CN216777745U - Irradiation equipment with adjustable luminous power - Google Patents

Abstract

The utility model provides an irradiation device with adjustable optical power, and belongs to the technical field of infrared thermal therapy devices. The thermal therapy radiation cabin is internally provided with an infrared thermal therapy radiation device, the bottom of the thermal therapy radiation cabin is provided with a thermal regulation cover, an infrared radiation groove is arranged in the thermal regulation cover in a penetrating way, a plurality of infrared thermal insulation plates which are horizontally arranged are arranged in the infrared radiation groove, and a horizontal driving mechanism connected with the infrared thermal insulation plates is also arranged in the thermal regulation cover. The infrared thermotherapy irradiation device in the thermotherapy irradiation cabin can launch the infrared ray, and the infrared ray passes the infrared radiation groove in the thermal control cover and can carry out the thermotherapy to the patient, and the infrared heat insulating board in the infrared radiation groove can carry out the separation to the infrared ray, adjusts the quantity that is located the infrared heat insulating board in the infrared radiation groove through horizontal drive mechanism and can adjust the intensity of infrared thermotherapy to the required infrared illumination intensity of adaptation different stages patient.

Description

Irradiation equipment with adjustable luminous power

Technical Field

The utility model belongs to the technical field of infrared thermal therapy equipment, and relates to irradiation equipment with adjustable optical power.

Background

The heat therapy instrument is an instrument for realizing clinical curative effect by heating human tissues, and is widely applied to the auxiliary treatment of various diseases and the promotion of wound healing; the infrared products in the prior art can only use fixed optical power for treatment, but cannot adjust the intensity of illumination according to the actual temperature change of the irradiated position.

In order to overcome the defects of the prior art, people continuously explore and propose various solutions, for example, chinese patent discloses a thermotherapy irradiation device used in cooperation with a hospital bed [ application number: 201821082313.6], comprises an infrared thermotherapy irradiation cabin which is connected to a movable seat in a cantilever manner, the movable seat is provided with rollers, the bottom of the infrared thermotherapy irradiation cabin can be supported by the sickbed when the infrared thermotherapy irradiation cabin is driven by the movable seat to move above the sickbed, and the movable seat is provided with a ground positioning mechanism, but the problems also exist.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving the above problems and providing an optical power adjustable irradiation device.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an irradiation equipment with adjustable luminous power, includes thermotherapy irradiation cabin, thermotherapy irradiation cabin in be equipped with infrared thermotherapy irradiation unit, thermotherapy irradiation cabin bottom be equipped with the thermal regulation cover, the thermal regulation cover in run through and be provided with infrared irradiation groove, infrared irradiation inslot be equipped with the infrared heat insulating board that a plurality of levels set up, the thermal regulation cover in still be equipped with the horizontal drive mechanism who links to each other with infrared heat insulating board.

In the above mentioned optical power adjustable irradiation equipment, the infrared thermal therapy irradiation device comprises a plurality of groups of infrared light sources arranged in parallel, each group of infrared light source comprises a plurality of infrared light sources uniformly arranged at intervals, the plurality of infrared light sources in the same group are connected in series, and the series circuit of the plurality of infrared light sources in the same group is also connected in series with an independent switch and a slide rheostat.

In the above-mentioned optical power adjustable irradiation equipment, a plurality of groups of infrared light sources are connected in parallel, and a main switch is also connected in series between the plurality of groups of infrared light sources and the power supply.

In the above-mentioned optical power adjustable irradiation equipment, the infrared thermal insulation board is provided with transparent glass, and the transparent glass is coated with an infrared thermal insulation coating.

In the above-mentioned optical power adjustable irradiation equipment, the transparent glass is embedded on the infrared thermal insulation board, the thickness of the transparent glass is the same as that of the infrared thermal insulation board, and the outer side wall of the transparent glass is flush with the inner wall of the infrared irradiation groove.

In the above-mentioned optical power adjustable irradiation equipment, at least two infrared thermal insulation boards are arranged in the infrared irradiation groove.

In an irradiation equipment with adjustable foretell light power, horizontal drive mechanism including setting up the drive chamber in thermotherapy irradiation cabin, the drive intracavity be equipped with a plurality of with the translation drive assembly of infrared heat insulating board one-to-one, a plurality of translation drive assembly dislocation set, a plurality of translation drive assemblies link to each other with corresponding infrared heat insulating board through the connecting rod of vertical setting respectively, the length of the connecting rod on a plurality of infrared heat insulating boards equals.

In the above-mentioned optical power adjustable irradiation equipment, the thermal regulation cover in be equipped with a plurality of horizontal spouts corresponding with the infrared heat insulating board, the infrared heat insulating board insert to the horizontal spout in, translation drive assembly include the level set up the translation screw rod in the drive intracavity and the circumference driver that links to each other with the translation screw rod, the translation screw rod on the spiro union have the translation sleeve, the translation sleeve link firmly with the connecting rod top.

In the above-mentioned irradiation equipment with adjustable optical power, the drive chamber still be equipped with the spread groove with horizontal spout between, the connecting rod bottom run through the spread groove and link firmly with infrared heat insulating board.

In the above-mentioned optical power adjustable irradiation equipment, the side of the infrared irradiation groove far away from the horizontal chute is further provided with a plurality of supporting grooves matched with the infrared heat insulation plate.

Compared with the prior art, the utility model has the advantages that:

1. the infrared thermotherapy irradiation device in the thermotherapy irradiation cabin can launch the infrared ray, and the infrared ray passes the infrared radiation groove in the thermal control cover and can carry out the thermotherapy to the patient, and the infrared heat insulating board in the infrared radiation groove can carry out the separation to the infrared ray, adjusts the quantity that is located the infrared heat insulating board in the infrared radiation groove through horizontal drive mechanism and can adjust the intensity of infrared thermotherapy to the required infrared illumination intensity of adaptation different stages patient.

2. The infrared light sources in each group of infrared light sources are connected in series and matched with the independent switch and the sliding rheostat, the opening and closing of the infrared light sources in the same group of infrared light sources and the current adjustment in the series circuit can be independently controlled, and the brightness of the infrared light sources in the series circuit can be adjusted by adjusting the current so as to adapt to the actual temperature rise conditions of different parts of a patient.

3. Each group of infrared light sources can improve the accuracy of illumination through independent switch control, and can reduce energy consumption and reduce unnecessary infrared light irradiation on non-affected parts.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the thermal therapy irradiation capsule;

fig. 3 is a circuit diagram of an infrared light source.

In the figure: the thermal therapy irradiation cabin comprises a thermal therapy irradiation cabin 1, an infrared thermal therapy irradiation device 2, a thermal regulation cover 3, an infrared irradiation groove 4, an infrared thermal insulation board 5, a horizontal driving mechanism 6, an infrared light source 7, an independent switch 8, a slide rheostat 9, a power supply 10, a main switch 11, transparent glass 12, a driving cavity 13, a translation driving component 14, a connecting rod 15, a horizontal sliding groove 16, a translation screw 17, a circumferential driver 18, a translation sleeve 19, a connecting groove 20 and a supporting groove 21.

Detailed Description

As shown in fig. 1, an optical power adjustable irradiation device comprises a thermal therapy irradiation cabin 1, an infrared thermal therapy irradiation device 2 is arranged in the thermal therapy irradiation cabin 1, a thermal regulation cover 3 is arranged at the bottom of the thermal therapy irradiation cabin 1, an infrared irradiation groove 4 is arranged in the thermal regulation cover 3 in a penetrating manner, a plurality of infrared heat insulation plates 5 which are horizontally arranged are arranged in the infrared irradiation groove 4, and a horizontal driving mechanism 6 connected with the infrared heat insulation plates 5 is also arranged in the thermal regulation cover 3.

In this embodiment, infrared thermotherapy irradiation unit in the thermotherapy irradiation cabin can launch the infrared ray, and the infrared ray passes the infrared radiation groove in the thermal control cover and can carry out the thermotherapy to the patient, and the infrared heat insulating board in the infrared radiation groove can carry out the separation to the infrared ray, adjusts the quantity that is located the infrared heat insulating board of infrared radiation inslot through horizontal drive mechanism and can adjust the intensity of infrared thermotherapy to the required infrared illumination intensity of adaptation different stages patient.

Preferably, as shown in fig. 1-3, the infrared thermal therapy irradiation device 2 includes a plurality of groups of infrared light sources 7 arranged in parallel, each group of infrared light sources 7 includes a plurality of infrared light sources 7 arranged uniformly at intervals, the plurality of infrared light sources 7 in the same group are connected in series, and the series line of the plurality of infrared light sources 7 in the same group is also connected in series with an independent switch 8 and a slide rheostat 9. A plurality of infrared light sources in each group of infrared light sources are connected in series and matched with the independent switch and the sliding rheostat, the opening and closing of the infrared light sources in the same group of infrared light sources and the current adjustment in the series circuit can be controlled independently, and the brightness of the infrared light sources in the series circuit can be adjusted by adjusting the current so as to adapt to the actual temperature rising conditions of different parts of a patient.

Each group of infrared light sources can improve the accuracy of illumination through independent switch control, and can reduce energy consumption and reduce unnecessary infrared light irradiation on non-affected parts.

Preferably, as shown in fig. 1-3, the infrared light sources 7 are connected in parallel, and a main switch 11 is also connected in series between the infrared light sources 7 and the power supply 10. The parallel connection of the infrared light sources 7 can keep the voltage of the infrared light sources consistent, so that when the resistance at the slide rheostat is changed, the current flowing through the infrared light sources is changed, and the electric power of the infrared light sources can be adjusted.

Specifically, as shown in fig. 1, the infrared thermal insulation board 5 is provided with transparent glass 12, and the transparent glass 12 is coated with an infrared thermal insulation coating. The infrared heat insulation coating can reduce the quantity of infrared rays passing through the infrared irradiation groove, so that the illumination intensity of the infrared thermotherapy irradiation device can be adjusted.

It should be understood by those skilled in the art that the infrared thermal insulation coating can be made of the products of the prior art, and of course, the infrared-blocking thermal insulation glass can be directly used instead of the transparent glass coated with the infrared thermal insulation coating.

Specifically, as shown in fig. 1, the transparent glass 12 is embedded on the infrared insulation board 5, the thickness of the transparent glass 12 is the same as that of the infrared insulation board 5, and the outer side wall of the transparent glass 12 is flush with the inner wall of the infrared radiation groove 4.

Preferably, at least two infrared heat insulation boards 5 are arranged in the infrared irradiation groove 4, so that infrared rays can be weakened to different degrees.

Specifically, as shown in fig. 1, the horizontal driving mechanism 6 includes a driving cavity 13 disposed in the thermal therapy irradiation cabin 1, a plurality of translation driving components 14 corresponding to the infrared insulation panels 5 are disposed in the driving cavity 13, the translation driving components 14 are disposed in a staggered manner, the translation driving components 14 are connected to the corresponding infrared insulation panels 5 through connecting rods 15 disposed vertically, and the connecting rods 15 on the infrared insulation panels 5 are equal in length. Every translation drive assembly can drive an infrared heat insulating board translation respectively, or drive infrared heat insulating board removes to the infrared irradiation inslot, or shift out infrared heat insulating board from the infrared irradiation inslot, a plurality of translation drive assembly dislocation set can prevent infrared heat insulating board mutual interference, when shifting out infrared heat insulating board from the infrared irradiation inslot through translation drive assembly, a plurality of infrared heat insulating boards need the synchronization action or keep from the order up in order to prevent infrared heat insulating board and connecting rod mutual interference down, when removing infrared heat insulating board to the infrared irradiation inslot through translation drive assembly, a plurality of infrared heat insulating boards need the synchronization action or keep from last order down in order to prevent infrared heat insulating board and connecting rod mutual interference.

Specifically, as shown in fig. 1, a plurality of horizontal sliding grooves 16 corresponding to the infrared thermal insulation boards 5 are arranged in the thermal regulation cover 3, the infrared thermal insulation boards 5 are inserted into the horizontal sliding grooves 16, the translation driving assembly 14 includes a translation screw 17 horizontally arranged in the driving cavity 13 and a circumferential driver 18 connected with the translation screw 17, a translation sleeve 19 is screwed on the translation screw 17, and the translation sleeve 19 is fixedly connected with the top of the connecting rod 15. The circumferential driver 18 can drive the translation screw rod to rotate, the translation screw rod can drive the translation sleeve to reciprocate along the horizontal direction, and the translation sleeve can drive the infrared heat insulation plate to move into the horizontal sliding groove or drive the infrared heat insulation plate to move into the infrared irradiation groove through the connecting rod.

Those skilled in the art will appreciate that the circumferential drive may be a rotary cylinder or motor, or the like.

Specifically, as shown in fig. 1, a connecting groove 20 is further provided between the driving chamber 13 and the horizontal sliding groove 16, and the bottom of the connecting rod 15 penetrates through the connecting groove 20 and is fixedly connected to the infrared thermal insulation board 5.

Preferably, as shown in fig. 1, a plurality of supporting grooves 21 adapted to the infrared insulation board 5 are further provided on the side of the infrared radiation slot 4 away from the horizontal sliding groove 16. The supporting groove can be matched with the horizontal sliding groove to support the infrared thermal insulation board.

The working principle of the utility model is as follows: the infrared thermotherapy irradiation device in the thermotherapy irradiation cabin can emit infrared rays, the infrared rays can perform thermotherapy on a patient by penetrating through the infrared irradiation groove in the heat regulation cover, the infrared heat insulation plates in the infrared irradiation groove can block the infrared rays, and the infrared thermotherapy intensity can be adjusted by adjusting the number of the infrared heat insulation plates in the infrared irradiation groove through the horizontal driving mechanism so as to adapt to the infrared illumination intensity required by the patient at different stages;

the infrared light sources in each group of infrared light sources are connected in series and matched with the independent switch and the sliding rheostat to independently control the on-off of the infrared light sources in the same group of infrared light sources and the current adjustment in the series circuit, the brightness of the infrared light sources in the series circuit can be adjusted by adjusting the current so as to adapt to the actual temperature rise conditions of different parts of a patient, the accuracy of illumination of each group of infrared light sources can be improved by controlling the independent switch, the energy consumption can be reduced, unnecessary infrared illumination on non-affected parts can be reduced, the voltage of the infrared light sources in the groups of infrared light sources can be kept consistent by connecting the infrared light sources 7 in parallel, and therefore when the resistance at the sliding rheostat is changed, the current flowing through the infrared light sources is changed along with the change of the resistance, and the electric power of the infrared light sources can be adjusted;

the infrared heat insulation coating can reduce the quantity of infrared rays passing through the infrared irradiation groove, so that the illumination intensity of an infrared thermal therapy irradiation device can be adjusted, at least two infrared heat insulation plates 5 are arranged in the infrared irradiation groove 4, so that the infrared rays can be weakened in different degrees, each translation driving assembly can respectively drive one infrared heat insulation plate to translate, or drive the infrared heat insulation plate to move into the infrared irradiation groove, or move the infrared heat insulation plate out of the infrared irradiation groove, the plurality of translation driving assemblies are arranged in a staggered mode, so that the infrared heat insulation plates can be prevented from interfering with each other, when the infrared heat insulation plates are moved out of the infrared irradiation groove through the translation driving assemblies, the plurality of infrared heat insulation plates need to synchronously act or keep the sequence from bottom to top so as to prevent the infrared heat insulation plates from interfering with the connecting rods, when the infrared heat insulation plates are moved into the infrared irradiation groove through the translation driving assemblies, a plurality of infrared heat insulating boards need to be moved synchronously or keep from last order down in order to prevent infrared heat insulating board and connecting rod interference each other, and the circumference driver 18 can drive the translation screw rod to rotate, and translation screw rod rotation can drive the translation sleeve along horizontal direction reciprocating motion, and translation sleeve translation can drive infrared heat insulating board through the connecting rod and remove to the horizontal spout or drive infrared heat insulating board and remove to the infrared irradiation inslot, supports the groove and can cooperate the horizontal spout to support infrared heat insulating board.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments, or alternatives may be employed, by those skilled in the art, without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although the thermal therapy irradiation compartment 1, the infrared thermal therapy irradiation device 2, the thermal regulation cover 3, the infrared irradiation tank 4, the infrared insulation board 5, the horizontal driving mechanism 6, the infrared light source 7, the independent switch 8, the slide rheostat 9, the power supply 10, the main switch 11, the transparent glass 12, the driving cavity 13, the translation driving assembly 14, the connecting rod 15, the horizontal sliding groove 16, the translation screw 17, the circumferential driver 18, the translation sleeve 19, the connecting groove 20, the supporting groove 21, etc., are used more herein, these terms are used only for the convenience of describing and explaining the essence of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. The utility model provides an irradiation equipment with adjustable luminous power, includes thermotherapy irradiation cabin (1), its characterized in that, thermotherapy irradiation cabin (1) in be equipped with infrared thermotherapy irradiation unit (2), thermotherapy irradiation cabin (1) bottom be equipped with thermal regulation cover (3), thermal regulation cover (3) in run through and be provided with infrared irradiation groove (4), infrared irradiation groove (4) in be equipped with infrared heat insulating board (5) that a plurality of levels set up, thermal regulation cover (3) in still be equipped with horizontal drive mechanism (6) continuous with infrared heat insulating board (5).

2. The adjustable optical power irradiation equipment according to claim 1, wherein the infrared thermal therapy irradiation device (2) comprises a plurality of groups of infrared light sources (7) arranged in parallel, each group of infrared light sources (7) comprises a plurality of infrared light sources (7) arranged uniformly at intervals, the plurality of infrared light sources (7) in the same group are connected in series, and an independent switch (8) and a slide rheostat (9) are further connected in series on a series circuit of the plurality of infrared light sources (7) in the same group.

3. The adjustable optical power irradiation equipment according to claim 2, wherein the plurality of groups of infrared light sources (7) are connected in parallel, and a main switch (11) is further connected in series between the plurality of groups of infrared light sources (7) and the power supply (10).

4. An irradiation equipment with adjustable optical power as claimed in claim 1, 2 or 3, wherein said infrared thermal insulation board (5) is provided with a transparent glass (12), and said transparent glass (12) is coated with an infrared thermal insulation coating.

5. The adjustable optical power irradiation equipment according to claim 4, wherein the transparent glass (12) is embedded on the infrared thermal insulation board (5), the thickness of the transparent glass (12) is the same as that of the infrared thermal insulation board (5), and the outer side wall of the transparent glass (12) is flush with the inner wall of the infrared irradiation groove (4).

6. An optical power adjustable irradiation device as claimed in claim 1, 2 or 3, wherein at least two infrared heat insulation boards (5) are arranged in the infrared irradiation tank (4).

7. An optical power adjustable irradiation device according to claim 1, 2 or 3, wherein the horizontal driving mechanism (6) comprises a driving cavity (13) arranged in the thermal therapy irradiation cabin (1), a plurality of translation driving components (14) corresponding to the infrared insulation boards (5) one by one are arranged in the driving cavity (13), the plurality of translation driving components (14) are arranged in a staggered manner, the plurality of translation driving components (14) are respectively connected with the corresponding infrared insulation boards (5) through vertically arranged connecting rods (15), and the lengths of the connecting rods (15) on the plurality of infrared insulation boards (5) are equal.

8. The adjustable optical power irradiation equipment according to claim 7, wherein a plurality of horizontal sliding grooves (16) corresponding to the infrared heat insulation boards (5) are arranged in the thermal regulation cover (3), the infrared heat insulation boards (5) are inserted into the horizontal sliding grooves (16), the translation driving assembly (14) comprises a translation screw (17) horizontally arranged in the driving cavity (13) and a circumferential driver (18) connected with the translation screw (17), a translation sleeve (19) is screwed on the translation screw (17), and the translation sleeve (19) is fixedly connected with the top of the connecting rod (15).

9. The adjustable optical power irradiation equipment according to claim 8, wherein a connecting groove (20) is further provided between the driving chamber (13) and the horizontal sliding groove (16), and the bottom of the connecting rod (15) penetrates through the connecting groove (20) and is fixedly connected with the infrared thermal insulation board (5).

10. The adjustable optical power irradiation equipment according to claim 9, wherein a plurality of supporting grooves (21) matched with the infrared thermal insulation board (5) are further arranged on one side of the infrared irradiation groove (4) far away from the horizontal sliding groove (16).

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