CN112569481A

CN112569481A - Medical accelerator display and operation system

Info

Publication number: CN112569481A
Application number: CN202011320617.3A
Authority: CN
Inventors: 裴泳春; 马俊; 陈万忠
Original assignee: Shinva Medical Instrument Co Ltd
Current assignee: Shinva Medical Instrument Co Ltd
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2021-03-30

Abstract

The present invention relates to a medical device; the medical accelerator display and operation system comprises a workbench, wherein a storable display panel and an instruction input module are arranged on the workbench, and the instruction input module is matched with the display panel. The display panel mainly includes four displays, join in marriage respectively in the industrial computer, the EPID host computer, CBCT host computer and monitored control system, when showing and operating system shut down, display panel and instruction input module are accomodate to the workstation in, instruction input module mainly includes keyboard and mouse, four displays correspond four sets of keyboard and mouse, show and operating system during operation, display panel and instruction input module promote to the mesa of workstation on, the instruction input module integration of each display is in same position, be convenient for operation and observation.

Description

Medical accelerator display and operation system

Technical Field

The present invention relates to a medical device; in particular to a medical accelerator display and operation system.

Background

The host computer display, CBCT display, EPID display, the monitored control system display of current medical accelerator are the independent part of placing alone, and when the field usage of hospital, each display independently sets up separately, and easy overall arrangement is chaotic, has the potential safety hazard, and in addition, the staff need go on alone when operating each display, and the operation is comparatively loaded down with trivial details.

Disclosure of Invention

In order to solve the technical problems, the invention provides a display and operation system of a medical accelerator, which integrates all displays and an instruction input module of the medical accelerator, and has the advantages of compact structure and convenient operation.

The medical accelerator display and operation system comprises a workbench, wherein a storable display panel and a command input module are arranged on the workbench, and the command input module is matched with the display panel.

The display panel mainly includes four displays, join in marriage respectively in the industrial computer, the EPID host computer, CBCT host computer and monitored control system, when showing and operating system shut down, display panel and instruction input module are accomodate to the workstation in, instruction input module mainly includes keyboard and mouse, four displays correspond four sets of keyboard and mouse, show and operating system during operation, display panel and instruction input module promote to the mesa of workstation on, the instruction input module integration of each display is in same position, be convenient for operation and observation.

Preferably, the workbench comprises a workbench surface, a first accommodating cavity and a second accommodating cavity are respectively arranged on the workbench surface corresponding to the display panel and the instruction input module, the display panel is lifted through the lifting driving device, a baffle is arranged at the top of the display panel, and an anti-pinch mechanism is arranged on the baffle; the top of the second storage cavity is provided with a top cover capable of being opened and closed, and the instruction input module is stored at the top of the second storage cavity through the lifting mechanism. The lifting driving device can adopt a nut-screw pair driven by a motor, the display panel is driven to lift under the driving of the motor, the display panel accidentally injures an operator in the automatic lifting process, the anti-pinch mechanism is arranged at the top of the display panel, once a foreign matter is detected between the display panel and the workbench surface, the lifting of the display panel is immediately stopped, the display panel is completely stored in the first storage cavity, and the bottom opening of the first storage cavity is sealed by a baffle at the top. In a similar way, in order to prevent external sundries from falling into the second storage cavity, the top cover capable of being opened and closed is arranged at the top of the second storage cavity, and only when the instruction input module is needed to be used, the top cover is opened, and the instruction input module is jacked up by the lifting mechanism.

Preferably, the instruction input module comprises at least one layer of keyboard and mouse board, at least one set of keyboard and mouse suit is arranged on each layer of keyboard and mouse board, the multiple layers of keyboard and mouse boards are arranged in a stacking mode in the second accommodating cavity, the number of the sets of keyboard and mouse suits contained in the instruction input module is more, the instruction input module can be set into the multiple layers of keyboard and mouse boards in the stacking mode, 1-3 sets of keyboard and mouse suits are arranged on each layer of keyboard and mouse board, the keyboard is fixed on the keyboard and mouse board, magnetic stickers are arranged at the bottom of the mouse and the keyboard and mouse board in a matching mode, the mouse is adsorbed on the keyboard and mouse board through the magnetic stickers, the mouse is lifted during use and is separated from the.

Preferably, the intracavity is accomodate to the second sets up the pull track for every layer of key mouse board, elevating system includes the track slider, X shape adjustment arm and fixed block, the track slider matches the setting with the pull track, X shape adjustment arm is articulated in track slider and fixed block respectively, it sets up long circular adjusting hole to correspond X shape adjustment arm on fixed block and the track slider, fixed block and key mouse board fixed connection, the pull track length of topmost layer is the shortest, the pull track length of bottommost layer is the biggest, ensure that each layer of key mouse board mutually noninterferes during operation, elevating system passes through X shape adjustment arm adjustment key mouse board to suitable angle, the key mouse board is along pull track horizontal displacement in order to pull to suitable position.

Preferably, the anti-pinch mechanism comprises a microswitch K and a control circuit, the control circuit comprises a power module DY, a relay, a single-pole three-throw switch A and a double-way inching switch S, the microswitch K is arranged between a power input terminal of the power module DY and a power supply, the double-way inching switch S is connected with a forward power output end of the power module DY, the other way of the double-way inching switch S is connected with a reverse power output end of the power module DY, two output terminals of the double-way inching switch S are connected to a motor M1 through the single-pole three-throw switch A, the double-way inching switch A is connected with one way of the forward power output end and is connected to a relay coil in series, the relay coil comprises a relay 8K1 coil and a relay 8K2 coil which are connected in parallel, and a relay 8K1 contact is sequentially arranged between the forward, The relay 8K2 contact, single-pole triple-throw switch A and motor M1 set gradually relay 8K1 contact, relay 8K2 contact, single-pole triple-throw switch A and motor M1 between the reverse power supply output end of power module DY and the earthing terminal, single-pole triple-throw switch A and motor M1 connect the relay coil in parallel, relay 8K1 normally open contact and relay 8K2 normally open contact series.

During operation, the power supply state of power module DY is controlled through micro switch K, once micro switch K acts, power module DY stops supplying power immediately, power module DY stops outputting, motor M1 stalls, the display panel is prevented from going up and down continuously, when double-circuit inching switch S is pressed, the relay coil is electrified, the normally open contacts of relay 8K1 and relay 8K2 are attracted, even if double-circuit inching switch S is loosened, the forward power output end of power module DY can still be communicated through the normally open contacts of relay 8K1 and relay 8K2 to obtain a conductive loop to supply power for relay 8K1 and relay 8K2, meanwhile, motor M1 selects motor M1 reverse state through single-pole triple-throw switch A, and the lifting control of the display panel is realized

Preferably, the keyboard and mouse board is provided with a keyboard and mouse switching assembly, the keyboard and mouse switching assembly comprises a driving gear and a switching gear which are meshed with each other, the driving gear is provided with one, the number of the switching gears is matched with the number of sets of keyboard and mouse suits, each switching gear is provided with an outer contact point corresponding to each set of keyboard and mouse suits, each outer contact point is connected with the keyboard and mouse suit matched with the outer contact point through a connecting cable, each switching gear is provided with a fixed inner contact point corresponding to a plurality of outer contact points, the inner contact points are connected to signal output sources, the number of signal paths of the signal output sources is the same as the number of sets of keyboard and mouse suits, and the signal output sources are connected to a proper control host. )

When the switching gear is rotated to a proper position, the inner contact point can be communicated with an outer contact point of a certain path, and the inner contact point and the outer contact point are in contact with each other to communicate a signal input source (a keyboard and mouse set on a keyboard and mouse plate) and a signal output source (a host machine to be connected) corresponding pins.

Preferably, the driving gear is provided with a knob in a matching manner, and the knob is provided with a pointer for indicating the current position of the driving gear so as to determine the current key mouse set connected with each switching gear, and assist a user to quickly connect a proper key mouse set for use.

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

1. the invention integrates a plurality of displays and an instruction input module into a whole, has standard layout and compact structure;

2. the display panel is provided with a hand-clamping prevention mechanism, so that damage to a human body and equipment caused by misoperation and faults can be avoided;

3. the instruction input module is provided with a plurality of layers of keyboard and mouse boards and a keyboard and mouse switching component, so that a keyboard and a host corresponding to a mouse at any position can be conveniently switched, and the applicability is improved;

4. the display panel and the instruction input module which can be stored are adopted, and the display panel and the instruction input module can be stored into the workbench when the display panel is idle, so that the protection and the cleaning of equipment are facilitated.

Drawings

FIG. 1 shows a block diagram of an operating system.

FIG. 2 is a block diagram of a command input module.

Fig. 3 is a schematic circuit diagram of the anti-pinch mechanism.

FIG. 4 is a schematic diagram of a keyboard and mouse switch assembly.

In the figure: 1. a work table; 2. a display panel; 3. an instruction input module; 4. a baffle plate; 5. a top cover; 6. a keyboard and mouse board; 7. A track slider; 8. an X-shaped adjustment arm; 9. a fixed block; 10. an adjustment hole;

6.1, a driving gear; 6.2, switching gears; 6.3, external contact points; 6.4, inner contact points; 6.5 signal output source; 6.6 signal input source; 6.7, a pointer.

Detailed Description

Example 1:

as shown in fig. 1, the display and operation system of the medical accelerator comprises a workbench 1, a display panel 2 and an instruction input module 3 which can be accommodated are arranged on the workbench, and the instruction input module 3 is matched with the display panel 2.

The workbench 1 comprises a table board, a first accommodating cavity and a second accommodating cavity are respectively arranged on the table board corresponding to the display panel 2 and the instruction input module 3, the display panel 2 is lifted through a lifting driving device, a baffle 4 is arranged at the top of the display panel 2, and an anti-pinch mechanism is arranged on the baffle 4; the top of the second storage cavity is provided with a top cover 5 which can be opened and closed, and the instruction input module 3 is stored at the top of the second storage cavity through a lifting mechanism.

The lifting driving device can adopt a nut screw pair driven by a motor, under the driving of the motor, the display panel 2 is driven to lift, the display panel accidentally injures an operator in the automatic lifting process, the top of the display panel 2 is provided with a hand clamping prevention mechanism, once a foreign matter is detected between the display panel 2 and the table top of the workbench 1, the lifting of the display panel 2 is immediately stopped, the display panel 2 is completely stored in the first storage cavity, and the bottom opening of the first storage cavity is sealed by the baffle 4 at the top. Similarly, in order to prevent external sundries from falling into the second storage cavity, the top of the second storage cavity is provided with the top cover 5 which can be opened and closed, only when the instruction input module 3 is needed to be used, the top cover is opened, the instruction input module 3 is jacked up by the lifting mechanism, the operation is convenient, the instruction input module 3 comprises a plurality of keyboard and mouse sets, as shown in figure 2, the instruction input module can be set into 2 layers or a plurality of layers of laminated keyboard and mouse plates 6, each layer of keyboard and mouse plate 6 is provided with 1-3 sets of keyboard and mouse sets, the keyboard is fixed on the keyboard and mouse plates, the bottom of the mouse and the keyboard and mouse plates are matched and provided with magnetic patches, the mouse is adsorbed on the keyboard and mouse plates through the magnetic patches, the mouse is lifted up and separated from the magnetic patch adsorption position when in use, in order to ensure that each layer of keyboard and mouse plate 6 can be smoothly lifted to the table top of the workbench 1, the second storage cavity is provided with a drawing track for each layer of keyboard, the length of the drawing track at the bottommost layer is largest, mutual noninterference of each layer of keyboard and mouse boards 6 is ensured during working, the lifting mechanism comprises a track sliding block 7, an X-shaped adjusting arm 8 and a fixing block 9, the track sliding block 7 is matched with the drawing track, the X-shaped adjusting arm 8 is hinged to the track sliding block 7 and the fixing block 9 respectively, long circular adjusting holes 10 are formed in the fixing block 9 and the track sliding block 7 corresponding to the X-shaped adjusting arm 8, and the fixing block 9 is fixedly connected with the keyboard and mouse boards 6. The lifting mechanism adjusts the keyboard and mouse board 6 to a proper angle through the X-shaped adjusting arm 8, and the keyboard and mouse board 6 horizontally displaces along the drawing track to be drawn to a proper position.

As shown in fig. 3, the anti-pinch mechanism comprises a microswitch K and a control circuit, the control circuit comprises a power module DY, a relay, a single-pole triple-throw switch a and a two-way inching switch S, the microswitch K is arranged between a power input terminal of the power module DY and a power supply, the two-way inching switch S is connected with a forward power output terminal of the power module DY, the other way of the two-way inching switch S is connected with a reverse power output terminal of the power module DY, two output terminals of the two-way inching switch S are both connected to a motor M1 through the single-pole triple-throw switch a, the two-way inching switch a is connected with one way of the forward power output terminal and is connected to a relay coil in series, the relay coil comprises a relay 8K1 coil and a relay 8K2 coil which are connected in parallel, and a relay 8K1 contact, a relay 8K2 contact, the single-pole three-throw switch A and the motor M1 are characterized in that a relay 8K1 contact, a relay 8K2 contact, the single-pole three-throw switch A and the motor M1 are sequentially arranged between the reverse power output end and the grounding end of a power module DY, the single-pole three-throw switch A and the motor M1 are connected with a relay coil in parallel, and a normally open contact of the relay 8K1 is connected with a normally open contact of the relay 8K2 in series.

During operation, the power supply state of the power supply module DY is controlled through the microswitch K, once the microswitch K acts, the power supply module DY stops supplying power immediately, the power supply module DY stops outputting, the motor M1 stops rotating, the display panel 2 is prevented from going up and down continuously, when the double-way inching switch S is pressed, the relay coil is powered on, the normally open contacts of the relay 8K1 and the relay 8K2 are attracted, even if the double-way inching switch S is loosened, the forward power output end of the power supply module DY can still be communicated through the normally open contacts of the relay 8K1 and the relay 8K2 to form a conductive loop for supplying power to the relay 8K1 and the relay 8K2, meanwhile, the motor M1 selects the forward and reverse rotation state of the motor through the single-knife triple-throw switch A, and the lifting control.

As shown in fig. 4, the keyboard and mouse board 6 is provided with a keyboard and mouse switching assembly, the keyboard and mouse switching assembly includes a driving gear 6.1 and a switching gear 6.2 which are engaged with each other, the driving gear 6.1 is provided with one driving gear, the number of the switching gears 6.2 matches with the number of keyboard and mouse suites, each switching gear 6.2 is provided with an outer contact point 6.3 corresponding to each keyboard and mouse suit, each outer contact point 6.3 is connected with the keyboard and mouse suit matched with the outer contact point through a connecting cable, each switching gear 6.2 is provided with a fixed inner contact point 6.4 corresponding to a plurality of outer contact points 6.3, the inner contact point 6.4 is connected to a signal output source 6.5, the number of signal paths of the signal output source 6.5 is the same as the number of signal paths of the signal input source 6.6 (the number of keyboard and mouse suites), and the signal output source is connected to.

When the keyboard is used, the driving gear 6.1 is rotated, the driving gear 6.1 drives the switching gears 6.2 meshed with the driving gear to rotate, the inner contact point 6.4 is fixed relative to the central position of the switching gear 6.2, when the switching gear 6.2 rotates to a proper position, the inner contact point 6.4 is communicated with the outer contact point 6.3 of a certain path, and the signal input source 6.6 (a keyboard and mouse suit on a keyboard and mouse board) and the signal output source 6.5 (a host machine needing to be controlled) are communicated with corresponding pins through the contacted inner contact point and the contacted outer contact point.

The driving gear 6.1 is provided with a knob in a matched mode, and the knob is provided with a pointer 6.7 which is used for indicating the current position of the driving gear 6.1 so as to determine the current key mouse suit of each switching gear 6.2, and assist users to quickly switch on the appropriate key mouse suit for use.

The display panel mainly comprises four displays which are respectively matched with an industrial personal computer, an EPID host, a CBCT host and a monitoring system, and the four displays are sleeved corresponding to four sets of keyboard and mouse sets. When equipment was idle, display panel 2 and instruction input module 3 were accomodate to workstation 1 in, and instruction input module mainly includes keyboard and mouse, and four displays correspond four sets of key mouse suit, and during operation, display panel 2 and instruction input module 3 promote to the mesa of workstation 1 on, be convenient for operate and observe.

Claims

1. A medical accelerator display and operation system is characterized by comprising a workbench, wherein a storable display panel and an instruction input module are arranged on the workbench, and the instruction input module is matched with the display panel.

2. The medical accelerator display and operation system according to claim 1, wherein the workbench comprises a table top, a first receiving cavity and a second receiving cavity are respectively arranged on the table top corresponding to the display panel and the instruction input module, the display panel is lifted through the lifting driving device, a baffle is arranged on the top of the display panel, and a hand clamping prevention mechanism is arranged on the baffle; the top of the second storage cavity is provided with a top cover capable of being opened and closed, and the instruction input module is stored at the top of the second storage cavity through the lifting mechanism.

3. The medical accelerator display and operation system according to claim 1 or 2, wherein the instruction input module comprises at least one layer of keyboard and mouse board, each layer of keyboard and mouse board is provided with at least one set of keyboard and mouse suit, and the plurality of layers of keyboard and mouse boards are stacked in the second receiving cavity.

4. The medical accelerator display and operation system according to claim 2, wherein the second receiving cavity is provided with a drawing track for each layer of keyboard and mouse board, the lifting mechanism comprises a track slider, an X-shaped adjusting arm and a fixed block, the track slider is matched with the drawing track, the X-shaped adjusting arm is hinged to the track slider and the fixed block respectively, the fixed block and the track slider are provided with oblong adjusting holes corresponding to the X-shaped adjusting arm, and the fixed block is fixedly connected with the keyboard and mouse board.

5. The medical accelerator display and operation system according to claim 2, wherein the anti-pinch mechanism comprises a micro switch K and a control circuit, the control circuit comprises a power module DY, a relay, a single-pole-three-throw switch a and a two-way jog switch S, the micro switch K is arranged between a power input terminal of the power module DY and a power supply, the two-way jog switch S is connected with a forward power output terminal of the power module DY, the other one of the two-way jog switch S is connected with a reverse power output terminal of the power module DY, two output terminals of the two-way jog switch S are connected to a motor M1 through the single-pole-three-throw switch a, the two-way jog switch a is connected with one of the forward power output terminals in series to a relay coil, the relay coil comprises a relay 8K1 coil and a relay 8K2 coil which are connected in parallel, and a relay 8K1 contact is sequentially arranged between the power output terminal and a ground terminal of the power module DY, The relay 8K2 contact, single-pole triple-throw switch A and motor M1 set gradually relay 8K1 contact, relay 8K2 contact, single-pole triple-throw switch A and motor M1 between the reverse power supply output end of power module DY and the earthing terminal, single-pole triple-throw switch A and motor M1 connect the relay coil in parallel, relay 8K1 normally open contact and relay 8K2 normally open contact series.

6. The medical accelerator display and operation system according to claim 3, wherein the keyboard and mouse board is provided with a keyboard and mouse switching assembly, the keyboard and mouse switching assembly comprises a driving gear and a switching gear which are meshed with each other, the driving gear is provided with one switching gear, the number of the switching gears is matched with the number of keyboard and mouse sets, each switching gear is provided with an external contact point corresponding to each keyboard and mouse set, each external contact point is connected with the keyboard and mouse set matched with the external contact point through a connecting cable, each switching gear is provided with a fixed internal contact point corresponding to a plurality of external contact points, and the internal contact point is connected to the signal output source.

7. The display and operation system of claim 6, wherein the driving gear is provided with a knob, and the knob is provided with a pointer.