CN209074647U - Hand-held X-ray machine - Google Patents

Abstract

A hand-held X-ray machine. The handheld X-ray machine comprises an X-ray machine shell, an impact detection module, a processor and an alarm unit; the impact detection module is arranged on the X-ray machine shell and comprises a first infrared emitter, a first infrared receiver and a first glass partition plate; the first infrared emitter provides first infrared light; the first infrared receiver corresponds to the first infrared transmitter, wherein the first infrared receiver provides a first detection signal according to the first infrared light; when the first glass partition board is broken, the light receiving state of the first infrared receiver is changed, and the first infrared receiver sends out the first detection signal; the processor is coupled with the first infrared receiver; the processor is coupled to the warning unit and controls the warning unit to provide a warning signal according to the first detection signal. The utility model discloses can ensure operating personnel safety to be convenient for maintain.

Description

Hand-held X-ray machine

Technical field

The embodiments of the present invention are related to a kind of hand-held X-ray machine, in particular to a kind of with hitting detection module Hand-held X-ray machine.

Background technique

There is a barrier layer (such as lead barrier layer) in the shell of well known hand-held X-ray machine, which is coated on hand The inner wall for holding the shell of Formula X ray machine avoids the radiation inside hand-held X-ray machine from leaking across shell, to protect operator Health.However, the barrier layer may rupture when hand-held X-ray machine is surprisingly dropped.But due to no for barrier The sensing mechanism of layer rupture, therefore operator has no way of learning whether barrier layer has ruptured, and ensures itself with being also unable to fully It is healthy and safe.

Accordingly, it is desirable to provide a kind of hand-held X-ray machine solves the above problems.

Utility model content

The utility model is in order to a kind of hand-held X-ray machine for providing the problem of well-known technique to be solved, hand-held X Ray machine includes an X-ray machine shell, a shock detection module, a processor and an alarm unit；The shock detection module is set to The X-ray machine shell, the shock detection module include one first RF transmitter, one first infrared receiver and one first Glass partition；First RF transmitter provides one first infrared ray；It is first red that first infrared receiver corresponds to this Outside line transmitter, wherein first infrared receiver provides a first detection signal according to first infrared ray；When this When first glass partition ruptures, the receipts light state of first infrared receiver changes, first infrared receiver hair The first detection signal out；The processor couples first infrared receiver；The processor couples the alarm unit, the processing Device controls the alarm unit and provides an alarm signal according to the first detection signal.

In one embodiment, which includes a LCD Panel, the processor according to the first detection signal, It controls the LCD Panel and shows the alarm signal.

In one embodiment, which is arranged in a manner of emptying, first RF transmitter or first One of infrared receiver is set on first glass partition.

In one embodiment, when the shock detection module does not afford impact force, first infrared ray from this first RF transmitter travels into first infrared receiver, and when the shock detection module affords an impact force, this The position of one of the rupture of one glass partition, first RF transmitter or the first infrared receiver shifts, should First infrared ray does not enter first infrared receiver, therefore which issues the first detection letter Number.

In one embodiment, which further includes a shading liquid, a first chamber and a second chamber, First RF transmitter and first infrared receiver are set within the first chamber, which is set to Between the first chamber and the second chamber, which is located among the first chamber, and blocks first infrared ray Optical path.

In one embodiment, when the shock detection module does not afford impact force, first infrared ray is by the shading Liquid barrier, when the shock detection module affords an impact force, first glass partition rupture, the shading liquid from this One chamber flow to the second chamber, and the optical path of first infrared ray changes, and advances from first RF transmitter Into first infrared receiver, therefore which issues the first detection signal.

In one embodiment, which further includes a third chamber, one second RF transmitter, one second Infrared receiver and one second glass partition, second RF transmitter provide one second infrared ray, this is second red Outer line receiver corresponds to second RF transmitter, wherein second infrared receiver is mentioned according to second infrared ray For one second detection signal, which couples second infrared receiver, second RF transmitter and this second Infrared receiver is set within the second chamber, which is set between the second chamber and the third chamber, The intensity of second glass partition is greater than first glass partition.

In one embodiment, which further includes a shading liquid, a first chamber and a second chamber, First RF transmitter and first infrared receiver are set within the second chamber, which is set to Between the first chamber and the second chamber, which is located among the first chamber.

In one embodiment, when the shock detection module does not afford impact force, first infrared ray from this first RF transmitter travels into first infrared receiver, and when the shock detection module affords an impact force, this The rupture of one glass partition, the shading liquid flow to the second chamber from the first chamber, and the optical path of first infrared ray is by this Shading liquid is blocked and is changed, therefore which issues the first detection signal.

In one embodiment, which further includes a third chamber, one second RF transmitter, one second Infrared receiver and one second glass partition, second RF transmitter provide one second infrared ray, this is second red Outer line receiver corresponds to second RF transmitter, wherein second infrared receiver is mentioned according to second infrared ray For one second detection signal, which couples second infrared receiver, second RF transmitter and this second Infrared receiver is set within the third chamber, which is set between the second chamber and the third chamber, The intensity of second glass partition is greater than first glass partition.

Using the hand-held X-ray machine of the utility model embodiment, when hand-held X-ray machine is by considerable degree of accidental impact When, alarm unit will provide alarm signal, to alert operator.Operator can send hand-held X-ray machine It repairs, to ensure the healthy and safe of itself.In addition, in one embodiment, the shock detection module can according to the difference of the degree of shock, Different shock warning contents is provided, maintenance personal can be facilitated to repair whereby.

Detailed description of the invention

Fig. 1 shows the appearance of the hand-held X-ray machine of the utility model embodiment.

Fig. 2 shows the block diagram of the hand-held X-ray machine of the utility model embodiment.

Fig. 3 A and Fig. 3 B show the shock detection module of the utility model first embodiment.

Fig. 4 A and Fig. 4 B show the shock detection module of the utility model second embodiment.

Fig. 5 shows the shock detection module of the utility model 3rd embodiment.

Fig. 6 A and Fig. 6 B show the shock detection module of the utility model fourth embodiment.

Fig. 7 shows the shock detection module of the 5th embodiment of the utility model.

Primary clustering symbol description:

D hand-held X-ray machine

1 X-ray machine shell

11 transmitting terminals

12 setting ends

2,201,202,203,204,205 hit detection module

211 first RF transmitters

212 second RF transmitters

221 first infrared receivers

222 second infrared receivers

231 first glass partitions

232 second glass partitions

241 first chambers

242 second chambers

243 third chambers

3 processors

4 alarm units

5 handles

The first infrared ray of r1

The second infrared ray of r2

Q shading liquid

Specific embodiment

Fig. 1 shows the appearance of the hand-held X-ray machine of the utility model embodiment.Fig. 2 shows the utility model embodiment The block diagram of hand-held X-ray machine.Referring to Fig.1, Fig. 2, the hand-held X-ray machine D of the utility model embodiment, including an X-ray machine shell 1, one hits detection module 2, a processor 3 and an alarm unit 4.It hits detection module 2 and is set to the X-ray machine shell 1.

Referring to Fig.1, in this embodiment, hand-held X-ray machine D further includes a handle 5, which connects the X-ray machine shell Body 1, the X-ray machine shell 1 include a transmitting terminal 11 and a setting end 12, and in contrast to the setting end 12, this hits the transmitting terminal 11 Detection module 2 is hit set on the setting end 12.

Fig. 3 A, Fig. 3 B show the shock detection module of the utility model first embodiment, and hitting detection module 201 includes one First RF transmitter 211, one first infrared receiver 221 and one first glass partition 231.RF transmitter 21 One first infrared ray r1 is provided.First infrared receiver 221 corresponds to first RF transmitter 211, wherein this One infrared receiver 221 provides a first detection signal according to first infrared ray r1.Referring to Fig. 3 B, when first glass When glass partition 231 ruptures, the receipts light state of first infrared receiver 221 changes, first infrared receiver 221 Therefore the first detection signal is issued.It is arranged in pairs or groups again referring to Fig. 2, processor 3 couples first infrared receiver 221.The processing Device 3 couples the alarm unit 4, which controls the alarm unit 4 and provide an alarm signal according to the first detection signal.

Referring to Fig.1, in one embodiment, which includes a LCD Panel, the processor 3 according to this One detection signal, controls the LCD Panel and shows the alarm signal.

Referring to Fig. 3 A, in this embodiment, which is arranged in a manner of emptying, first infrared ray One of transmitter 211 or the first infrared receiver 221 are set on first glass partition 231.In this embodiment, First RF transmitter 211 is set on first glass partition 231.

Fig. 3 A, Fig. 3 B are referred again to, in this embodiment, (the figure when the shock detection module 201 does not afford impact force 3A), which travels into first infrared receiver 221 from first RF transmitter 211.When this When shock detection module 201 affords an impact force (Fig. 3 B), first glass partition 231 rupture, first infrared ray transmitting One of them position of device 211 or the first infrared receiver 221 shifts, first infrared ray r1 do not enter this first Therefore infrared receiver 221, first infrared receiver 221 issue the first detection signal.

Fig. 4 A and Fig. 4 B show the shock detection module 202 of the utility model second embodiment.Referring to Fig. 4 A and figure 4B, in this embodiment, the shock detection module further include a shading liquid q, a first chamber 241 and a second chamber 242, first RF transmitter 211 and first infrared receiver 221 are set within the first chamber 241, this One glass partition 231 be set between the first chamber 241 and the second chamber 242, shading liquid q be located at the first chamber it In, and block the optical path of first infrared ray r1.

Referring to Fig. 4 A and Fig. 4 B, in one embodiment, (the figure when the shock detection module 202 does not afford impact force 4A), which is blocked by shading liquid q.(the figure when the shock detection module 202 affords an impact force 4B), which ruptures, and shading liquid q flow to the second chamber 242 from the first chamber 241, this first The optical path of infrared ray r1 changes, and travels into first infrared receiver from first RF transmitter 211 221, therefore which issues the first detection signal.

Fig. 5 shows the shock detection module 203 of the utility model 3rd embodiment.Referring to Fig. 5, implement compared to second Example, the shock detection module 203 further include that a third chamber 243, one second RF transmitter 212, one second infrared ray connect Device 222 and one second glass partition 232 are received, which provides one second infrared ray r2, this second Infrared receiver 222 correspond to second RF transmitter 212, wherein second infrared receiver 222 according to this second Infrared ray r2 provides one second detection signal, which is also coupled to second infrared receiver 222, this is second infrared Line transmitter 212 and second infrared receiver 222 are set within the second chamber 242, which sets Between the second chamber 242 and the third chamber 243, the intensity of second glass partition 232 is greater than first glass partition 231.In this embodiment, which is greater than by the intensity of second glass partition 232, which can Judge the size degree of the impact force.For example, (only receiving the first detection letter when only first glass partition 231 rupture Number), impact force is smaller.And (first is received when first glass partition 231 and second glass partition 232 rupture And second detection signal), impact force is larger.

Fig. 6 A and Fig. 6 B show the shock detection module 204 of the utility model fourth embodiment.Referring to Fig. 6 A and figure 6B, in this embodiment, the shock detection module 204 further include a shading liquid q, a first chamber 241 and one second chamber Room 242, first RF transmitter 211 and first infrared receiver 221 are set within the second chamber 242, should First glass partition 231 is set between the first chamber 241 and the second chamber 242, and shading liquid q is located at the first chamber Among 241.

Referring to Fig. 6 A and Fig. 6 B, in one embodiment, (the figure when the shock detection module 204 does not afford impact force 6A), which travels into first infrared receiver 221 from first RF transmitter 211.When this Hit detection module 204 when affording an impact force, which ruptures (Fig. 6 B), shading liquid q from this One chamber 241 flow to the second chamber 242, and the optical path of first infrared ray r1 is blocked and changed by shading liquid q, Therefore first infrared receiver 221 issues the first detection signal.

Fig. 7 shows the shock detection module 205 of the 5th embodiment of the utility model.Referring to Fig. 5, implement compared to the 4th Example, the shock detection module 205 further include that a third chamber 243, one second RF transmitter 212, one second infrared ray connect Device 222 and one second glass partition 232 are received, which provides one second infrared ray r2, this second Infrared receiver 222 correspond to second RF transmitter 212, wherein second infrared receiver 222 according to this second Infrared ray r2 provides one second detection signal, which is also coupled to second infrared receiver 222, this is second infrared Line transmitter 212 and second infrared receiver 222 are set within the third chamber 243, which sets Between the second chamber 242 and the third chamber 243, the intensity of second glass partition 232 is greater than first glass partition 231.In this embodiment, which is greater than by the intensity of second glass partition 232, which can Judge the size degree of the impact force.For example, (only receiving the first detection letter when only first glass partition 231 rupture Number), impact force is smaller.And (first is received when first glass partition 231 and second glass partition 232 rupture And second detection signal), impact force is larger.

Using the hand-held X-ray machine of the utility model embodiment, when hand-held X-ray machine is by considerable degree of accidental impact When, alarm unit will provide alarm signal, to alert operator.Operator can send hand-held X-ray machine It repairs, to ensure the healthy and safe of itself.In addition, in one embodiment, the shock detection module can according to the difference of the degree of shock, Different shock warning contents is provided, maintenance personal can be facilitated to repair whereby.

Although the utility model is disclosed as above with specific preferred embodiment, it is practical new to be not limited to this Type, any those of ordinary skill in the art can still do some in the case where not departing from the spirit and scope of the utility model Changing and retouching perhaps, therefore the protection scope of the utility model should regard subject to appended claims institute defender.

Claims (10)

1. a kind of hand-held X-ray machine, which is characterized in that the hand-held X-ray machine includes:

One X-ray machine shell；

One hits detection module, which is set to the X-ray machine shell, which includes:

One first RF transmitter, first RF transmitter provide one first infrared ray；

One first infrared receiver, first infrared receiver correspond to first RF transmitter, wherein this is first red Outer line receiver provides a first detection signal according to first infrared ray；And

One first glass partition, when first glass partition rupture, the receipts light state of first infrared receiver changes Become, which issues the first detection signal；

One processor, the processor couple first infrared receiver；And

One alarm unit, the processor couple the alarm unit, which controls the warning list according to the first detection signal Member provides an alarm signal.

2. hand-held X-ray machine as described in claim 1, which is characterized in that the alarm unit includes a LCD Panel, should Processor controls the LCD Panel and shows the alarm signal according to the first detection signal.

3. hand-held X-ray machine as described in claim 1, which is characterized in that first glass partition is arranged in a manner of emptying, One of first RF transmitter or the first infrared receiver are set on first glass partition.

4. hand-held X-ray machine as claimed in claim 3, which is characterized in that when the shock detection module does not afford impact force When, which travels into first infrared receiver from first RF transmitter, when the shock detects When module affords an impact force, which ruptures, first RF transmitter or the first infrared receiver The position of one of them shifts, which does not enter first infrared receiver, which connects It receives device and issues the first detection signal.

5. hand-held X-ray machine as described in claim 1, which is characterized in that the shock detection module further include a shading liquid, One first chamber and a second chamber, first RF transmitter and first infrared receiver are set to first chamber Within room, which is set between the first chamber and the second chamber, which is located at the first chamber Among, and block the optical path of first infrared ray.

6. hand-held X-ray machine as claimed in claim 5, which is characterized in that when the shock detection module does not afford impact force When, which is blocked by the shading liquid, when the shock detection module affords an impact force, first glass Partition ruptures, the shading liquid flow to the second chamber from the first chamber, and the optical path of first infrared ray changes, and First infrared receiver is traveled into from first RF transmitter, which issues first inspection Survey signal.

7. hand-held X-ray machine as claimed in claim 6, which is characterized in that the shock detection module further include a third chamber, One second RF transmitter, one second infrared receiver and one second glass partition, second RF transmitter mention For one second infrared ray, which corresponds to second RF transmitter, wherein second infrared ray connects Device is received according to second infrared ray, one second detection signal is provided, which couples second infrared receiver, this Two RF transmitters and second infrared receiver are set within the second chamber, second glass partition be set to this Between two chambers and the third chamber, the intensity of second glass partition is greater than first glass partition.

8. hand-held X-ray machine as described in claim 1, which is characterized in that the shock detection module further include a shading liquid, One first chamber and a second chamber, first RF transmitter and first infrared receiver are set to second chamber Within room, which is set between the first chamber and the second chamber, which is located at the first chamber Among.

9. hand-held X-ray machine as claimed in claim 8, which is characterized in that when the shock detection module does not afford impact force When, which travels into first infrared receiver from first RF transmitter, when the shock detects When module affords an impact force, first glass partition rupture, the shading liquid flow to the second chamber from the first chamber, The optical path of first infrared ray is blocked and changed by the shading liquid, which issues first inspection Survey signal.

10. hand-held X-ray machine as claimed in claim 9, which is characterized in that the shock detection module further includes a third chamber Room, one second RF transmitter, one second infrared receiver and one second glass partition, second RF transmitter One second infrared ray is provided, which corresponds to second RF transmitter, wherein second infrared ray Receiver provides one second detection signal according to second infrared ray, which couples second infrared receiver, should Second RF transmitter and second infrared receiver are set within the third chamber, which is set to should Between second chamber and the third chamber, the intensity of second glass partition is greater than first glass partition.