire lead penetrates through one end of the quartz tube 3 close to the rotating portion. The method of adjusting the far infrared generating member of this embodiment is the same as that of embodiment 1.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the present invention and the practicability of the patent. The technology, shape and construction parts which are not described in the present invention are all known technology.

Claims (10)

1. The utility model provides a heating structure for brain well-being appearance, includes that piece, its characterized in that take place for two at least far infrared: the far infrared generating piece comprises a supporting part and a rotating part, the rotating part is connected with the skeleton on the top in a rotating way, and a supporting groove connected with the supporting part in a clamping way is arranged on the skeleton below the far infrared generating piece.

2. The heating structure for a brain health instrument according to claim 1, wherein: at least two far infrared generating pieces are uniformly distributed on the framework along the circumferential direction of the framework.

3. The heating structure for a brain health instrument according to claim 2, wherein: the skeleton of the top is provided with a holding tank which can hold the far infrared generating piece.

4. The heating structure for a brain health instrument according to claim 3, wherein: and a U-shaped elastic block is fixed in the accommodating groove.

5. The heating structure for a brain health instrument according to claim 4, wherein: the support grooves on the framework below the far infrared generating piece are provided with a plurality of support grooves, and the support grooves are arranged in a clearance mode.

6. The heating structure for a brain health instrument according to claim 5, wherein: the number of the far infrared generating pieces is two; the rotating part is positioned in the middle of the far infrared generating piece, the number of the supporting parts is two, and the two supporting parts are respectively positioned at two end parts of the far infrared generating piece.

7. The heating structure for a brain health instrument according to claim 5, wherein: the number of the far infrared generating pieces is three.

8. The heating structure for a brain health instrument according to claim 7, wherein: the rotating part and the supporting part are respectively positioned at two ends of the far infrared generating piece.

9. The heating structure for a brain health instrument according to claim 1, wherein: the skeleton of the top is connected with a sliding part in a sliding way, and the rotating part is connected with the sliding part in a rotating way.

10. The heating structure for a brain health instrument according to claim 9, wherein: and a limiting block for limiting the sliding part is fixed on the uppermost framework.

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