CN113560149A

CN113560149A - Irradiation device

Info

Publication number: CN113560149A
Application number: CN202110808378.4A
Authority: CN
Inventors: 王兆华
Original assignee: Shandong Quangang Radiation Scien Tech Development Co ltd
Current assignee: Shandong Quangang Radiation Scien Tech Development Co ltd
Priority date: 2021-07-16
Filing date: 2021-07-16
Publication date: 2021-10-29

Abstract

The invention discloses an irradiation device, which relates to the field of irradiation, and comprises a frame body and an irradiation chamber, and further comprises: the plurality of placing assemblies are movably arranged in the irradiation chamber and used for placing materials to be irradiated; the irradiation assembly is fixedly arranged on the side wall of the irradiation chamber and comprises a plurality of irradiation elements arranged in the irradiation chamber and multi-angle reflection elements arranged on the inner side wall of the irradiation chamber, the irradiation elements are used for irradiating materials on the plurality of placement assemblies, and the multi-angle reflection elements are used for performing multi-angle reflection on an irradiation light source so as to uniformly irradiate the materials; the invention can effectively realize the dynamic irradiation curing effect on the material, thereby effectively improving the light curing efficiency and effect of the irradiation light source on the material.

Description

Irradiation device

Technical Field

The invention relates to the field of irradiation, in particular to an irradiation device.

Background

An irradiation apparatus is an apparatus for processing articles and materials by a safe and reliable radiation processing process, and is also called a photo-curing machine, and is used more and more widely with the wide use of photo-curing coatings. The irradiation device mainly comprises an irradiation light source and an irradiation chamber, and when the whole device works, materials to be irradiated are usually placed into the irradiation chamber, and the irradiation light source is started to irradiate and cure the materials.

Traditional irradiation arrangement is when carrying out the radiation curing to the material, and the material all is static places in the irradiation chamber, then irradiates the material through the irradiation light source, and this kind of irradiation mode is because irradiation light source with keep standing relatively, so when carrying out the radiation curing, hardly make the multiaspect of material receive the irradiation simultaneously to lead to the radiation curing efficiency of material to be lower.

Disclosure of Invention

The invention aims to provide an irradiation device to solve the problem of low irradiation efficiency of the existing irradiation device.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an irradiation device, includes support body and irradiation chamber, still includes:

the placing assemblies are movably arranged in the irradiation chamber and used for placing materials to be irradiated;

the irradiation assembly is fixedly arranged on the side wall of the irradiation chamber and comprises a plurality of irradiation elements arranged in the irradiation chamber and multi-angle reflection elements arranged on the inner side wall of the irradiation chamber, the irradiation elements are used for irradiating materials on the plurality of placement assemblies, and the multi-angle reflection elements are used for reflecting irradiation light sources in multiple angles so as to uniformly irradiate the materials;

the driving mechanism is movably arranged on the side wall of the irradiation chamber, the placing assemblies are arranged on the driving mechanism in a rotating mode, and the driving mechanism is used for driving the placing assemblies to rotate when revolving in the irradiation chamber, so that dynamic irradiation on materials is achieved.

In one alternative: actuating mechanism includes hollow fixing base of fixed mounting on the irradiation chamber lateral wall and rotates the seat and rotate the mount pad in the upper end of installing on hollow fixing base lateral wall, and is a plurality of place the both ends of subassembly and rotate respectively and install rotate on mount pad and the upper end rotate the seat, be used for the drive on the irradiation chamber lateral wall to rotate mount pad and upper end and rotate the seat pivoted drive component on hollow fixing base, and be a plurality of place a tip of subassembly with all be provided with connecting element between the drive component and connect.

In one alternative: the drive component is including rotating the drive axis body of installing on the lateral wall of irradiation chamber and installing and be used for driving drive axis body pivoted drive element on the support body, a tip of drive axis body with drive element is connected, be provided with fixed connection's a face gear with it on the drive axis body, be provided with the rotation axis body of being connected with it rotation on the hollow fixing base, be provided with fixed connection's No. two face gears with it on the rotation mount pad lateral wall, fixed mounting has No. two gears of meshing with a face gear and No. two face gear engaged with one gear respectively on the both ends of rotation axis body, connecting element's a tip with another tip that just connecting element is connected with the drive axis body and placing the subassembly is connected.

In one alternative: the placing assembly comprises a plurality of placing frames which are rotatably installed on the rotating installation seat, a connecting shaft body fixedly connected with the placing frames is arranged on one end portion of each placing frame, one end portion of each connecting shaft body rotates to penetrate through the upper end rotating seat, and the end portion of each connecting shaft body is connected with the driving shaft body through the connecting element.

In one alternative: the irradiation element comprises a plurality of irradiation light sources, a mounting seat fixedly connected with the hollow fixing seat is arranged on the side wall of the hollow fixing seat, the irradiation light sources are uniformly arranged on the mounting seat at intervals, and the multi-angle reflection element comprises a plurality of cambered surface reflectors arranged on the inner side wall of the irradiation chamber.

In one alternative: still be provided with the heat abstractor who is used for ventilating on the irradiation chamber lateral wall, heat abstractor is including installing fan and the vent on the irradiation chamber, be provided with the dust screen on the vent, be provided with a plurality of ventilation grids on the rotation mount pad.

In one alternative: the side wall of the irradiation chamber is provided with a rotary box door which is rotatably connected with the irradiation chamber and a control panel which is fixedly connected with the rotary box door.

Compared with the prior art, the invention has the following beneficial effects:

the irradiation device is provided with the placing assemblies, the irradiation assemblies and the driving mechanism, when the whole device works, the driving mechanism and the irradiation assemblies start to work, a plurality of irradiation elements in the irradiation assemblies irradiate materials on the placing assemblies and simultaneously cooperate with the multi-angle reflecting elements to reflect an irradiation light source in multiple angles, so that the irradiation effect is further improved, and simultaneously, when the driving mechanism starts to work, the placing assemblies are driven to revolve around the driving mechanism and rotate, so that the materials on the placing assemblies can be irradiated efficiently and dynamically, and the irradiation effect and the irradiation efficiency of the materials are further improved.

The invention can effectively realize the dynamic irradiation curing effect on the material, thereby effectively improving the light curing efficiency and effect of the irradiation light source on the material.

Drawings

Fig. 1 is a schematic view of the overall structure in one embodiment of the present invention.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1 according to an embodiment of the present invention.

Fig. 3 is a schematic view of a rotary mounting base according to an embodiment of the present invention.

Fig. 4 is a schematic view of an irradiation light source installation in one embodiment of the present invention.

Fig. 5 is a schematic overall appearance of the entire device in an embodiment of the present invention.

Notations for reference numerals: the device comprises a frame body 1, an irradiation chamber 2, a placing frame body 3, a rotating installation seat 4, an upper end rotating seat 5, a partition plate 6, a rotating motor 7, a driving shaft body 8, a hollow fixed seat 9, an irradiation light source 10, an installation seat 11, a first end face gear 12, a rotating shaft body 13, a second end face gear 14, a first gear 15, a second gear 16, a cambered surface reflector 18, a connecting shaft body 19, a transmission belt 20, a ventilation grid 21, a ventilation opening 22, a dust screen 23, a fan 24, a rotating box door 25 and a control panel 26.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments; in the drawings or the description, the same reference numerals are used for similar or identical parts, and the shape, thickness or height of each part may be enlarged or reduced in practical use. The examples are given solely for the purpose of illustration and are not intended to limit the scope of the invention. Any obvious modifications or variations can be made to the present invention without departing from the spirit or scope of the present invention.

In an embodiment, as shown in fig. 1, an irradiation apparatus provided by the present invention includes a frame body 1 and an irradiation chamber 2, and further includes:

the placing assemblies are movably arranged in the irradiation chamber 2 and used for placing materials to be irradiated;

the irradiation assembly is fixedly arranged on the side wall of the irradiation chamber 2 and comprises a plurality of irradiation elements arranged in the irradiation chamber 2 and multi-angle reflection elements arranged on the inner side wall of the irradiation chamber 2, the irradiation elements are used for irradiating materials on the plurality of placement assemblies, and the multi-angle reflection elements are used for reflecting irradiation light sources in multiple angles so as to uniformly irradiate the materials;

the driving mechanism is movably arranged on the side wall of the irradiation chamber 2, the placing assemblies are rotatably arranged on the driving mechanism, and the driving mechanism is used for driving the placing assemblies to rotate while revolving in the irradiation chamber 2, so that dynamic irradiation on materials is realized.

When the whole device works, materials needing to be irradiated are placed on the placing assemblies, then the driving mechanism and the irradiating assemblies are started to work, a plurality of irradiating elements in the irradiating assemblies irradiate the materials on the placing assemblies and simultaneously cooperate with the multi-angle reflecting elements to perform multi-angle reflection on the irradiating light source, so that the irradiation effect is further improved, and meanwhile, when the driving mechanism works, the placing assemblies are driven to revolve around the driving mechanism and simultaneously rotate, so that efficient dynamic irradiation is realized on the materials on the placing assemblies, and the irradiation effect and the irradiation efficiency of the materials are effectively improved;

in one embodiment, as shown in fig. 1 and fig. 3, the driving mechanism includes a hollow fixed seat 9 fixedly installed on the sidewall of the irradiation chamber 2, and an upper end rotating seat 5 and a rotating installation seat 4 rotatably installed on the sidewall of the hollow fixed seat 9, two end portions of the plurality of placing assemblies are rotatably installed on the rotating installation seat 4 and the upper end rotating seat 5, respectively, a driving member for driving the rotating installation seat 4 and the upper end rotating seat 5 to rotate on the hollow fixed seat 9 is installed on the sidewall of the irradiation chamber 2, and a connecting element is arranged between one end portion of each of the plurality of placing assemblies and the driving member for connecting;

in the embodiment of the invention, when the driving member starts to work, the rotating installation seat 4, the upper end rotating seat 5 and the placing assemblies arranged on the rotating installation seat 4 and the upper end rotating seat 5 are driven to revolve around the hollow fixed seat 9, and meanwhile, one end part of the driving member drives the placing assemblies to rotate through the connecting element, so that the irradiation effect of the placing assemblies is further improved;

in one embodiment, as shown in fig. 1 and fig. 2, the driving member includes a driving shaft body 8 rotatably mounted on a sidewall of the irradiation chamber 2, and a driving element mounted on the frame body 1 for driving the driving shaft body 8 to rotate, one end part of the driving shaft body 8 is connected with the driving element, a first end face gear 12 fixedly connected with the driving shaft body 8 is arranged on the driving shaft body 8, the hollow fixed seat 9 is provided with a rotating shaft body 13 which is rotatably connected with the hollow fixed seat, the side wall of the rotating installation seat 4 is provided with a second face gear 14 which is fixedly connected with the side wall, a second gear 16 meshed with the first face gear 12 and a first gear 15 meshed with the second face gear 14 are respectively and fixedly arranged on two end parts of the rotating shaft body 13, one end of the connecting element is connected with the driving shaft body 8, and the other end of the connecting element is connected with one end of the placing component;

in the embodiment of the invention, when the driving element starts to work, the driving shaft body 8 is driven to start to rotate, when the driving shaft body 8 rotates, the placing components are driven to rotate on the rotating installation seat 4 and the upper end rotating seat 5 through the connecting element, meanwhile, the driving shaft body 8 drives the rotating shaft body 13 to rotate through the meshing of the first end face gear 12 and the second gear 16, the rotating shaft body 13 drives the whole rotating installation seat 4 to rotate on the side wall of the hollow fixed seat 9 through the meshing of the second end face gear 14 and the first gear 15, and therefore, the placing components rotate while revolving around the hollow fixed seat 9;

in one embodiment, as shown in fig. 1 and 4, the placing assembly includes a plurality of placing frames 3 rotatably mounted on the rotary mounting base 4, a connecting shaft body 19 fixedly connected to one end of each placing frame 3 is disposed on one end of each placing frame 3, one end of each connecting shaft body 19 rotatably penetrates through the upper rotary base 5, and the end of each connecting shaft body 19 is connected to the driving shaft body 8 through the connecting element;

in the embodiment of the invention, when the driving shaft body 8 is driven by the driving element to rotate, the placing frame bodies 3 on the rotating installation seat 4 are driven to revolve around the hollow fixed seat 9, and meanwhile, the placing frame bodies 3 are driven by the connecting element to rotate on the rotating installation seat 4 in the rotating process of the driving shaft body 8;

the connecting element can be provided as a sprocket assembly or as a belt assembly or the like, preferably as a drive belt 20 in this embodiment;

the driving element can be set as a servo motor or a pneumatic motor, etc., and is preferably set as a rotating motor 7 in the embodiment;

the placing frame body 3 is provided with a plurality of partition plates 6 for increasing the placing amount of materials;

in one embodiment, as shown in fig. 1 and 4, the irradiation element includes a plurality of irradiation light sources 10, a mounting seat 11 fixedly connected to the side wall of the hollow fixed seat 9 is provided, the plurality of irradiation light sources 10 are uniformly installed on the mounting seat 11 at intervals, and the multi-angle reflecting element includes a plurality of cambered reflectors 18 installed on the inner side wall of the irradiation chamber 2;

in the embodiment of the invention, when the whole device works, a plurality of irradiation light sources 10 are simultaneously started to perform irradiation operation, and a plurality of cambered surface reflectors 18 on the inner side wall of the irradiation chamber 2 form multi-angle scattering on the light sources, so that the irradiation effect is further improved;

in one embodiment, as shown in fig. 1, a heat dissipation device for ventilation is further disposed on the sidewall of the irradiation chamber 2, the heat dissipation device includes a fan 24 and a vent 22 mounted on the irradiation chamber 2, a dust screen 23 is disposed on the vent 22, and a plurality of ventilation grids 21 are disposed on the rotary mounting base 4;

in the embodiment of the present invention, when the temperature in the irradiation room 2 is too high, the fan 24 starts to work to exchange the air in the irradiation room 2 with the outside air through the ventilation opening 22, and the ventilation of the air is promoted by rotating the ventilation grids 21 on the mounting base 4, so as to ensure the balance of the temperature in the irradiation room 2;

in one embodiment, as shown in fig. 5, a rotating box door 25 rotatably connected with the side wall of the irradiation chamber 2 and a control panel 26 fixedly connected with the side wall are arranged on the side wall of the irradiation chamber;

in the embodiment of the present invention, the operation of the real device can be controlled by the control panel 26, and the material can be discharged and taken out by rotating the box door 25.

The specific implementation mode is as follows:

when the whole device is used for work, the whole device is firstly placed at a proper position through the frame body 1, then materials to be irradiated are placed on the placing frame body 3 through the rotating box door 25, then the rotating motor 7 and the plurality of irradiation light sources 10 on the mounting seat 11 are started to work simultaneously through the control panel 26,

a plurality of irradiation light sources 10 are simultaneously started to perform irradiation operation, and a plurality of cambered surface reflectors 18 on the inner side wall of the irradiation chamber 2 form multi-angle scattering on the light sources, so that the contact area between the raw materials on the frame body 3 and the irradiation light sources can be effectively increased, and the irradiation effect is further improved;

will drive the drive axis body 8 and begin to rotate when rotating electrical machines 7 begins to work, drive the drive axis body 8 and will drive through driving belt 20 when rotating and connect axis body 19 to rotate, thereby it places support body 3 and rotates on rotation mount pad 4 and upper end rotation seat 5 to drive the rotation axis body 13 through the meshing of a terminal gear 12 and No. two gears 16 to rotate, it will drive whole rotation mount pad 4 and rotate on hollow fixing base 9 lateral wall through the meshing of No. two terminal gears 14 and No. one gear 15 to rotate the axis body 8 simultaneously, thereby make and place support body 3 and can rotate around hollow fixing base 9 in irradiation chamber 2 along with rotating mount pad 4 in the rotation, thereby make and place the raw materials on the support body 3 and can realize the dynamic irradiation operation, thereby further promotion irradiation's effect and efficiency.

The above description is only for the specific embodiments of the present disclosure, but the scope of the present disclosure is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present disclosure, and all the changes or substitutions should be covered within the scope of the present disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims

1. The utility model provides an irradiation device, includes support body and irradiation chamber, its characterized in that still includes:

2. The irradiation device according to claim 1, wherein the driving mechanism comprises a hollow fixed seat fixedly installed on the sidewall of the irradiation chamber, and an upper end rotating seat and a rotating installation seat rotatably installed on the sidewall of the hollow fixed seat, two end portions of the plurality of placement assemblies are rotatably installed on the rotating installation seat and the upper end rotating seat respectively, a driving member for driving the rotating installation seat and the upper end rotating seat to rotate on the hollow fixed seat is installed on the sidewall of the irradiation chamber, and a connecting element is arranged between one end portion of the plurality of placement assemblies and the driving member for connecting.

3. The irradiation device as claimed in claim 2, wherein the driving member comprises a driving shaft rotatably mounted on the sidewall of the irradiation chamber, and a driving element mounted on the frame body for driving the driving shaft to rotate, one end part of the driving shaft body is connected with the driving element, a first end face gear fixedly connected with the driving shaft body is arranged on the driving shaft body, the hollow fixed seat is provided with a rotating shaft body which is rotatably connected with the hollow fixed seat, the side wall of the rotating installation seat is provided with a second end face gear which is fixedly connected with the rotating installation seat, a second gear meshed with the first end face gear and a first gear meshed with the second end face gear are respectively and fixedly arranged on the two end parts of the rotating shaft body, one end part of the connecting element is connected with the driving shaft body, and the other end part of the connecting element is connected with one end part of the placing assembly.

4. The irradiation device as claimed in claim 3, wherein the placing assembly comprises a plurality of placing frames rotatably mounted on the rotary mounting base, a connecting shaft body fixedly connected with one end of each placing frame is arranged on one end of each placing frame, one end of each connecting shaft body rotatably penetrates through the upper rotary base, and the end of each connecting shaft body is connected with the driving shaft body through the connecting element.

5. The irradiation device as claimed in claim 2, wherein the irradiation element comprises a plurality of irradiation light sources, the side wall of the hollow fixed base is provided with a mounting base fixedly connected with the hollow fixed base, the plurality of irradiation light sources are uniformly installed on the mounting base at intervals, and the multi-angle reflecting element comprises a plurality of cambered surface reflectors installed on the inner side wall of the irradiation chamber.

6. The irradiation device according to claim 5, wherein a heat dissipation device for ventilating is further disposed on the sidewall of the irradiation chamber, the heat dissipation device comprises a fan and a vent installed on the irradiation chamber, a dust screen is disposed on the vent, and a plurality of ventilation grids are disposed on the rotary mounting base.

7. The irradiation device as claimed in claim 1, wherein the irradiation chamber has a door rotatably connected to the chamber and a control panel fixedly connected to the door.