CN102262239A - Accommodating box and device system - Google Patents

Abstract

The invention provides an accommodating box and device system. A control portion is arranged in an accommodating box of a mobile radioactive ray shooting device, the control portion can control a cooling component to work according to temperature of the mobile radioactive ray shooting device detected via a temperature sensor, thereby cooling flowing liquid in a temperature regulating pipe. So the accommodating box and device system can prevent that the temperature of the mobile radioactive ray shooting device diverges from a preset temperature (uneven temperature), when the mobile radioactive ray shooting device is carried to a destination for usage.

Description

Receiver and apparatus system

Technical field

The present invention relates to a kind of receiver and apparatus system, this receiver has the incorporating section that can take in portable radiographic equipment.

Background technology

Put down in writing the accommodation device with incorporating section in TOHKEMY 2009-290138 communique, this incorporating section forms can take in mobile electronic equipment (electronic box (Electricity カ セ Star テ)).And, when taking in mobile electronic equipment, can cool off mobile electronic equipment in the incorporating section of this accommodation device.

But, in the prior art, for example, based on the photography in visit of private residence or the nursing facility visit etc., and portable radiographic equipment (electronic box) is taken under the situation about using the visit destination, think that in carrying, the temperature of portable radiographic equipment can depart from predetermined temperature owing to the ambient atmos temperature.

Summary of the invention

Problem of the present invention is, portable radiographic equipment taken the visit destination when using, and suppresses the predetermined temperature of temperature departure of portable radiographic equipment in the carrying.

The receiver that the present invention's first mode relates to is characterised in that, this receiver possesses: first incorporating section, it can take in portable radiographic equipment, and the radiation image that the radioactive ray that this movable type radiographic equipment shines passing through manifest carries out record; Temperature sensor, it detects the temperature that is accommodated in the described portable radiographic equipment in described first incorporating section; And temperature control unit, its testing result according to described temperature sensor is controlled the temperature of described portable radiographic equipment.

According to said structure, in the receiver of the portable radiographic equipment that can carry, be provided with first incorporating section that to take in portable radiographic equipment.And temperature sensor detects the temperature that is incorporated in the portable radiographic equipment in first incorporating section, and temperature control unit is controlled the temperature of portable radiographic equipment according to this testing result.

Like this, be the temperature that pre-determines scope by the temperature of controlling the temperature of portable radiographic equipment, be accommodated in the portable radiographic equipment of carrying in the receiver.Thus, can be suppressed at the situation of the predetermined temperature of the temperature departure of portable radiographic equipment (generation non-uniform temperature) in the carrying.

The receiver that relates to about the present invention's second mode, in the receiver that the present invention's first mode relates to, described receiver be provided with can supply capability rechargeable battery, described temperature control unit is carried out work from described rechargeable battery supply capability.

According to said structure, rechargeable battery that can supply capability is located at receiver, and this rechargeable battery makes temperature control unit work to the temperature control unit supply capability.

Like this, by the rechargeable battery to the temperature control unit supply capability is set, can make temperature control unit work in the carrying with easy structure, can be suppressed at the situation of the predetermined temperature of the temperature departure of portable radiographic equipment (generation non-uniform temperature) in the carrying.

Receiver about Third Way of the present invention relates in the receiver that first mode relates to, is provided with a plurality of described temperature sensors, and described temperature sensor is configured to measure the center side of described portable radiographic equipment and the temperature of angle side.

According to said structure, temperature sensor is configured to measure the temperature of the angle side of the center side of portable radiographic equipment and portable radiographic equipment.By such configuration temperature sensor, with temperature only the situation of temperature control unit work is compared according to the part (for example bight) of portable radiographic equipment, can prevent effectively that portable radiographic equipment from producing non-uniform temperature.

About the receiver that the cubic formula of the present invention relates to, in the receiver that first mode relates to, described temperature control unit comprises the cooling-part that described portable radiographic equipment is cooled off.

According to said structure, when extraneous gas temperature is high,, can make the temperature that is accommodated in the portable radiographic equipment of carrying in the receiver be in predetermined scope by making cooling-part work.

About the receiver that the present invention's the 5th mode relates to, in the receiver that first mode relates to, described temperature control unit comprises the heater block that described portable radiographic equipment is heated.

According to said structure, under the low situation of extraneous gas temperature,, can make the temperature that is accommodated in the portable radiographic equipment of carrying in the receiver be in predetermined scope by making heater block work.

The receiver that relates to about the present invention's the 6th mode, in the receiver that first mode relates to, be provided with second incorporating section that to take in the mobile X-ray source, this mobile X-ray source is to described portable radiographic equipment irradiation radioactive ray, be provided with heat insulating member between described first incorporating section and described second incorporating section, this heat insulating member suppresses the transmission of heat.

According to said structure, when making the work of mobile X-ray source shine radioactive ray to portable radiographic equipment, the heating of mobile X-ray source.And, even during the mobile X-ray source is uncolled, the mobile X-ray source is accommodated under the situation in second incorporating section, is located at heat insulating member between first incorporating section and second incorporating section and also can suppresses the heat that the mobile X-ray source produces and pass to the situation that is accommodated in the portable radiographic equipment in first incorporating section.

Thus, can prevent that portable radiographic equipment from producing non-uniform temperature.

The apparatus system that the present invention's the 7th mode relates to is characterised in that this apparatus system has: each described receiver in the present invention's first to the 6th mode; With the portable radiographic equipment in first incorporating section that is accommodated in described receiver.

According to said structure, in apparatus system, be provided with each described receiver of the present invention's first to the 6th mode.Therefore, can be suppressed at the situation of the predetermined temperature of the temperature departure of portable radiographic equipment (generation non-uniform temperature) in the carrying.

According to the present invention, portable radiographic equipment is being taken under the situation about using the visit destination, can be suppressed at the situation of the predetermined temperature of temperature departure of portable radiographic equipment in the carrying.

Description of drawings

Fig. 1 is the expression receiver that relates to of embodiment of the present invention and the stereographic map of apparatus system.

Fig. 2 is the stereographic map of the temperature control equipment that receiver adopted that relates to of expression embodiment of the present invention.

Among Fig. 3, (A) and (B) be the stereographic map of the receiver that relates to of expression embodiment of the present invention.

Fig. 4 is the stereographic map of the behaviour in service in the expression portable radiographic equipment that apparatus system adopted that relates to of embodiment of the present invention and mobile X-ray source.

Fig. 5 is the stereographic map in the mobile X-ray source that apparatus system adopted that relates to of expression embodiment of the present invention.

Fig. 6 is the circuit diagram of the portable radiographic equipment that relates to of expression embodiment of the present invention.

Fig. 7 is the vertical view of the portable radiographic equipment that relates to of expression embodiment of the present invention.

Fig. 8 is the sectional view of the portable radiographic equipment that relates to of expression embodiment of the present invention.

Embodiment

An apparatus system 64 that embodiment of the present invention is related to according to Fig. 1～Fig. 8 and an example of receiver 66 describe.And the arrow UP among the figure represents the vertical direction top.

(one-piece construction)

As shown in Figure 6, the inside at the housing 18 of being located at the portable radiographic equipment 10 of apparatus system 64 (so-called electronic box) is provided with radioactive ray pick-up element 12.This radioactive ray pick-up element 12 possesses upper electrode, semiconductor layer and lower electrode, is provided with a large amount of pixel 20 at radioactive ray pick-up element 12 with being two-dimentional shape, and this pixel 20 constitutes and comprises: receive light and put aside the sensor part 14 of electric charge; With TFT switch (thin film switch) 16, it is used for reading the electric charge of savings in sensor part 14.

In addition, in radioactive ray pick-up element 12, be provided with a plurality of scan wirings 22 and a plurality of signal wiring 24 mutually across, described scan wiring 22 is used to make described TFT switch 16 on/off (ON/OFF), and described signal wiring 24 is used for reading the electric charge of savings in sensor part 14.

The related radioactive ray pick-up element 12 of present embodiment is pasted with the scintillator (scintillator) 30 (with reference to Fig. 7 and Fig. 8) that is made of GOS (gadolinium oxysulfide, gadolinium oxysulfide) or CsI (cesium iodide) etc. on the surface.Scintillator 30 has occulter 30A (with reference to Fig. 8), and this occulter 30A blocks the light that produces at the face with radioactive ray pick-up element 12 opposition sides of being pasted, and leaks into the outside with the light that prevents to produce.

In the radioactive ray pick-up element 12, the X ray isoradial that is shone is transformed into light by scintillator 30, and shines sensor part 14.Sensor part 14 receives from the light of scintillator 30 irradiations and puts aside electric charge.

And, in each signal wiring 24,, and flow through the electric signal (picture signal) of representing radiation image with the quantity of electric charge of savings in sensor part 14 accordingly by the connection of arbitrary TFT switch 16 of being connected with signal wiring 24.

In addition, distolateral in the signal wiring direction of radioactive ray pick-up element 12 is provided with a plurality of wiring side by side with connectors 32, and distolateral in the scan wiring direction of radioactive ray pick-up element 12 is provided with a plurality of connectors 34 side by side.And each signal wiring 24 is connected with connector 32, and each scan wiring 22 is connected with connector 34.

In addition, be provided with control part 36 in the present embodiment, this control part 36 carries out the control that detects based on the radioactive ray of radioactive ray pick-up element 12 and the control of signal Processing that the electric signal that flows through each signal wiring 24 is carried out.Control part 36 has signal deteching circuit 42 and sweep signal control circuit 40.

In addition, in signal deteching circuit 42, be provided with a plurality of connectors 46, be electrically connected with an end of flexible cable 44 at this connector 46.In addition, the other end of this flexible cable 44 is connected in connector 32, is built-in with amplifying circuit at each signal wiring 24, and this amplifying circuit amplifies the electric signal of input.By this structure, signal deteching circuit 42 amplifies and will detect after the electric signal amplification of each signal wiring 24 input by amplifying circuit, detects thus by the information of the quantity of electric charge of savings in each sensor part 14 as each pixel 20 of composing images.

On the other hand, be provided with connector 48 in the sweep signal control circuit 40, be electrically connected with an end of flexible cable 52 at this connector 48.In addition, the other end of this flexible cable 52 is connected in connector 34, and sweep signal control circuit 40 is used for the control signal of on/off TFT switch 16 to each scan wiring 22 output.

In addition, as shown in Figure 8, the portable radiographic equipment 10 that present embodiment relates to has photography portion 60, and 60 pairs of radiation images that the radioactive ray that pass through to be shone present of this photography portion are photographed.This photography portion 60 disposes radioactive ray pick-up element 12 (with reference to Fig. 7) at a face that forms flat supporting substrate 62, disposes signal deteching circuit 42 and the sweep signal control circuit 40 corresponding with radioactive ray pick-up element 12 at the another side of supporting substrate 62.

Relative therewith, as shown in Figure 5, in the mobile X-ray source 70 of portable radiographic equipment 10 irradiation radioactive ray, be provided with: the illumination window 72 of irradiation X ray; Adjust the adjustment index dial 74 of collimator; The handle part 76 of being controlled during with carrying mobile X-ray source 70.

In addition, as shown in Figure 1, in apparatus system 64, except foregoing portable radiographic equipment 10 and mobile X-ray source 70, also be provided with receiver 66, this receiver 66 can take in portable radiographic equipment 10 when examining based on the visit of private residence or nursing facility visit and carry in mobile X-ray source 70.And, in the back receiver 66 is described in detail.

Below, the operating principle of the portable radiographic equipment 10 that present embodiment is related to describes.

As shown in Figure 4, about being accommodated in the portable radiographic equipment 10 that is moved to private residence or nursing facility in the receiver 66 (with reference to Fig. 1), when the photography of radiation image, be configured to mobile X-ray source 70 devices spaced apart of this movable type radiographic equipment 10 and generation radioactive ray.Particularly, angular frame (angle) 78 is assembled in private residence or nursing facility simply, the handle part 76 in mobile X-ray source 70 is hooked in the hook portion 80 of this angular frame 78, and portable thus radiographic equipment 10 and mobile X-ray source 70 are opened the compartment of terrain at the vertical direction sky and are configured.

And, become the camera positions that are used to settle subject 82 between the mobile X-ray source 70 of this moment and the portable radiographic equipment 10, when the photography of radiation image was carried out in indication, the radioactive ray of the quantity of radiation corresponding with photography conditions given in advance etc. were penetrated in mobile X-ray source 70.Then, the radioactive ray that penetrate from mobile X-ray source 70 shine portable radiographic equipment 10 after carrying through the subject 82 that is positioned at camera positions and having held image information.

As shown in Figure 8,, utilize scintillator 30 that the X ray isoradial that is shone is transformed into light, and shine sensor part 14 (with reference to Fig. 6) at radioactive ray pick-up element 12.Sensor part 14 receives from the light of scintillator 30 irradiations and puts aside electric charge.

As shown in Figure 6, when reading image, apply connection signal (+10～20V) via scan wiring 22 successively to the gate electrode of the TFT of radioactive ray pick-up element 12 switch 16 from sweep signal control circuit 40.Thus, the TFT switch 16 of radioactive ray pick-up element 12 is connected successively, thereby the electric signal streams corresponding with the quantity of electric charge of savings in sensor part 14 is to signal wiring 24.Signal deteching circuit 42 detects the information of the quantity of electric charge of savings in each sensor part 14 as each pixel 20 of composing images according to the electric signal that flows to the signal wiring 24 of radioactive ray pick-up element 12.Thus, obtain representing image information by the shown image of the radioactive ray that shine radioactive ray pick-up element 12.

(major part structure)

Next, describe taking in the receiver of carrying in portable radiographic equipment 10 and mobile X-ray source 70 66.

As shown in Figure 1, be provided with at receiver 66: box main body 66A; Make the unlimited cap 66B in inside of box main body 66A; Be located at the handle part 66C that controls of the top board of box main body 66A; And the engaged wheel 66D that is located at the base plate of box main body 66A.

In addition, be provided with first incorporating section 84 of the concavity that can take in portable radiographic equipment 10 at box main body 66A, be provided with second incorporating section 86 of the concavity that can take in mobile X-ray source 70 on the next door of this first incorporating section 84.And, between first incorporating section 84 and second incorporating section 86, being provided with heat insulating member 88, this heat insulating member 88 suppresses heat and transmits between first incorporating section 84 and second incorporating section 86.

In addition, the bottom surface 84A in first incorporating section 84 is provided with a plurality of (being 5 in the present embodiment) temperature sensor 90, this temperature sensor 90 is used for detecting the temperature of a face of the portable radiographic equipment 10 that is incorporated in first incorporating section 84.Particularly, this temperature sensor 90 is configured in angle side and the center side of bottom surface 84A, so that can measure the center side of a face of the portable radiographic equipment of being taken in 10 and the temperature of angle side.

In addition, under the state of closed cap 66B, with be accommodated in first incorporating section 84 in the relative opposed faces 92 of another face of portable radiographic equipment 10, be provided with a plurality of (in the present embodiment being 5) temperature sensor 94, this temperature sensor 94 detects the temperature of another face that is incorporated in the portable radiographic equipment 10 in first incorporating section 84.Particularly, this temperature sensor 94 is configured in the angle side and the center side of opposed faces 92, so that can measure the center side of another face of the portable radiographic equipment of being taken in 10 and the temperature of angle side.

In addition, be provided with the temperature adjutage 102 that constitutes temperature control equipment 100 in opposed faces 92, this temperature control equipment 100 is the temperature control unit of the temperature of the portable radiographic equipment 10 of control.This temperature adjutage 102 is configured to avoid temperature sensor 94 ground and covers whole opposed faces 92, so that the temperature homogeneous of another face of portable radiographic equipment 10, in the internal flow of temperature adjutage 102 liquid is arranged.

As shown in Figure 2, be provided with a plurality of cooling-parts 106, between cooling-part 106 and temperature adjutage 102, be provided with connecting pipe 108 in the rear side (inside of cap 66B) of temperature adjutage 102.Thus, by making cooling-part 106 work, be cooled at the liquid of the internal flow of temperature adjutage 102.And, as this cooling-part 106, for example can adopt heat radiator, fan, Pa Er card (Peltier) element, liquid cooling heating radiator, refrigerating machine etc.

In addition, be provided with the control part 114 of the work that is used to control cooling-part 106, this control part 114 makes cooling-part 106 work according to the temperature of temperature sensor 90 and temperature sensor 94 detected portable radiographic equipments 10.

That is, foregoing temperature control equipment 100 constitutes and comprises: control part 114, cooling-part 106, temperature adjutage 102 and connecting pipe 108.

On the other hand, as shown in Figure 1, be provided with rechargeable battery 110 in the inside of the cap 66B of receiver 66, this rechargeable battery 110 can mount and dismount with respect to the battery outer portion 112 that is formed on cap 66B.And aforesaid temperature control equipment 100 is worked from these rechargeable battery 110 supply capabilities.

In addition, be provided with the power cable 116 that can twine at cap 66B, by this power cable 116 is connected with socket (for example wall plug) that can supply capability, the rechargeable battery 110 that is incorporated in the battery outer portion 112 via 118 pairs of the charging circuits of being located at cap 66B charges.

(action effect)

Below, the effect of receiver 66 and apparatus system 64 is described.

As shown in Figure 1, the photography of in based on private residence visit or nursing facility visit etc., carrying out, use under the situation in portable radiographic equipment 10 and mobile X-ray source 70 and take the visit destination, portable radiographic equipment 10 and mobile X-ray source 70 are accommodated in first incorporating section 84 and second incorporating section 86 of receiver 66.And the rechargeable battery 110 that is accommodated in the battery outer portion 112 of cap 66B utilizes power cable 116 and charging circuit 118 to charge in advance.

Shown in Fig. 3 (A), the cap 66B of closed receiver 66 is controlling handle part 66C, and carrying receiver 66 transports portable radiographic equipment 10 and mobile X-ray source 70 to private residence or nursing facility when engaged wheel 66D is rolled.

Under the high situation of extraneous gas temperature, think to have this situation: in carrying, the temperature that is accommodated in the portable radiographic equipment 10 in the receiver 66 uprises, the predetermined temperature of the temperature departure of portable radiographic equipment 10.

But as shown in Figure 1 and Figure 2, the control part 114 that is located at receiver 66 makes cooling-part 106 work according to the temperature by temperature sensor 90,94 detected portable radiographic equipments 10, with cooling flowing liquid in temperature adjutage 102.

By cooling flowing liquid in temperature adjutage 102, thereby cooled off the portable radiographic equipment 10 that becomes high temperature.And when control part 114 became the temperature (18 degree for example Celsius are to 27 degree) of determined scope by the each several part temperature of the portable radiographic equipment 10 of temperature sensor 90,94 supervision, control part 114 stopped the work of cooling-part 106.

On the other hand, during the temperature (18 degree for example Celsius are to 27 degree) of the determined scope of each several part temperature departure of the portable radiographic equipment 10 that monitors by temperature sensor 90,94 when control part 114, control part 114 begins the work of cooling-part 106 once again.

In addition, shown in Fig. 3 (B), during arriving private residence or nursing facility etc. and using portable radiographic equipment 10 and mobile X-ray source 70, by power cable 116 is inserted socket, the rechargeable battery 110 that is accommodated among the cap 66B is recharged.

As above illustrated like that, by controlling the temperature of portable radiographic equipment 10, can be suppressed at that portable radiographic equipment 10 departs from the situation of predetermined temperature (producing non-uniform temperature (system ラ)) in the carrying.

In addition,, can make temperature control equipment 100 work, can suppress portable radiographic equipment 10 generation non-uniform temperature in the carrying with easy structure by being located at cap 66B to the rechargeable battery 110 of temperature control equipment 100 supply capabilities.

In addition, owing to suppressed the non-uniform temperature of portable radiographic equipment 10, the density unevenness that can suppress the image that portable radiographic equipment 10 photographed is even.

In addition, owing in carrying, suppressed the non-uniform temperature of portable radiographic equipment 10, therefore after arriving private residence or nursing facility etc., do not regulate the temperature of portable radiographic equipment 10 and just can use portable radiographic equipment 10.

In addition, owing to need temperature control equipment 100 be set, therefore can make portable radiographic equipment 10 lightweights at portable radiographic equipment 10.

In addition, temperature sensor 90,94 is configured to measure the center side of portable radiographic equipment 10 and the temperature of angle side.Thus, only come the situation of work to compare, can prevent effectively that portable radiographic equipment 10 from producing non-uniform temperature according to the temperature of the part of portable radiographic equipment 10 with making temperature control equipment 100.

In addition, when making 70 work of mobile X-ray source shine radioactive ray to portable radiographic equipment 10,70 heatings of mobile X-ray source.And, 70 just mobile X-ray source 70 is accommodated in second incorporating section 86 when uncolled in the mobile X-ray source sometimes.But even in this case, the heat insulating member 88 that is located between first incorporating section 84 and second incorporating section 86 can suppress to pass to the situation that is accommodated in the portable radiographic equipment 10 in first incorporating section 84 by the heat that mobile X-ray source 70 generates.

In addition, by the charging circuit 118 and the power cable 116 that can charge to rechargeable battery 110 is set in receiver 66, during arriving private residence or nursing facility etc. and using portable radiographic equipment 10 and mobile X-ray source 70, by power cable 116 is inserted socket, then can charge to rechargeable battery 110.

In addition, with specific embodiment the present invention is had been described in detail, but as those skilled in the art, the present invention is not limited to related embodiment, can implements other various embodiments within the scope of the invention, this is conspicuous.For example, in the above-described embodiment, in temperature control equipment 100, adopt cooling-part 106 to adjust the temperature of portable radiographic equipment 10, and under the low situation of extraneous gas temperature, can also adopt heater block to adjust the temperature of portable radiographic equipment.In this case, can adopt well heater, power transistor, Peltier element etc. as heater block.In addition, can also adopt Peltier element etc. to carry out the cooling and the heating of portable radiographic equipment 10.

In addition, though do not mention especially in the above-described embodiment, when adopting portable radiographic equipment 10 and the 70 pairs of subjects 82 in mobile X-ray source to photograph, can also adopt the personal computer of the notebook type etc. in portable radiographic equipment 10 of control and mobile X-ray source 70.

In addition, though do not mention especially in the above-described embodiment, Department of Communication Force can also be set in receiver to carry out two-way communication with hospital by receiver.In this case, can be via receiver to hospital's transmitted image, and can transmit the photography reservation via receiver from hospital.And Department of Communication Force both can be a wireless mode, also can be to use wired mode of telephone line.In addition, Department of Communication Force both can be from being located at the rechargeable battery supply capability of receiver, also can be via the power cable supply capability.

In addition, though do not mention especially in the above-described embodiment, can also storage part be set at receiver and come memory image and photography reservation.

Claims (7)

1. receiver, this receiver are the receivers of the portable radiographic equipment that can carry,

This receiver possesses:

First incorporating section, it can take in portable radiographic equipment, and the radiation image that the radioactive ray that this movable type radiographic equipment shines passing through manifest carries out record;

Temperature sensor, it detects the temperature that is accommodated in the described portable radiographic equipment in described first incorporating section; With

Temperature control unit, its testing result according to described temperature sensor is controlled the temperature of described portable radiographic equipment.

2. receiver according to claim 1, wherein,

Described receiver be provided with can supply capability rechargeable battery, described temperature control unit is carried out work from described rechargeable battery supply capability.

3. receiver according to claim 1, wherein,

Be provided with a plurality of described temperature sensors, described temperature sensor is configured to measure the center side of described portable radiographic equipment and the temperature of angle side.

4. receiver according to claim 1, wherein,

Described temperature control unit comprises the cooling-part that described portable radiographic equipment is cooled off.

5. receiver according to claim 1, wherein,

Described temperature control unit comprises the heater block that described portable radiographic equipment is heated.

6. receiver according to claim 1, wherein,

Be provided with second incorporating section that to take in the mobile X-ray source at described receiver, this mobile X-ray source is to described portable radiographic equipment irradiation radioactive ray, be provided with heat insulating member between described first incorporating section and described second incorporating section, this heat insulating member suppresses the transmission of heat.

7. apparatus system,

This apparatus system possesses:

Each described receiver in the claim 1 to 6; With

Be accommodated in the portable radiographic equipment in first incorporating section of described receiver.

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