子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种影像科用检查床 | CN201710098828.9 | 2017-02-23 | CN106580569A | 2017-04-26 | 孙凤涛 |
| 本发明提供了一种影像科用检查床,包括下层床板、支撑腿、上层床板、防辐射装置、移动轮和万向轮,下层床板四角位置各设有一条支撑腿,下层床板上部设有与之形状相当的上层床板,上层床板上部安装有防辐射装置,上层床板下表面设有多个均匀设置的移动轮,支撑腿下端设有带自锁功能的万向轮,所述的防辐射装置包括沿床体长度方向设置的多块防辐射板,防辐射板通过旋转轴与上层床板侧面连接,防辐射板为圆弧形状,其上部设有提手,上层床板中部向内设有凹陷,患者在移动检查床只需要通过移动轮滑动即可,不需要大量医护人员的协助,减轻了义务人员的工作难度,同时病人不需要自己移动,避免了二次伤害,有助于患者早日康复。 | ||||||
| 2 | 一种自动过渡车 | CN201610798648.7 | 2016-08-31 | CN106236412A | 2016-12-21 | 吴春文 |
| 本发明公开了一种自动过渡车,包括主车架、副车架、架体、小车、滑轨,所述主车架、副车架并排设置,主车架、副车架上侧分别通过支架固定架体,主车架、副车架的架体相对设置,所述架体上设有并排相对设置的滑轨,滑轨上滑动设置小车。其结构合理,使用方便,可快速更换车,无需抬起病人,极大地避免了病人受到伤害。 | ||||||
| 3 | MANUAL RELEASE SYSTEMS FOR AMBULANCE COTS | EP13860140 | 2013-12-04 | EP2928435A4 | 2016-07-27 | VALENTINO NICHOLAS V; JEFFRIES MICHAEL; MAGILL BRIAN |
| 4 | MANUAL RELEASE SYSTEMS FOR AMBULANCE COTS | EP13860140.6 | 2013-12-04 | EP2928435A1 | 2015-10-14 | VALENTINO, Nicholas, V.; JEFFRIES, Michael; MAGILL, Brian |
| Embodiments of a cot comprise a support frame, legs coupled to the support frame, at least one hydraulic actuator configured to raise or lower the legs, and a manual release system coupled to the at least one actuator and configured to lower the cot manually at a controlled descent rate. The manual release system comprises a manual actuation component, a manual release valve operable to be opened upon actuation by the manual actuation component, a fluid reservoir operable to receive hydraulic fluid from the at least one actuator upon opening of the manual valve; and a flow regulator configured to control the flow rate of the hydraulic fluid into the fluid reservoir, wherein the release of hydraulic fluid into the fluid reservoir at the controlled flow rate is configured to manually lower the cot at the controlled descent rate. | ||||||
| 5 | Transport apparatus | US15932271 | 2018-02-16 | US20180177650A1 | 2018-06-28 | Clifford Edwin Lambarth; Jason James Wroblewski; Brandon David Naber; Alfred James Dacey, IV; Ross Timothy Lucas |
| A first transport apparatus includes a deck for supporting a patient thereon and a lift mechanism supporting the deck. The deck is removable from the lift mechanism for use as a second transport apparatus or part of a second transport apparatus. The first transport apparatus further includes an electrically powered device at the first transport apparatus, and a user input device for wireless control of the electrically powered device, which is operable at or near the first transport apparatus and the second transport apparatus. | ||||||
| 6 | Reconfigurable transport apparatus | US15334933 | 2016-10-26 | US09925098B2 | 2018-03-27 | Clifford Edwin Lambarth; Jason James Wroblewski; Brandon David Naber; Alfred James Dacey, IV; Ross Timothy Lucas |
| A transport apparatus includes a frame, a lift mechanism supporting the frame, and a litter deck for supporting a person. The litter deck is adapted to be reconfigured between a chair configuration and a cot configuration. The litter deck is also adapted to be removably mounted to the frame, with the litter deck being adapted to be supported by the frame while the litter deck is in its chair configuration and also while being reconfigured between its chair configuration and its cot configuration. | ||||||
| 7 | Powered ambulance COT with an automated COT control system | US15245661 | 2016-08-24 | US09789020B2 | 2017-10-17 | Colleen Q. Blickensderfer; Brian M. Magill; Timothy R. Wells; Preeti Sar; Derick C. Robinson; Nicholas V. Valentino; Michael D. Clark |
| A powered ambulance cot and methods of raising and lowering the cot as well as loading and unloading the cot are disclosed. The cot includes a support frame and legs, each leg having a wheel. An actuator of an actuation system interconnects the frame and legs, and is configured to effect changes in elevation of the frame relative to the wheel of each of the legs. A control system controls activation of the actuation system, and detects both the actuator at a first location relative to the frame, where the first location is remote from a second location and which situates an end of the actuator that is remote from each wheel closer to the frame, and a presence of a signal requesting a change in elevation of said support frame to thereby cause the legs to move relative to the support frame. | ||||||
| 8 | RECONFIGURABLE TRANSPORT APPARATUS | US14206151 | 2014-03-12 | US20140265181A1 | 2014-09-18 | Clifford Edwin Lambarth; Jason James Wroblewski; Brandon David Naber; Alfred James Dacy, IV; Thomas Alan Puvogel; Ross Timothy Lucas |
| A transport apparatus includes a frame, a lift mechanism supporting the frame, and a litter deck for supporting a person. The litter deck is adapted to be reconfigured between a chair configuration and a cot configuration. The litter deck is also adapted to be removably mounted to the frame, with the litter deck being adapted to be supported by the frame while the litter deck is in its chair configuration and also while being reconfigured between its chair configuration and its cot configuration. | ||||||
| 9 | RECONFIGURABLE TRANSPORT APPARATUS | US15334933 | 2016-10-26 | US20170079859A1 | 2017-03-23 | Clifford Edwin Lambarth; Jason James Wroblewski; Brandon David Naber; Alfred James Dacey, IV; Ross Timothy Lucas |
| A transport apparatus includes a frame, a lift mechanism supporting the frame, and a litter deck for supporting a person. The litter deck is adapted to be reconfigured between a chair configuration and a cot configuration. The litter deck is also adapted to be removably mounted to the frame, with the litter deck being adapted to be supported by the frame while the litter deck is in its chair configuration and also while being reconfigured between its chair configuration and its cot configuration. | ||||||
| 10 | POWERED AMBULANCE COT WITH AN AUTOMATED COT CONTROL SYSTEM | US15245661 | 2016-08-24 | US20160374884A1 | 2016-12-29 | Colleen Q. Blickensderfer; Brian M. Magill; Timothy R. Wells; Preeti Sar; Derick C. Robinson; Nicholas V. Valentino; Michael D. Clark |
| A powered ambulance cot and methods of raising and lowering the cot as well as loading and unloading the cot are disclosed. The cot includes a support frame and legs, each leg having a wheel. An actuator of an actuation system interconnects the frame and legs, and is configured to effect changes in elevation of the frame relative to the wheel of each of the legs. A control system controls activation of the actuation system, and detects both the actuator at a first location relative to the frame, where the first location is remote from a second location and which situates an end of the actuator that is remote from each wheel closer to the frame, and a presence of a signal requesting a change in elevation of said support frame to thereby cause the legs to move relative to the support frame. | ||||||
| 11 | Reconfigurable transport apparatus | US14206151 | 2014-03-12 | US09510981B2 | 2016-12-06 | Clifford Edwin Lambarth; Jason James Wroblewski; Brandon David Naber; Alfred James Dacy, IV; Thomas Alan Puvogel; Ross Timothy Lucas |
| A transport apparatus includes a frame, a lift mechanism supporting the frame, and a litter deck for supporting a person. The litter deck is adapted to be reconfigured between a chair configuration and a cot configuration. The litter deck is also adapted to be removably mounted to the frame, with the litter deck being adapted to be supported by the frame while the litter deck is in its chair configuration and also while being reconfigured between its chair configuration and its cot configuration. | ||||||
| 12 | Powered ambulance cot with an automated cot control system | US14538164 | 2014-11-11 | US09456938B2 | 2016-10-04 | Colleen Q. Blickensderfer; Brian M. Magill; Tim R. Wells; Preeti Sar; Derick C. Robinson; Nicholas V. Valentino; Michael D. Clark |
| A powered ambulance cot and methods of raising and lowering the cot as well as loading and unloading the cot are disclosed. The cot includes a support frame and legs, each leg having a wheel. An actuator of an actuation system interconnects the frame and legs, and is configured to effect changes in elevation of the frame relative to the wheel of each of the legs. A control system controls activation of the actuation system, and detects both the actuator at a first location relative to the frame, where the first location is remote from a second location and which situates an end of the actuator that is remote from each wheel closer to the frame, and a presence of a signal requesting a change in elevation of said support frame to thereby cause the legs to move relative to the support frame. | ||||||
| 13 | RECONFIGURABLE PATIENT SUPPORT | US14206257 | 2014-03-12 | US20140259420A1 | 2014-09-18 | Clifford Edwin Lambarth; Jason James Wroblewski; Brandon David Naber; Alfred James Dacy, IV; Thomas Alan Puvogel; Ross Timothy Lucas |
| A patient support includes a base, a deck for supporting a patient, and a lift mechanism supporting the deck on the base and configured to adjust the orientation of the deck while allowing the head and foot sections of the deck to be articulated with respect to the seat section of the deck. | ||||||
| 14 | MANUAL RELEASE SYSTEMS FOR AMBULANCE COTS | US16163931 | 2018-10-18 | US20190046372A1 | 2019-02-14 | Nicholas V. Valentino; Michael Jeffries; Brian Magill |
| Embodiments of a cot comprise a support frame, legs coupled to the support frame, at least one hydraulic actuator configured to raise or lower the legs, and a manual release system coupled to the at least one actuator and configured to lower the cot manually at a controlled descent rate. The manual release system comprises a manual actuation component, a manual release valve operable to be opened upon actuation by the manual actuation component, a fluid reservoir operable to receive hydraulic fluid from the at least one actuator upon opening of the manual valve; and a flow regulator configured to control the flow rate of the hydraulic fluid into the fluid reservoir, wherein the release of hydraulic fluid into the fluid reservoir at the controlled flow rate is configured to manually lower the cot at the controlled descent rate. | ||||||
| 15 | Manual release systems for ambulance cots | US14649240 | 2013-12-04 | US10130528B2 | 2018-11-20 | Nicholas V. Valentino; Michael Jeffries; Brian Magill |
| Embodiments of a cot comprise a support frame, legs coupled to the support frame, at least one hydraulic actuator configured to raise or lower the legs, and a manual release system coupled to the at least one actuator and configured to lower the cot manually at a controlled descent rate. The manual release system comprises a manual actuation component, a manual release valve operable to be opened upon actuation by the manual actuation component, a fluid reservoir operable to receive hydraulic fluid from the at least one actuator upon opening of the manual valve; and a flow regulator configured to control the flow rate of the hydraulic fluid into the fluid reservoir, wherein the release of hydraulic fluid into the fluid reservoir at the controlled flow rate is configured to manually lower the cot at the controlled descent rate. | ||||||
| 16 | POWERED AMBULANCE COT WITH AN AUTOMATED COT CONTROL SYSTEM | US15698804 | 2017-09-08 | US20170367915A1 | 2017-12-28 | Colleen Q. Blickensderfer; Brian M. Magill; Timothy R. Wells; Preeti Sar; Derick C. Robinson; Nicholas V. Valentino; Michael D. Clark |
| A powered ambulance cot and methods of raising and lowering the cot as well as loading and unloading the cot are disclosed. The cot includes a support frame and legs, each leg having a wheel. An actuator of an actuation system interconnects the frame and legs, and is configured to effect changes in elevation of the frame relative to the wheel of each of the legs. A control system controls activation of the actuation system, and detects both the actuator at a first location relative to the frame, where the first location is remote from a second location and which situates an end of the actuator that is remote from each wheel closer to the frame, and a presence of a signal requesting a change in elevation of said support frame to thereby cause the legs to move relative to the support frame. | ||||||
| 17 | Reconfigurable patient support | US14206257 | 2014-03-12 | US09486373B2 | 2016-11-08 | Clifford Edwin Lambarth; Jason James Wroblewski; Brandon David Naber; Alfred James Dacy, IV; Thomas Alan Puvogel; Ross Timothy Lucas |
| A patient support includes a base, a deck for supporting a patient, and a lift mechanism supporting the deck on the base and configured to adjust the orientation of the deck while allowing the head and foot sections of the deck to be articulated with respect to the seat section of the deck. | ||||||
| 18 | POWERED AMBULANCE COT WITH AN AUTOMATED COT CONTROL SYSTEM | US14538164 | 2014-11-11 | US20160128880A1 | 2016-05-12 | Colleen Q. Blickensderfer; Brian M. Magill; Tim R. Wells; Preeti Sar; Derick C. Robinson; Nicholas V. Valentino; Michael D. Clark |
| A powered ambulance cot and methods of raising and lowering the cot as well as loading and unloading the cot are disclosed. The cot includes a support frame and legs, each leg having a wheel. An actuator of an actuation system interconnects the frame and legs, and is configured to effect changes in elevation of the frame relative to the wheel of each of the legs. A control system controls activation of the actuation system, and detects both the actuator at a first location relative to the frame, where the first location is remote from a second location and which situates an end of the actuator that is remote from each wheel closer to the frame, and a presence of a signal requesting a change in elevation of said support frame to thereby cause the legs to move relative to the support frame. | ||||||
| 19 | MANUAL RELEASE SYSTEMS FOR AMBULANCE COTS | US14649240 | 2013-12-04 | US20150313780A1 | 2015-11-05 | Nicholas V. Valentino; Michael Jeffries; Brian Magill |
| Embodiments of a cot comprise a support frame, legs coupled to the support frame, at least one hydraulic actuator configured to raise or lower the legs, and a manual release system coupled to the at least one actuator and configured to lower the cot manually at a controlled descent rate. The manual release system comprises a manual actuation component, a manual release valve operable to be opened upon actuation by the manual actuation component, a fluid reservoir operable to receive hydraulic fluid from the at least one actuator upon opening of the manual valve; and a flow regulator configured to control the flow rate of the hydraulic fluid into the fluid reservoir, wherein the release of hydraulic fluid into the fluid reservoir at the controlled flow rate is configured to manually lower the cot at the controlled descent rate. | ||||||
| 20 | POWERED AMBULANCE COT WITH AN AUTOMATED COT CONTROL SYSTEM | EP15708653.9 | 2015-02-25 | EP3217936A1 | 2017-09-20 | BLICKENSDERFER, Colleen Q.; MAGILL, Brian M.; WELLS, Timothy R.; SAR, Preeti; ROBINSON, Derick C.; VALENTINO, Nicholas V.; CLARK, Michael D. |
| A powered ambulance cot and methods of raising and lowering the cot as well as loading and unloading the cot are disclosed. The cot includes a support frame and legs, each leg having a wheel. An actuator of an actuation system interconnects the frame and legs, and is configured to effect changes in elevation of the frame relative to the wheel of each of the legs. A control system controls activation of the actuation system, and detects both the actuator at a first location relative to the frame, where the first location is remote from a second location and which situates an end of the actuator that is remote from each wheel closer to the frame, and a presence of a signal requesting a change in elevation of said support frame to thereby cause the legs to move relative to the support frame. | ||||||
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