CN214435873U - Far infrared ray irradiator - Google Patents

Abstract

The utility model discloses a far infrared irradiator, the on-line screen storage device comprises a base, be connected with the support on the base, far infrared emission head is connected to the support top, far infrared emission head is including inserting the fan casing that detains together, fan casing front end sets up the air outlet, the rear end sets up the air intake, fan casing front end rigid coupling has the screen panel, the heater that the wind that enables the fan passed on the screen panel rigid coupling, heater rear end rigid coupling water conservancy diversion heat insulating board, water conservancy diversion heat insulating board rear end rigid coupling fan, be equipped with the far infrared pottery piece that can be connected with the power electricity in the heater, water conservancy diversion heat insulating board is equipped with and sets up relatively and can lead to the ventilation hole of far infrared pottery piece with the wind guide with the fan air outlet, the other end in ventilation hole just sets up far infrared pottery piece. The utility model discloses a blow off hot-blast simultaneous emission far infrared to reach health care effect, beneficial to the human body, simultaneously can change the angle and highly made things convenient for the use.

Description

Far infrared ray irradiator

Technical Field

The utility model relates to a far infrared irradiator.

Background

Scientific research shows that the far infrared has strong osmotic force and radiation force, obvious temperature control effect and resonance effect, and is easy to be absorbed by an object and converted into internal energy of the object. When far infrared penetrates into human body, the resonance of water molecules in the body can be generated, the water molecules are activated, the intermolecular binding force is enhanced, and thus, biological macromolecules such as protein and the like are activated. The far infrared ray has the action strength of expanding the capillary vessels of the human body, promoting blood circulation, strengthening metabolism among tissues, increasing the regeneration capacity of the tissues, improving the immunity of the organism and regulating the mental abnormal excitation state, thereby playing the role of medical care.

Disclosure of Invention

An object of the utility model is to provide a far infrared irradiator can blow off hot-blast while high-efficient emission far infrared to promote human blood circulation, improve human immunocompetence, reach health care effect.

In order to achieve the above object, the utility model provides a far infrared irradiator, which comprises a base connected with a baseIs provided withThe support, far infrared emission head is connected to the support top, far infrared emission head sets up the air outlet including inserting the fan casing that detains together, fan casing front end, and the rear end sets up the air intake, fan casing front end rigid coupling has the screen panel, and its structural feature is: the net cover is fixedly connected with a heater capable of enabling wind of the fan to penetrate through, the rear end of the heater is fixedly connected with a flow guide heat insulation plate, the rear end of the flow guide heat insulation plate is fixedly connected with the fan, a far infrared ceramic block capable of being electrically connected with a power supply is arranged in the heater, the flow guide heat insulation plate is provided with a ventilation hole which is opposite to an air outlet of the fan and can guide the wind to the far infrared ceramic block, and the other end of the ventilation hole is opposite to the far infrared ceramic block.

After adopting above-mentioned structure, generate heat and send the infrared ray behind the far infrared ceramic piece connection power, the wind of fan blows to the far infrared ceramic piece through the wind-break, and wind forms the hot-blast that has the far infrared after passing the far infrared ceramic piece, has realized the far infrared irradiation function of far infrared irradiator.

As a concrete structure of the flow guide heat insulation plate, the air vent of the flow guide heat insulation plate is a conical hole, the diameter of the conical hole is gradually increased from the front end to the rear end, and therefore wind blown out by the fan is more intensively blown to the far infrared ceramic blocks.

As a concrete structure of the diversion heat insulation board, the diversion heat insulation board is provided with a boss or a convex column which enables the distance between the heater and the fan to be enlarged, so that the diversion heat insulation board is thickened, and the diversion and heat insulation effects are enhanced.

As a concrete structural style of heater, the heater contains two splint that the interval set up, is equipped with two metal holding pieces between two splint, and the centre gripping has a plurality of far infrared ceramic pieces of evenly distributed between two metal holding pieces, is equipped with on the splint to be used for wind to pass through and blow to the wind hole of far infrared ceramic piece, is equipped with the connecting terminal that can be connected with the power electricity on two metal holding pieces respectively.

As a specific structural form of the far infrared ceramic block, a plurality of through holes which are communicated from the front end to the rear end are arranged in the far infrared ceramic block to form a ventilating duct, the area of the far infrared ceramic block which is passed by wind when the wind passes through the through holes is increased, and the heat exchange efficiency of the wind is increased.

As an improvement, the support includes two piece at least cradling pieces, is connected with the adjusting part that can adjust the angle between two cradling pieces, the adjusting part is including the fixed cover of consolidation on the cradling piece below, is connected with the swing cover on the cradling piece of top, wears to be equipped with the hinge between fixed cover and the swing cover, and the hinge front end is equipped with the external gear, and the rear end is equipped with the step face, fixed cover is equipped with the gear hole, and the spring has been clamped between fixed cover bottom hole wall and the hinge, the hinge left end is the external gear, and the right-hand member is the step face, and the cradling piece passes through bolt rigid coupling swing cover in top, be equipped with the through-hole in the swing cover, the left end of through-hole is the internal gear, and the right-hand member is the step hole. When the hinge shaft is pressed down, the hinge shaft moves leftwards along the stepped hole, the spring is pressed tightly, the hinge shaft is only meshed with the fixed sleeve, and the swinging sleeve can rotate angularly, so that the change of the angle and the height of the bracket is realized; after the angle rotation is completed, the hinge shaft is loosened, the spring pushes out the hinge shaft, and the swing sleeve is meshed with the hinge shaft to realize the fixation of the angle of the support.

To sum up, the utility model realizes the far infrared radiation function, expands the capillary vessels of the human body, promotes the blood circulation, strengthens the metabolism, improves the immunity of the organism, thereby playing the role of medical care; meanwhile, the angle and the height of the bracket can be changed, so that the use process is facilitated.

Drawings

The following detailed description of embodiments of the present invention is provided with reference to the accompanying drawings:

fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the structure taken along the left side of FIG. 1;

fig. 3 is a structural schematic view of the bracket of the present invention in a folded state;

FIG. 4 is a schematic view showing a structure of a far infrared ray emitting head;

FIG. 5 is a schematic structural view of a diversion insulation board;

FIG. 6 is a schematic view of the structure taken along line B-B in FIG. 5;

FIG. 7 is a schematic structural view of a heater;

FIG. 8 is a schematic view of the structure taken along line A-A of FIG. 7;

FIG. 9 is a schematic view of the structure taken along line C-C of FIG. 1;

fig. 10 is a schematic view of the structure taken along line D-D in fig. 9.

Detailed Description

Referring to fig. 1 to 3, the present invention provides a preferred embodiment of a far infrared ray irradiator. In the present embodiment, a base 1, a holder 2, and a far infrared ray emitting head 5 are included. The support 2 comprises a control part 3 and at least two support rods 21, and an adjusting part 4 capable of adjusting the angle between the two support rods 21 is connected between the two support rods 21. The base 1 plays a role of supporting the far infrared ray irradiator, and the control part 3 realizes the control of the far infrared ray irradiator through a circuit element. For convenience of description, the left side of fig. 1 is defined as the front side, and the following detailed description is made in conjunction with the accompanying drawings.

Referring to fig. 4-6, in the present embodiment, a fan housing 51 is provided in the far infrared ray emitting head 5, the fan housing 51 is provided with an air inlet at the rear end and an air outlet at the front end, a rear cover 52 is fastened to the rear end of the fan housing 51 by a fastener, and the rear cover 52 is provided with a plurality of air inlets. The front end of the fan shell 51 is fixedly connected with a mesh enclosure 53 through bolts, and the mesh enclosure 53 is provided with a plurality of air outlets formed in holes. The mesh enclosure 53 is fixedly connected with a heater 54 by screws, the rear end of the heater 54 is fixedly connected with a flow guide heat insulation plate 55 by screws, and the rear end of the flow guide heat insulation plate 55 is fixedly connected with a fan 56 by screws. By controlling the control unit 3, the fan 56 and the heater 54 are powered on to blow air by the fan 56, and the air is blown out from the outlet port by the heater 54 to form hot air having far infrared rays, thereby realizing the far infrared ray irradiation function of the far infrared ray irradiator. The circuit technology included in the control unit 3 is prior art and will not be described herein.

Referring to fig. 5 to 8, in the present embodiment, the rear end of the heater 54 is fixedly connected to a heat-guiding and insulating plate 55 by screws through holes at four corners, and the rear end of the heat-guiding and insulating plate 55 is fixedly connected to a fan 56 by screws. When the heater 54 is powered on, the far infrared ceramic block 542 is heated to generate heat, and the flow guide heat insulation plate 55 plays a role in isolating a heat source, so that the fan 56 is prevented from being damaged due to the influence of the heat of the far infrared ceramic block 542. As shown in fig. 6, the inner hole of the heat conduction and insulation board 55 is a tapered hole, and when the wind blown by the fan 56 passes through the tapered hole, the inclined surface of the tapered hole plays a role in guiding the wind, so that the wind is intensively blown to the far infrared ceramic block 542. The bosses are arranged on the flow guide heat insulation plate 55, so that the thickness of the flow guide heat insulation plate 55 is increased, when wind passes through the flow guide heat insulation plate 55, the distance of the wind to be guided is increased, the flow guide effect is enhanced, and the wind is more intensively blown into the far infrared ceramic blocks 542. The protrusion of the deflector 55 also increases the relative distance between the fan 561 and the heater 54, thereby enhancing the heat insulation effect. Compared with the whole thickening, the boss design of the diversion heat insulation plate 55 reduces the weight and achieves the effects of enhancing heat insulation and diversion. The bosses are arranged at the four corners, the thickness of the through holes is increased, and the flow guide heat insulation plate 55 is firmly fixedly connected with other parts while the effect is achieved. As shown in fig. 7 and 8, the heater 54 includes two upper and lower clamping plates 543 spaced apart from each other, and the upper and lower clamping plates 543 fix the heater 54 to the baffle 55 and the fan 56 by screws. Two metal clamping pieces 541 are arranged between the two clamping plates 543, and four far infrared ceramic blocks 542 which are uniformly distributed are clamped between the two metal clamping pieces 541. The clamping plate 543 is provided with four air passing holes, which are opposite to the far infrared ceramic blocks 542, and the size of the air passing holes is consistent with that of the far infrared ceramic blocks 542, and the air passing holes are used for blowing the far infrared ceramic blocks 542. In another embodiment, the clamping plate 543 may be provided with a ventilation hole, and the size of the ventilation hole may include all the far infrared ceramic blocks 542, and the ventilation hole may be used for wind to pass through and blow to the far infrared ceramic blocks 542. Two metal holding pieces 541 are disposed in the clamping plate 543. The metal clamping piece 541 has four claws, and after the claws are bent toward the clamp plate 543, the upper and lower metal clamping pieces 541 clamp and fix the upper and lower clamp plates 543, respectively. The metal clamping piece 541 is internally provided with four holes opposite to the far infrared ceramic block 542, the edges of the holes are provided with claws, and the upper and lower metal clamping pieces 541 clamp the positive and negative electrodes of the far infrared ceramic block 542 respectively after the claws are bent. The fixing frames 544 are arranged inside the upper and lower metal clamping pieces, the size of the inner frame of the fixing frames 544 can cover all the far infrared ceramic blocks 542, and the fixing frames 544 play a role in fixing the positions of the far infrared ceramic blocks 542. Two metal clamping pieces 541 are respectively provided with a connecting terminal. When the connecting terminal is connected with the positive and negative poles of the power line, the metal clamping piece 541 is connected with the positive and negative poles of the far infrared ceramic block 542, so that the far infrared ceramic block 542 is connected with the power line. The wind blown by the fan 56 enters the through-hole duct of the far infrared ceramic block 542, and in the through-hole, the wind is blown out after heat exchange is realized, and the far infrared ceramic block 542 generates far infrared rays, thereby realizing the function of far infrared hot air. The inside a plurality of through-holes that contain of far infrared ceramic piece 542 compares in only containing a through-hole, and the area of the far infrared ceramic piece 542 that passes through when wind passes the through-hole increases, has increased the heat exchange efficiency of wind, has strengthened the utility model discloses a far infrared function.

Referring to fig. 9 and 10, in the present embodiment, the adjusting member 4 includes a fixing sleeve 41 fixed to the lower holder rod 21 by a screw, and the fixing sleeve 41 has a hole in which an internal gear is provided. The left end of the hinge shaft 42 is provided with an external gear, and the right end is provided with a step surface. An annular boss concentric with the center of the hole of the internal gear is arranged on the bottom wall of the hole of the fixed sleeve 41, and a hole which is opposite to the annular boss and concentric with the center of the hole is arranged on the left end face of the hinge shaft 42. The internal gear of the fixed sleeve 41 is internally meshed with the left end of the gear of the hinge shaft 42, and a spring 44 is clamped between an annular boss on the bottom wall of the hole of the fixed sleeve 41 and the hole on the left end face of the hinge shaft 42. The right end of the gear of the hinge shaft 42 is engaged with the swing sleeve 43. A through hole is formed in the swing sleeve 43, an internal gear is arranged at the left end of the through hole, a step hole is formed in the right end of the through hole, and the swing sleeve 43 is fixedly connected to the upper support rod 21 through bolts. When the far infrared ray irradiator does not need to change the angle, the gear of the fixing sleeve 41 fixes the relative angle between the fixing sleeve 41 and the hinge shaft 42 through the gear at the left end of the inside engaged hinge shaft 42, and further fixes the relative angle between the lower support rod 21 and the hinge shaft 42. The spring 44 applies a transverse backward force to the hinge shaft 42 to push the step surface of the hinge shaft 42 out to the step hole surface of the swing sleeve 43, the rear end of the gear of the hinge shaft 42 is internally meshed with the gear part of the upper hinge shaft 42, and then the relative angle between the swing sleeve 43 and the hinge shaft 42 is fixed, so that the angle of the bracket 2 is fixed. When the angle needs to be adjusted, the hinge shaft 42 is pressed down, the spring 44 is compressed, the step hole of the swing sleeve 43 plays a guiding role in the movement of the hinge shaft 42, the gear part of the hinge shaft 42 completely enters the fixed sleeve 41, and the swing sleeve 43 and the hinge shaft 42 are not internally meshed, so that the required angle can be flexibly rotated. After the adjustment is completed, the hinge shaft 42 is released, and the spring 44 ejects the hinge shaft 42 to realize the fixation of the required angle. In conclusion, the support 2 realizes the adjustment of the relative angle between the support rods 21 through the adjusting part 4, so as to adjust the height and the irradiation angle of the far infrared irradiator, and make the irradiation and use more convenient.

Referring to fig. 1 to 4, in the present embodiment, the height and the irradiation angle of the far infrared ray irradiator are controlled by adjusting the adjusting part 4 and thus adjusting the angle of the support rod 21 and the height of the entire support. Realize the circular telegram of fan and far infrared ceramic block 542 through control unit 3, far infrared ceramic block 542 produces the far infrared after switching on power supply electricity, fan 56 makes wind get into from the air intake of far infrared irradiation head 5 after the power supply electricity intercommunication, passes far infrared ceramic block 542 and blows out from the air outlet, has realized the hot-blast function of far infrared, can make human capillary expansion after shining, promotes blood circulation, strengthens metabolism, improves human immunocompetence to play medical care's effect.

Claims (6)

1. The utility model provides a far infrared irradiator, includes base (1), is connected with support (2) on base (1), connects far infrared emission head (5) above support (2), far infrared emission head (5) are including inserting fan casing (51) of detaining together, and fan casing (51) front end sets up the air outlet, and the rear end sets up the air intake, fan casing (51) front end rigid coupling has screen panel (53), characterized by: the utility model discloses a fan, including screen panel (53), heater (54) that the rigid coupling enabled the wind of fan to pass on screen panel (53), heater rear end rigid coupling water conservancy diversion heat insulating board (55), fan (56) is connected to water conservancy diversion heat insulating board (55) rear end rigid coupling, be equipped with in heater (54) can with the far infrared ceramic piece (542) of power electricity connection, water conservancy diversion heat insulating board (55) are equipped with and set up with fan (56) air outlet relatively and can lead to the ventilation hole of far infrared ceramic piece (542) with the wind guide, the other end of ventilation hole just sets up far infrared ceramic piece (542).

2. The far infrared ray irradiator according to claim 1, wherein: the air vent of the flow-guiding heat-insulating plate (55) is a conical hole, and the diameter of the conical hole is gradually increased from the front end to the rear end.

3. The far infrared ray irradiator according to claim 1, wherein: the diversion heat insulation plate (55) is provided with a boss which enables the distance between the heater (54) and the fan (56) to be increased.

4. A far infrared ray irradiator as set forth in any one of claims 1 to 3, characterized in that: heater (54) contain two splint (543) that the interval set up, are equipped with two metal holding piece (541) between two splint (543), and the centre gripping has a plurality of far infrared ceramic piece (542) of evenly distributed between two metal holding piece (541), is equipped with on splint (543) to be used for wind to pass through and blows the wind hole to far infrared ceramic piece (542), is equipped with respectively on two metal holding piece (541) to connect the terminal that can be connected with the power electricity.

5. The far infrared ray irradiator according to claim 1, wherein: a plurality of through holes which are communicated from the front end to the rear end are formed in the far infrared ceramic block (542) to form a ventilation pipeline.

6. The far infrared irradiator according to claim 1, wherein the support (2) comprises at least two support rods (21), an adjusting part (4) capable of adjusting the angle between the two support rods (21) is connected between the two support rods (21), the adjusting part (4) comprises a fixed sleeve (41) fixedly connected to the support rod (21) at the lower part, a swinging sleeve (43) is connected to the support rod (21) at the upper part, a hinge (42) is arranged between the fixed sleeve (41) and the swinging sleeve (43) in a penetrating manner, an outer gear is arranged at the left end of the hinge (42), a step surface is arranged at the right end of the hinge (42), the fixed sleeve (41) is provided with a gear hole, a spring (44) is clamped between the bottom hole wall of the fixed sleeve (41) and the hinge (42), an outer gear is arranged at the left end of the hinge (42), a step surface is arranged at the right end of the hinge, the support rod (21) at the upper part is fixedly connected to the swinging sleeve (43) through a bolt, a through hole is formed in the swing sleeve (43), an inner gear is arranged at the left end of the through hole, and a stepped hole is formed at the right end of the through hole.

Images