Background technology
Radiation refers to energy with the form of electromagnetic wave or particle (as alpha particle, beta particle etc.) to external diffusion.All objects of occurring in nature, as long as temperature at absolute temperature above zero, all with the form moment of electromagnetic wave and particle ceaselessly outside transfer of heat, this energy-delivering mode is called as radiation.The energy of radiation is from radiation source outside all directions straight radial.The energy that object is released by radiation, is called radiation energy.Radiation calculates by roentgen/hour (R).Radiation has an important feature, be exactly it is " equity ".No matter object (gas) temperature height is all to external radiation, first object can to second object radiation, and second also can to first radiation simultaneously.Generally generally this noun is used in ionising radiation.Radiation itself is neutral words, but the radiation of Cucumber may bring harm.
Therefore, radiation proof becomes the topic often contacting or exist radiation risk personnel growing interest.In the prior art, in the production and processing workshop with radiation or the place had compared with intense radiation, as the CT Room of hospital, all be provided with large-scale radiation proof equipment, these large-scale radiation proof device structures are complicated, install trouble, mobile inconvenient, and cost is higher, when needs need when laboratory is tested to prevent radiation, adopt large-scale radiation proof equipment then that cost performance is lower.
In sum, the application's utility model people, in the process realizing utility model technical scheme in the embodiment of the present application, finds that above-mentioned technology at least exists following technical matters:
In the prior art, there is complex structure in existing radiation proof equipment, installs trouble, mobile inconvenient, and the technical matters that cost is higher.
Utility model content
The utility model provides a kind of shielding, solve existing radiation proof equipment and there is complex structure, trouble is installed, mobile inconvenient, and the technical matters that cost is higher, achieve shielding structural design advantages of simple, install and conveniently moving flexibly, and lower-cost technique effect.
For solving the problems of the technologies described above, the embodiment of the present application provides a kind of shielding, and described device comprises:
Rectangular parallelepiped framework, described framework adopts angle steel to make, one end of conductive lead wire is connected with described framework, the other end ground connection of described conductive lead wire, the upper surface of described framework is provided with radiation proof lead glass plate, the bottom surface of described framework and side are provided with radiation proof stereotype, a handle hole is equipped with in the middle part of described radiation proof stereotype on described framework 4 sides, one end of 4 hook sticks is each passed through described 4 handle holes and is positioned at described framework, the other end of described 4 hook sticks is positioned at outside described framework, described framework bottom surface support body is provided with chute, the described radiation proof stereotype side of described framework bottom surface is provided with pulley, the described radiation proof stereotype of described framework bottom surface is embedded in described chute by described pulley and is slidably connected with described framework.
Wherein, the diameter of described hook stick is mated with the diameter of described handle hole.
Wherein, described radiation proof lead glass plate is transparence.
Wherein, described device side is provided with a hook, and described hook is provided with radiation-resistant gloves and radiation-proof garment.
Wherein, described radiation proof lead glass plate, described radiation proof stereotype and described framework junction are equipped with sealing gasket.
Wherein, the described hook stick termination be positioned at outside described framework is wrapped with one deck radiation proof sheet lead, and the termination that described hook stick is positioned at described framework is flat.
The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:
Owing to have employed, shielding is designed to comprise: rectangular parallelepiped framework, described framework adopts angle steel to make, one end of conductive lead wire is connected with described framework, the other end ground connection of described conductive lead wire, the upper surface of described framework is provided with radiation proof lead glass plate, the bottom surface of described framework and side are provided with radiation proof stereotype, a handle hole is equipped with in the middle part of described radiation proof stereotype on described framework 4 sides, one end of 4 hook sticks is each passed through described 4 handle holes and is positioned at described framework, the other end of described 4 hook sticks is positioned at outside described framework, described framework bottom surface support body is provided with chute, the described radiation proof stereotype side of described framework bottom surface is provided with pulley, the described radiation proof stereotype of described framework bottom surface is embedded in the technical scheme be slidably connected with described framework in described chute by described pulley, namely, when experimenter needs to carry out experimental implementation to the material with radiation, first utilize the radiation proof stereotype of framework bottom surface and framework to be slidably connected radiation proof stereotype pulled out, then the material with radiation is put on stereotype, then stereotype is pushed and go back, and utilize the radiation proof stereotype of side and the non-browning glass plate of end face to carry out radiation proof isolation, when testing, the non-browning glass plate of end face is utilized to observe, the hook stick of surrounding is utilized to carry out experimental implementation, and utilize wire can by the electric transmission of radiation to ground, radiation-proof effect is better, easy to use, and structure is simple, cost is lower, so, efficiently solve existing radiation proof equipment and there is complex structure, trouble is installed, mobile inconvenient, and the technical matters that cost is higher, and then achieve shielding structural design advantages of simple, install and conveniently moving flexible, and cost is lower, the good technique effect of radiation-proof effect.
Embodiment
The utility model provides a kind of shielding, solve existing radiation proof equipment and there is complex structure, trouble is installed, mobile inconvenient, and the technical matters that cost is higher, achieve shielding structural design advantages of simple, install and conveniently moving flexibly, and lower-cost technique effect.
Technical scheme during the application implements is for solving the problems of the technologies described above.General thought is as follows:
Have employed and shielding is designed to comprise: rectangular parallelepiped framework, described framework adopts angle steel to make, one end of conductive lead wire is connected with described framework, the other end ground connection of described conductive lead wire, the upper surface of described framework is provided with radiation proof lead glass plate, the bottom surface of described framework and side are provided with radiation proof stereotype, a handle hole is equipped with in the middle part of described radiation proof stereotype on described framework 4 sides, one end of 4 hook sticks is each passed through described 4 handle holes and is positioned at described framework, the other end of described 4 hook sticks is positioned at outside described framework, described framework bottom surface support body is provided with chute, the described radiation proof stereotype side of described framework bottom surface is provided with pulley, the described radiation proof stereotype of described framework bottom surface is embedded in the technical scheme be slidably connected with described framework in described chute by described pulley, namely, when experimenter needs to carry out experimental implementation to the material with radiation, first utilize the radiation proof stereotype of framework bottom surface and framework to be slidably connected radiation proof stereotype pulled out, then the material with radiation is put on stereotype, then stereotype is pushed and go back, and utilize the radiation proof stereotype of side and the non-browning glass plate of end face to carry out radiation proof isolation, when testing, the non-browning glass plate of end face is utilized to observe, the hook stick of surrounding is utilized to carry out experimental implementation, and utilize wire can by the electric transmission of radiation to ground, radiation-proof effect is better, easy to use, and structure is simple, cost is lower, so, efficiently solve existing radiation proof equipment and there is complex structure, trouble is installed, mobile inconvenient, and the technical matters that cost is higher, and then achieve shielding structural design advantages of simple, install and conveniently moving flexible, and cost is lower, the good technique effect of radiation-proof effect.
In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.
Embodiment one:
In embodiment one, provide a kind of shielding, please refer to Fig. 1, described device comprises:
Rectangular parallelepiped framework 1, described framework 1 adopts angle steel to make, one end of conductive lead wire 4 is connected with described framework 1, the other end ground connection of described conductive lead wire 4, the upper surface of described framework 1 is provided with radiation proof lead glass plate 3, bottom surface and the side of described framework 1 are provided with radiation proof stereotype 2, a handle hole is equipped with in the middle part of described radiation proof stereotype on 4 sides of described framework 1, one end of 4 hook sticks 5 is each passed through described 4 handle holes and is positioned at described framework, the other end of described 4 hook sticks 5 is positioned at outside described framework, described framework bottom surface support body is provided with chute, the described radiation proof stereotype side of described framework bottom surface is provided with pulley, the described radiation proof stereotype of described framework bottom surface is embedded in described chute by described pulley and is slidably connected with described framework.
Wherein, in actual applications, utilize wire the electronics be radiated on stereotype and glass plate and other materials can be discharged to ground, ensure radiation-resistant effect.
Wherein, in actual applications, Frame Design being made for adopting angle steel, the intensity of framework can be ensured.
Wherein, in the embodiment of the present application, the diameter of described hook stick is mated with the diameter of described handle hole.
Wherein, in the embodiment of the present application, described radiation proof lead glass plate is transparence.
Wherein, in actual applications, radiation proof lead glass plate is that transparence can so that experimenter observes when experimental implementation.
Wherein, in the embodiment of the present application, described device side is provided with a hook, and described hook is provided with radiation-resistant gloves and radiation-proof garment.
Wherein, in actual applications, experimenter can carry out dual radiation proof in conjunction with radiation-resistant gloves and radiation-proof garment, thus realizes the multiple protective to experimenter.
Wherein, in the embodiment of the present application, described radiation proof lead glass plate, described radiation proof stereotype and described framework junction are equipped with sealing gasket.
Wherein, in the embodiment of the present application, the described hook stick termination be positioned at outside described framework is wrapped with one deck radiation proof sheet lead, and the termination that described hook stick is positioned at described framework is flat.
Wherein, in actual applications, arranging radiation proof sheet lead can protect the operator of experimenter, also can convenient operation librarian use hook stick, termination is designed to flat and experimenter's operation experiments article can be facilitated to roll.
Technical scheme in above-mentioned the embodiment of the present application, at least has following technique effect or advantage:
Owing to have employed, shielding is designed to comprise: rectangular parallelepiped framework, described framework adopts angle steel to make, one end of conductive lead wire is connected with described framework, the other end ground connection of described conductive lead wire, the upper surface of described framework is provided with radiation proof lead glass plate, the bottom surface of described framework and side are provided with radiation proof stereotype, a handle hole is equipped with in the middle part of described radiation proof stereotype on described framework 4 sides, one end of 4 hook sticks is each passed through described 4 handle holes and is positioned at described framework, the other end of described 4 hook sticks is positioned at outside described framework, described framework bottom surface support body is provided with chute, the described radiation proof stereotype side of described framework bottom surface is provided with pulley, the described radiation proof stereotype of described framework bottom surface is embedded in the technical scheme be slidably connected with described framework in described chute by described pulley, namely, when experimenter needs to carry out experimental implementation to the material with radiation, first utilize the radiation proof stereotype of framework bottom surface and framework to be slidably connected radiation proof stereotype pulled out, then the material with radiation is put on stereotype, then stereotype is pushed and go back, and utilize the radiation proof stereotype of side and the non-browning glass plate of end face to carry out radiation proof isolation, when testing, the non-browning glass plate of end face is utilized to observe, the hook stick of surrounding is utilized to carry out experimental implementation, and utilize wire can by the electric transmission of radiation to ground, radiation-proof effect is better, easy to use, and structure is simple, cost is lower, so, efficiently solve existing radiation proof equipment and there is complex structure, trouble is installed, mobile inconvenient, and the technical matters that cost is higher, and then achieve shielding structural design advantages of simple, install and conveniently moving flexible, and cost is lower, the good technique effect of radiation-proof effect.
Although described preferred embodiment of the present utility model, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the utility model scope.
Obviously, those skilled in the art can carry out various change and modification to the utility model and not depart from spirit and scope of the present utility model.Like this, if these amendments of the present utility model and modification belong within the scope of the utility model claim and equivalent technologies thereof, then the utility model is also intended to comprise these change and modification.