CN117058837A - Postoperative alarm device for intensive care - Google Patents

Abstract

The invention belongs to the technical field of intensive care, in particular to a postoperative alarm device for intensive care, wherein when the postoperative alarm device for intensive care is used, a structure of a calling button fixed at a bed head and a communicator is adopted, so that a patient is inconvenient to take a body to operate the alarm device to call a nurse when encountering emergency, the time of rescue is wasted, the illness state is delayed, and the life safety of the patient is influenced; the hospital bed comprises a hospital bed, guard plates are symmetrically arranged on the hospital bed, mounting boxes are arranged on the guard plates, and the mounting boxes are connected with mounting blocks through lock making square inserting units; a vertical square block is arranged on one side of the installation square block and is connected with the simulated moving unloading mechanism; through imitative action allies oneself with unloads the mechanism for the use convenient operation of calling set is swift, does not need the patient to remove self position just can use, has reduced the limitation of device when using, has promoted medical and nursing rescue's efficiency simultaneously.

Description

Postoperative alarm device for intensive care

Technical Field

The invention belongs to the technical field of intensive care, and particularly relates to a postoperative alarm device for intensive care.

Background

Intensive care refers to intensive care treatment and care of various critical patients who are treated by modern monitoring and rescuing equipment by using various advanced medical technologies. To maximize the assurance of patient survival and subsequent quality of life.

In general, patients with serious diseases are in an intensive care unit, part of patients can only lie on a bed due to the factors of the diseases, and when the conventional postoperative alarm device for intensive care is used, the patient is inconvenient to get up to operate the alarm device to call a nurse when encountering emergency due to the fact that a calling button fixed at the head of the bed is matched with a communicator, and the time of rescue is wasted, so that the illness state is delayed, and the life safety of the patient is affected.

Disclosure of Invention

Aiming at the situation, the invention provides a postoperative alarm device for intensive care to overcome the defects of the prior art, and effectively solves the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the postoperative alarm device for intensive care comprises a sickbed, wherein guard plates are symmetrically arranged on the sickbed, mounting boxes are arranged on the guard plates, and the mounting boxes are connected with mounting blocks through locking square inserting units; a vertical square block is arranged on one side of the installation square block and is connected with the simulated moving unloading mechanism; the other side is provided with a linkage plate, and the linkage plate is connected with the mounting square block through a bolt; the linkage plate is provided with a linkage motor which is connected with the direction-closing clamping component;

the combined direction clamping assembly comprises a combined direction bevel gear arranged at the output end of a linkage motor, the combined direction bevel gear is in meshed connection with the linkage bevel gear, a linkage rotating shaft is arranged on the linkage bevel gear, the linkage rotating shaft penetrates through a linkage base arranged on a mounting square and is connected with a linkage gear, the linkage gear is in meshed connection with two linkage racks, a linkage transverse plate is symmetrically arranged on the linkage racks, the two linkage transverse plates are jointly connected with a linkage rod, the two linkage rods are in sliding connection with the combined direction base arranged on the linkage base, a linkage spring is sleeved on the linkage rod, one end of the linkage spring is fixedly connected with the combined direction base, the other end of the linkage spring is fixedly connected with the linkage transverse plate, the linkage transverse plate and the linkage racks are jointly connected with a delay motion different rod, and a delay motion clamping block is arranged on the delay motion different rod and is connected with a transverse locking control unit.

Preferably, the transverse locking control unit comprises a moving rotating rod arranged on a moving clamping block, a moving wheel is arranged on the moving rotating rod, the moving wheel is connected with a transverse oblique block in a matched manner, a positioning sliding block is arranged on the transverse oblique block, the positioning sliding block is connected with a positioning sliding groove arranged on a transverse plate in a sliding manner, and the transverse plate is fixedly connected with a direction-closing base; the positioning sliding chute is internally and fixedly provided with a positioning rod, a positioning spring is sleeved on the positioning rod, one end of the positioning spring is fixedly connected with the positioning sliding chute, and the other end of the positioning spring is fixedly connected with the positioning sliding block.

Preferably, the locking square plug unit comprises a braking square plate arranged in the mounting box, a plurality of braking blocks are arranged on the braking square plate, and the braking blocks are arranged in sliding connection with a braking groove arranged in the mounting box; a brake rod is fixedly arranged in the brake groove and is arranged in sliding connection with the brake block; the braking square plate is fixedly connected with the inner bottom surface of the installation box through a plurality of braking springs.

Preferably, the positioning slide block is fixedly provided with a locking different rod, and the locking different rod passes through the auxiliary inserting plate to be connected with a locking groove arranged on the guard plate in a matched manner.

Preferably, the simulated moving connection and disconnection mechanism comprises a vertical rod arranged on a vertical square, a simulated moving rod is arranged on the vertical rod, a semi-moving sphere is arranged on the simulated moving rod, and the semi-moving sphere is connected with a semi-moving circular groove arranged on the simulated moving square in a matched manner; the semi-movable sphere is connected with the two motion-simulating inclined rods in a matched mode.

Preferably, the motion-simulating inclined rod is arranged in sliding connection with a motion-simulating square groove arranged in the semi-motion circular groove, an auxiliary circular groove is arranged in the motion-simulating square groove, the auxiliary circular groove is arranged in sliding connection with the auxiliary circular rod, one end of the auxiliary circular rod is fixedly connected with the motion-simulating inclined rod, and the other end of the auxiliary circular rod is fixedly connected with the auxiliary circular plate; the auxiliary round rod is sleeved with an extrusion spring, one end of the extrusion spring is fixedly connected with the imitation inclined rod, and the other end of the extrusion spring is fixedly connected with the imitation square groove.

Preferably, the installation square is provided with a locking groove which is connected with the locking plates in a matched manner, the two locking plates are connected with the lifting transverse plates, the lifting transverse plates are symmetrically provided with the orientation blocks, the orientation blocks are connected with the orientation rods arranged on the installation box in a sliding manner, the orientation rods are sleeved with orientation springs, one ends of the orientation springs are fixedly connected with the orientation blocks, and the other ends of the orientation springs are fixedly connected with the orientation circular plates; the lifting transverse plate is fixedly connected with the auxiliary inserting plate, and the auxiliary inserting plate penetrates through the mounting box to be connected with the braking square plate in a matched mode.

Preferably, the motion-simulating rod is provided with an auxiliary round block in a sliding manner, the auxiliary round block is symmetrically provided with an extension round rod, the extension round rod is provided with a limiting block, the limiting block is arranged in a sliding connection with the limiting rod, and two ends of the limiting rod are fixedly connected with a limiting base arranged on the vertical square block; the limiting rod is sleeved with a limiting spring, one end of the limiting spring is fixedly connected with the limiting base, and the other end of the limiting spring is fixedly connected with the limiting block; the auxiliary round block is connected with the motion-simulating inclined rod in a matched mode.

Preferably, the moving-delaying different rod is fixedly provided with a moving-pasting square plate, the moving-pasting square plate is symmetrically provided with moving-pasting rods, the two moving-pasting rods are jointly connected with a moving moment half block, and the two moving moment half blocks are jointly connected with a moving-simulating square column; the movable pasting rod is sleeved with a movable pasting spring, one end of the movable pasting spring is fixedly connected with the movable pasting square plate, the other end of the movable pasting spring is fixedly connected with the movable pasting square plate, the movable pasting square plate and the movable pasting square plate are provided with touch patches, and the two touch patches are connected with the linkage motor in a matched mode through a control box arranged on a sickbed.

Preferably, the imitation square column is provided with a caller, the caller is symmetrically provided with sensing patches, and the sensing patches are connected with the control box in a matched manner; the auxiliary circular plate is symmetrically provided with a guide position different rod, the guide position different rod is connected with a guide position box arranged on the imitation square column in a matched mode, one guide position box is internally provided with a movable contact piece, the movable contact piece is connected with a static contact piece arranged on the guide position different rod in a matched mode, and the movable contact piece and the static contact piece are connected with a linkage motor in a matched mode.

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

(1) When the caller needs to be reset, the semi-moving circular groove on the imitation moving square column is aligned to the semi-moving sphere and moves, so that the semi-moving circular groove contacts with the two imitation moving inclined rods, the auxiliary circular rods move in the imitation moving square groove and the auxiliary circular groove in a limiting manner, the two imitation moving inclined rods move relatively, the extrusion springs are in a buffering state, meanwhile, the static contact on the guiding different rods is not contacted with the moving contact in the guiding box, when the semi-moving sphere is not contacted with the imitation moving inclined rods any more, the two imitation moving inclined rods move in opposite directions through the reset of the extrusion springs, so that the installation operation of the caller is completed, the moving contact and the static contact are contacted again, and a signal separated from one contact is recorded as a reset signal through the control box; when the caller needs to be used, the caller is continuously moved downwards, so that the two imitation inclined rods contact the upper half surface on the auxiliary round block, the two imitation inclined rods relatively move, the extrusion spring is in a buffer state, when the imitation inclined rods contact the lower half surface of the auxiliary round block, the extrusion spring is slightly reset, the auxiliary round block is clamped by the reset opposite movement of the two imitation inclined rods, the friction force of the imitation inclined rods in contact with the auxiliary round block is increased, at the moment, the imitation square column is moved by reset, the auxiliary round block is limited in the imitation inclined rods, the auxiliary round block is limited in the limiting rod by the limiting block, the limiting spring is in a buffer state, so that the auxiliary round block is moved to the groove in the semi-movable sphere, the semi-movable sphere is attached to the auxiliary round block, the imitation square column is continuously moved outwards, the two imitation inclined rods are thoroughly reset, the caller is detached, the caller can be normally used, and a signal recorded when the contact signal is received; through the description, the caller is convenient and quick to use and operate, a patient on a sickbed can operate the caller by only one hand, meanwhile, the caller is arranged on the guard plate, and can be used in a range which can be contacted with the nearest hand of the patient according to the condition of the patient without the need of the patient to move the position of the patient, so that the limitation of the device in use is reduced, and meanwhile, the medical rescue efficiency is improved;

(2) When a reset signal is recorded to enable the two moment moving half blocks to move oppositely, the movement of the extension different rod enables the extension clamping block to move downwards, then the extension wheel is enabled to contact with the inclined surface of the transverse moving inclined block, the extension wheel is enabled to move in a limiting manner in the positioning sliding groove through the positioning sliding block, the positioning spring of the positioning rod is enabled to be in a buffer state, meanwhile, the locking different rod is enabled to move towards the sickbed through the positioning sliding block, and accordingly the locking different rod penetrates through the auxiliary inserting plate to enter the locking groove, limiting effect is achieved on the locking square inserting unit, the phenomenon that the caller is dislocated due to shaking of the sickbed in daily use is avoided, and the service life of the caller is prolonged; meanwhile, the non-artificial factor movement of the lifting transverse plate is avoided;

(3) When an operator needs to use the caller to report the self condition to medical staff, the operator needs to extend hands to the bedside, and the simulated linkage mechanism on the caller is arranged beside a sickbed, and the caller can be regulated according to the self condition of a patient, so that the patient can contact the caller after extending the hands; the placement position of the caller can hold the caller according to the principle of human bionics without particularly difficult operation; when a patient holds the caller with one hand, the caller is contacted with a sensing patch arranged on the caller, the control box is enabled to reset and drive a linkage motor through a signal transmission unit arranged in the control box after receiving signals from the sensing patch, a joint bevel gear on the output end of the control box is enabled to be meshed with the linkage bevel gear to rotate, the linkage gear is enabled to rotate, then the linkage gear is enabled to be meshed with two linkage racks to move, the linkage racks are enabled to reset and move in a joint base through a linkage rod, a linkage spring originally in a buffer state is enabled to reset, then two moment movable half blocks are enabled to move relatively through two delay different rods, the moment movable half blocks are enabled to reset through the two delay different rods, therefore, the limit setting of the caller is eliminated, the caller can be normally moved, the caller and the device are enabled to be dislocated through a simulated linkage unloading mechanism, the caller can be automatically enabled to work after the caller and the device are separated, rescue time is prevented from being influenced by operation, and simultaneously when hands of the patient are contacted with the sensing patch, the patient are enabled to quickly move through the signal transmission unit, and the medical personnel are enabled to be prevented from being in front of a prompt condition that the patient is convenient to judge that the vital signs and the patient is in front of the medical care device;

(4) When the caller and the whole thereof are required to be installed, the installation square is aligned to the installation box and moved, the installation square is contacted with the brake square, the brake square is reset and moved in the brake groove through the brake block, a plurality of brake springs are in a buffer state, after the brake square is moved to the maximum position, the directional spring which is originally in the buffer state is reset and moved by loosening the lifting transverse plate, and the lifting transverse plate is driven to reset and move, the lifter is enabled to move in the directional rod in a limiting manner through the directional block, so that two lock plates on the lifting transverse plate enter the lock groove, the installation square is limited, the caller and the whole thereof are installed, and at the moment, the auxiliary plug plate on the lifting transverse plate enters the installation box, so that the brake square is limited, and the continuous movement of the installation square is avoided; when the device is required to be disassembled, the lifting transverse plate is pulled outwards only to move in the orientation rod in a limiting way through the orientation block, so that the lock plate releases the limiting setting of the installation square, and a plurality of brake springs are reset, so that the disassembly operation is finished, the assembly and the disassembly are convenient and quick, tools are not required, the disassembly or assembly efficiency is improved, the position of the caller is convenient to adjust, the position of the caller can be timely adjusted according to different conditions of patients, and the limitation of the device in use is reduced;

(5) After the caller is used, the caller is initially positioned through the simulated moving connecting and disconnecting mechanism, when the static contact and the moving contact in the simulated moving connecting and disconnecting mechanism have a one-to-one contact action, the control box receives the signal, and whether the one-to-one contact action at this time is reset or use of the caller is judged; when the calling device is used for the first time, and the fixed contact piece and the movable contact piece are in a contact-separating action, the control box records the action as use, when the control box receives the signals again, the control box records the reset signals, when the control box receives the reset signals, the linkage motor is electrified, the output end of the control box drives the linkage gear to rotate, then the two different extension rods drive the movable contact plates to move oppositely, the two movable moment half pieces move oppositely and contact the movable contact plates, the movable contact springs are in a buffer state, when the movable moment half pieces are in contact with the movable contact plates, the linkage motor is not operated any more through the control box, the movable contact plates on the calling device are clamped relatively, and the calling device is prevented from falling down due to shaking when the control box is not used; through the description, the problem that the patient is inconvenient to get up to use the caller on the bedside when encountering an emergency is avoided, the time of rescue is influenced to cause delay of illness state is avoided, the life safety of the patient is ensured, and the rescue efficiency is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a brake shoe structure of the present invention;

FIG. 3 is a schematic diagram of a caller according to the present invention;

FIG. 4 is a schematic view of a vertical block structure of the present invention;

FIG. 5 is a schematic diagram of a moment-motion half block structure according to the present invention;

FIG. 6 is a schematic view of the auxiliary round block structure of the present invention;

FIG. 7 is a schematic view of the structure of the lifting cross plate of the present invention;

FIG. 8 is a schematic diagram of a linkage gear structure of the present invention;

FIG. 9 is a schematic view of a locking cam lever according to the present invention;

in the figure: 1. a hospital bed; 2. a guard board; 3. a mounting box; 4. installing a square; 5. a vertical square; 6. a linkage plate; 7. a linkage motor; 8. a converging bevel gear; 9. a linkage bevel gear; 10. a linkage rotating shaft; 11. a linkage base; 12. a linkage gear; 13. a linkage rack; 14. a linkage cross plate; 15. a linkage rod; 16. a direction-closing base; 17. a linkage spring; 18. extending the different rod; 19. extending the clamping block; 20. extending the rotating rod; 21. a delay wheel; 22. traversing the oblique block; 23. positioning a sliding block; 24. a traverse plate; 25. positioning a chute; 26. a positioning rod; 27. a positioning spring; 28. braking the square plate; 29. a brake block; 30. a brake groove; 31. a brake lever; 32. a brake spring; 33. locking the different rod; 34. auxiliary inserting plates; 35. a locking groove; 36. a vertical rod; 37. a motion simulating rod; 38. a semi-movable sphere; 39. a simulated square column; 40. semi-dynamic circular groove; 41. a motion-simulating inclined rod; 42. a simulated square groove; 43. an auxiliary circular groove; 44. an auxiliary round rod; 45. an auxiliary circular plate; 46. extruding a spring; 47. a locking groove; 48. a lock plate; 49. a lifting transverse plate; 50. an orientation block; 51. a directional rod; 52. a directional spring; 53. a directional circular plate; 54. auxiliary round blocks; 55. extending the round rod; 56. a limiting block; 57. a limit rod; 58. a limit base; 59. a limit spring; 60. attaching a square plate; 61. pasting a movable rod; 62. moment motion half block; 63. sticking a movable spring; 64. touching the patch; 65. a control box; 66. a caller; 67. a sensing patch; 68. a guiding and positioning different rod; 69. a guide box; 70. a movable contact; 71. and (3) a static contact.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment is given by fig. 1 to 9, the invention comprises a sickbed 1, wherein guard plates 2 are symmetrically arranged on the sickbed 1, mounting boxes 3 are arranged on the guard plates 2, and the mounting boxes 3 and the mounting blocks 4 are connected through locking square inserting units; a vertical square 5 is arranged on one side of the mounting square 4, and the vertical square 5 is connected with the simulated linkage mechanism; the other side is provided with a linkage plate 6, and the linkage plate 6 is connected with the mounting square 4 through bolts; the linkage plate 6 is provided with a linkage motor 7, and the linkage motor 7 is connected with the direction-closing clamping component; the direction-closing clamping assembly comprises a direction-closing bevel gear 8 arranged at the output end of a linkage motor 7, the direction-closing bevel gear 8 is in meshed connection with a linkage bevel gear 9, a linkage rotating shaft 10 is arranged on the linkage bevel gear 9, the linkage rotating shaft 10 passes through a linkage base 11 arranged on an installation block 4 and is connected with a linkage gear 12, the linkage gear 12 is in meshed connection with two linkage racks 13, a linkage transverse plate 14 is symmetrically arranged on the linkage racks 13, the two linkage transverse plates 14 are jointly connected with a linkage rod 15, the two linkage rods 15 are in sliding connection with a direction-closing base 16 arranged on the linkage base 11, a linkage spring 17 is sleeved on the linkage rod 15, one end of the linkage spring 17 is fixedly connected with the direction-closing base 16, the other end of the linkage spring is fixedly connected with a linkage transverse plate 14, the linkage transverse plate 14 and the linkage racks 13 are jointly connected with a direction-closing different rod 18, a direction-closing clamping block 19 is arranged on the direction-closing different rod 18, and the direction-closing clamping block 19 is connected with a direction-locking control unit; the movable differential rod 18 is fixedly provided with a movable square plate 60, movable rods 61 are symmetrically arranged on the movable square plate 60, the two movable rods 61 are jointly connected with a movable square half block 62, and the two movable square half blocks 62 are jointly connected with a movable square column 39; the movable pasting rod 61 is sleeved with a movable pasting spring 63, one end of the movable pasting spring 63 is fixedly connected with the movable pasting square plate 60, the other end of the movable pasting spring 63 is fixedly connected with the movable pasting half block 62, the movable pasting half block 62 and the movable pasting square plate 60 are provided with touch patches 64, and the two touch patches 64 are connected with the linkage motor 7 in a matched manner through a control box 65 arranged on the sickbed 1; the caller 66 is arranged on the imitation square column 39, the sensing patches 67 are symmetrically arranged on the caller 66, and the sensing patches 67 are connected with the control box 65 in a matched manner;

when an operator needs to use the caller 66 to report the self condition to medical staff, the operator needs to extend hands to the bedside, and the simulated moving coupling and decoupling mechanism on the caller 66 is arranged beside the sickbed 1, and the caller 66 can be regulated according to the self condition of the patient, so that the patient can contact the caller 66 after stretching the hands; the placement position of the caller 66 is based on the principle of ergonomics, and the caller 66 can be held without particularly difficult operations; when a patient holds the pager 66 with one hand, the sensing patch 67 arranged on the pager 66 is contacted, the control box 65 is driven to reset through the signal transmission unit arranged in the control box 65 after receiving the signal from the sensing patch 67, the closing bevel gear 8 on the output end of the control box is meshed with the linkage bevel gear 9 to rotate, the linkage gear 12 is rotated, then the two linkage racks 13 are meshed to move, the linkage racks 13 are reset and move in the closing base 16 through the linkage rod 15, the linkage spring 17 which is originally in a buffer state is reset, then the two moment moving half blocks 62 are relatively moved through the two extension different rods 18, the contact spring 63 is reset, the two moment moving half blocks 62 are not contacted with the imitation square column 39 any more, the limit setting of the caller 66 is released, so that the caller 66 can normally move, the caller 66 and the device can be dislocated through the simulated linkage mechanism, the caller 66 can be automatically electrified to start working after the caller 66 and the device are separated, the rescue time is prevented from being influenced by the fact that an operator cannot operate, meanwhile, when the hand of a patient contacts the sensing patch 67, the current information, vital signs and the like of the patient are automatically transmitted to a screen in front of medical staff through a signal transmission unit, the medical staff can conveniently and timely know the situation, appropriate means can be rapidly judged when the medical staff faces different situations, the rescue efficiency is improved, and the limitation of the device in use is reduced; when the caller 66 is initially positioned by the simulated moving-coupling mechanism after the use is completed, and when the static contact 71 and the moving contact 70 in the simulated moving-coupling mechanism have a one-touch-off action, the control box 65 receives the signal and judges whether the one-touch-off action is resetting or using of the caller 66; when the caller 66 is in an initial state and is used for the first time, and the static contact piece 71 and the movable contact piece 70 are in a contact-separating action, the control box 65 records the action as being used, when the control box 65 receives the signals again, the control box records the signals as being reset, when the control box 65 receives the signals as being reset, the linkage motor 7 is electrified, the output end of the linkage motor drives the linkage gear 12 to rotate, then the two different extension rods 18 drive the movable square plate 60 to move towards each other, the two moment movable half blocks 62 move towards each other and contact the movable square post 39, the movable spring 63 is in a buffer state, and when the moment movable half blocks 62 and the movable contact piece 64 on the movable square plate 60 are in contact, the linkage motor 7 is not operated any more, so that the movable square post 39 on the caller 66 is clamped relatively, and the caller 66 is prevented from falling due to shaking when the caller is not in use; through the above description, the problem that the patient is inconvenient to get up to use the caller 66 on the bed head when encountering emergency is avoided, the time of rescue is influenced, the illness state is delayed, the life safety of the patient is ensured, and the rescue efficiency is improved.

The transverse locking control unit of the embodiment comprises a delay rotating rod 20 arranged on a delay clamping block 19, wherein a delay wheel 21 is arranged on the delay rotating rod 20, the delay wheel 21 is connected with a transverse oblique block 22 in a matched manner, a positioning sliding block 23 is arranged on the transverse oblique block 22, the positioning sliding block 23 is connected with a positioning sliding groove 25 arranged on a transverse plate 24 in a sliding manner, and the transverse plate 24 is fixedly connected with a closing base 16; a positioning rod 26 is fixedly arranged in the positioning chute 25, a positioning spring 27 is sleeved on the positioning rod 26, one end of the positioning spring 27 is fixedly connected with the positioning chute 25, and the other end of the positioning spring 27 is fixedly connected with the positioning slide block 23; the positioning slide block 23 is fixedly provided with a locking different rod 33, and the locking different rod 33 passes through the auxiliary inserting plate 34 to be connected with a locking groove 35 arranged on the guard plate 2 in a matched manner;

when the reset signal is recorded to enable the two moment moving half blocks 62 to move oppositely, the movement of the delay different rod 18 simultaneously enables the delay clamping block 19 to move downwards, then the delay wheel 21 is enabled to contact with the inclined surface of the transverse moving inclined block 22, the delay wheel is enabled to move in a limiting manner in the positioning sliding groove 25 through the positioning sliding block 23, the positioning spring 27 of the positioning rod 26 is enabled to be in a buffering state, meanwhile, the lock different rod 33 is enabled to move towards the sickbed 1 through the positioning sliding block 23, so that the lock different rod 33 passes through the auxiliary inserting plate 34 to enter the lock moving groove 35, the limiting effect is achieved on the lock square inserting unit, the phenomenon that the caller 66 is dislocated due to shaking of the sickbed in daily use is avoided, and the service life of the caller 66 is prolonged; while avoiding non-human movement of the lifting cross plate 49.

The locking square plug unit of the embodiment comprises a braking square plate 28 arranged in the mounting box 3, wherein a plurality of braking blocks 29 are arranged on the braking square plate 28, and the braking blocks 29 are arranged in a sliding connection with a braking groove 30 arranged in the mounting box 3; a brake rod 31 is fixedly arranged in the brake groove 30, and the brake rod 31 is arranged in sliding connection with the brake block 29; the braking square plate 28 is fixedly connected with the inner bottom surface of the installation box 3 through a plurality of braking springs 32; the installation square 4 is provided with a locking groove 47, the locking groove 47 is connected with locking plates 48 in a matched manner, two locking plates 48 are connected with a lifting transverse plate 49, the lifting transverse plate 49 is symmetrically provided with an orientation block 50, the orientation block 50 is in sliding connection with an orientation rod 51 arranged on the installation box 3, the orientation rod 51 is sleeved with an orientation spring 52, one end of the orientation spring 52 is fixedly connected with the orientation block 50, and the other end of the orientation spring 52 is fixedly connected with an orientation circular plate 53; the lifting transverse plate 49 is fixedly connected with the auxiliary inserting plate 34, and the auxiliary inserting plate 34 penetrates through the mounting box 3 to be connected with the braking square plate 28 in a matched mode;

when the caller 66 and the whole thereof are required to be installed, the installation square 4 is aligned with the installation box 3 and moves, the installation square 4 contacts the brake square 28 and is enabled to be reset and moved in the brake groove 30 through the brake block 29, a plurality of brake springs 32 are in a buffer state, after the caller 66 and the whole thereof are moved to the maximum position, the lifting transverse plate 49 is released, the directional spring 52 originally in the buffer state is reset and moved, the lifting transverse plate 49 is driven to be reset and moved, the directional block 50 is enabled to be limited and moved in the directional rod 51, so that the two lock plates 48 on the lifting transverse plate 49 enter the locking groove 47, the installation square 4 is limited, the caller 66 and the whole thereof are installed, the auxiliary insertion plate 34 on the lifting transverse plate 49 enters the installation box 3 at the moment, the brake square 28 is limited, and the continuous movement of the installation square 4 is avoided; when the device is required to be disassembled, the lifting transverse plate 49 is pulled outwards only to move in the directional rod 51 in a limiting manner through the directional block 50, so that the lock plate 48 is released from limiting setting on the installation square 4, the plurality of brake springs 32 are reset, the disassembly operation is finished, the assembly and the disassembly are convenient and quick, a tool is not required, the disassembly or assembly efficiency is improved, the position of the caller 66 is convenient to adjust, the position of the caller 66 can be timely adjusted according to different conditions of patients, and the limitation of the device in use is reduced.

The simulated moving coupling and unloading mechanism of the embodiment comprises a vertical rod 36 arranged on a vertical square 5, wherein a simulated moving rod 37 is arranged on the vertical rod 36, a semi-moving sphere 38 is arranged on the simulated moving rod 37, and the semi-moving sphere 38 is connected with a semi-moving circular groove 40 arranged on a simulated moving square column 39 in a matched manner; the semi-movable sphere 38 is connected with two motion-imitating inclined rods 41 in a matched manner; the motion-simulating inclined rod 41 is slidably connected with a motion-simulating square groove 42 arranged in the semi-motion circular groove 40, an auxiliary circular groove 43 is arranged in the motion-simulating square groove 42, the auxiliary circular groove 43 is slidably connected with an auxiliary circular rod 44, one end of the auxiliary circular rod 44 is fixedly connected with the motion-simulating inclined rod 41, and the other end of the auxiliary circular rod 44 is fixedly connected with an auxiliary circular plate 45; the auxiliary round rod 44 is sleeved with an extrusion spring 46, one end of the extrusion spring 46 is fixedly connected with the imitation inclined rod 41, and the other end of the extrusion spring is fixedly connected with the imitation square groove 42; an auxiliary round block 54 is slidably mounted on the motion simulation rod 37, extension round rods 55 are symmetrically mounted on the auxiliary round block 54, limiting blocks 56 are arranged on the extension round rods 55, the limiting blocks 56 are slidably connected with limiting rods 57, and two ends of the limiting rods 57 are fixedly connected with limiting bases 58 arranged on the vertical square 5; a limit spring 59 is sleeved on the limit rod 57, one end of the limit spring 59 is fixedly connected with the limit base 58, and the other end of the limit spring 59 is fixedly connected with the limit block 56; the auxiliary round block 54 is connected with the motion-simulating inclined rod 41 in a matched manner; the auxiliary circular plate 45 is symmetrically provided with guide different rods 68, the guide different rods 68 are matched and connected with guide boxes 69 arranged on the imitation square column 39, one guide box 69 is internally provided with movable contact pieces 70, the movable contact pieces 70 are matched and connected with static contact pieces 71 arranged on the guide different rods 68, and the contact of the two is matched and connected with the linkage motor 7;

when the caller 66 needs to be reset, the semi-moving circular groove 40 on the moving-simulating square column 39 is aligned with the semi-moving sphere 38 and moves to contact the two moving-simulating inclined rods 41, the two moving-simulating inclined rods 41 move in the moving-simulating square groove 42 and the auxiliary circular groove 43 in a limiting mode through the auxiliary circular rod 44, the two moving-simulating inclined rods 41 move relatively, the pressing springs 46 are in a buffer state, meanwhile, the static contact pieces 71 on the guiding different rods 68 are not contacted with the moving contact pieces 70 in the guiding boxes 69 any more, when the semi-moving sphere 38 is not contacted with the moving-simulating inclined rods 41 any more, the two moving-simulating inclined rods 41 move in a resetting mode through the pressing springs 46, so that the installation operation of the caller 66 is completed, the moving contact pieces 70 are contacted with the static contact pieces 71 again, and a signal from one touch is recorded as a reset signal through the control boxes 65; when the caller 66 is needed, the caller 66 is required to be used, the two imitation inclined rods 41 are enabled to contact the upper half face on the auxiliary round block 54 by continuing to move downwards, so that the two imitation inclined rods 41 move relatively, the extrusion spring 46 is in a buffer state, when the imitation inclined rods 41 contact the lower half face of the auxiliary round block 54, the extrusion spring 46 is enabled to reset slightly, the auxiliary round block 54 is clamped by the reset opposite movement of the two imitation inclined rods 41, the friction force of the imitation inclined rods 41 in contact with the auxiliary round block 54 is increased, at the moment, the imitation inclined rods 39 are enabled to move in a reset manner, the auxiliary round block 54 moves in the imitation inclined rod 37 in a limiting manner, the auxiliary round block 54 moves in the limiting rod 57 through the limiting block 56, the limiting spring 59 is in a buffer state, so that the auxiliary round block 54 moves to a groove in the semi-movable sphere 38, the semi-movable sphere 38 is attached to the auxiliary round block 54, the imitation inclined rod 39 is further moved outwards, the two imitation inclined rods 41 are enabled to reset thoroughly, and the caller 66 is enabled to detach, and a call signal 65 can be recorded when the caller 66 is used; through the above description, the caller 66 is convenient and quick to use and operate, a patient on the sickbed 1 can operate the caller 66 by only one hand, meanwhile, the caller 66 is arranged on the guard plate 2, and can be arranged in a range which can be contacted with the nearest hand of the patient according to the condition of the patient, the patient can use the caller without moving the position of the patient, the limitation of the device in use is reduced, and meanwhile, the medical rescue efficiency is improved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an alarm device after intensive care unit is used to postoperative which characterized in that: the hospital bed comprises a hospital bed (1), wherein guard plates (2) are symmetrically arranged on the hospital bed (1), mounting boxes (3) are arranged on the guard plates (2), and the mounting boxes (3) are connected with mounting blocks (4) through lock-making square inserting units; a vertical square block (5) is arranged on one side of the installation square block (4), and the vertical square block (5) is connected with the simulated moving unloading mechanism; the other side is provided with a linkage plate (6), and the linkage plate (6) is connected with the mounting square (4) through bolts; a linkage motor (7) is mounted on the linkage plate (6), and the linkage motor (7) is connected with the direction-closing clamping component;

the utility model provides a close to pressing from both sides and move subassembly including setting up to closing on the output of linkage motor (7) to bevel gear (8), close to bevel gear (8) meshing connection linkage bevel gear (9), install linkage pivot (10) on linkage bevel gear (9), linkage pivot (10) are passed linkage base (11) and linkage gear (12) that are equipped with on installation square (4) and are connected the setting, linkage gear (12) meshing is connected two linkage racks (13), install linkage diaphragm (14) on linkage rack (13) symmetry, two linkage diaphragm (14) are connected gangbar (15) jointly, two linkage bars (15) are equipped with on linkage base (11) and are closed to base (16) sliding connection setting, the cover is equipped with linkage spring (17) on linkage bar (15), one end and the cooperation of linkage spring (17) are to base (16) fixed connection setting, the other end and linkage diaphragm (14) fixed connection setting, linkage diaphragm (14) and linkage rack (13) are connected with jointly and are prolonged and move differential bar (18), be equipped with on the extension clamp block (19) and are connected with the extension control clamp block (19).

2. The post-operative alarm device for intensive care as claimed in claim 1, wherein: the transverse locking control unit comprises a rolling rotating rod (20) arranged on a rolling clamping block (19), a rolling wheel (21) is arranged on the rolling rotating rod (20), the rolling wheel (21) is connected with a transverse inclined block (22) in a matched mode, a positioning sliding block (23) is arranged on the transverse inclined block (22), the positioning sliding block (23) is connected with a positioning sliding groove (25) arranged on a transverse plate (24) in a sliding mode, and the transverse plate (24) is fixedly connected with the direction-closing base (16); the positioning sliding chute (25) is internally and fixedly provided with a positioning rod (26), a positioning spring (27) is sleeved on the positioning rod (26), one end of the positioning spring (27) is fixedly connected with the positioning sliding chute (25), and the other end of the positioning spring is fixedly connected with the positioning sliding block (23).

3. The post-operative alarm device for intensive care as claimed in claim 1, wherein: the locking square plug unit comprises a locking square plate (28) arranged in the mounting box (3), a plurality of braking blocks (29) are arranged on the locking square plate (28), and the braking blocks (29) are in sliding connection with a braking groove (30) arranged in the mounting box (3); a brake rod (31) is fixedly arranged in the brake groove (30), and the brake rod (31) is arranged in sliding connection with the brake block (29); the braking square plate (28) is fixedly connected with the inner bottom surface of the installation box (3) through a plurality of braking springs (32).

4. The post-operative alarm device for intensive care as claimed in claim 2, wherein: the locking different rod (33) is fixedly arranged on the positioning sliding block (23), and the locking different rod (33) passes through the auxiliary inserting plate (34) to be connected with the locking groove (35) arranged on the guard plate (2) in a matched mode.

5. The post-operative alarm device for intensive care as claimed in claim 1, wherein: the simulated moving linkage mechanism comprises a vertical rod (36) arranged on a vertical square (5), a simulated moving rod (37) is arranged on the vertical rod (36), a semi-moving sphere (38) is arranged on the simulated moving rod (37), and the semi-moving sphere (38) is connected with a semi-moving circular groove (40) arranged on a simulated moving square column (39) in a matched mode; the semi-movable sphere (38) is connected with two imitation inclined rods (41) in a matched mode.

6. The post-operative alarm device for intensive care as set forth in claim 5, wherein: the auxiliary circular groove (43) is arranged in sliding connection with the auxiliary circular rod (44), one end of the auxiliary circular rod (44) is fixedly connected with the auxiliary inclined rod (41), and the other end of the auxiliary circular rod is fixedly connected with the auxiliary circular plate (45); the auxiliary round rod (44) is sleeved with an extrusion spring (46), one end of the extrusion spring (46) is fixedly connected with the imitation inclined rod (41), and the other end of the extrusion spring is fixedly connected with the imitation square groove (42).

7. The post-operative alarm device for intensive care as claimed in claim 1, wherein: the installation square (4) is provided with locking grooves (47), the locking grooves (47) are connected with locking plates (48) in a matched mode, two locking plates (48) are connected with lifting transverse plates (49), the lifting transverse plates (49) are symmetrically provided with orientation blocks (50), the orientation blocks (50) are in sliding connection with orientation rods (51) arranged on the installation box (3), the orientation rods (51) are sleeved with orientation springs (52), one ends of the orientation springs (52) are fixedly connected with the orientation blocks (50), and the other ends of the orientation springs are fixedly connected with orientation circular plates (53); the lifting transverse plate (49) is fixedly connected with the auxiliary inserting plate (34), and the auxiliary inserting plate (34) penetrates through the mounting box (3) to be connected with the braking square plate (28) in a matching mode.

8. The post-operative alarm device for intensive care as set forth in claim 5, wherein: an auxiliary round block (54) is slidably mounted on the motion simulation rod (37), extension round rods (55) are symmetrically mounted on the auxiliary round block (54), limiting blocks (56) are arranged on the extension round rods (55), the limiting blocks (56) are slidably connected with the limiting rods (57), and two ends of the limiting rods (57) are fixedly connected with limiting bases (58) arranged on the vertical square blocks (5); a limiting spring (59) is sleeved on the limiting rod (57), one end of the limiting spring (59) is fixedly connected with the limiting base (58), and the other end of the limiting spring is fixedly connected with the limiting block (56); the auxiliary round block (54) is connected with the simulated inclined rod (41) in a matched mode.

9. The post-operative alarm device for intensive care as claimed in claim 1, wherein: a movable square plate (60) is fixedly arranged on the movable differential rod (18), movable rods (61) are symmetrically arranged on the movable square plate (60), the two movable rods (61) are jointly connected with a movable square half block (62), and the two movable square half blocks (62) are jointly connected with a movable square column (39); the movable pasting rod (61) is sleeved with a movable pasting spring (63), one end of the movable pasting spring (63) is fixedly connected with the movable pasting square plate (60), the other end of the movable pasting spring is fixedly connected with the movable pasting square plate (62), the movable pasting square plate (60) and the movable pasting square plate (62) are provided with touch patches (64), and the two touch patches (64) are connected with a linkage motor (7) in a matched mode through a control box (65) arranged on the sickbed (1).

10. The post-operative alarm device for intensive care as claimed in claim 6, wherein: a caller (66) is arranged on the imitation square column (39), sensing patches (67) are symmetrically arranged on the caller (66), and the sensing patches (67) are connected with a control box (65) in a matched mode; the auxiliary circular plate (45) is symmetrically provided with a guide position different rod (68), the guide position different rod (68) is connected with a guide position box (69) arranged on the imitation square column (39) in a matched mode, one guide position box (69) is internally provided with a movable contact piece (70), the movable contact piece (70) is connected with a static contact piece (71) arranged on the guide position different rod (68) in a matched mode, and the movable contact piece (70) is connected with a linkage motor (7) in a matched mode.