CN110141798B

CN110141798B - Multifunctional intelligent TDP therapeutic apparatus

Info

Publication number: CN110141798B
Application number: CN201910467318.3A
Authority: CN
Inventors: 李琳; 王勤俭; 王松慧; 李泊泊; 赵丽娜; 张宇虹; 吕勤霞; 程艳红; 赵利霞; 王德娟; 陈晨; 方真妹; 任斐; 李银博; 周楠; 张羽飞
Original assignee: Henan Hospital Traditional Chinese Medicine Second Affiliated Hospital of Henan University of Traditional Chinese Medicine TCM
Current assignee: Henan Hospital Traditional Chinese Medicine Second Affiliated Hospital of Henan University of Traditional Chinese Medicine TCM
Priority date: 2019-05-31
Filing date: 2019-05-31
Publication date: 2020-10-27
Anticipated expiration: 2039-05-31
Also published as: CN110141798A

Abstract

The invention relates to a multifunctional intelligent TDP magic lamp, which effectively solves the problems that the existing TDP magic lamp does not have temperature closed-loop control and is large in size and inconvenient to place; the technical scheme comprises the following steps: longitudinal sliding connection has telescopic machanism between two support bodies and the two support bodies that transverse interval set up, the telescopic machanism bottom is fixed with the lamp holder, folding leg and lamp holder are installed to two support body bottoms and the protection casing is installed outward to the lamp holder (can provide a comparatively good for the lamp holder, inclosed save environment), the protection casing on the lamp holder can be opened in step when expanding the support body, the protection casing on the lamp holder can be closed in step when folding the packing up with the support body, whole operation process is simple, and is convenient, still be equipped with reciprocating drive mechanism on the support body and make the lamp holder cover the regional complete exposure of the required treatment of patient under reciprocating drive mechanism's drive, the problem that single lamp holder shines that treatment effeciency is lower and increase lamp.

Description

Multifunctional intelligent TDP therapeutic apparatus

Technical Field

The invention relates to the field of medical instruments, in particular to a multifunctional intelligent TDP magic lamp.

Background

The TDP magic lamp is a TDP therapeutic apparatus, which has special therapeutic effect, and is widely applied to departments of physical therapy department, internal and external department, gynecology, orthopedics, five sense organs department, dermatology department, neurology department and the like in various hospitals, and is a novel medical health care apparatus with high curative effect, quick response, no pain, wide application and no side effect, so the TDP magic lamp is also called as a magic lamp by common people, mainly achieves the therapeutic purpose by irradiation therapy, treats a body by infrared heat radiation, can effectively dredge a blocked or blocked microcirculation channel, promotes the body to absorb deep blood clots, deep hydrops (water molecules) and the like, has certain defects and deficiencies although the application is wide, and particularly, when in clinical use, the magic lamp is generally set at a good temperature and then aims at a part of a patient to be irradiated for therapy, moreover, usually, one time is about half an hour, and irradiation is needed for 1 to 2 times a day, but the existing partial magic lamps do not have the intelligent regulation and control function (namely temperature closed-loop control) of the lamp head temperature when irradiation treatment is carried out, the temperature of the lamp head floats up and down in the process of irradiating a patient by the lamp head, so that the temperature of the lamp head is difficult to maintain in a better temperature range, and the irradiation treatment is not facilitated; most of the existing magic lamp therapeutic devices are not foldable, often occupy larger space when not used, are not beneficial to storage and can interfere with other normal work; it shines the position of present magical lamp therapeutic equipment all is fixed basically can not remove, when the position region that the patient need shine is great, the coverage that the magical lamp shines can not be with the position that will shine and cover completely, can only install a plurality of lamp holders additional or to the certain position of patient after finishing shining, remove the magical lamp and shine another position again, lead to treatment effeciency lower and install the magical lamp additional and also make the cost increase, we need provide a multi-functional intelligent TDP magical lamp that has temperature closed-loop control system more than synthesizing and be used for solving above problem.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides the multifunctional intelligent TDP magic lamp which can be placed on a bed surface, a patient lies on or lies prone on the bed when irradiation treatment is carried out, so that the body of the patient is more comfortable in the treatment process, and the magic lamp can be adjusted according to the size of an area to be irradiated and treated by the patient when irradiation treatment is carried out, so that the magic lamp can carry out reciprocating and cyclic irradiation on the area to be irradiated by the patient, and the area to be irradiated by the patient is completely covered; and this magic lamp can fold when not needing to use thereby reduces and takes up an area of the space, expandes it and sets up the protection casing on the magic lamp when expanding also open in step when needs use, and whole operation process is simple, convenient feasible this magic lamp suitability and result of use are better.

The specific technical scheme is as follows:

the utility model provides a magic lamp of multi-functional intelligent TDP, includes the support body that horizontal interval set up, its characterized in that, two longitudinal sliding connection has telescopic machanism and two between the support body bottom is connected with folding leg, the telescopic machanism bottom is connected with drive box and drive box internal rotation and installs the lamp holder, be equipped with driving motor and driving motor in the telescopic machanism and be connected with first transmission, driving motor drives telescopic machanism through first transmission and stretch out and draw back and first transmission rotates the first meshing board of installing on the telescopic machanism diapire through the bevel gear group drive that sets up in telescopic machanism, first meshing board below is equipped with rather than matched with second meshing board, and second meshing board rotates to install on vertical sliding connection just is connected with first reset spring between bearing rod and the telescopic machanism diapire on the bearing rod of telescopic machanism diapire, be equipped with on the vertical both sides The side wall of the corresponding telescopic mechanism is connected with a second reset spring, one end of the lamp holder, which is arranged in the driving box, is connected with a second transmission device, one side of the second transmission device, which is close to the second meshing plate, is sleeved with a first bevel gear, the first bevel gear is meshed with a second bevel gear which coaxially rotates with the second meshing plate, one opposite side of the two trigger rods is fixedly connected with a triangular oblique block, the inclined planes of the two triangular oblique blocks are provided with sliding chutes in sliding fit with the supporting rod, the driving motor drives the telescopic mechanism to extend through the first transmission device and simultaneously extrudes the two trigger rods outwards, the two trigger rods are jointly matched with the triangular oblique blocks fixedly connected with the two trigger rods, so that the second meshing plate rotatably arranged on the supporting rod is meshed with the first meshing plate, the power is transmitted to the second transmission device to drive the lamp holder to rotate, when the lamp holder is completely unfolded under the driving of the second transmission device, the trigger rods longitudinally and slidably connected to the longitudinal two side walls of the telescopic mechanism lose the extrusion of the telescopic mechanism, the two trigger rods move oppositely under the action of a second reset spring and drive the first meshing plate and the second meshing plate to be separated, the longitudinal two sides of the lamp holder are respectively and slidably connected with the protective cover, the lamp holder is internally provided with a third transmission device, the third transmission device is driven by the second transmission device, the lamp holder is driven by the second transmission device to expand and simultaneously drive the protective cover to open, the protective cover is also completely opened when the lamp holder is completely expanded, when the telescopic mechanism is driven by the driving motor to contract, the telescopic mechanism extrudes the two trigger rods again and enables the first meshing plate and the second meshing plate to be meshed again, so that the lamp holder is driven to be folded and the protective cover is closed, and the frame body positioned on one lateral side is internally provided with a reciprocating driving mechanism for driving the telescopic, the lamp holder is internally provided with a temperature control module and a temperature sensor, and the temperature sensor is electrically connected with the temperature control module and the temperature control module is connected with a control panel.

Preferably, the telescopic mechanism comprises a rectangular cylinder and a rectangular rod which are in transverse sliding fit, the other ends of the rectangular cylinder and the rectangular rod are respectively connected with a frame body corresponding to the rectangular cylinder in a sliding manner, a driving screw is rotatably installed on the bottom wall of the rectangular cylinder and is in threaded fit with the rectangular rod, the driving screw is driven by a driving motor, a bevel gear group is arranged at one end, close to the driving motor, of the driving screw, the triggering rod is a triggering oblique block which is longitudinally and slidably connected with the two longitudinal side walls of the rectangular cylinder, the triggering oblique block is arranged at one end outside the rectangular cylinder and is connected with an L-shaped rod, the two triangular oblique blocks are respectively and fixedly connected to one side, opposite to the two L-shaped rods, corresponding to the triggering oblique block, the second engaging plate is fixedly sleeved on a first shaft which is vertically arranged, the first shaft is rotatably installed on a bearing rod, and is axially and, the second bevel gear is fixedly sleeved on the first cylinder.

Preferably, the protection casing is the arc cavity with lamp holder matched with and the lamp holder rotates through the second drum and installs in the drive box, third transmission includes: set up in the arc cavity and along the rack that perpendicular to arc cavity lateral wall extends, be equipped with in the lamp holder and place chamber and two racks respectively longitudinal sliding connect in placing the vertical both sides wall in chamber, the rack is arranged in and is placed intracavity one end meshing and has the gear of rotation installation on placing the chamber diapire, and the gear other end is connected with and sets up in placing the chamber diapire and longitudinal extension's pulley group, and the pulley group other end is connected with and rotates the third bevel gear of installing on placing the chamber diapire, two the common meshing of third bevel gear has the fourth bevel gear of rotation installation on placing the chamber diapire, fourth bevel gear is connected with second transmission.

Preferably, the second drum both ends respectively with place chamber, drive case intercommunication, second transmission includes: a second shaft which is coaxial with the second cylinder is rotatably arranged on the bottom wall of the placing cavity, a fourth bevel gear is fixedly arranged at one end of the second shaft in the placing cavity in a sleeved mode, a fifth bevel gear is fixedly arranged at one end of the second shaft in the driving box in a sleeved mode, a sixth bevel gear is fixedly arranged at one end of the second cylinder in the driving box in a sleeved mode, the seventh bevel gear rotatably arranged on the inner wall of the driving box is meshed with the sixth bevel gear, the eighth bevel gear coaxially rotates with the seventh bevel gear, and the seventh bevel gear and the first bevel gear are in transmission through a driving shaft.

Preferably, the two protective covers are provided with positioning cavities, the positioning cavities are vertically and slidably connected with positioning plates, the two transverse sides of the positioning plates are respectively connected with vertically arranged third return springs, the other ends of the two third return springs are connected with the bottom walls of the positioning cavities, the protective cover is provided with a slide hole in sliding fit with the positioning plate, the longitudinal two sides of the lamp holder are respectively provided with a positioning groove matched with the positioning plate, the upper end of the positioning plate is rotatably provided with a lifting screw rod in threaded fit with the top wall of the positioning cavity, wherein the bottom wall of the positioning plate is provided with a first conducting plate, and the bottom wall of the positioning groove matched with the first conducting plate is provided with a second conducting plate, the driving box is internally provided with a positioning device used for positioning and locking the second cylinder, the first conducting strip and the second conducting strip are connected in series in a voltage stabilizing loop arranged in the driving box, and when the positioning plate is inserted into the positioning groove corresponding to the positioning plate, the positioning device is triggered to lock the second cylinder.

Preferably, the positioning device comprises two first slide ways which are arranged on the bottom wall of the driving box and extend transversely, a positioning rod is connected in the first slide ways in a sliding mode, a fourth reset spring is connected between the first slide ways corresponding to the positioning rod, positioning holes matched with the positioning rod are formed in the circumferential two ends of the second cylinder, electromagnets connected in series in the pressure stabilizing loop are arranged in the positioning holes in the second cylinder, and the positioning rod is made of materials easily attracted by the magnets.

Preferably, the reciprocating drive mechanism includes: wherein a rectangular cavity is arranged in one frame body, two first belt pulleys which are rotatably arranged on the side wall of the rectangular cavity are respectively arranged at the longitudinal two ends in the rectangular cavity, a triangular cavity communicated with the rectangular cavity is arranged below the frame body, a second belt pulley is arranged on the inner side wall of the triangular cavity and positioned at the central position, the second belt pulley is driven by a reciprocating motor, the reciprocating motor is fixed on a first slide block vertically and slidably connected on the side wall of the triangular cavity, a second slide way matched with the first slide block is arranged on the side wall of the triangular cavity, a fifth reset spring is connected between the first slide block and the second slide way, the two first belt pulleys are connected with each other by a belt, an adjusting device used for adjusting the distance between the two first belt pulleys is arranged between the two first belt pulleys, and a fourth transmission device is arranged on the belt and drives the rectangular cylinder to longitudinally move between the two frame bodies through the fourth transmission device.

Preferably, the adjusting means comprises: first belt pulley rotates and installs second slider and the vertical sliding connection of second slider on the rectangular cavity lateral wall, be thread fit between rectangular cavity internal rotation installed vertical adjusting screw who sets up and adjusting screw and two second sliders, adjusting screw sets up oppositely with two second slider thread fit position screw soon.

Preferably, the fourth transmission device comprises a moving block fixed on the belt, the moving block is rotatably installed on one side of the rectangular cylinder in a direction facing the rectangular cylinder, a first slide bar is installed on the first slide bar in a sliding fit mode, a sixth reset spring is connected between the first slide bar and the bottom wall of the first slide bar, the rectangular cylinder is rotatably installed on one side of the rectangular cavity in a direction facing the rectangular cavity, a round bar is installed on one end of the rectangular cavity in a rotating mode, a rectangular sleeve in a sliding fit mode with the first slide bar is fixed to one end of the rectangular cavity, a baffle is fixed to one end, penetrating through the rectangular sleeve, of the first slide bar, and a third slide in a sliding fit.

Preferably, folding leg rotates respectively and installs and be equipped with respectively in the vertical both ends of support body and the vertical both ends of support body with the coaxial pivoted worm wheel of folding leg, and the worm wheel cooperation has to rotate to install and is connected through the actuating lever between worm and the two worms on the support body, folding leg bottom sliding connection has flexible leg and folding leg and has twisted positioning bolt with flexible leg sliding fit position, sliding connection between drive case upper end is equipped with slide bar and rectangular pole, the rectangular cylinder, the drive shaft is electronic telescopic shaft.

The beneficial effects of the technical scheme are as follows:

(1) the TDP magic lamp can be placed on a bed surface, so that a patient lies or lies on the bed when performing irradiation treatment, and the body of the patient is more comfortable when performing long-time irradiation treatment; the magic lamp can be adjusted according to the size of the area of the patient to be irradiated and treated when the magic lamp is used for irradiation and treatment, so that the magic lamp can perform reciprocating and cyclic irradiation on the area of the patient to be treated, and the area of the patient to be irradiated is completely covered; the magic lamp can be folded when not in use, so that the occupied space is reduced, the magic lamp is unfolded when in use, and the protective cover arranged on the magic lamp is synchronously opened when in unfolding (the protective cover synchronously seals the magic lamp when the whole device is folded and folded, so that the lamp holder can be well protected, the treatment effect is better), the whole operation process is simple and convenient, and the applicability and the use effect of the magic lamp are better;

(2) this magic lamp of multi-functional intelligence TDP height can make corresponding regulation according to the difference of different patient sizes, make the magic lamp holder be in an optimal treatment position of shining apart from patient's health, and the magic lamp holder that sets up on the device not only can carry out reciprocating motion along patient's health length direction, still can adjust the stroke scope of this lamp holder at the removal along patient's health length direction, make the lamp holder cover the required treatment irradiation zone of patient completely under the reciprocating mechanism drive, and the device width also can make corresponding adjustment according to patient's size equally, make reach the best treatment state of shining of being fit for patient itself when shining the treatment to the patient.

Drawings

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

FIG. 2 is a schematic rear elevational view of the overall structure of the present invention;

FIG. 3 is an enlarged view of the structure at position A of the present invention;

FIG. 4 is a top view of the overall structure of the present invention after deployment;

FIG. 5 is a schematic view of another perspective of the overall structure of the present invention;

FIG. 6 is a schematic view of the fit between the triangular oblique blocks and the supporting rods;

FIG. 7 is a schematic view showing the relationship between two triangular blocks, a support rod, an L-shaped rod, and a trigger block;

FIG. 8 is a schematic view of the internal structure of a rectangular cavity of the present invention with one of the frame bodies cut away;

FIG. 9 is a schematic view of the internal structure of the triangular cavity and the rectangular cavity of the present invention after being cut;

FIG. 10 is a schematic view of the frame body of the present invention showing a matching relationship between the moving block, the first sliding rod, the first sliding barrel, the round bar and the third sliding way, in a partially cut-away view;

FIG. 11 is a schematic view of the structure of the rectangular rod, the rectangular cylinder and the driving box of the present invention after being separated;

FIG. 12 is a schematic top view of a cross-sectional upper end of a rectangular cylinder illustrating the internal structure of the rectangular cylinder according to the present invention;

FIG. 13 is a schematic view of the structure of the lamp cap with a cut-away view in the cavity;

FIG. 14 is a schematic view of the internal structure of the positioning cavity and the base part of the lamp after the shield is separated from the base;

FIG. 15 is a schematic view showing the matching relationship between the driving box and the positioning cavity after being sectioned;

FIG. 16 is a schematic cross-sectional view of the drive case with an alternative internal structure;

FIG. 17 is a schematic diagram of the internal structure of the triangular cavity in a cross-sectional view from one side in the longitudinal direction;

FIG. 18 is a cross-sectional view of the frame body showing the fit relationship of the internal structure of the rectangular cavity;

FIG. 19 is a cross-sectional view of the first sliding bar of the present invention, showing the fitting relationship between the first sliding bar and the rectangular sleeve;

FIG. 20 is a front view of the present invention with the overall structure retracted and the hood closed;

FIG. 21 is a schematic top view of the present invention with the overall structure retracted and the shield closed;

FIG. 22 is a block diagram illustrating the flow of the control panel in accordance with the present invention;

FIG. 23 is a top view of a control panel according to the present invention.

In the figure: the foldable rack comprises a rack body 1, a folding leg 2, a driving box 3, a lamp holder 4, a driving box 5, a driving motor 6, a bevel gear set 7, a first engaging plate 8, a second engaging plate 9, a supporting rod 10, a first return spring 11, a trigger rod 12, a second return spring 13, a first bevel gear 14, a second bevel gear 15, a triangular oblique block 16, a sliding chute 17, a protective cover 18, a rectangular cylinder 19, a rectangular rod 20, a driving screw 21, a trigger oblique block 22, an L-shaped rod 23, a first cylinder 24, a first shaft 25, a second cylinder 26, a rack 27, a placing cavity 28, a gear 29, a belt pulley set 30, a third bevel gear 31, a fourth bevel gear 32, a second shaft 33, a fifth bevel gear 34, a sixth bevel gear 35, a seventh bevel gear 36, an eighth bevel gear 37, a driving shaft 38, a positioning cavity 39, a positioning plate 40, a third return spring 41, a sliding hole 42, a positioning groove 43, a lifting screw 44, a first slide, the device comprises a positioning rod 46, a fourth return spring 47, a positioning hole 48, a rectangular cavity 49, a first belt pulley 50, a triangular cavity 51, a second belt pulley 52, a reciprocating motor 53, a first slider 54, a second slide way 55, a fifth return spring 56, a belt 57, a second slider 58, an adjusting screw 59, a lifting handle 60, a first slide rod 61, a sixth return spring 62, a round rod 63, a rectangular sleeve 64, a baffle plate 65, a third slide way 66, a worm wheel 67, a worm 68, a driving rod 69, a telescopic leg 70, a positioning bolt 71, a sliding rod 72, a sliding rail 73, a moving block 74, a first slide way 75 and a rectangular sliding hole 76.

Detailed Description

The foregoing and other aspects, features and advantages of the invention will be apparent from the following more particular description of embodiments of the invention, as illustrated in the accompanying drawings in which reference is made to figures 1 to 23. The structural contents mentioned in the following embodiments are all referred to the attached drawings of the specification.

Exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.

Embodiment 1, a multifunctional intelligent TDP magic lamp, which comprises frame bodies 1 arranged at a transverse interval, and is characterized in that a telescopic mechanism is longitudinally connected between the two frame bodies 1 in a sliding manner, the bottom of the two frame bodies 1 is connected with folding legs 2, the bottom of the telescopic mechanism is connected with a driving box 5, the driving box 5 is rotatably provided with a lamp holder 4, the telescopic mechanism is internally provided with a driving motor 6, the driving motor 6 is connected with a first transmission device, the driving motor 6 drives the telescopic mechanism to extend and retract through the first transmission device, the first transmission device drives a first meshing plate 8 arranged on the bottom wall of the telescopic mechanism to rotate through a bevel gear set 7 arranged in the telescopic mechanism, a second meshing plate 9 matched with the first meshing plate 8 is arranged below the first meshing plate 8, the second meshing plate 9 is rotatably arranged on a bearing rod 10 vertically and slidably connected on the bottom wall of the telescopic mechanism, and a first reset spring 11 is connected between the bearing rod 10 and, the two longitudinal side walls of the telescopic mechanism are provided with trigger rods 12 which are longitudinally and slidably connected to the side wall of the telescopic mechanism, the trigger rods 12 and the corresponding side wall of the telescopic mechanism are connected with second return springs 13, one end of the lamp holder 4 arranged in the driving box 5 is connected with a second transmission device, one side of the second transmission device close to the second meshing plate 9 is sleeved with a first bevel gear 14, the first bevel gear 14 is meshed with a second bevel gear 15 which coaxially rotates with the second meshing plate 9, one opposite side of the two trigger rods 12 is fixedly connected with triangular oblique blocks 16, the inclined planes of the two triangular oblique blocks 16 are provided with sliding chutes 17 which are in sliding fit with the supporting rods 10, the driving motor 6 drives the telescopic mechanism to extend through the first transmission device and simultaneously extrude the two trigger rods 12 outwards, the two trigger rods 12 are jointly matched with the triangular oblique blocks 16 which are fixedly connected with the two trigger rods 12, so that the second meshing plate 9 which is rotatably installed on the supporting rods is meshed with, thereby transmitting power to the second transmission device to drive the lamp holder 4 to rotate, when the lamp holder 4 is completely unfolded under the drive of the second transmission device, the trigger rods 12 longitudinally and slidably connected to the two longitudinal side walls of the telescopic mechanism simultaneously lose the extrusion of the telescopic mechanism, the two trigger rods 12 move oppositely under the action of the second return spring 13 and drive the first meshing plate 8 to be separated from the second meshing plate 9, the two longitudinal sides of the lamp holder 4 are respectively and slidably connected with the protective cover 18, a third transmission device is arranged in the lamp holder 4, the third transmission device is driven by the second transmission device, the protective cover 18 is driven to be opened by the third transmission device while the lamp holder 4 is unfolded by the second transmission device, the protective cover 18 is also completely opened when the lamp holder 4 is completely unfolded, when the telescopic mechanism is driven by the drive motor 6 to shrink, the telescopic mechanism again extrudes the two trigger rods 12 and enables the first meshing plate 8 to be meshed with the second meshing plate 9 again, thereby drive lamp holder 4 pack up with the closing of protection casing 18, be equipped with in the support body 1 that is located horizontal one side and be used for driving telescopic machanism longitudinal sliding's reciprocal actuating mechanism, be equipped with temperature control module in the lamp holder 4 and be equipped with temperature sensor in the lamp holder 4, temperature sensor and temperature control module electric connection have control panel.

When the embodiment is used, the TDP magic lamp heats the TDP radiation plate by a specific heater (specific heating temperature), generates specific electromagnetic waves distributed in a wavelength range of 2-25 mu m and an intensity range of 25-35mw/cm2, generates biological effect after matching, absorbing, transmitting, converting and utilizing by organisms matched with absorption spectra in human cells, enhances the microcirculation effect, promotes metabolism, adjusts the state of trace elements, ion concentration and cell level in vivo and promotes the information metabolism of the organisms, generates the repair to human pathological changes, improves the immunity of the lamp per se, has the best treatment effect at the skin sensation temperature of 40 ℃ during treatment, easily burns the skin of a patient when the temperature is too high, and has poor treatment effect due to too low temperature; in the scheme, the lamp holder 4 is electrically connected with an external power supply, a temperature sensor is arranged in the lamp holder 4 and is electrically connected with a temperature control module arranged in the lamp holder 4, a proper temperature interval is arranged for the lamp holder 4 through the temperature control module, when the temperature sensor monitors that the temperature of the lamp holder 4 is higher than the temperature interval, the temperature sensor sends a signal to the temperature control module and the temperature control module controls a heater arranged in the lamp holder 4 to start heating, when the temperature sensor monitors that the temperature of the lamp holder 4 is lower than the temperature interval, the temperature sensor sends a signal to the temperature control module and the temperature control module controls the heater arranged in the lamp holder 4 to stop heating, when the lamp is used specifically (refer to figure 22), a main power switch is pressed, then a temperature adjusting power switch is pressed, a temperature adjusting start-stop button is pressed, inputting a temperature interval to be set on a numerical key on the right side, then starting heating by a heater arranged in the lamp holder 4, sending a signal to a temperature control module by a temperature sensor when the temperature of the lamp holder 4 is in the set temperature interval, and controlling the heater arranged in the lamp holder 4 to stop heating by the temperature control module; the multifunctional intelligent TDP magic lamp can be folded when not in use, so that the occupied space is reduced, other normal work is not hindered, the device is provided with a protection device for the lamp holder 4, the protection device is synchronously opened and the lamp holder 4 is exposed when the device is unfolded, and the protection device synchronously seals the lamp holder 4 when the device is not folded, so that the lamp holder 4 can be well protected, and the lamp holder 4 is in a better storage environment;

how the multifunctional intelligent TDP magic lamp is unfolded and folded is described in detail below; specifically, a telescopic mechanism is longitudinally connected between two frame bodies 1 which are transversely arranged at intervals in a sliding manner and is rotatably provided with a lamp holder 4 through a driving box 5, the device is in a folding and folding state in an initial state, at the moment, a driving motor 6 is controlled to start working through a driving motor 6 controller, the driving motor 6 drives the telescopic mechanism to extend through a first transmission device arranged in the telescopic mechanism, so that the two frame bodies 1 which are arranged at intervals are unfolded, the first transmission device is connected with a bevel gear set 7 arranged in the telescopic mechanism and is driven by the bevel gear set 7 to rotate a second meshing plate 9 arranged on the bottom wall of the telescopic mechanism, the second meshing plate 9 is matched with a first meshing plate 8, when the device is in a folding and folding state, the telescopic mechanism is in a squeezing state for a trigger rod 12 which is longitudinally connected on the longitudinal side wall of the telescopic mechanism in a sliding manner, and a triangular oblique block 16 is fixedly connected to one side of the two, two triangular oblique blocks matched with each other pass through the supporting rod 10 under the action of the trigger rod 12 corresponding to the triangular oblique blocks to enable the first return spring 11 connected with the supporting rod 10 to be in a stretched state, at the moment, the first meshing plate 8 and the second meshing plate 9 rotatably installed on the supporting rod 10 are in a meshed state (the elastic force of the second return spring 13 connected with the trigger rod 12 is set to be larger than that of the first return spring 11), so that the driving motor 6 transmits power to the first bevel gear 14 through the bevel gear set 7 through the first meshing plate 8 and the second meshing plate 9 which are meshed with each other to drive the second transmission device, when the motor drives the telescoping mechanism to be unfolded through the first transmission device, the lamp holder 4 is unfolded through the second transmission device, and when the lamp holder 4 is completely unfolded, the trigger rods 12 longitudinally and slidably connected to two longitudinal side walls of the telescoping mechanism simultaneously lose the extrusion of the telescoping mechanism to the telescoping mechanism, the two trigger rods 12 move towards each other along the telescopic mechanism under the action of the elastic force of the second return spring 13, the triangular oblique blocks 16 fixedly connected with the two trigger rods 12 push the bearing rods 10 to move downwards in the process that the two trigger rods 12 move towards each other, so that the second meshing plate 9 rotatably mounted on the bearing rods 10 is separated from the first meshing plate 8, and then the telescopic mechanism is driven by the driving motor 6 to be continuously unfolded so as to completely unfold the two frame bodies 1;

protective covers 18 are connected to two longitudinal sides of a lamp holder 4 in a sliding mode, as shown in the attached drawing 13, a third transmission device is arranged in the lamp holder 4 and is driven by a second transmission device, so that when the lamp holder 4 is unfolded, the second transmission device drives the third transmission device to drive the two protective covers 18 to slide along the lamp holder 4, the protective covers 18 are opened, the lamp holder 4 and the protective covers 18 are synchronously opened when a driving motor 6 drives two frame bodies 1 to be unfolded, the whole process is synchronous, the device can be quickly adjusted to a working state when needing to be used, the device can be folded and folded when not needing to be used, and the bottom of the frame body 1 is connected with folding legs 2 to fold the device and does not occupy too much space; a reciprocating driving mechanism is arranged in one of the frame bodies 1, the reciprocating driving mechanism drives the telescopic mechanism to reciprocate between the two frame bodies 1, so that the reciprocating circular irradiation on the treatment area required to be irradiated by the patient is realized, and the treatment area required to be irradiated by the patient is completely covered (when the treatment area required to be irradiated by the patient is larger).

Embodiment 2, on the basis of embodiment 1, the telescopic mechanism includes a rectangular cylinder 19 and a rectangular rod 20 which are in transverse sliding fit, the other ends of the rectangular cylinder 19 and the rectangular rod 20 are respectively connected to the frame body 1 corresponding thereto in a sliding manner, a driving screw 21 is rotatably installed on the bottom wall of the rectangular cylinder 19, the driving screw 21 is in threaded fit with the rectangular rod 20, the driving screw 21 is driven by a driving motor 6, a bevel gear set 7 is arranged at one end of the driving screw 21 close to the driving motor 6, the triggering rod 12 is a triggering oblique block 22 which is longitudinally slidably connected to two longitudinal side walls of the rectangular cylinder 19, the triggering oblique block 22 is arranged at one end outside the rectangular cylinder 19 and is connected with an L-shaped rod 23, the two triangular oblique blocks 16 are respectively and fixedly connected to one side of two corresponding L-shaped rods 23, the second engaging plate 9 is fixedly sleeved on a first shaft 25 which is vertically arranged, and the first shaft 25 is rotatably installed on a bearing, a first cylinder 24 rotatably mounted on the bottom wall of the rectangular cylinder 19 is axially slidably fitted on the first shaft 25, and the second bevel gear 15 is fixedly sleeved on the first cylinder 24.

When the embodiment is used, the following detailed description is provided on how the telescopic mechanism is telescopic and how the first engaging plate 8 and the second engaging plate 9 are driven to be separated from and engaged via the trigger lever 12; referring to fig. 3 and 12, a sliding fit rectangular cylinder 19 and a rectangular rod 20 are slidably connected between the two frame bodies 1, the driving motor 6 is disposed in the rectangular cylinder 19, the driving motor 6 drives the driving screw 21 rotatably mounted in the rectangular cylinder 19 to drive the rectangular rod 20 to slide along the rectangular cylinder 19, so as to expand and retract the two frame bodies 1, two longitudinal side walls of one end of the rectangular cylinder 19, which is close to the driving motor 6, are respectively and longitudinally slidably connected with a trigger oblique block 22, an oblique surface of the trigger oblique block 22 is disposed to face one side of the rectangular rod 20, the trigger oblique block 22 is disposed at one side of the rectangular cylinder 19, is connected with an L-shaped rod 23, and three oblique blocks are fixed at one end of the L-shaped rod 23, which is a horizontal portion, in an initial state, that is, when the device is retracted, the driving motor 6 drives the driving screw 21 to drive the rectangular rod 20 to slide along the rectangular cylinder 19, one end of the two trigger oblique blocks 22 is always abutted, the second reset spring 13 fixedly connected with the trigger inclined block 22 is in a compressed state, the two trigger inclined blocks 22 enable the first reset spring 11 connected with the supporting rod 10 to be in a compressed state through the L-shaped rod 23, the triangular inclined block 16 and the sliding groove 17 (the elastic force of the second reset spring 13 is set to be larger than that of the first reset spring 11 and the first reset spring 11 is always in a stretched state), at the moment, the second engaging plate 9 rotatably installed on the first shaft 25 is in an engaging state with the first engaging plate 8, in the process that the driving motor 6 drives the rectangular rod 20 to slide along the rectangular cylinder 19, the driving motor 6 transmits power to the first shaft 25 through the first engaging plate 8 and the second engaging plate 9 which are engaged with each other, as the first cylinder 24 rotatably installed on the bottom wall of the rectangular cylinder 19 is axially and slidably connected on the first shaft 25, and the second bevel gear 15 is fixedly sleeved on the first cylinder 24, therefore, the first bevel gear 14 is driven to rotate to drive the second transmission device to unfold the lamp head 4, so that when the rectangular rod 20 slides to be not in contact with the two trigger inclined blocks 22, the trigger rods 12 slide in opposite directions under the action of the elastic force of the second return spring 13 and drive the triangular inclined blocks 16 fixedly connected with the trigger rods to move in opposite directions, the bearing rods 10 in the sliding grooves 17 arranged on the inclined surfaces of the two triangular inclined blocks 16 slide downwards along the sliding rails 73 arranged on the bottom wall of the rectangular cylinder 19 under the action of the two triangular inclined blocks 16 in a sliding fit manner, and further drive the first shaft 25 to move downwards, and the effect of separating the first meshing plate 8 from the second meshing plate 9 is achieved;

when the device is folded and folded, the driving motor 6 is controlled to rotate reversely to drive the driving screw 21 to rotate reversely, so that the rectangular rod 20 is contracted into the rectangular cylinder 19, and when the rectangular rod 20 slides to be located at the position of the two triggering inclined blocks 22 (refer to fig. 12), the two longitudinal sides of the rectangular rod 20 are extruded and act on the side, which is the inclined plane, of the triggering inclined block 22 arranged in the rectangular cylinder 19, and the triggering inclined blocks 22 are pushed outwards to slide, so that the rectangular rod 20 crosses the two triggering inclined blocks 22 and the triggering inclined blocks 22 abut against the side wall of the rectangular rod 20, and in the process that the rectangular rod 20 pushes the triggering inclined blocks 22 to slide outwards, the triangular inclined blocks 16 connected with the triggering inclined blocks 22 also synchronously move back and forth, the supporting rod 10 slides upwards along the sliding rail 73 under the elastic force of the first return spring 11, so as to drive the second engaging plate 9 to be engaged with the first engaging plate 8 again, so that the driving motor 6 transmits power to the second transmission device to drive the lamp holder 4, And folding, and simultaneously driving the third transmission device by the second transmission device to drive the protective cover 18 which is connected with the lamp holder 4 in a sliding way to be closed synchronously.

Embodiment 3, based on embodiment 1, the protective cover 18 is an arc-shaped cavity which is matched with the lamp head 4, and the lamp head 4 is rotatably installed in the driving box 5 through a second cylinder 26, and the third transmission device includes: set up in the arc cavity and along the rack 27 that perpendicular to arc cavity lateral wall extends, be equipped with in the lamp holder 4 and place chamber 28 and two racks 27 vertical sliding connection respectively in placing the vertical both sides wall in chamber 28, rack 27 is arranged in and is placed chamber 28 in one end meshing have and rotate and install the gear 29 on placing chamber 28 diapire, the gear 29 other end is connected with and sets up in placing the pulley group 30 of 28 diapalls and vertical extension, the pulley group 30 other end is connected with and rotates the third bevel gear 31 of installing on placing chamber 28 diapalls, two third bevel gear 31 meshes jointly has the rotation to install in placing the fourth bevel gear 32 on chamber 28 diapalls, fourth bevel gear 32 is connected with the second transmission.

This embodiment will be described in detail below with respect to how the hood 18 is driven by the second transmission to open and close when in use; referring to fig. 13, 14 and 15, a rack 27 is arranged in the protective cover 18, the racks 27 in the two protective covers 18 are arranged in a staggered manner, the racks 27 are slidably connected to the lamp holder 4, one end of each rack 27, which is arranged in the placing cavity 28, is engaged with a gear 29 rotatably mounted on the bottom wall of the placing cavity 28, when the second transmission device is driven by the first transmission device to drive the fourth bevel gear 32 to rotate, the fourth bevel gear 32 drives two third bevel gears 31 engaged therewith to rotate, the third bevel gears 31 respectively drive the pulley sets 30 connected therewith and the other end of the pulley sets 30 drives the gears 29 connected therewith to rotate, the two gears 29 rotate to drive the two racks 27 respectively engaged therewith to slide back and forth along the bottom wall of the placing cavity 28, and the protective cover 18 is driven to slide along the lamp holder 4 due to the fixed connection between the racks 27 and the protective cover 18, so as to open or close the protective cover 18, a better environment for holding the burner 4 when the device is not in use is provided.

Embodiment 4 is based on embodiment 3, in that both ends of the second cylinder 26 are respectively communicated with the placing cavity 28 and the driving box 5, and the second transmission device comprises: a second shaft 33 which is coaxial with the second cylinder 26 is rotatably arranged on the bottom wall of the placing cavity 28, a fourth bevel gear 32 is fixedly sleeved on the second shaft 33 and arranged at one end in the placing cavity 28, the second shaft 33 is arranged in the driving box 5, an inherent fifth bevel gear 34 is sleeved on one end of the second cylinder 26 arranged in the driving box 5, an inherent sixth bevel gear 35 is sleeved on one end of the second cylinder 26 arranged in the driving box 5, a seventh bevel gear 36 rotatably arranged on the inner wall of the driving box 5 is meshed with the sixth bevel gear 35, an eighth bevel gear 37 which coaxially rotates with the seventh bevel gear 36 is meshed with the fifth bevel gear 34, and the seventh bevel gear 36 is in transmission with the first bevel gear 14 through a.

When the embodiment is used, the second transmission device drives the lamp head 4 to open and close, which will be described in detail below; referring to fig. 14, 15 and 16, the second cylinder 26 and the placing cavity 28, the driving box 5 and the second cylinder 26 are coaxially provided with a second shaft 33 rotatably mounted on the bottom wall of the placing cavity 28 at an interval, the second shaft 33 is disposed in the driving box 5, one end of the second cylinder 33 is fixedly sleeved with a fifth bevel gear 34, the fourth bevel gear 32 disposed in the placing cavity 28 is fixedly sleeved on the second shaft 33, the bottom of the second cylinder 26 is fixedly connected with the lamp head 4, the top of the second cylinder 26 is rotatably mounted on the driving box 5, one end of the second cylinder 26 disposed in the driving box 5 is fixedly sleeved with a sixth bevel gear 35, the sixth bevel gear 35 is meshed with a seventh bevel gear 36 rotatably mounted on the side wall of the driving box 5, the fifth bevel gear 34 is meshed with an eighth bevel gear 37 coaxially rotating with the seventh bevel gear 36, when the driving motor 6 transmits power to the first bevel gear 14, the driving shaft 38 is driven to rotate to drive, the seventh bevel gear 36 drives the second cylinder 26 to rotate through the sixth bevel gear 35 meshed with the seventh bevel gear, and further drives the lamp holder 4 to rotate, so that the lamp holder 4 is unfolded or folded, when the lamp holder 4 rotates, the second shaft 33 is synchronously driven to rotate through the mutual meshing transmission of the fifth bevel gear 34 and the eighth bevel gear 37, and further the fourth bevel gear 32 sleeved on the second shaft 33 is driven to rotate, and further the third transmission device drives the two protective covers 18 to move in the opposite direction or in the opposite direction along the lamp holder 4, so that the protective covers 18 are opened or closed.

Embodiment 5, on the basis of embodiment 4, two protective covers 18 are provided with positioning cavities 39, the positioning cavities 39 are vertically and slidably connected with positioning plates 40, two lateral sides of the positioning plates 40 are respectively connected with third return springs 41 which are vertically arranged, the other ends of the two third return springs 41 are connected with the bottom walls of the positioning cavities 39, the protective covers 18 are provided with sliding holes 42 which are slidably matched with the positioning plates 40, two longitudinal sides of the lamp caps 4 are respectively provided with positioning grooves 43 which are matched with the positioning plates 40, the upper ends of the positioning plates 40 are rotatably provided with lifting screws 44 which are in threaded fit with the top walls of the positioning cavities 39, wherein the bottom walls of the positioning plates 40 are provided with first conductive sheets, the bottom walls of the positioning grooves 43 which are matched with the first conductive sheets are provided with second conductive sheets, the driving box 5 is internally provided with a positioning device which is used for positioning and locking the second cylinder 26, the first conductive sheets and the second conductive sheets are connected in series in a voltage, the detent mechanism is triggered to lock the second cylinder 26.

In the embodiment, when in use, preferably, a positioning cavity 39 is formed in the protective cover 18, as shown in fig. 14 and 15, a positioning plate 40 is vertically and slidably connected in the positioning cavity 39, a sliding hole 42 in sliding fit with the positioning plate 40 is formed in the protective cover 18, the positioning plate 40 passes through the sliding hole 42 and is inserted into a positioning groove 43 which is formed in the lamp head 4 and in sliding fit with the positioning plate 40, so as to position the protective cover 18, after the first engaging plate 8 and the second engaging plate 9 are separated, the second transmission device and the third transmission device lose the acting force of the driving motor 6 on the protective cover, and if a certain positioning measure is not performed on the opened protective cover 18, the protective cover 18 slidably connected to the lamp head 4 is easily shaken under the driving of the reciprocating driving mechanism, so that the lamp head 4 is shielded to affect the treatment effect on the patient; when the shield 18 is in a closed state, the lower end of the positioning plate 40 slidably connected in the positioning cavity 39 abuts against the upper end surface of the lamp holder 4, when the shield 18 is driven by the driving motor 6 to be opened, the shield 18 drives the positioning plate 40 slidably connected in the positioning cavity 39 to move until the shield 18 is completely opened, at this time, the shield 18 just drives the positioning plate 40 to move to the positioning groove 43 arranged on the lamp holder 4, the positioning plate 40 is inserted into the positioning groove 43 matched with the positioning plate 40 under the elastic force of the two third return springs 41 to position the shield 18, when the shield 18 needs to be closed, the positioning plate 40 is firstly screwed by the lifting screw 44 to slide upwards along the positioning cavity 39, so that the positioning plate 40 exits from the positioning groove 43, at this time, the shield 18 is in a free state, at this time, the driving motor 6 is controlled to drive the shield 18 to be closed, Closing, namely closing the protective cover 18, and then reversely screwing the lifting screw 44 again to enable the lower end surface of the positioning plate 40 to abut against the upper end surface of the lamp holder 4 again for the next use;

preferably, a positioning device for positioning the second cylinder 26 is disposed in the driving box 5, when the positioning plate 40 is inserted into the positioning slot 43 corresponding to the positioning plate, a first conductive sheet is fixed on the bottom wall of one of the positioning plates 40, and a second conductive sheet is disposed in the positioning slot 43 corresponding to the positioning plate 40, the first conductive sheet and the second conductive sheet are connected in series in the voltage stabilizing circuit disposed in the driving box 5, when the positioning plate 40 is inserted into the positioning slot 43, the first conductive sheet and the second conductive sheet contact and connect the voltage stabilizing circuit disposed in the driving box 5, so that the positioning device disposed in the driving box 5 operates to position and lock the second cylinder 26, thereby preventing the second cylinder 26 from rotating in the driving box 5 and further driving the lamp cap 4 fixedly connected with the second cylinder 26 to rotate after the first engaging plate 8 and the second engaging plate 9 are disengaged, affecting the therapeutic effect on the patient.

Embodiment 6, on the basis of embodiment 5, the positioning device includes two first slides 45 that set up on 5 diapalls of drive box and transversely extend, and sliding connection has positioning rod 46 in first slide 45 and is connected with fourth reset spring 47 between the first slide 45 that positioning rod 46 and its correspond, second drum 26 circumference both ends are equipped with locating hole 48 with positioning rod 46 matched with and are located locating hole 48 in the second drum 26 and are equipped with the electro-magnet of establishing ties in the steady voltage return circuit, and positioning rod 46 is made by the material of being easily attracted by the magnet.

This embodiment will be described in detail below with respect to how the positioning means provided in the drive housing 5 operate when in use; referring to fig. 16, two first slide ways 45 are provided at two ends of the bottom wall of the driving box 5 in the transverse direction, positioning rods 46 are slidably connected to the first slide ways 45, a fourth return spring 47 is connected between the positioning rods 46 and the corresponding first slide ways 45, when the positioning plate 40 is inserted into the corresponding positioning slot 43, the voltage stabilizing circuit provided in the driving box 5 is connected, and the electromagnet connected in series in the voltage stabilizing circuit is energized to generate electromagnetic force, the electromagnet provided in the second cylinder 26 and located at the position of the two positioning holes 48 adsorbs the positioning rod 46 easily attracted by the magnet through the electromagnetic force, so that the positioning rod 46 is inserted into the positioning hole 48 corresponding to the positioning rod, thereby positioning the second cylinder 26, when the positioning of the second cylinder 26 needs to be released, the positioning plate 40 is withdrawn from the positioning slot 43 by manually screwing the lifting screw 44, at this time, the voltage stabilizing circuit is disconnected, the electromagnet loses the electromagnetic force, and the two positioning rods 46 are withdrawn from the corresponding positioning holes 48 under the elastic force of the fourth return spring 47, so that the second cylinder 26 is in a free state.

Embodiment 7 is a reciprocating drive mechanism according to embodiment 1, including: wherein a rectangular cavity 49 is arranged in one frame body 1, two first belt pulleys 50 rotatably arranged on the side wall of the rectangular cavity 49 are respectively arranged at the longitudinal two ends in the rectangular cavity 49, a triangular cavity 51 communicated with the rectangular cavity 49 is arranged below the frame body 1, a second belt pulley 52 is arranged at the central position on the inner side wall of the triangular cavity 51, the second belt pulley 52 is driven by a reciprocating motor 53, the reciprocating motor 53 is fixed on a first slide block 54 vertically and slidably connected on the side wall of the triangular cavity 51, a second slide way 55 matched with the first slide block 54 is arranged on the side wall of the triangular cavity 51, a fifth return spring 56 is connected between the first slide block 54 and the second slide way 55, the two first belt pulleys 50 and the second belt pulley 52 are connected by a belt 57, and an adjusting device for adjusting the distance between the two first belt pulleys 50 is arranged between the two first belt pulleys 50, the belt 57 is provided with a fourth transmission device and drives the rectangular cylinder 19 to move longitudinally between the two frame bodies 1 through the fourth transmission device.

This embodiment, when used, will be described in detail below with respect to how the reciprocating drive mechanism operates; referring to fig. 17 and 18, a rectangular cavity 49 is arranged in one of the frame bodies 1, a triangular cavity 51 communicated with the rectangular cavity 49 is arranged below the frame body 1, when the patient needs to be irradiated after the patient is unfolded, the reciprocating motor 53 is controlled by the controller of the reciprocating motor 53 to work, the reciprocating motor 53 drives the second belt pulley 52 to rotate, so that the two first belt pulleys 50 arranged at two ends of the rectangular cavity 49 are driven to rotate by the belt 57, the belt 57 is provided with a fourth transmission device, and the fourth transmission device moves along with the rotation of the belt 57 (the motion track of the fourth transmission device is that one first belt pulley 50 moves along with the belt 57 to the other first belt pulley 50, then moves downwards along with the belt 57 to the second belt pulley 52, then moves along with the belt 57 to the initial first belt pulley 50, in the process, the fourth transmission device drives the rectangular cylinder 19, that is, the stroke range of the lamp head 4 to reciprocate is the distance between the two first belt pulleys 50, in the above process, the moving speed of the lamp head 4 when the lamp head 4 moves from one of the first belt pulleys 50 to the other first belt pulley 50 along the horizontal part along the fourth transmission device is larger than the moving speed of the fourth transmission device from the first belt pulley 50 to the other first belt pulley 50 via the second belt pulley 52, the fourth transmission device reciprocates and circularly moves along the belt 57, and then the rectangular cylinder 19 is driven by the fourth transmission device to reciprocate and circularly move between the two frame bodies 1, so that the lamp head 4 can reciprocate and circularly irradiate the irradiation treatment area required by the patient, preferably, an adjusting device for adjusting the distance between the two first belt pulleys 50 is arranged between the two first belt pulleys 50, the body state of each patient is different, so the range of the area required to be irradiated is different, at this time, the distance range of the circular reciprocating movement of the lamp holder 4 is adjusted by adjusting the distance between the two first belt pulleys 50, so that the flexibility of the device is higher, and the application range of the device is wider, the arrangement of the fifth spring is such that, when the distance between the two first belt pulleys 50 is changed under the adjustment of the adjusting device, the belt 57 between the two first belt pulleys 50 and the second belt pulley 52 is always in a tightening state, the phenomenon that the belt 57 falls off from the belt 57 wheel due to the reduction of the distance between the two first belt pulleys 50 does not occur (when the distance between the two first belt pulleys 50 is shortened, the second belt pulley 52 slides downwards along the second slide way 55 along with the first slide block 54 under the elastic force of the fifth spring), and when the distance between the two first belt pulleys 50 needs to be increased does not occur, the adjustment is impossible (when the distance between the two first pulleys 50 increases under the adjustment distance, the second pulley 52 slides upwards along the second slide 55 along the first slider 54 under the elastic force of the fifth spring to match the increase of the distance between the two first pulleys 50).

Embodiment 8, on the basis of embodiment 7, the adjusting device includes: first belt pulley 50 rotates and installs second slider 58 and second slider 58 longitudinal sliding connection on the rectangular cavity 49 lateral wall, rectangular cavity 49 internal rotation is installed and is vertically set up adjusting screw 59 and two second sliders 58 between for screw-thread fit, adjusting screw 59 and two second slider 58 screw-thread fit position screw thread revolve to set up oppositely.

This embodiment will be described in detail below with respect to how the adjustment device works when in use; referring to fig. 8, the first belt pulley 50 is rotatably installed with the second slider 58, the second slider 58 is longitudinally slidably connected to the side wall of the rectangular cavity 49, the adjusting screw 59 is rotated to drive the two second sliders 58 which are longitudinally slidably connected to the side wall of the rectangular cavity 49 and in threaded fit with the adjusting screw 59 to move in the opposite direction or in the opposite direction (the thread turning direction is set to be opposite direction at the position where the adjusting screw 59 is in threaded fit with the two second sliders 58), the problem of adjusting the distance between the two first belt pulleys 50 is solved by rotating the adjusting screw 59, and the stroke range of the lamp head 4 which performs reciprocating circular movement along with the fourth transmission device can be adjusted, so that the device can adapt to more situations, and the selectivity of a patient is wider when the device is used.

Embodiment 9 is based on embodiment 7, the fourth transmission device includes a moving block 74 fixed to the belt 57, the moving block 74 is rotatably mounted on one side, facing the rectangular cylinder 19, of the moving block 74, a first sliding rod 61 is rotatably mounted on the first sliding rod 61, the first sliding cylinder 75 is slidably fitted on the first sliding rod 61, a sixth return spring 62 is connected between the bottom walls of the first sliding rod 61 and the first sliding cylinder 75, a round rod 63 is rotatably mounted on one side, facing the rectangular cavity 49, of the rectangular cylinder 19, the round rod 63 is disposed in the rectangular cavity 49, one end of the round rod 63 disposed in the rectangular cavity 49 is fixedly provided with a rectangular sleeve 64 slidably fitted with the first sliding cylinder 75, one end of the first sliding cylinder 75 extending out of the rectangular sleeve 64 is fixedly provided with a baffle 65, and a third slide way.

When this embodiment is in use, the details of how the fourth transmission works will be described below; referring to fig. 18 and 19, a moving block 74 is fixed on a belt 57, the moving block 74 is rotatably installed on one side, facing a rectangular cylinder 19, of the moving block 74, a first sliding cylinder 75 is slidably fitted at the other end of the first sliding cylinder 61, a rectangular sleeve 64 is slidably fitted at the other end of the first sliding cylinder 75, a baffle 65 is fixedly connected to one end, penetrating through the rectangular sleeve 64, of the first sliding cylinder 75, when the belt 57 drives the moving block 74 to move, the moving block 74 drives the first sliding cylinder 75 to move through the first sliding rod 61 (since a return spring is connected between the first sliding rod 61 and the bottom wall of the first sliding cylinder 75), the baffle 65 on the other side of the first sliding cylinder 75 abuts against the rectangular sleeve 64, the first sliding cylinder 75 drives the rectangular sleeve 64 to move along with the moving block 74, and further drives the rectangular cylinder 19 to move along with the moving block 74 (the rectangular sleeve 64 is rotatably installed at one end, when the moving block 74 moves with the belt 57 to one of the first belt pulleys 50 and is about to move with the belt 57 downward to the second belt pulley 52, at this time, the moving speed of the rectangular cylinder 19 is slowed down so that when the moving block 74 moves with the belt 57 to a position between the first belt pulley 50 and the second belt pulley 52, the rectangular cylinder 19 does not move forward any more, at this time, as the moving block 74 continues to move, the rectangular cylinder 19 starts to move in the opposite direction, the belt 57 drives the moving block 74 to pass over the second belt pulley 52 and continue to move toward the other first belt pulley 50, during which the moving block 74 drives the rectangular cylinder 19 to move in the opposite direction (so that the rectangular cylinder 19 changes the moving direction again and moves toward the other first belt 57 when the belt 57 drives the moving block 74 to pass over the first belt pulley 50 and move to a position between the two first belt pulleys 50, the above process is a complete reciprocating process, the lamp head 4 repeats the above moving process under the driving of the reciprocating motor 53), a return spring is arranged between the first slide bar 61 and the first slide cylinder 75, so that the first slide bar 61 and the first slide cylinder 75 become elastically and slidably connected, and the change of the distance between the moving block 74 and the rectangular sleeve 64 in the process that the moving block 74 passes through the second belt pulley 52 from the first belt pulley 50 to return to another first belt pulley 50 again along with the belt 57 is matched, so that the first slide bar 61 can always drive the rectangular cylinder 19 to move through the first slide cylinder 75.

Embodiment 10, on the basis of embodiment 4, folding leg 2 rotates respectively and installs and be equipped with respectively with folding leg 2 coaxial pivoted worm wheel 67 at the vertical both ends of support body 1 and the vertical both ends of support body 1, and worm wheel 67 cooperates to have and rotates and install and connect through actuating lever 69 between worm 68 and the two worms 68 on support body 1, 2 bottom sliding connection of folding leg has flexible leg 70 and folding leg 2 and flexible leg 70 sliding fit position to twist soon has positioning bolt 71, sliding connection between drive box 5 upper end is equipped with slide bar 72 and rectangular rod 20, the rectangular cylinder 19, drive shaft 38 is electronic telescopic shaft.

In the use of this embodiment, referring to fig. 5, we drive the worm wheel 67 that rotates coaxially with the folding leg 2 by rotating the driving rod 69, the worm wheel 67 is respectively matched with the worm 68 that is rotatably installed on the frame body 1, and the two worms 68 located on the same side are connected by the driving rod 69, so we can drive the folding leg 2 to rotate around the frame body 1 by rotating the driving rod 69, thereby achieving the effect of folding or unfolding the folding leg 2; referring to fig. 2, preferably, a telescopic leg 70 is connected to the bottom of a folding leg 2 in a sliding manner, a positioning bolt 71 is arranged at a sliding fit position of the telescopic leg and the folding leg 2, the telescopic leg is completely arranged in the folding leg 2 in an initial state, the positioning bolt 71 tightly abuts against the side wall of the telescopic leg 70 (positioning of the telescopic leg 70 is realized), after the folding leg 2 is unfolded, if the height of a frame body 1 needs to be adjusted (the size of each person is different, and therefore the distance from a lamp holder 4 to the surface of the human body needs to be adjusted), at the moment, the positioning bolt 71 is only required to be screwed, so that the positioning bolt 71 is not in contact with the side wall of the telescopic leg 70, at the moment, the telescopic leg 70 is manually pulled out of the folding leg 2, so that the positioning bolt 71 is screwed again after the height required by the user is reached, and the positioning of the telescopic; referring to fig. 11, a sliding rod 72 is fixed on the upper end surface of the driving box 5, the sliding rod 72 is slidably connected with the rectangular rod 20 and the bottom of the rectangular cylinder 19, that is, the top end of the sliding rod 72 is slidably connected with the bottom of the rectangular rod 20, a rectangular sliding hole 76 matched with the sliding rod 72 is arranged on the bottom wall of the rectangular cylinder 19, the sliding rod 72 is slidably connected between two side walls of the rectangular sliding hole 76, the driving shaft 38 is an electric telescopic shaft, when the position of the lamp head 4 in the width direction of the human body needs to be adjusted, the driving shaft 38 is an electric telescopic shaft, the driving shaft 38 is controlled by a controller to extend or shorten, so as to drive the driving box 5 to slide along the rectangular rod 20 and the rectangular cylinder 19, thereby realizing the effect of adjusting the position of the lamp head 4 along the width direction of the body of the patient, so that the lamp head 4 can be adjusted not only, the irradiation treatment area of the lamp head 4 is wider, so that the device has stronger applicability and flexibility.

The TDP magic lamp can be placed on a bed surface, and a patient lies or lies on the bed when carrying out irradiation treatment, so that the body of the patient is more comfortable when carrying out long-time irradiation treatment; the magic lamp can be adjusted according to the size of the area of the patient to be irradiated and treated when the magic lamp is used for irradiation and treatment, so that the magic lamp can perform reciprocating and cyclic irradiation on the area of the patient to be treated, and the area of the patient to be irradiated is completely covered; the magic lamp can be folded when not in use, so that the occupied space is reduced, the magic lamp is unfolded when in use, and the protective cover 18 arranged on the magic lamp is synchronously opened when in unfolding (when the whole device is folded and folded, the protective cover 18 synchronously seals the magic lamp, so that the lamp holder 4 can be well protected, the treatment effect is better when in use, the whole operation process is simple and convenient, and the applicability and the use effect of the magic lamp are better;

this multi-functional intelligent TDP magical lamp height can make corresponding regulation according to the difference of different patient sizes, make magical lamp holder 4 be in an optimal treatment position of shining apart from the health of patient, and magical lamp holder 4 that sets up on the device not only can carry out reciprocating motion along patient's health length direction, still can adjust the stroke scope of this lamp holder 4 at the removal along patient's health length direction, make lamp holder 4 cover the required treatment irradiation zone of patient completely under the drive of reciprocating mechanism, and the device width also can make corresponding adjustment according to patient's size, make reach the best treatment state of shining of being fit for patient itself when shining the treatment to the patient.

The above description is only for the purpose of illustrating the present invention, and it should be understood that the present invention is not limited to the above embodiments, and various modifications conforming to the spirit of the present invention are within the scope of the present invention.

Claims

1. The utility model provides a multi-functional intelligent TDP therapentic equipment, includes support body (1) that horizontal interval set up, its characterized in that, two longitudinal sliding connection has telescopic machanism and two between support body (1) bottom is connected with folding leg (2), telescopic machanism bottom is connected with drive case (5) and drive case (5) internal rotation and installs lamp holder (4), be equipped with driving motor (6) and driving motor (6) in the telescopic machanism and be connected with first transmission, driving motor (6) are flexible through first transmission drive telescopic machanism and first transmission rotates first joggle board (8) of installing on the telescopic machanism diapire through bevel gear set (7) drive that sets up in telescopic machanism, first joggle board (8) below is equipped with rather than matched with second joggle board (9), and second joggle board (9) rotate install on bearing rod (10) on vertical sliding connection on the telescopic machanism diapire and bearing rod (10) and bearing rod A first reset spring (11) is connected between the bottom walls of the telescopic mechanisms, two longitudinal side walls of the telescopic mechanisms are provided with trigger rods (12) which are connected to the side walls of the telescopic mechanisms in a longitudinal sliding manner, the trigger rods (12) and the corresponding side walls of the telescopic mechanisms are connected with a second reset spring (13), one end of the lamp holder (4) arranged in the driving box (5) is connected with a second transmission device, one side of the second transmission device close to the second meshing plate (9) is sleeved with a first bevel gear (14), the first bevel gear (14) is meshed with a second bevel gear (15) which coaxially rotates with the second meshing plate (9), one opposite side of each of the two trigger rods (12) is fixedly connected with a triangular oblique block (16), the inclined surfaces of the two triangular oblique blocks (16) are provided with sliding chutes (17) which are in sliding fit with the bearing rods (10), and the driving motor (6) drives the telescopic mechanisms to extend through the first transmission device and simultaneously extrude the two trigger rods, the two trigger rods (12) are matched with a triangular oblique block (16) fixedly connected with the two trigger rods together to enable a second meshing plate (9) rotatably arranged on the supporting plate to be meshed with a first meshing plate (8) together, so that power is transmitted to a second transmission device to drive the lamp holder (4) to rotate, when the lamp holder (4) is completely unfolded under the drive of the second transmission device, the trigger rods (12) longitudinally and slidably connected to the longitudinal two side walls of the telescopic mechanism simultaneously lose the extrusion of the telescopic mechanism, the two trigger rods (12) move oppositely under the action of a second reset spring (13) and drive the first meshing plate (8) to be separated from the second meshing plate (9), the longitudinal two sides of the lamp holder (4) are respectively and slidably connected with a protective cover (18), a third transmission device is arranged in the lamp holder (4), the third transmission device is driven by the second transmission device and drives the lamp holder (4) to be unfolded and simultaneously drives the protective cover (18) to be opened by the third transmission device, when the lamp holder (4) is completely unfolded and the protective cover (18) is also completely opened, when the telescopic mechanism is driven by the driving motor (6) to retract, the telescopic mechanism extrudes the two trigger rods (12) again and enables the first meshing plate (8) and the second meshing plate (9) to be meshed again, so that the lamp holder (4) is driven to be folded and the protective cover (18) is closed, a reciprocating driving mechanism used for driving the telescopic mechanism to longitudinally slide is arranged in the frame body (1) positioned on one transverse side, a temperature control module is arranged in the lamp holder (4), a temperature sensor is arranged in the lamp holder (4), and the temperature sensor is electrically connected with the temperature control module;

the telescopic mechanism comprises a rectangular cylinder (19) and a rectangular rod (20) which are in transverse sliding fit, the other ends of the rectangular cylinder (19) and the rectangular rod (20) are respectively connected with a frame body (1) corresponding to the rectangular cylinder in a sliding manner, a driving screw (21) is installed on the bottom wall of the rectangular cylinder (19) in a rotating manner and is in threaded fit with the rectangular rod (20), the driving screw (21) is driven by a driving motor (6) and is arranged at one end, close to the driving motor (6), of the driving screw (21) through a bevel gear group (7), the triggering rod (12) is a triggering oblique block (22) which is connected with the two longitudinal side walls of the rectangular cylinder (19) in a longitudinal sliding manner and is connected with an L-shaped rod (23) at one end outside the rectangular cylinder (19), and the two triangular oblique blocks (16) are respectively and fixedly connected with one side of the two corresponding L-shaped rods (23) in the, the second meshing plate (9) is fixedly sleeved on a first shaft (25) which is vertically arranged, the first shaft (25) is rotatably installed on the bearing rod (10), a first cylinder (24) which is rotatably installed on the bottom wall of the rectangular cylinder (19) is axially matched with the first shaft (25) in a sliding mode, and the second bevel gear (15) is fixedly sleeved on the first cylinder (24).

2. The multifunctional intelligent TDP therapeutic apparatus according to claim 1, wherein the protective cover (18) is an arc cavity matched with the lamp head (4) and the lamp head (4) is rotatably installed in the driving box (5) through a second cylinder (26), and the third transmission device comprises: set up rack (27) that just extend along perpendicular to arc cavity lateral wall in the arc cavity, be equipped with in lamp holder (4) and place chamber (28) and two rack (27) vertical sliding connection respectively in placing the vertical both sides wall of chamber (28), rack (27) are arranged in and are placed chamber (28) in one end meshing have and rotate gear (29) of installing on placing chamber (28) diapire, gear (29) other end is connected with and sets up in placing chamber (28) diapire and vertical extended pulley group (30), pulley group (30) other end is connected with and rotates third bevel gear (31) of installing on placing chamber (28) diapire, two third bevel gear (31) mesh jointly has and rotates fourth bevel gear (32) of installing on placing chamber (28) diapire, fourth bevel gear (32) are connected with the second transmission.

3. The multifunctional intelligent TDP therapeutic apparatus according to claim 2, wherein said second cylinder (26) is connected to the placing cavity (28) and the driving box (5) at its two ends, and said second transmission device comprises: a second shaft (33) which is coaxial with the second cylinder (26) is rotatably arranged on the bottom wall of the placing cavity (28), a fourth bevel gear (32) is fixedly sleeved on the second shaft (33) and is arranged at one end in the placing cavity (28), the second shaft (33) is arranged in a driving box (5), an end sleeve of the second shaft is fixedly sleeved with a fifth bevel gear (34), the second cylinder (26) is arranged in the driving box (5), an end sleeve of the second shaft is fixedly sleeved with a sixth bevel gear (35), the sixth bevel gear (35) is meshed with a seventh bevel gear (36) rotatably arranged on the inner wall of the driving box (5), the fifth bevel gear (34) is meshed with an eighth bevel gear (37) which coaxially rotates with the seventh bevel gear (36), and the seventh bevel gear (36) and the first bevel gear (14) are driven by a driving shaft (38).

4. The multifunctional intelligent TDP therapeutic apparatus according to claim 3, wherein two protective covers (18) are provided with positioning cavities (39) and the positioning cavities (39) are vertically and slidably connected with positioning plates (40), the two transverse sides of the positioning plates (40) are respectively connected with vertically arranged third return springs (41) and the other ends of the two third return springs (41) are connected with the bottom wall of the positioning cavities (39), the protective covers (18) are provided with sliding holes (42) which are in sliding fit with the positioning plates (40), the two longitudinal sides of the lamp holder (4) are respectively provided with positioning grooves (43) which are matched with the positioning plates (40), the upper ends of the positioning plates (40) are rotatably provided with lifting screw rods (44) which are in threaded fit with the top walls of the positioning cavities (39), wherein the bottom walls of the positioning plates (40) are provided with first conductive sheets and the bottom walls of the positioning grooves (43) which are matched with the, the driving box (5) is internally provided with a positioning device for positioning and locking the second cylinder (26), the first conducting strip and the second conducting strip are connected in series in a voltage stabilizing loop arranged in the driving box (5), and when the positioning plate (40) is inserted into the positioning groove (43) corresponding to the positioning plate, the positioning device is triggered to lock the second cylinder (26).

5. The multifunctional intelligent TDP therapeutic apparatus according to claim 4, wherein the positioning device comprises two first slide ways (45) which are arranged on the bottom wall of the driving box (5) and extend transversely, the first slide ways (45) are connected with positioning rods (46) in a sliding manner, fourth reset springs (47) are connected between the first slide ways (45) corresponding to the positioning rods (46), positioning holes (48) matched with the positioning rods (46) are arranged at two circumferential ends of the second cylinder (26), electromagnets connected in series in a voltage stabilizing loop are arranged at the positioning holes (48) in the second cylinder (26), and the positioning rods (46) are made of materials which can be easily attracted by magnets.

6. The multifunctional intelligent TDP therapeutic apparatus of claim 1, wherein said reciprocating drive mechanism comprises: wherein a rectangular cavity (49) is arranged in one frame body (1), two first belt pulleys (50) rotatably arranged on the side wall of the rectangular cavity (49) are respectively arranged at the longitudinal two ends in the rectangular cavity (49), a triangular cavity (51) communicated with the rectangular cavity (49) is arranged below the frame body (1), a second belt pulley (52) is arranged at the central position on the inner side wall of the triangular cavity (51), the second belt pulley (52) is driven by a reciprocating motor (53), the reciprocating motor (53) is fixed on a first slide block (54) vertically and slidably connected on the side wall of the triangular cavity (51), a second slide way (55) matched with the first slide block (54) is arranged on the side wall of the triangular cavity (51), a fifth reset spring (56) is connected between the first slide block (54) and the second slide way (55), and the two first belt pulleys (50) and the second belt pulley (52) are connected by a belt (57), two be equipped with the adjusting device who is used for adjusting distance between two first belt pulleys (50) between first belt pulley (50), be equipped with fourth transmission on belt (57) and through fourth transmission drive rectangular cylinder (19) longitudinal movement between two support bodies (1).

7. The multifunctional intelligent TDP therapeutic apparatus of claim 6, wherein said adjusting means comprises: first belt pulley (50) rotate install second slider (58) and second slider (58) longitudinal sliding connection on rectangle cavity (49) lateral wall, rectangle cavity (49) internal rotation is installed and is vertically set up adjusting screw (59) and two second sliders (58) between for screw-thread fit, adjusting screw (59) and two second slider (58) screw-thread fit position screw thread revolve to set up oppositely.

8. The multifunctional intelligent TDP therapeutic apparatus of claim 6, the fourth transmission device comprises a moving block (74) fixed on the belt (57), the moving block (74) is rotatably provided with a first sliding rod (61) facing one side of the rectangular cylinder (19), the first sliding rod (61) is in sliding fit with a first sliding cylinder (75), a sixth reset spring (62) is connected between the bottom wall of the first sliding rod (61) and the bottom wall of the first sliding cylinder (75), the rectangular cylinder (19) is rotatably provided with a round rod (63) facing one side of the rectangular cavity (49), one end of the round rod (63) arranged in the rectangular cavity (49) is fixedly provided with a rectangular sleeve (64) in sliding fit with the first sliding cylinder (75), one end of the first sliding cylinder (75) penetrating through the rectangular sleeve (64) is fixedly provided with a baffle plate (65), and a third slide way (66) in sliding fit with the round rod (63) is arranged on the side wall of the rectangular cavity (49).

9. The multifunctional intelligent TDP therapeutic apparatus according to claim 3, wherein the folding legs (2) are respectively rotatably mounted at the longitudinal two ends of the frame body (1) and the longitudinal two ends of the frame body (1) are respectively provided with a worm wheel (67) which coaxially rotates with the folding legs (2), the worm wheel (67) is matched with a worm (68) rotatably mounted on the frame body (1) and the two worms (68) are connected through a driving rod (69), the bottom of the folding legs (2) is slidably connected with a telescopic leg (70) and the sliding fit part of the folding legs (2) and the telescopic leg (70) is screwed with a positioning bolt (71), the upper end of the driving box (5) is provided with a sliding rod (72) and the sliding rod (72) is slidably connected with the rectangular rod (20) and the rectangular cylinder (19), and the driving shaft (38) is an electric telescopic shaft.