CN204581317U - CT radiation-resistant bed - Google Patents

Abstract

The utility model discloses a kind of CT radiation-resistant bed, comprise gripper shoe, wherein, it also comprises and is vertically arranged in described gripper shoe and forms the stereotype of a rectangular frame, is arranged on the telescopic polylith protective plate of the sidewall of described stereotype; Described polylith protective plate can dock fixing in relative side.Stereotype is provided with multiple protective plate with Telescopic, the region that medical care operator can be scanned as required regulates the position of protective plate, makes it form a less rectangular area, reduces the radiation injury of patient, and its convenient operation, can the operating time be saved.It arranges two shells in stereotype lateral symmetry, be symmetrical arranged the inner shell that top has induction screen in shell, medical care operator can draw the to be scanned frame corresponding with position to be scanned on induction screen, and its intelligence degree is high, easy to operate, be very easy to medical care operator.

Description

CT radiation-resistant bed

Technical field

This utility model relates to medical instruments field, particularly relates to a kind of CT radiation-resistant bed.

Background technology

CT (Computed Tomography), i.e. CT scan, it is the x-ray bundle, gamma-rays, ultrasound wave etc. that utilize Accurate collimation, the detector high with sensitivity together makes profile scanning one by one around a certain position of human body, there is sweep time fast, the features such as clear picture, can be used for the inspection of various diseases; And the ray sent in scanning process can be launched repeatedly, reflect in scanning space, produce a large amount of non-directional rays, this health examined is inevitably irradiated repeatedly, and these rays cause certain damage after being absorbed by tissue.Especially the gonad, thyroid, lung, mammary gland etc. of human body the most easily suffer damage.

The CT scan bed with safeguard structure of current appearance, it is arranged side by side chute in bed board both sides, and the chute of both sides slides is provided with multiple annular stereotype, adjusts the position of annular stereotype at chute according to position to be scanned, irradiates to avoid other position light.But measured's sweep limits is bigger, be also difficult to be adjusted precisely to minimum protective range.

Therefore, prior art awaits development and improvement.

Utility model content

The purpose of this utility model is to overcome the deficiency in above-mentioned prior art, provides a kind of CT radiation-resistant bed.

The technical scheme that this utility model solution prior art problem adopts is: CT radiation-resistant bed, comprise gripper shoe, wherein, it also comprises and is vertically arranged in described gripper shoe and forms the stereotype of a rectangular frame, is arranged on the telescopic polylith protective plate of the sidewall of described stereotype; Described polylith protective plate can dock fixing in relative side.

Below above technical scheme is further elaborated:

Further, described protective plate comprises: the shell of hollow, socket to be arranged in described shell and can the inner shell of horizontal and vertical slip in described shell, be arranged on the spring between described shell and described interior shell side wall, and the control module for controlling described telescopic spring be arranged in described shell, and with the controller of described control module wireless connections, in order to the distance between protective plate multiple described in regulating and controlling; The top layer of described shell and described inner shell is respectively arranged with lead layer.

Further, described inner shell comprises first inner shell that laterally can slide in described shell, can the second inner shell of longitudinal sliding motion in described shell, and described first inner shell and described second inner shell gap are arranged.

Further, described shell is two of being fixedly installed on sidewall longer in described stereotype, and described inner shell is that it is multiple to be symmetricly set in described two shells.

Further, described lead layer is separately positioned on the bottom surface of described shell and described inner shell, the end face of described inner shell is provided with an induction screen, described induction screen is used for the frame to be scanned that inductive operation person draws on induction screen, described induction screen communicates to connect with described control module, and described control module controls described inner shell sliding distance by the frame to be scanned on described induction screen.

Further, described controller is provided with and the control module of described multiple protective plate multiple control lever one to one, for glide direction and the sliding distance of inner shell described in difference regulating and controlling.

Further, described controller is also provided with at least one display lamp being used to indicate described protective plate docking situation.

Further, described display lamp comprises and is used to indicate described protective plate and has docked the first fixing display lamp, and the inner shell being used to indicate described protective plate has slid into the second display lamp of preset value.

The beneficial effects of the utility model are: on stereotype, be provided with multiple protective plate with Telescopic, the region that medical care operator can be scanned as required regulates the position of protective plate, it is made to form a less rectangular area, the radiation injury of patient is reduced, and its convenient operation, can the operating time be saved.It arranges two shells in stereotype lateral symmetry, be symmetrical arranged the inner shell that top has induction screen in shell, medical care operator can draw the to be scanned frame corresponding with position to be scanned on induction screen, and its intelligence degree is high, easy to operate, be very easy to medical care operator.

Accompanying drawing explanation

Fig. 1 is the side-looking structural representation of this utility model CT radiation-resistant bed embodiment.

Fig. 2 is the plan structure schematic diagram of this utility model CT radiation-resistant bed one preferred embodiment.

Fig. 3 is the side structure schematic diagram of the protective plate of this utility model CT radiation-resistant bed.

Reference numeral:

Gripper shoe 10;

Stereotype 20;

Protective plate 30;

Shell 310; Inner shell 320; Micromachine push rod 330; Induction screen 340;

Frame 40 to be scanned.

The realization of this utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Below with reference to drawings and the specific embodiments describe in detail the technical solution of the utility model so as clearer, understand invention essence of the present utility model intuitively.

As shown in Figure 1 and Figure 2, CT radiation-resistant bed, comprises gripper shoe 10, and wherein, it also comprises and is vertically arranged in described gripper shoe 10 and forms the stereotype 20 of a rectangular frame, is arranged on the telescopic polylith protective plate 30 of the sidewall of described stereotype 20; Described polylith protective plate 30 can dock fixing in relative side, and the projection of draw-in groove and adaptation can be adopted fixing to dock.The region that can scan as required regulates the position of protective plate, makes it form a less rectangular area, reduces the radiation injury of patient.Concrete, the structure of easy disassembly can be adopted between stereotype 20 and gripper shoe 10, such as stereotype 20 is rotatably connected in gripper shoe 10, be connected and fixed by a connection piece between adjacent stereotype 20, so, when CT radiation-resistant bed leaves unused, visible stereotype 20 puts down, or that block longer in four blocks of stereotypes 20 and gripper shoe 10 are rotationally connected, facilitate that detected person's is upper and lower.

Concrete, described protective plate 30 comprises: the shell 310 of hollow, socket to be arranged in described shell 310 and can the inner shell 320 of horizontal and vertical slip in described shell 310, be arranged on the micromachine push rod 330 between described shell 310 and described inner shell 320, and one for controlling the flexible control module of described motor push rod.The side of each inner shell 320 is provided with the draw-in groove cooperatively interacted, and convenient docking is fixing; Certain, micromachine push rod 330 also can replace with other driving mechanisms, and inner shell 320 is in shell 310 after transverse direction or longitudinal sliding motion, and can surround a rectangle or square openings between multiple protective plate 30, this opening is region to be scanned.Inner shell 320 regulates the state after stretching as shown in Figure 2.The top layer of shell 310 and inner shell 320 is all with lead layer overcoat.Certain, inner shell 320 specifically can be provided with two-layer, one deck can slide in a lateral direction, another layer can slide in a longitudinal direction, two-layer inner shell gap is arranged, inner shell 320 comprise can laterally slide the first inner shell, can the second inner shell of longitudinal sliding motion, the first inner shell, the second inner shell gap are arranged, when being provided with two inner shells, its relative set micromachine push rod 330 separately.

In a preferred embodiment, as shown in Figure 2 and Figure 3, by described shell 310 for being fixedly installed on two on sidewall longer in described stereotype 20, described inner shell 320 is multiple for what be symmetricly set in described two shells 310, distance between both sides shell 310 is fixed, and is set to the width being greater than general human body.

In another preferred embodiment, the controller (not shown) that convenient manipulation regulates inner shell 320 to slide can also be increased, namely on the basis of such scheme, the controller of one and described control module wireless connections is increased, in order to the clearance distance between protective plate 30 multiple described in regulating and controlling.Stretching, until multiple protective plate 30 forms a comparatively ideal region to be scanned of operator's this remote controller hand-holdable real-time regulating and controlling protective plate 30 inner shell 320.

More specifically, described protective plate 30 is for being symmetricly set on four pieces of protective plates 30 of described stereotype 20 sidewall.Certain, also can be symmetrical arranged the protective plate 30 more than four pieces.Further, described controller is provided with four and described four pieces of protective plates 30 control lever one to one, for telescopic direction and the distance of stretch out and draw back of the inner shell 320 of four pieces of protective plates 30 described in regulating and controlling.

In an additional preferred embodiment, the bottom of described protective plate 30 is set to lead layer, top be set to one induction screen 340, concrete, induction screen 340 is arranged on the end face of inner shell 320, when patient couches in gripper shoe 10, both sides inner shell 320 first docks fixing, the frame to be scanned 40 that induction screen 340 draws on induction screen 340 for inductive operation person, described induction screen 340 communicates to connect with described control module, and described control module controls described inner shell 320 distance of stretch out and draw back by the frame to be scanned 40 on described induction screen 340.After inner shell 320 interfixes, operator can draw an approximate rectangular frame to be scanned 40 (represented by dashed line in figure) on the induction screen 340 of protective plate 30, induction screen 340 senses this frame 40 to be scanned, certain, one time delay can also be set, after time delay, there is the inquiry interface whether confirming this region to be scanned in the fixed position of induction screen 340, the information of this frame 40 to be scanned is passed to control module, so, automatically can control inner shell 320 to slide until polylith protective plate 30 forms this frame 40 to be scanned.This operation is comparatively intelligent, easy to operate.

Further, described controller is also provided with and is used to indicate at least one display lamp that described protective plate 30 docks situation.

More specifically, described display lamp comprises and is used to indicate described protective plate 30 and has docked the first fixing display lamp, and the inner shell 320 being used to indicate described protective plate 30 has been retractable to the second display lamp of preset value.

In sum, the CT radiation-resistant bed that this utility model provides, stereotype is provided with multiple protective plate with Telescopic, the region that medical care operator can be scanned as required regulates the position of protective plate, it is made to form a less rectangular area, the radiation injury of patient is reduced, and its convenient operation, can the operating time be saved.It arranges two shells in stereotype lateral symmetry, the inner shell that top has induction screen is symmetrical arranged in shell, medical care operator can draw the to be scanned frame corresponding with position to be scanned on induction screen, and multiple frame to be scanned can be drawn simultaneously, can realize scanning multiple body part, save the time of scanning and the time of repetitive operation, its intelligence degree is high simultaneously, easy to operate, be very easy to medical care operator.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize this utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (8)

1. a CT radiation-resistant bed, comprises gripper shoe, it is characterized in that, it also comprises and is vertically arranged in described gripper shoe and forms the stereotype of a rectangular frame, is arranged on the telescopic polylith protective plate of the sidewall of described stereotype; The side that described polylith protective plate is relative can be docked fixing.

2. CT radiation-resistant bed according to claim 1, it is characterized in that, described protective plate comprises: the shell of hollow, socket to be arranged in described shell and can the inner shell of horizontal and vertical slip in described shell, be arranged on the micromachine push rod between described shell and described interior shell side wall, and be arranged in described shell for controlling the flexible control module of described micromachine push rod, and with the controller of described control module wireless connections, in order to the distance between protective plate multiple described in regulating and controlling; The top layer of described shell and described inner shell is respectively arranged with lead layer.

3. CT radiation-resistant bed according to claim 2, is characterized in that, described inner shell comprises first inner shell that laterally can slide in described shell, can the second inner shell of longitudinal sliding motion in described shell, and described first inner shell and described second inner shell gap are arranged.

4. CT radiation-resistant bed according to claim 2, is characterized in that, described shell is two of being fixedly installed on sidewall longer in described stereotype, and described inner shell is that it is multiple to be symmetricly set in described two shells.

5. CT radiation-resistant bed according to claim 4, it is characterized in that, described lead layer is separately positioned on the bottom surface of described shell and described inner shell, the end face of described inner shell is provided with an induction screen, described induction screen is used for the frame to be scanned that inductive operation person draws on induction screen, described induction screen communicates to connect with described control module, and described control module controls described inner shell sliding distance by the frame to be scanned on described induction screen.

6. CT radiation-resistant bed according to claim 3, is characterized in that, described controller is provided with and the control module of described multiple protective plate multiple control lever one to one, for glide direction and the sliding distance of inner shell described in difference regulating and controlling.

7. CT radiation-resistant bed according to claim 6, is characterized in that, described controller is also provided with at least one display lamp being used to indicate described protective plate docking situation.

8. CT radiation-resistant bed according to claim 7, is characterized in that, described display lamp comprises and is used to indicate described protective plate and docked the first fixing display lamp, and the inner shell being used to indicate described protective plate has slid into the second display lamp of preset value.