WO2018086628A1 - 带铰链的频谱治疗仪 - Google Patents
带铰链的频谱治疗仪 Download PDFInfo
- Publication number
- WO2018086628A1 WO2018086628A1 PCT/CN2017/110938 CN2017110938W WO2018086628A1 WO 2018086628 A1 WO2018086628 A1 WO 2018086628A1 CN 2017110938 W CN2017110938 W CN 2017110938W WO 2018086628 A1 WO2018086628 A1 WO 2018086628A1
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- WIPO (PCT)
- Prior art keywords
- spectrum
- hinged
- panel
- therapy apparatus
- spectrum therapy
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N5/00—Radiation therapy
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N5/00—Radiation therapy
- A61N5/06—Radiation therapy using light
Definitions
- the invention relates to the field of spectrum therapy and health care equipment, in particular to a spectrum therapy device with hinges.
- the commonly used health care physiotherapy methods include electrotherapy, ultrasound, infrared, ultraviolet, microwave, laser, thermotherapy, etc., which are used to treat various diseases.
- electrotherapy ultrasound, infrared, ultraviolet, microwave, laser, thermotherapy, etc.
- the use of specific light, electricity and heat to penetrate the human body can help the body to improve microcirculation and metabolism.
- the spectrum therapy device has been widely used in human health care.
- the working part structure is fixed in shape, and the adaptive shape cannot be changed according to the user's body shape, posture, body position and position, and the user may have inconvenience when using and operating, affecting the user.
- the function of spectrum therapy at the same time, the fixed shape of the instrument, large size, taking up space, is not conducive to storage.
- the present invention provides a hinged spectrum therapeutic apparatus that can adjust the shape according to actual needs based on objective problems such as fixed shape and structure of the working part existing in the prior art spectrum therapy instrument product.
- a hinged spectrum therapy apparatus comprising at least two plate-like spectral radiation devices and a hinge between adjacent spectral radiation devices, the spectral radiation devices adjacent to the hinges being relatively rotatable and staying in the enclosure The working state of a single or multiple radiating spaces or a folded state that is folded together.
- said hinge comprises a first rotating means rotatably coupled to one of said spectral radiating means and a second rotating means rotatably coupled to said adjacent spectral radiating means, the axis of said first rotating means
- the axes of the two rotating devices coincide and the first rotating device and the second rotating device are relatively rotatable.
- the first rotating device and the second rotating device each include a fixing plate, one or more sleeves fixed to one side of the fixing plate, and a sleeve disposed inside the sleeve, the fixing plate One side is fixedly connected to the spectrum radiation device; the inner wall of the sleeve is provided with a through groove extending in the axial direction; the outer wall of the sleeve is provided with a protrusion extending into the through groove and cooperating with the through groove The ribs thus drive the sleeve to rotate synchronously.
- the sleeve is molded by a sheet material, and the ribs are formed at both ends of the sheet.
- One end of the sleeve of the first rotating device is coupled to the outer ring of the bearing, and one end of the second rotating device bushing is coupled to the inner ring of the bearing.
- the hinge further includes a torque inlay shaft, one end of the torque inlay shaft extends into the sleeve of the first rotating device and can overcome the friction force under the action of an external force.
- the rotating portion of the sleeve of the first rotating device rotates, and the other end is a knurling portion that protrudes into the sleeve of the second rotating device and is relatively fixed to the sleeve of the second rotating device.
- the spectrum therapy device is hinged by the two spectral radiation devices through the hinge, each of the spectral radiation devices being in the shape of an arch having a length of not less than a quarter of a circle.
- the spectrum radiating means is provided at a position close to the hinge at an inclined position allowing a state in which the two spectral radiating means are relatively rotated to a fully spread state.
- the spectrum radiating device is internally provided with a weight plate such that the plurality of spectral radiating devices are equal in gravity.
- the fixing plate is molded on the spectrum radiating device, and a portion of the frame for molding the fixing plate is provided with a plurality of circular holes.
- the spectrum radiating device comprises a frame, the frame comprising a connecting plate and strip-shaped first supporting plates and second supporting plates respectively connected to the two ends of the connecting plate and perpendicular to the connecting plate,
- the first support plate and the second support plate are parallel and opposite to each other, and are curved in an arch shape along a strip extending direction thereof, and the first support plate and the second support plate are disposed along an edge of a strip extending direction thereof.
- the plurality of upper lugs and the plurality of lower lugs of the first support plate are parallel to each other in a one-to-one correspondence
- the plurality of upper lugs and the plurality of lower lugs of the second support plate are parallel to each other in a one-to-one correspondence
- the corresponding upper and lower lugs form a pair of lugs.
- the first support plate and the second support plate are further provided with support ears for fixing the spectrum generating plates, and the support ears are disposed at opposite edges of the first support plate and the second support plate.
- the inner side of the frame is provided with a power line limiting device, and the connecting plate is provided with a power line hole for allowing the power line to pass.
- each of said spectral radiating means comprises a housing fixed to said frame, said housing comprising an arched upper panel, a lower panel, a first side panel and a second side panel, said upper panel and said The lower side panel is parallel and opposite, the first side panel is parallel and opposite to the first support panel, the second side panel is parallel and opposite to the second support panel, the first side panel and the second side panel
- the upper edges of the side panels each have an upper bent portion above the upper panel and the upper panel is parallel, and the lower edges each have a lower bent portion located at a lower portion of the lower panel and parallel to the lower panel,
- the upper bent portion, the upper panel and the upper lug are fixed together by screws or bolts, and the lower bent portion, the lower panel and the lower lug are fixed together by screws or bolts.
- said spectral radiating device further comprises an ambient light located in a space enclosed by said upper panel and said lower panel and a circuit board coupled to said ambient light and controlling said ambient light.
- the upper panel is provided with a first transparent platform facing the lower panel
- the lower panel is provided with a second transparent platform facing the upper panel, the first transparent platform and the second transparent
- the platform is closed to form a closed portion, the closed portion being provided with a light-transmissive aperture that allows light of the ambient light to pass through the spectral radiation device.
- One end of the upper panel is bent toward the lower panel to form the first transparent platform, and one end of the lower panel is bent toward the upper panel to form the second transparent platform.
- the first transparent platform is provided with a first semi-circular through hole
- the second transparent platform is provided with a second semicircular through hole, and the first semicircular through hole and one of the second semicircular through holes form a common The light transmission hole.
- a first fixing plate is disposed at a position of the upper panel adjacent to the first transparent platform
- a second fixing plate is disposed at a position of the lower panel adjacent to the second transparent platform
- the first fixing The plate and the second fixing plate are closed to form a fixing platform for fixing the circuit board
- the atmosphere lamp is located between the closing portion and the fixing table.
- the ambience lamps are two, and the two ambience lamps are respectively disposed on the inner walls of the two end portions of the upper panel and extend along a direction parallel to the closing portion, the lamp strip being Different colors of light can be emitted under the control of the board.
- said spectrum therapy device further comprises control means for controlling said circuit board of said spectrum generating plate and ambient light and a remote control provided in a remote control recess of an upper panel of said spectral radiating means, said The remote controller is in communication with the control device.
- a plurality of silica gel-like dot-like convex structures are distributed on the upper plate.
- the lower panel is evenly distributed with a plurality of circular holes.
- the lower panel has a grille shape.
- the lower panel comprises a frame, a plurality of transverse grids disposed between the two parallel and opposite first side walls of the frame and connected to the two first side walls, and a longitudinal support plate between the two parallel and opposite second side walls of the frame and connected to the two second side walls.
- the longitudinal support plate is provided with perforations through which the transverse grids pass.
- the two first side walls of the lower panel are provided with outwardly extending connecting lugs and are fixedly connected to the side panels of the housing by the connecting lugs.
- the distance between adjacent lateral grating bars is 6 mm - 7 mm.
- Two or more spectral radiating devices are connected by a hinge, and adjacent spectral radiating devices can be relatively rotated and can form a single radiating space by their own gravity staying in a working state surrounding the radiating space.
- the surrounding structure of the plurality of radiation spaces is convenient for placing various parts of the human body in the radiation space, and the spectrum therapy apparatus can be folded in a non-use state to save space, convenient for storage, and convenient for stacking or packing.
- the torque embedded axis can make the adjacent spectrum radiation device rotate relative to each other and stay at any angle, so that the shape of the spectrum therapy device is more suitable for different people and different parts, thereby improving the therapeutic effect. .
- Two spectral radiation devices not less than a quarter of a circle form an arch shape.
- a regular arched envelope structure is formed under the action of gravity, and the main structure of the spectrum analyzer is designed.
- the round arch shape is more ergonomic, which not only provides sufficient space, but also fits the human body structure, so that the irradiated human body can be evenly irradiated, and the effect is better.
- the spectral radiating means is provided with an inclined portion at a position close to the hinge to allow a space for allowing the two spectral radiating means to be relatively rotated to a fully spread.
- the first support plate, the second support plate and the connecting plate form a frame of the spectrum therapy device, and the housing is fixed to the frame.
- This structure is more stable than the structure with only the casing, so that it can be more reliably protected.
- the upper and lower lugs of the frame are used to fix the housing, so that the spectrum therapy device has a compact overall structure, and the frame design is simple and convenient for batch molding.
- the first support plate and the second support plate of the frame are curved in an arch shape along the strip extending direction, and the corresponding connecting shell and the spectrum generating plate are also arched, and the arched design is more ergonomic, which can
- the spectrum generating board provides sufficient space for the human body structure to optimize the spectrum radiation effect.
- connection of the power line and most of the walking position are disposed inside the frame, and the position of the power line is reasonably arranged inside the frame, which not only saves resources, but also makes the spectrum therapeutic apparatus overall beautiful and convenient to use.
- the ambient light can illuminate, which can attract the user's attention and focus on the treatment. Ambient lights make the treatment environment warm, and the person being treated is in a state of peace of mind and comfort, resulting in better treatment.
- the ambient light is installed in the space enclosed by the upper panel and the lower panel of the spectrum therapy device to prevent the ambient light from being touched, and is safe and reliable.
- the light-transparent hole provided in the closing part allows the light of the ambient light to be more fully emitted, which is also conducive to heat dissipation.
- the ambient light is selected as a light strip that can emit different colors of light.
- the ambient light of different colors can increase the color atmosphere of the spectrum therapeutic apparatus in the radiation treatment, and the user can select different colors of light to change the treatment environment, thereby Users will not experience aesthetic fatigue due to the single color treatment environment.
- the lower panel is provided with a grid, and the heat dissipation area is large. Under the premise of radiating the energy of the spectrum generating board to the outside world, the heat in the spectrum therapeutic apparatus can also be dissipated in time to avoid burning the spectrum therapeutic apparatus due to high temperature. happened. At the same time, the longitudinal support plate provided strengthens the strength of the lower panel.
- FIG. 1 is a schematic perspective view showing the working state of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention
- FIG. 2 is a schematic view showing a folded state of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention
- FIG. 3 is a perspective view showing a frame, a fixing plate and a sleeve of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention
- FIG. 4 is a partially enlarged schematic view showing a frame, a fixing plate and a sleeve of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention
- FIG. 5 is a perspective view of a bushing and a bearing of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention
- FIG. 6 is a schematic view showing a hinge assembly of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention.
- Figure 7 is a partially enlarged plan view showing the hinge assembly of the hinged spectrum therapeutic apparatus according to an embodiment of the present invention.
- Figure 8 is a side view showing the structure of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention.
- FIG. 9 is a schematic view showing a state of a booth of a spectrum therapy apparatus with hinges according to an embodiment of the present invention.
- FIG. 10 is a reference diagram of a state of use of a hinged spectrum therapy apparatus according to an embodiment of the present invention.
- FIG. 11 is a schematic structural view of a frame of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention.
- Figure 12 is a front elevational view showing the frame of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention.
- FIG. 13 is a schematic structural view of a first support plate of a frame of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention
- Figure 14 is an exploded view of a spectrum radiating device of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention.
- FIG. 15 is a schematic structural view of an upper panel of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention.
- FIG. 16 is a schematic structural view of a lower panel of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention.
- FIG. 17 is a schematic view showing the internal structure of a side panel of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention.
- FIG. 18 is a schematic structural view of a spectrum generating board of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention.
- FIG. 19 is a schematic diagram showing the internal power line walking position of a hinged spectrum therapeutic apparatus according to an embodiment of the present invention.
- FIG. 20 is a schematic structural view of the hinged spectrum therapy apparatus after removing the side panel and the spectrum generating board according to an embodiment of the present invention
- FIG. 21 is a schematic structural view of the upper panel of FIG. 20;
- FIG. 22 is a schematic structural view of the first light transmitting platform of FIG. 21;
- Figure 23 is a schematic structural view of the lower panel of Figure 20;
- Figure 24 is a schematic structural view of the second light transmitting platform of Figure 23;
- FIG. 25 is a schematic structural view of a hinged portion of a hinged spectrum therapeutic apparatus according to the present invention.
- 26 is a block diagram showing the control structure of an ambient light of a specific embodiment of a hinged spectrum therapeutic apparatus according to the present invention.
- Figure 27 is a schematic view showing the structure of another embodiment of the lower panel of the hinged spectrum therapeutic apparatus of the present invention.
- 21 frame 211 connection board, 2111 power line hole, 212 first support board, 2121 upper lug, 2122 lower lug, 2123 connecting hole, 2124 supporting ear, 213 second supporting board,
- 22 housing 221 upper panel, 2211 point projection, 2212 groove, 222 lower panel, 2221 round hole, 223 first side panel, 2231 inclined portion, 2232 upper bending portion, 2233 lower bending portion, 224 Two side panels,
- a hinged spectrum therapy apparatus includes at least two plate-like spectrum radiation devices 2 and a hinge 1 between adjacent spectral radiation devices 2, through which the hinges 1 are adjacent Spectrum
- the radiation device 2 can be relatively rotated and can be held in a folded state in a single or multiple irradiation space or a folded state in which the spectrum generating means 24 having a spectral radiation function is provided.
- the spectrum therapy apparatus includes two spectral radiation devices 2, each of which is in the shape of an arch having a length of not less than a quarter of a circle.
- the hinge 1 includes a first rotating device 11 that is rotatably coupled to one of the spectral radiating devices 2 and a second that is rotatably coupled to adjacent spectral radiating devices.
- the axis of the first rotating device 11 coincides with the axis of the second rotating device 12 and the first rotating device 11 and the second rotating device 12 are relatively rotatable.
- the first rotating device 11 includes a fixing plate 111, one or more sleeves 112 fixed to one side of the fixing plate 111, and a sleeve 113 located inside the sleeve, the other side of the fixing plate 111 and the The spectrum radiating device 2 is fixedly connected.
- the fixing plate 111 is provided with two sleeves 112.
- the two sleeves of the first rotating device 11 are arranged at a staggered interval from the two sleeves of the second rotating device 12.
- the fixing plates of the first rotating device 11 and the second rotating device 12 may also be respectively provided with a sleeve.
- the fixed connection here may be that the fixing plate 111 is integrally formed with the sleeve 112, or separately formed, bonded or fixed by bolting or other connection.
- the inner wall of the sleeve 112 is provided with a through groove 112a extending in the axial direction, and the through groove 112a may be one or more symmetrically disposed on the inner wall of the sleeve 112.
- the outer wall of the sleeve 113 is provided with a rib 113a extending into the through groove 112a and engaging with the through groove 112a so as to drive the sleeve 112 to rotate synchronously.
- the sleeve 113 is molded by a plate material, and the ribs 113a are formed at both ends of the plate.
- the thickness of the plate may be slightly smaller than the width of the through groove 112a or slightly less than one-half of the width of the through groove 112a, and may also be selected according to the specific conditions of the plate material and the through groove.
- one end of the sleeve 113 of the first rotating device 11 is connected to the outer ring of the bearing 13, and one end of the sleeve 121 of the second rotating device and the bearing 13 are provided.
- the inner ring is connected.
- a bearing 13 is disposed between the sleeve 113 near the end of the first rotating device 11 and the sleeve 121 of the second rotating device adjacent thereto; or the end of the first rotating device 11 is near the end
- a bearing 13 is disposed between the sleeve 113 and the sleeve 121 of the second rotating device adjacent thereto, and the sleeve 113 of the first rotating device and the sleeve 121 of the second rotating device are away from each other at the end
- a bearing is provided between the sleeve of the second rotating device 12 near the other end.
- the first rotating device and the second rotating device are relatively rotatable by the bearing, and the structure is simple and reliable.
- the gravity of the spectrum radiating device itself is used to make the first rotating device and the second rotating device stay in their working positions, that is, two
- the spectrum radiation device forms an arch shape, and realizes that the spectrum radiation device stays in a working state surrounding the radiation space, and has a simple structure and convenient assembly.
- the spectrum radiating device 2 is internally provided with a weight plate such that the plurality of spectral radiating devices are equal in gravity.
- the spectrum radiating device 2 includes an upper panel 221, a lower panel 222, a first side panel 223, a second side panel 224, a spectrum generating board 24, and a frame 21, and the upper panel 221, the lower panel 222, and two
- the side panels are covered and fixed on the upper, lower and left and right sides of the frame 21, and the spectrum generating plate 24 is placed in a space enclosed by the upper panel 221 and the lower panel 222 and fixed to the frame.
- 21, the upper panel 221, the lower panel 222, the two side panels, the spectrum generating board 24, and the frame 21 are generally in a semicircular structure of a quarter circle.
- the spectrum radiating device 2 is provided at a position close to the hinge 1 to provide an inclined portion 2231 for relatively rotating the two spectral radiating devices 2, in a specific embodiment, as shown in FIG.
- the inclined portion 2231 is disposed on the side plate of the spectrum radiating device 2 to prevent the two spectral radiating devices 2 from interfering with each other when rotated, so that the spectrum therapeutic device can stay in a fully deployed state. It is ensured that the semi-arch structure can be in the spreading position or the gathering position, and when the spectrum therapeutic device is placed in the spreading position, a larger area of radiation treatment can be realized under working conditions. In the storage state, the storage space can be saved, and the storage and transportation can be facilitated.
- the fixing plate 111 is molded on the frame 21 of the spectrum radiating device 2, and a portion of the frame 21 for molding the fixing plate 111 is provided with a plurality of die-casting holes.
- the fixing plate 111 is molded onto the frame 21, the material is uniformly wrapped around the frame 21.
- the die-cast hole can be used as a hole through which the power line passes, so that the power line can connect two spectrum radiating devices.
- the hinge does not employ a bearing, but instead employs a torque inlay shaft (not shown) to effect relative rotation between the first rotating device and the second rotating device.
- One end of the torque inlay shaft is a rotating portion that protrudes into the sleeve of the first rotating device and can overcome the frictional force with respect to the sleeve of the first rotating device under the action of an external force, and
- One end is a knurled portion that projects into the sleeve of the second rotating device and is fixed relative to the sleeve of the second rotating device.
- the frictional damping between the knurled portion and the sleeve is much greater than the frictional damping between the rotating portion and the sleeve.
- the frame includes a connecting plate 211 and strip-shaped first supporting plates 212 and second supporting plates 213 respectively connected to the two ends of the connecting plate 211, the first supporting plate 212 and the The second support plates 213 are parallel and opposite to each other.
- the first support plate 212 and the second support plate 213 are both perpendicular to the connecting plate 211.
- the first support plate 212 and the second support plate 213 are both arched, the upper edges of the first support plate 212 and the second support plate 213 are arched upper edges, and the lower edge is an arched lower edge.
- the first support plate 212 and the second support plate 213 have the same structure.
- the first support plate 212 is taken as an example to describe the structure of the two.
- An edge of the first support plate 212 along its strip extending direction, in this embodiment an upper edge, is provided with a plurality of upper lugs 2121, the other edge along the strip extending direction thereof, in this embodiment
- the lower edge is provided with a plurality of lower lugs 2122.
- the upper lug 2121 and the lower lug 2122 are provided with a connecting hole 2123 for fixing to the housing of the spectrum therapy apparatus.
- the frame 21 of the spectrum therapy device is formed by the first support plate 212, the second support plate 213 and the connecting plate structure 211, and the housing 22 is fixed to the frame 21, and the structure is more stable than the structure of only the housing.
- the internal spectrum generation board can be protected more reliably.
- the housing 22 is fixed by the upper lug 2121 and the lower lug 2122 of the frame, so that the spectrum therapeutic apparatus has a compact overall structure, and the frame design is simple and convenient for batch molding.
- the plurality of upper lugs 2121 and the plurality of lower lugs 2122 of the first support plate 212 are parallel to each other in a one-to-one correspondence, and the plurality of upper lugs and the plurality of lower lugs of the second support plate 213 One-to-one correspondingly parallel, the corresponding upper and lower lugs constitute a pair of lugs, as shown in FIG. 13, in this embodiment, each of the support plates can be set as three pairs of lugs, The fixing of the housing 22 makes the housing 22 securely fastened on the frame 21.
- the plurality of upper lugs 2121 of the first support plate 212 are correspondingly and correspondingly extended to the plurality of upper lugs of the second support plate 213, and the plurality of lower lugs of the first support plate 212
- the plurality of lower lugs of the second support plate 213 are in one-to-one correspondence and relatively extended, so that the stress distribution after assembly is more uniform.
- the first support plate 212 and the second support plate 213 are further provided with support ears for fixing the spectrum generating plate 24, and the support ears are disposed on the first support plate 212 and the second support plate 213.
- the lower edge of the first support plate 212 is provided with a support ear 2124
- the lower edge of the second support plate 213 is provided with a support ear
- the support ear 2124 and the second of the first support plate 212 are provided.
- the number of support ears of the support plate 213 is the same and the positions are one-to-one correspondence.
- the distance between the connecting hole of the supporting ear 2124 and the first supporting plate 212 or the second supporting plate 213 provided with it is larger than the connecting hole of the upper lug 2121 and the lower lug 2122 and the connecting hole thereof is disposed.
- the distance between the first support plate 212 or the second support plate 213 is such that the spectrum generating plate 24 is directly fixed to the frame 21, and the screws or bolts passing through the frame 21 and the upper panel 221 and the lower panel 222 do not need to pass through the spectrum.
- the board is created so there is no need to open more holes in the spectrum generation board.
- the first support plate 212 and the second support plate 213 are curved in an arch shape along a strip extending direction thereof, and the correspondingly connected housing is also arched, and the arched design is more ergonomic and can be used as a spectrum.
- the generating plate 24 provides a sufficient working space and fits the human body structure to optimize the spectrum radiation effect.
- the inner side surface of the frame 21 is provided with a power line 25 limiting device on the inner side of the first supporting plate 212, the second supporting plate 213 and the connecting plate 211.
- the connecting plate 211 is provided.
- the power line hole 2111 is opposite to the die-casting hole of the fixing plate 111.
- the connection of the power line 25 and most of its walking position are disposed inside the frame 21. Extending along the first support plate 212, the second support plate 212 and the connecting plate 211, the utility model is safe and reliable, and makes the spectrum therapeutic device overall beautiful and convenient to use.
- the upper edges of the first side panel 223 and the second side panel 224 each have an upper bent portion 2232 located above the upper panel 221 and parallel with the upper panel 221, and the lower edges each have a lower portion of the lower panel 222 And a lower bending portion 2233 parallel to the lower panel 22, the upper bending portion 2322, the upper panel 221 and the upper lug 2121 are fixed together by screws or bolts, and the lower bending portion 2233 and the lower panel 222 are 222.
- the lower lugs 2122 are secured together by screws or bolts.
- the first side panel 223 and the second side panel 224 are provided with inclined portions 2231 to prevent the two spectral radiation devices 2 from interfering with each other when rotated to a flat deployment.
- said spectrum therapy apparatus further comprises control means (not shown) placed inside said one of said spectral radiating means 2, said power supply line 25 connecting said control means and said spectral radiating means 2 spectrum generation board 24.
- the spectrum therapy apparatus further includes a remote controller disposed in a recess 2212 of the upper panel 221 of the spectrum radiating device 2, the recess 2212 having an outward opening, the remote control The device is communicatively coupled to the control device.
- a plurality of silica gel-like dot protrusions 2211 are distributed on the upper panel 221.
- the silica gel-like dot-like protrusions 2211 not only make the spectrum therapeutic apparatus look beautiful and can also play a role of collision avoidance, and the spectrum therapeutic apparatus plays a protective role during use or packaging transportation.
- the lower panel 222 is preferably uniformly provided with a plurality of circular holes 2221, so that the spectrum radiation generating plate 24 can be applied to the human body through the lower panel 22.
- the lower panel 3 has a grid shape.
- the lower panel 3 includes a frame body 31, a plurality of lateral grids 33 disposed between the two parallel and opposite first side walls 32 of the frame body 31 and connected to the two first side walls 32.
- a longitudinal support plate 35 disposed between the two parallel and opposite second side walls 34 of the frame 32 and connected to the two second side walls 34.
- the longitudinal support plate 35 is provided with perforations through which the transverse grids 33 pass.
- the distance between adjacent lateral grating bars 33 is 6 mm - 7 mm.
- the two first side walls 32 of the lower panel 3 are provided with outwardly extending connecting protrusions.
- the ear 36 is fixedly connected to the side panel of the housing by the connecting lug 36.
- the lower panel 3 is injection molded from a mixed material including nylon and glass fibers.
- the arrangement shown in FIG. 27 has a large heat dissipation area, and the heat in the spectrum therapeutic apparatus can also be performed under the premise that the energy of the spectrum generating plate is radiated to the outside. Dissipate in time to avoid the occurrence of high temperature burnout of the spectrum therapy device.
- the longitudinal support plate 35 is provided to reinforce the strength of the lower panel 3.
- FIG. 19 is a schematic diagram of the position of the power line inside the frame.
- the connection of the power line 25 and most of the walking position are disposed inside the frame 21, and the position of the power line 25 is properly arranged inside the frame 21. It not only saves resources, but also makes the spectrum therapy instrument overall beautiful and easy to use.
- An atmosphere lamp 26 (not shown in FIG. 20) and a circuit board 27 connected to the atmosphere lamp 26 and controlling the atmosphere lamp 26 are provided in a space surrounded by the upper panel 221 and the lower panel 222.
- the circuit board 27 is connected to the ambient light 26 to provide electrical energy to the ambient light 26.
- the ambient light 26 When the spectrum therapy device is in operation, the ambient light 26 is illuminated to attract the user's attention and focus on the treatment. Ambient light 26 makes the treatment environment warm and the person being treated is in a state of peace of mind and comfort, resulting in better treatment.
- the ambience lamp 26 is installed in a space surrounded by the upper panel 221 and the lower panel 222 of the spectrum therapy device, and prevents the ambience lamp 26 from being touched, which is safe and reliable.
- the ambient light 26 is preferably capable of emitting light of a different color, it being understood that the ambient light 26 is of a wide variety, such as an LED light. Ambient lights 26 that emit light of different colors can increase the color ambience of the spectrum therapy device in radiation therapy, thereby providing a better therapeutic environment for the desired therapist.
- the remote controller is further connected to the circuit board 27, and the circuit board 3 is provided with an inductive component.
- the remote controller 7 can control the ambient light 26 switch through the sensing component and the circuit on the circuit board 3.
- the ambient light 26 is switched between various colors.
- the ambient light 26 can be controlled more flexibly and conveniently.
- the upper panel 221 of the spectrum radiating device 2 is provided with a recess 2212 for accommodating a remote controller, and a recess 2212 is provided for facilitating movement of the remote controller and the spectrum therapy device.
- the position setting of the recess 2212 is not limited. Therefore, as long as the remote control can be conveniently stored.
- the end of the upper panel 221 is provided with a first transparent platform 232 facing the lower panel 222
- the lower panel 222 is provided with a second transparent platform 233 facing the upper panel 221, the first transparent platform 232 and the second transparent
- the light platform 233 is closed to form a closing portion 23, and the closing portion 23 is provided with a light transmission hole 234 for allowing the light of the atmosphere lamp 26 to pass through the spectrum radiation device 2.
- the two spectral radiating devices 2 are symmetrical with respect to the axis of the hinge 1, so that the structure of the upper panel 221 of the two spectral radiating devices 2 is symmetrical with respect to the axis of the hinge 1, and the lower panels of the two spectral radiating devices 2
- the structure of 222 is also symmetrical with respect to the axis of the hinge 1.
- the first transparent platform 232 and the second transparent platform 233 are closed to form a closed portion 23, and the first transparent platform 232 and the second transparent platform 233 are disposed such that the upper panel 221 and the lower panel 222 can support each other through the closing portion 23.
- the intensity of the spectrum radiating device 2 can be increased.
- the setting method is not limited to this.
- one end of the upper panel 211 is bent toward the lower panel 222 to form a first transparent platform 232
- one end of the lower panel 222 is bent toward the upper panel 221 to form a second transparent platform 233. That is, the upper panel 221 and the first transparent platform 232 are integrally disposed, and the lower panel 222 and the second transparent platform 233 are also integrally disposed. This arrangement can simplify the processing difficulty, and the integrated arrangement can make the whole structure stronger. reliable.
- the edge of the first transparent platform 232 is provided with a plurality of first semi-circular through holes 2341 extending through the curved surface thereof in a vertical direction
- the edge of the second transparent platform 233 is provided with a plurality of edges.
- Corresponding second semi-circular through holes 2342 extending in a vertical direction to the curved surface thereof, the plurality of first semi-circular through holes 2341 are butted with a plurality of corresponding second semi-circular through holes 2342 to form a transparent hole 234 capable of transmitting light to the outside.
- a plurality of first semi-circular through holes 2341 are equally spaced around the edge of the first transparent platform 232, and a plurality of second semi-circular through holes 2342 are equally spaced around the edge of the second transparent platform 233. Allowing the lighting of the ambient light to be more fully emitted is also more conducive to heat dissipation.
- other shapes of the light transmission holes 234 may be formed on the first light transmission platform 232 or the second light transmission platform 233 as long as the light emitted by the atmosphere lamp 26 can be transmitted.
- a position of the upper panel 221 adjacent to the first transparent platform 232 is provided with a first fixing plate 2311, and a position of the lower panel 222 is close to the second transparent platform 233.
- a second fixing plate 2312 is provided.
- the first fixing plate 2311 and the second fixing plate 2312 are closed together to form a fixing base 231 of the fixed circuit board 27.
- the circuit board 27 is fixed above the fixing table 231, and the ambient light 26 is located at the closing portion 23 and fixed. 231 rooms.
- the atmosphere lamp 26 is installed between the closing portion 23 and the fixing table 231 to ensure that the light emitted by the atmosphere lamp 26 can be transmitted through the light transmission hole 234 on the closing portion 23, and at the same time, the installation position makes the position of the atmosphere lamp 26 Close to the board 27 position for easy wiring connection.
- the ambience lamps 26 are two, and the two ambience lamps 26 are respectively disposed on the inner wall of the upper panel 221 and extend along a direction parallel to the closing portion 23, and the lamp strip is controlled on the circuit board 27. Lights of different colors can be emitted underneath.
- the ambience lamp 26 is selected as a light strip that can emit lights of different colors.
- the ambience lights of different colors can increase the color atmosphere of the spectrum therapy device in the radiation therapy, and the user can select different colors of light to change the treatment environment, thereby not Users will experience aesthetic fatigue due to the single color treatment environment.
- the number of the ambience lamps 26 and the installation position are not limited to this embodiment, as long as the installation position of the ambience lamp 26 does not affect the operation of the spectrum radiant device 2 and the light emitted by the ambience lamp 2 can be transmitted through the light transmission hole 234 out of the spectrum radiation device.
- the ambient light 26 may also be installed on the horizontal surface of the first light transmitting platform 232 or the second light transmitting platform 233.
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Abstract
一种带铰链(1)的频谱治疗仪,包括至少两个板状频谱辐射装置(2)和位于相邻的频谱辐射装置(2)之间的铰链(1),通过铰链(1)相邻的频谱辐射装置(2)可以相对转动并可停留在围成单个或多个辐射空间的工作状态或折合在一起的折叠状态。
Description
本发明涉及频谱治疗保健设备领域,具体涉及一种带铰链的频谱治疗仪。
目前,临床常用的保健理疗方法有电疗、超声波、红外线、紫外线、微波、激光、温热疗法等数十种,分别用于治疗多种疾病。利用其中特定的光、电和热对人体进行的穿透性的治疗,能帮助人体改善微循环和新陈代谢,根据这一原理,研制出的频谱治疗仪已经普遍用于人体的保健治疗。
现有的频谱治疗仪产品,其工作部位结构均为固定形状,不能随着使用者的体型、姿势、体位、部位的不同而产生适应性的变化,用户使用和操作时会产生不便,影响其频谱治疗功效的发挥,同时,固定形状的仪器,体积大,占用空间,不利于收纳。
发明内容
基于本领域现有频谱治疗仪产品存在的工作部位形状结构固定、使用收纳不便等客观问题,本发明提供了一种可根据实际需求调节形状的带铰链的频谱治疗仪。
本发明所采取的技术方案如下:
一种带铰链的频谱治疗仪,包括至少两个板状频谱辐射装置和位于相邻的频谱辐射装置之间的铰链,通过所述铰链相邻的频谱辐射装置可以相对转动并可停留在围成单个或多个辐射空间的工作状态或折合在一起的折叠状态。
作为优选,所述铰链包括与其中一个频谱辐射装置可同步旋转地连接的第一旋转装置和与相邻的频谱辐射装置可同步旋转地连接的第二旋转装置,第一旋转装置的轴线与第二旋转装置的轴线重合且第一旋转装置与第二旋转装置可相对转动。
作为优选,所述第一旋转装置和第二旋转装置均包括固定板、固定在所述固定板一侧的一个或多个套筒和位于所述套筒内的轴套,所述固定板另一侧与所述频谱辐射装置固定连接;所述套筒内壁设有沿轴向延伸的通槽;所述轴套的外壁设有伸入所述通槽并与所述通槽相配合的凸棱从而可带动所述套筒同步旋转。
作为优选,所述轴套通过板材模压而成,所述板材的两端形成所述凸棱。所述第一旋转装置的轴套的一端与轴承的外圈连接,所述第二旋转装置轴套的一端与所述轴承的内圈连接。作为替代的方案,所述铰链还包括转矩内嵌轴,所述转矩内嵌轴一端为伸入所述第一旋转装置的所述轴套内并可在外力的作用下克服摩擦力相对于所述第一旋转装置的轴套旋转的旋转部,另一端为伸入所述第二旋转装置的轴套内并与所述第二旋转装置的轴套相对固定的滚花部。
作为优选,所述频谱治疗仪由两个所述频谱辐射装置通过所述铰链铰接在一起,每个所述频谱辐射装置呈不小于四分之一圆的拱形板状。所述频谱辐射装置在接近所述铰链的位置处设有允许两个所述频谱辐射装置相对旋转至完全铺展开的状态的倾斜部。所述频谱辐射装置内部设有使得多个频谱辐射装置重力相等的配重板。所述固定板模铸在所述频谱辐射装置上,且所述框架模铸所述固定板的部位设有多个圆孔。
作为优选,所述频谱辐射装置包括框架,所述框架包括连接板和分别与所述连接板的两端连接并与所述连接板垂直的条形的第一支撑板和第二支撑板,所述第一支撑板与所述第二支撑板相互平行且相对,且沿其条形延伸方向弯曲成拱形,所述第一支撑板和第二支撑板沿其条形延伸方向的一个边缘设有多个上凸耳,沿其条形延伸方向的另一个边缘设有多个下凸耳,所述上凸耳与下凸耳设有用于与频谱治疗仪的壳体固定的连接孔。所述第一支撑板的多个上凸耳和多个下凸耳一一对应地平行相对,所述第二支撑板的多个上凸耳和多个下凸耳一一对应地平行相对,相对应的上凸耳和下凸耳构成凸耳对。所述第一支撑板和所述第二支撑板还设有用于固定频谱发生板的支撑耳,所述支撑耳设在所述第一支撑板和第二支撑板的相对的边缘。
作为优选,所述框架内侧面设有电源线限位装置,所述连接板上设有有允许所述电源线通过的电源线孔。
作为优选,每个所述频谱辐射装置包括与所述框架固定的壳体,所述壳体包括拱形的上面板、下面板、第一侧面板和第二侧面板,所述上面板与所述下面板平行且相对,所述第一侧面板与所述第一支撑板平行且相对,所述第二侧面板与所述第二支撑板平行且相对,所述第一侧面板和第二侧面板的上边缘均具有位于所述上面板上方且所述上面板平行的上弯折部,下边缘均具有位于所述下面板下部并与所述下面板平行的下弯折部,所述上弯折部、上面板和上凸耳通过螺钉或螺栓固定在一起,所述下弯折部、下面板和下凸耳通过螺钉或螺栓固定在一起。
作为优选,所述频谱辐射装置还包括位于所述上面板和所述下面板围成的空间内的氛围灯和与所述氛围灯连接并控制所述氛围灯的电路板。所述上面板设有朝向所述下面板的第一透光平台,所述下面板设有朝向所述上面板的第二透光平台,所述第一透光平台与所述第二透光平台合拢形成合拢部,所述合拢部设有允许所述氛围灯的灯光穿出所述频谱辐射装置的透光孔。所述上面板的一个端部朝向所述下面板弯曲形成所述第一透光平台,所述下面板的一个端部朝向所述上面板弯曲形成所述第二透光平台。所述第一透光平台设有第一半圆通孔,所述第二透光平台设有第二半圆通孔,一个所述第一半圆通孔与一个所述第二半圆通孔共同构成一个所述透光孔。
作为优选,所述上面板靠近所述第一透光平台的位置设有第一固定板,所述下面板靠近所述第二透光平台的位置设有第二固定板,所述第一固定板与所述第二固定板合拢构成固定所述电路板的固定台,所述氛围灯位于所述合拢部与所述固定台之间。所述氛围灯为二个,二个所述氛围灯分别为设在所述上面板两个端部内壁上并沿与所述合拢部平行的方向延伸的灯带,所述灯带在所述电路板的控制下可发出不同颜色的灯光。
作为优选,所述频谱治疗仪还包括用于控制所述频谱发生板和氛围灯的电路板的控制装置和设在一个所述频谱辐射装置的上面板的遥控凹槽内的遥控器,所述遥控器与所述控制装置通讯连接。
作为优选,所述上面板上分布有多个硅胶质的点状凸起结构。所述下面板均匀布有多个圆孔。所述下面板呈格栅形状。
作为优选,所述下面板包括框体、设在所述框体的两个平行且相对的第一侧壁之间并与该两个第一侧壁连接的多个横向栅条和设在所述框体的两个平行且相对的第二侧壁之间并与该两个第二侧壁连接的纵向支撑板。所述纵向支撑板设有穿孔,所述横向栅条穿过所述穿孔。所述下面板的两个第一侧壁设有向外延伸的连接凸耳并通过所述连接凸耳与所述壳体的侧面板固定连接。相邻所述横向栅条之间的距离为6mm-7mm。
本发明的技术效果在于:
1、通过铰链将两个或多个频谱辐射装置两两之间连接起来,相邻的频谱辐射装置可以相对转动并可通过其自身的重力停留在围成辐射空间的工作状态形成具有单个辐射空间或多个辐射空间的围护状结构,方便将人体各部位置于辐射空间内,在非使用状态可将频谱治疗仪折叠起来从而节约空间,便于存放,还便于码放或装箱运输。
2、通过转矩内嵌轴可使得相邻的频谱辐射装置可以相对转动并可停留在任意角度,从而使得频谱治疗仪的形状更贴合不同体形的人和不同的部位,从而提高治疗的效果。
3、两个不小于四分之一圆的频谱辐射装置构成拱形,在使用状态下当两边重力相同时,在重力的作用下形成规整的圆拱形围护结构,频谱仪主体结构设计成圆拱形,更符合人体工程学,既能提供充分的空间,又贴合人体结构,可以使被照射的人体受到均匀辐照,效果更好。
4、频谱辐射装置在接近所述铰链的位置处设有倾斜部可让出允许两个所述频谱辐射装置相对旋转至完全铺展开的空间。
5、由第一支撑板、第二支撑板和连接板构成了频谱治疗仪的框架,壳体与框架固定,这种结构与仅有壳体的结构相比更稳定,因而可以更可靠地保护内部的频谱发生板。用框架的上凸耳与下凸耳固定壳体,使得频谱治疗仪整体结构紧凑,且框架设计简单、便于批量成型。
6、框架的第一支撑板和第二支撑板沿其条形延伸方向弯曲成拱形,对应连接的壳体和频谱发生板也为拱形,拱形设计更符合人体工程学,既能为频谱发生板提供充分的作用空间,又贴合人体结构,使得频谱辐射效果达到最佳。
7、电源线的连接及其大部分的走位设置在所述框架内部,在所述框架内部合理布置电源线的走位,既能节省资源,又使得频谱治疗仪整体美观,便于使用。
8、面板上分布有多个硅胶质的点状凸起不仅使得所述频谱治疗仪外表美观大方,还能起到防撞的作用,在使用时或包装运输收纳时,频谱治疗仪起到保护的作用。
9、当频谱治疗仪进行工作时,氛围灯能够发光,可以吸引使用者的注意力,使其专注于治疗。氛围灯使得治疗环境变得温馨,被治疗的人处在安心和舒适的心情下,从而获得更好的治疗。氛围灯安装于该频谱治疗仪上面板与下面板围成的空间内,可防止氛围灯被碰触,安全可靠。
10、合拢部设置的透光孔,允许氛围灯的灯光更充分地射出,也比较利于散热。
11、氛围灯选取为可以发出不同颜色灯光的灯带,不同颜色的氛围灯能够增加频谱治疗仪在辐射治疗中的色彩氛围,使用者便可以选择不同颜色的灯光来改变治疗环境,由此,不会因为单一颜色的治疗环境而使使用者产生审美疲劳。还设有控制氛围灯的遥控器,通过遥控器,可方便地控制电路板从而控制氛围灯。
12、下面板设置格栅,散热面积大,在将频谱发生板的能量辐射到外界的前提下,也可以将频谱治疗仪内的热量及时散发出去,可以避免因高温而烧坏频谱治疗仪情况的发生。同时,设置的纵向支撑板加强了下面板的强度。
图1为本发明一实施例的带铰链的频谱治疗仪工作状态立体结构示意图;
图2为本发明一实施例的带铰链的频谱治疗仪折叠状态示意图;
图3为本发明一实施例的带铰链的频谱治疗仪的框架、固定板和套筒立体示意图;
图4为本发明一实施例的带铰链的频谱治疗仪的框架、固定板和套筒的局部放大示意图;
图5为本发明一实施例的带铰链的频谱治疗仪的轴套和轴承立体示意图;
图6为本发明一实施例的带铰链的频谱治疗仪的铰链装配示意图;
图7为本发明一实施例的带铰链的频谱治疗仪的铰链装配的主视图局部放大示意图;
图8为本发明一实施例的带铰链的频谱治疗仪的侧面结构示意图;
图9为本发明一实施例的带铰链的频谱治疗仪铺展位状态示意图;
图10为本发明一实施例的带铰链的频谱治疗仪使用状态参照图;
图11为本发明一实施例的带铰链的频谱治疗仪的框架的结构示意图;
图12为本发明一实施例的带铰链的频谱治疗仪的框架的主视图;
图13为本发明一实施例的带铰链的频谱治疗仪的框架的第一支撑板的结构示意图;
图14为本发明一实施例的带铰链的频谱治疗仪的频谱辐射装置爆炸图;
图15为本发明一实施例的带铰链的频谱治疗仪的上面板结构示意图;
图16为本发明一实施例的带铰链的频谱治疗仪的下面板结构示意图;
图17为本发明一实施例的带铰链的频谱治疗仪的侧面板内部结构示意图;
图18为本发明一实施例的带铰链的频谱治疗仪的频谱发生板结构示意图;
图19为本发明一实施例的带铰链的频谱治疗仪的内部电源线走位示意图;
图20为本发明一实施例的带铰链的频谱治疗仪的去掉侧面板和频谱发生板之后的结构示意图;
图21为图20中的上面板的结构示意图;
图22为图21中的第一透光平台的结构示意图;
图23为图20中的下面板的结构示意图;
图24为图23中的第二透光平台的结构示意图;
图25为本发明所提供的带铰链的频谱治疗仪的合拢部的结构示意图;
图26为本发明所提供的带铰链的频谱治疗仪的一种具体实施方式的氛围灯的控制结构框图。
图27为本发明的带铰链的频谱治疗仪的下面板的另一实施例的结构示意图。
图中各标号列示如下:
1铰链
11第一旋转装置,111固定板,112套筒,112a通槽,113轴套,113a凸棱;12第二旋转装置,121第二旋转装置的轴套;
13轴承;
2频谱辐射装置
21框架,211连接板,2111电源线孔,212第一支撑板,2121上凸耳,2122下凸耳,2123连接孔,2124支撑耳,213第二支撑板,
22壳体,221上面板,2211点状凸起,2212凹槽,222下面板,2221圆孔,223第一侧面板,2231倾斜部,2232上弯折部,2233下弯折部,224第二侧面板,
23合拢部,231固定台,2311第一固定板,2312第二固定板,232第一透光平台,233第二透光平台,234透光孔,2341第一半圆通孔,2342第二半圆通孔,
24频谱发生板,
25电源线,
26氛围灯,
27电路板。
下面板的另一实施例
3下面板,31框体,311第一侧壁,312第二侧壁,32横向栅条,33纵向支撑板,34连接凸耳。
下面结合附图说明本发明的频谱治疗仪实施方式:
如图1-2所示,一种带铰链的频谱治疗仪,包括至少两个板状频谱辐射装置2和位于相邻的频谱辐射装置2之间的铰链1,通过所述铰链1,相邻的频谱
辐射装置2可以相对转动并可停留在围成单个或多个辐射空间的工作状态或折合在一起的折叠状态,所述频谱辐射装置2内设有具有频谱辐射功能的频谱发生板24。在本实施例中,频谱治疗仪包括两个频谱辐射装置2,每个所述频谱辐射装置2呈不小于四分之一圆的拱形板状。
优选的,如图1-5所示,所述铰链1包括与其中一个频谱辐射装置2可同步旋转地连接的第一旋转装置11和与相邻的频谱辐射装置可同步旋转地连接的第二旋转装置12,第一旋转装置11的轴线与第二旋转装置12的轴线重合且第一旋转装置11与第二旋转装置12可相对转动。
进一步的,所述第一旋转装置11和第二旋转装置12的结构相同,以下以第一旋转装置11的结构为例进行介绍。第一旋转装置11包括固定板111、固定在所述固定板111一侧的一个或多个套筒112和位于所述套筒内的轴套113,所述固定板111另一侧与所述的频谱辐射装置2固定连接。在本实施例中,固定板111上设有两个套筒112,在完成装配的情况下,第一旋转装置11的两个套筒与第二旋转装置12的两个套筒交错间隔排列。当然,在其它的实施例中,第一旋转装置11与第二旋转装置12的固定板也可分别设有一个套筒。
此处的固定连接可为所述固定板111与所述套筒112一体成型、或分别成型后粘接或通过螺栓连接或其他连接方式固定在一起。所述套筒112内壁设有沿轴向延伸的通槽112a,所述通槽112a可为一个或对称设置在所述套筒112内壁的两个或多个。相应地所述轴套113的外壁设有伸入所述通槽112a并与所述通槽112a相配合的凸棱113a从而可带动所述套筒112同步旋转。
作为优选,所述轴套113通过板材模压而成,所述板材的两端形成所述凸棱113a。所述板材的厚度可稍小于所述通槽112a的宽度或稍小于所述通槽112a的宽度的二分之一,也可根据板状材料及通槽的具体情况进行选择。
在本实施例中,如图5所示,所述第一旋转装置11的轴套113的一端与轴承13的外圈连接,所述第二旋转装置的轴套121的一端与所述轴承13的内圈连接。具体为,第一旋转装置11的靠近端部的轴套113和与其相邻的第二旋转装置的轴套121之间设有一个所述轴承13;或第一旋转装置11的、靠近端部的轴套113和与其相邻的第二旋转装置的轴套121之间设有一个轴承13,且所述第一旋转装置的轴套113和第二旋转装置的轴套121相互远离的端部分别有一个轴承;或第一旋转装置11的靠近端部的轴套113和与其相邻的第二旋转装置的轴套121之间设有一个轴承13,第一旋转装置11的另一个轴套和第二旋转装置12的靠近另一个端部的轴套之间设有一个轴承。
通过轴承使得第一旋转装置和第二旋转装置实现可相对旋转,结构简单可靠,利用频谱辐射装置本身的重力,使第一旋转装置与第二旋转装置停留在其工作位置,即,使两个频谱辐射装置形成拱形,实现频谱辐射装置停留在围成辐射空间的工作状态,结构简单,装配方便。作为优选的方案,所述频谱辐射装置2内部设有使得多个频谱辐射装置重力相等的配重板。
具体的,所述频谱辐射装置2包括上面板221、下面板222、第一侧面板223、第二侧面板224、频谱发生板24和框架21,所述上面板221、下面板222和两个侧面板包覆并固定在所述框架21的上面、下面和左右两侧面,所述频谱发生板24置于所述上面板221和所述下面板222围成的空间内并固定在所述框架21内部,所述上面板221、下面板222、两个侧面板、频谱发生板24和所述框架21整体呈四分之一圆的半拱型结构,
优选的,所述频谱辐射装置2在接近所述铰链1的位置处设有允许两个所述频谱辐射装置2相对旋转的倾斜部2231,在具体实施例中,如图17所示,所述倾斜部2231设置在所述频谱辐射装置2的侧面板上,防止两个频谱辐射装置2旋转展开时相互干涉,以使所述频谱治疗仪可以停留在完全铺展开的状态。保证所述半拱型结构可处于铺展位或收拢位,所述频谱治疗仪置于铺展位时,在工作状态下,可以实现更大面积的辐射治疗。在收纳状态下,可节约收纳空间、便于码放与运输。
优选的,所述固定板111模铸在所述频谱辐射装置2的框架21上,所述框架21模铸所述固定板111的部位设有多个模铸圆孔。当模铸所述固定板111到所述框架21上时,使得材料均匀的包裹所述框架21。同时,模铸圆孔可以作为电源线穿过的孔,使得电源线可以连接两个频谱辐射装置。
在其他的实施例中,所述铰链不采用轴承,而是采用转矩内嵌轴(图中未示出)来实现第一旋转装置和第二旋转装置之间的相对旋转。所述转矩内嵌轴一端为伸入所述第一旋转装置的所述轴套内并可在外力的作用下克服摩擦力相对于所述第一旋转装置的轴套旋转的旋转部,另一端为伸入所述第二旋转装置的轴套内并与所述第二旋转装置的轴套相对固定的滚花部。其中所述滚花部与所述轴套间的摩擦阻尼远大于所述旋转部与所述轴套间的摩擦阻尼。在使用周期内所述滚花部与所述轴套之间不存在相对转动。所述旋转部与轴套之间存在摩擦阻尼,可以实现铰链在转动范围内任意位置的定位;此时,所述旋转部的外表面和与其相配合的轴套的内表面部分为耐磨材料或涂覆有耐磨涂层。同时,所述转矩内嵌轴完全嵌入所述轴套内部,使得铰链整体设计美观,装配方便。该实施例的其它技术特征与上述实施例相同。
如图11-13所示,框架包括连接板211和分别与所述连接板211的两端连接的条形的第一支撑板212和第二支撑板213,所述第一支撑板212与所述第二支撑板213相互平行且相对。在本实施例中,第一支撑板212和第二支撑板213均与连接板211垂直。第一支撑板212和第二支撑板213均为拱形,第一支撑板212和第二支撑板213的上边缘为拱形的上边缘,下边缘为拱形的下边缘。
所述第一支撑板212和第二支撑板213的结构相同,以下以第一支撑板212为例介绍二者的结构。第一支撑板212沿其条形延伸方向的一个边缘,在本实施例中为上边缘,设有多个上凸耳2121,沿其条形延伸方向的另一个边缘,在本实施例中为下边缘,设有多个下凸耳2122。所述上凸耳2121与下凸耳2122设有用于与频谱治疗仪的壳体固定的连接孔2123。
由第一支撑板212、第二支撑板213和连接板构211成了频谱治疗仪的框架21,壳体22与框架21固定,这种结构与仅有壳体的结构相比更稳定,因而可以更可靠地保护内部的频谱发生板。用框架的上凸耳2121与下凸耳2122固定壳体22,使得频谱治疗仪整体结构紧凑,且框架设计简单、便于批量成型。
作为优选,所述第一支撑板212的多个上凸耳2121和多个下凸耳2122一一对应地平行相对,所述第二支撑板213的多个上凸耳和多个下凸耳一一对应地平行相对,相对应的上凸耳和下凸耳构成凸耳对,如图13所示,在本实施例中,每个所述支撑板上可设为3对凸耳对,用于固定所述壳体22使得壳体22在所述框架21上固定紧固可靠。作为更进一步的优选,第一支撑板212的多个上凸耳2121对所述第二支撑板213的多个上凸耳一一对应且相对延伸,第一支撑板212的多个下凸耳2122对所述第二支撑板213的多个下凸耳一一对应且相对延伸,这样可使得装配后的应力分布更加均匀。
作为优选,所述第一支撑板212和所述第二支撑板213还设有用于固定频谱发生板24的支撑耳,所述支撑耳设在所述第一支撑板212和第二支撑板213的相对的边缘,在本实施例中,第一支撑板212的下边缘设有支撑耳2124,第二支撑板213的下边缘设有支撑耳,第一支撑板212的支撑耳2124与第二支撑板213的支撑耳数量相同且位置一一对应。
在本实施例中,所述支撑耳2124的连接孔与设置其的第一支撑板212或第二支撑板213之间的距离大于上凸耳2121和下凸耳2122的连接孔与设置其的第一支撑板212或第二支撑板213之间的距离,这样频谱发生板24直接与框架21固定在一起,穿过框架21和上面板221、下面板222的螺钉或螺栓不需要穿过频谱发生板,因而不需要在频谱发生板上开设更多的孔。
作为优选,所述第一支撑板212和第二支撑板213沿其条形延伸方向弯曲成拱形,对应连接的壳体也为拱形,拱形设计更符合人体工程学,既能为频谱发生板24提供充分的作用空间,又贴合人体结构,使得频谱辐射效果达到最佳。
作为优选,所述框架21内侧面,在本实施例中为第一支撑板212、第二支撑板213和连接板211的内侧面设有电源线25限位装置,所述连接板211上设有有允许所述电源线25通过的电源线孔2111,电源线孔2111与固定板111的模铸圆孔相对,电源线25的连接及其大部分的走位设置在所述框架21内部,沿着第一支撑板212、第二支撑板212和连接板211延伸,既安全可靠,又使得频谱治疗仪整体美观,便于使用。
所述第一侧面板223和第二侧面板224的上边缘均具有位于所述上面板221上方且所述上面板221平行的上弯折部2232,下边缘均具有位于所述下面板222下部并与所述下面板22平行的下弯折部2233,所述上弯折部2232、上面板221和上凸耳2121通过螺钉或螺栓固定在一起,所述下弯折部2233、下面板222和下凸耳2122通过螺钉或螺栓固定在一起。所述第一侧面板223和第二侧面板224设有倾斜部2231,防止两个频谱辐射装置2在旋转到平铺展开时相互干涉。
作为优选,所述频谱治疗仪还包括控制装置(图中未示出),所述控制装置置于一个所述频谱辐射装置2的内部,所述电源线25连接所述控制装置和频谱辐射装置2的频谱发生板24。
如图15所示,作为优选,所述频谱治疗仪还包括设在一个所述频谱辐射装置2的上面板221的凹槽2212内的遥控器,凹槽2212具有朝外的开口,所述遥控器与所述控制装置通讯连接。
作为优选,所述上面板221上分布有多个硅胶质的点状凸起2211结构。硅胶质的点状凸起2211不仅使得所述频谱治疗仪外表美观大方,还能起到防撞的作用,在使用时或包装运输收纳时,频谱治疗仪起到保护的作用。
如图16所示,作为优选,所述下面板222均匀布有多个圆孔2221,便于所述频谱辐射发生板24透过所述下面板22作用于人体。
在另一实施例中,如图27所示,所述下面板3呈格栅形状。所述下面板3包括框体31、设在所述框体31的两个平行且相对的第一侧壁32之间并与两个所述第一侧壁32连接的多个横向栅条33和设在所述框体32的两个平行且相对的第二侧壁34之间并与两个所述第二侧壁34连接的纵向支撑板35。所述纵向支撑板35设有穿孔,所述横向栅条33穿过所述穿孔。相邻所述横向栅条33之间的距离为6mm-7mm。所述下面板3的两个第一侧壁32设有向外延伸的连接凸
耳36并通过所述连接凸耳36与所述壳体的侧面板固定连接。所述下面板3由包括尼龙和玻璃纤维的混合材料注塑形成。
对比于现有技术中设置密集型通孔的下面板,图27所示的设置方式,散热面积大,在将频谱发生板的能量辐射到外界的前提下,也可以将频谱治疗仪内的热量及时散发出去,可以避免因高温而烧坏频谱治疗仪情况的发生。设置纵向支撑板35,加强了下面板3的强度。
如图19所示为电源线在框架内部的走位示意图,电源线25的连接及其大部分的走位设置在所述框架21内部,在所述框架21内部合理布置电源线25的走位,既能节省资源,又使得频谱治疗仪整体美观,便于使用。
在上面板221和下面板222围成的空间内设有氛围灯26(图20中未示出)和与氛围灯26连接并控制氛围灯26的电路板27。电路板27连接氛围灯26,向氛围灯26提供电能。
当频谱治疗仪进行工作时,氛围灯26能够发光,可以吸引使用者的注意力,使其专注于治疗。氛围灯26使得治疗环境变得温馨,被治疗的人处在安心和舒适的心情下,从而获得更好的治疗。氛围灯26安装于该频谱治疗仪上面板221与下面板222围成的空间内,可防止氛围灯26被碰触,安全可靠。
氛围灯26优选为能够发出不同颜色的光,应当理解的是,氛围灯26的选取种类很多,比如LED灯。发出不同颜色的光的氛围灯26能够增加频谱治疗仪在辐射治疗中的色彩氛围,由此能为所需治疗人员提供一个较好的治疗环境。
该具体实施方式中,遥控器还与电路板27连接,电路板3上设有感应元件,如图26所示,遥控器7通过电路板3上的感应元件及电路可以控制氛围灯26开关或者对氛围灯26进行各种颜色之间的切换。设置遥控器,可以更加灵活和更加方便的控制氛围灯26。如图20所示,频谱辐射装置2的上面板221设有用于容纳遥控器的凹槽2212,设置凹槽2212,便于遥控器和频谱治疗仪一起移动,当然,凹槽2212的位置设置不限于此,只要能方便收纳遥控器即可。
进一步地,上面板221的端部设有朝向下面板222的第一透光平台232,下面板222设有朝向上面板221的第二透光平台233,第一透光平台232与第二透光平台233合拢形成合拢部23,合拢部23设有允许氛围灯26的灯光穿出频谱辐射装置2的透光孔234。
本具体实施方式中,两个频谱辐射装置2相对于铰链1的轴对称,因此两个频谱辐射装置2的上面板221的结构相对于铰链1的轴对称,两个频谱辐射装置2的下面板222的结构也相对于铰链1的轴对称。
第一透光平台232和第二透光平台233合拢形成合拢部23,第一透光平台232和第二透光平台233如此设置,可以使上面板221和下面板222通过合拢部23相互支撑,可增加频谱辐射装置2的强度。当然,设置方式不限于此。
该具体实施方式中,上面板211的一个端部朝向下面板222弯曲形成第一透光平台232,下面板222的一个端部朝向上面板221弯曲形成第二透光平台233。即上面板221和第一透光平台232一体化设置,下面板222和第二透光平台233也一体化设置,如此设置,可简化加工难度,同时,一体化的设置可以使整个结构更加牢固可靠。
如图22、图24和图25所示,第一透光平台232的边缘设有若干沿竖直方向贯穿至其曲面的第一半圆通孔2341,第二透光平台233的边缘设有若干对应的沿竖直方向贯穿至其曲面的第二半圆通孔2342,若干第一半圆通孔2341与若干相对应的第二半圆通孔2342进行对接,形成可以向外界输送光的透光孔234,如图25所示,若干第一半圆通孔2341等间距的布满第一透光平台232的边缘,若干第二半圆通孔2342等间距的布满第二透光平台233的边缘,既允许氛围灯的灯光更充分地射出,也比较利于散热。当然,也可以在第一透光平台232或者第二透光平台233上制造其他形状的透光孔234,只要能够将氛围灯26所发出的光透射出来即可。
该具体实施方式中,如图20、图21和图23所示,上面板221靠近第一透光平台232的位置设有第一固定板2311,下面板222靠近第二透光平台233的位置设有第二固定板2312,第一固定板2311与第二固定板2312合拢构成固定电路板27的固定台231,电路板27固定于固定台231的上方,氛围灯26位于合拢部23与固定台之231间。氛围灯26安装于合拢部23与固定台231之间,可保证氛围灯26所发出的光可以通过合拢部23上的透光孔234透射出来,同时,该安装位置,使得氛围灯26的位置接近电路板27位置,方便接线连接。
本具体实施方式中,氛围灯26为二个,二个氛围灯26分别为设在上面板221的内壁上并沿与合拢部23平行的方向延伸的灯带,灯带在电路板27的控制下可发出不同颜色的灯光。氛围灯26选取为可以发出不同颜色灯光的灯带,不同颜色的氛围灯能够增加频谱治疗仪在辐射治疗中的色彩氛围,使用者便可以选择不同颜色的灯光来改变治疗环境,由此,不会因为单一颜色的治疗环境而使使用者产生审美疲劳。当然,氛围灯26的数量和安装位置不限于此实施例,只要氛围灯26的安装位置不影响频谱辐射装置2的工作且氛围灯2所发出的光可以通过透光孔234透射出频谱辐射装置2即可,比如,也可以在第一透光平台232或第二透光平台233的水平面上安装氛围灯26。
应当指出,以上所述具体实施方式可以使本领域的技术人员更全面地理解本发明,但不以任何方式限制本发明。因此,尽管本说明书参照附图和实施例对本发明已进行了详细的说明,但是,本领域技术人员应当理解,仍然可以对本发明进行修改或者等同替换,总之,一切不脱离本发明的精神和范围的技术方案及其改变,其均应涵盖在本发明专利的保护范围当中。
Claims (30)
- 一种带铰链的频谱治疗仪,其特征在于,包括至少两个板状频谱辐射装置和位于相邻的频谱辐射装置之间的铰链,通过所述铰链相邻的频谱辐射装置可以相对转动并可停留在围成单个或多个辐射空间的工作状态或折合在一起的折叠状态。
- 根据权利要求1所述的带铰链的频谱治疗仪,其特征在于,所述铰链包括与其中一个频谱辐射装置可同步旋转地连接的第一旋转装置和与相邻的频谱辐射装置可同步旋转地连接的第二旋转装置,第一旋转装置的轴线与第二旋转装置的轴线重合且第一旋转装置与第二旋转装置可相对转动。
- 根据权利要求2所述的带铰链的频谱治疗仪,其特征在于,所述第一旋转装置和第二旋转装置均包括固定板、固定在所述固定板一侧的一个或多个套筒和位于所述套筒内的轴套,所述固定板另一侧与所述频谱辐射装置固定连接;所述套筒内壁设有沿轴向延伸的通槽;所述轴套的外壁设有伸入所述通槽并与所述通槽相配合的凸棱从而可带动所述套筒同步旋转。
- 根据权利要求3所述的带铰链的频谱治疗仪,其特征在于,所述轴套通过板材模压而成,所述板材的两端形成所述凸棱。
- 根据权利要求3所述的带铰链的频谱治疗仪,其特征在于,所述第一旋转装置的轴套的一端与轴承的外圈连接,所述第二旋转装置轴套的一端与所述轴承的内圈连接。
- 根据权利要求3所述的带铰链的频谱治疗仪,其特征在于,所述铰链还包括转矩内嵌轴,所述转矩内嵌轴一端为伸入所述第一旋转装置的所述轴套内并可在外力的作用下克服摩擦力相对于所述第一旋转装置的轴套旋转的旋转部,另一端为伸入所述第二旋转装置的轴套内并与所述第二旋转装置的轴套相对固定的滚花部。
- 根据权利要求1-6之一所述的带铰链的频谱治疗仪,其特征在于,所述频谱治疗仪由两个所述频谱辐射装置通过所述铰链铰接在一起,每个所述频谱辐射装置呈不小于四分之一圆的拱形板状。
- 根据权利要求7所述的带铰链的频谱治疗仪,其特征在于,所述频谱辐射装置在接近所述铰链的位置处设有允许两个所述频谱辐射装置相对旋转至完全铺展开的状态的倾斜部。
- 根据权利要求1-6之一所述的带铰链的频谱治疗仪,其特征在于,所述频谱辐射装置内部设有使得多个频谱辐射装置重力相等的配重板。
- 根据权利要求3所述的带铰链的频谱治疗仪,其特征在于,所述固定板模铸在所述频谱辐射装置上,且所述框架模铸所述固定板的部位设有多个圆孔。
- 根据权利要求1-6中任一项所述的带铰链的频谱治疗仪,其特征在于,所述频谱辐射装置包括框架,所述框架包括连接板和分别与所述连接板的两端连接并与所述连接板垂直的条形的第一支撑板和第二支撑板,所述第一支撑板与所述第二支撑板相互平行且相对,且沿其条形延伸方向弯曲成拱形,所述第一支撑板和第二支撑板沿其条形延伸方向的一个边缘设有多个上凸耳,沿其条形延伸方向的另一个边缘设有多个下凸耳,所述上凸耳与下凸耳设有用于与频谱治疗仪的壳体固定的连接孔。
- 根据权利要求11所述的带铰链的频谱治疗仪,其特征在于,所述第一支撑板的多个上凸耳和多个下凸耳一一对应地平行相对,所述第二支撑板的多个上凸耳和多个下凸耳一一对应地平行相对,相对应的上凸耳和下凸耳构成凸耳对。
- 根据权利要求12所述的带铰链的频谱治疗仪,其特征在于,所述第一支撑板和所述第二支撑板还设有用于固定频谱发生板的支撑耳,所述支撑耳设在所述第一支撑板和第二支撑板的相对的边缘。
- 根据权利要求13所述的带铰链的频谱治疗仪,其特征在于,所述框架内侧面设有电源线限位装置,所述连接板上设有有允许所述电源线通过的电源线孔。
- 根据权利要求13所述的带铰链的频谱治疗仪,其特征在于,每个所述频谱辐射装置包括与所述框架固定的壳体,所述壳体包括拱形的上面板、下面板、第一侧面板和第二侧面板,所述上面板与所述下面板平行且相对,所述第一侧面板与所述第一支撑板平行且相对,所述第二侧面板与所述第二支撑板平行且相对,所述第一侧面板和第二侧面板的上边缘均具有位于所述上面板上方且所述上面板平行的上弯折部,下边缘均具有位于所述下面板下部并与所述下面板平行的下弯折部,所述上弯折部、上面板和上凸耳通过螺钉或螺栓固定在一起,所述下弯折部、下面板和下凸耳通过螺钉或螺栓固定在一起。
- 根据权利要求15所述的带铰链的频谱治疗仪,其特征在于,所述频谱辐射装置还包括位于所述上面板和所述下面板围成的空间内的氛围灯和与所述氛围灯连接并控制所述氛围灯的电路板。
- 根据权利要求16所述的带铰链的频谱治疗仪,其特征在于,所述上面板设有朝向所述下面板的第一透光平台,所述下面板设有朝向所述上面板的第二透光平台,所述第一透光平台与所述第二透光平台合拢形成合拢部,所述合拢部设有允许所述氛围灯的灯光穿出所述频谱辐射装置的透光孔。
- 根据权利要求17所述的带铰链的频谱治疗仪,其特征在于,所述上面板的一个端部朝向所述下面板弯曲形成所述第一透光平台,所述下面板的一个端部朝向所述上面板弯曲形成所述第二透光平台。
- 根据权利要求18所述的带铰链的频谱治疗仪,其特征在于,所述第一透光平台设有第一半圆通孔,所述第二透光平台设有第二半圆通孔,一个所述第一半圆通孔与一个所述第二半圆通孔共同构成一个所述透光孔。
- 根据权利要求19所述的带铰链的频谱治疗仪,其特征在于,所述上面板靠近所述第一透光平台的位置设有第一固定板,所述下面板靠近所述第二透光平台的位置设有第二固定板,所述第一固定板与所述第二固定板合拢构成固定所述电路板的固定台,所述氛围灯位于所述合拢部与所述固定台之间。
- 根据权利要求20所述的带铰链的频谱治疗仪,其特征在于,所述氛围灯为二个,二个所述氛围灯分别为设在所述上面板两个端部内壁上并沿与所述合拢部平行的方向延伸的灯带,所述灯带在所述电路板的控制下可发出不同颜色的灯光。
- 根据权利要求16所述的带铰链的频谱治疗仪,其特征在于,所述频谱治疗仪还包括用于控制所述频谱发生板和氛围灯的电路板的控制装置和设在一个所述频谱辐射装置的上面板的遥控凹槽内的遥控器,所述遥控器与所述控制装置通讯连接。
- 根据权利要求15所述的频谱治疗仪,其特征在于,所述上面板上分布有多个硅胶质的点状凸起结构。
- 根据权利要求15所述的频谱治疗仪,其特征在于,所述下面板均匀布有多个圆孔。
- 根据权利要求15所述的频谱治疗仪,其特征在于,所述下面板呈格栅形状。
- 根据权利要求25所述的频谱治疗仪,其特征在于,所述下面板包括框体、设在所述框体的两个平行且相对的第一侧壁之间并与该两个第一侧壁连接的多个横向栅条和设在所述框体的两个平行且相对的第二侧壁之间并与该两个第二侧壁连接的纵向支撑板。
- 根据权利要求26所述的频谱治疗仪,其特征在于,所述纵向支撑板设有穿孔,所述横向栅条穿过所述穿孔。
- 根据权利要求26所述的频谱治疗仪,其特征在于,所述下面板的两个第一侧壁设有向外延伸的连接凸耳并通过所述连接凸耳与所述壳体的侧面板固定连接。
- 根据权利要求26所述的频谱治疗仪,其特征在于,相邻所述横向栅条之间的距离为6mm-7mm。
- 根据权利要求25-29中任一项所述的频谱治疗仪,其特征在于,所述下面板由包括尼龙和玻璃纤维的混合材料注塑形成。
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