CN112793997B

CN112793997B - Medicine conveying mechanism for ward

Info

Publication number: CN112793997B
Application number: CN202110376813.0A
Authority: CN
Inventors: 陆建南; 刘虎; 胥加成; 陶添光; 徐冰
Original assignee: Jiangsu Panasia Medical Technology Group Co Ltd
Current assignee: Jiangsu Panasia Medical Technology Group Co Ltd
Priority date: 2021-04-08
Filing date: 2021-04-08
Publication date: 2021-06-29
Anticipated expiration: 2041-04-08
Also published as: CN112793997A

Abstract

The invention relates to the technical field of article conveying, in particular to a medicine conveying mechanism for lifting a ward. The ward lifting medicine conveying mechanism comprises the guide installation pipe which is installed and fixed on the inner wall of the ward, and can be directly conducted to the position of the specified side discharge hole in the ward through the mutual matching with the corridor medicine distribution mechanism, so that medical staff and patients can conveniently take medicines in the ward directly, and the medicine dispensing safety and efficiency are greatly improved; the modification cost of the existing ward is very low, and the popularization is convenient; the turnover cover plate can be synchronously controlled according to the requirement, so that the distributed medicines are conveniently separated and discharged, and the operation is simple; the side-mounted feed inlet with the built-in magnetic control side-mounted turnover cover plate is formed in the side wall, close to the external feed inlet, of the guide mounting pipe, so that external linkage control is facilitated while external sealing performance is guaranteed.

Description

Medicine conveying mechanism for ward

Technical Field

The invention relates to the technical field of article conveying, in particular to a medicine conveying mechanism for a ward.

Background

The ward generally refers to a general ward, an intensive care unit, a tracheotomy bacteria monitoring ward and an infectious disease isolation ward, and some hospitals are provided with a high-dryness ward, a special ward and a medical care combination ward, such as a suite, a single-person room and other supporting facilities, and the ward is called a family ward arranged at home. The ward space and the arrangement are executed according to relevant regulations, the bed distance and the bed surrounding space meet the requirements of passing, parking and circumgyration of a cart and a wheelchair, and a large amount of sundries cannot be arranged in a disinfection buffer area outside a door or a fire-fighting passageway. At most 3 sets of nursing beds cannot be arranged in each ward, each bed is provided with two full-plastic bedside side cabinets, a main iron sheet cabinet, an accompanying chair or seat, a storage rack, a drinking kettle, a curtain, a bed curtain, a transfusion support, oxygen, a bedside lamp, a television, an air cushion bed, a power supply plug hole, a calling system, a balcony, a toilet, fire ventilation, self-help inquiry of examination results, illumination, ultraviolet disinfection and other facilities, and some departments are provided with transfusion alarms, toilet chairs, negative pressure sputum suction devices, passive exercise equipment, wheelchairs and the like for blind persons and disabled persons. A special room or place with a medical bed, a treatment and nursing facility, a living facility and a rehabilitation device is arranged for a sick person, the ward environment is executed according to a 5S field management method, and a room provided for the patient in a hospital is provided with a rescue and sterilization facility. Meanwhile, the sickrooms in multiple rooms cannot exceed 3 beds, sterilizing liquid medicine is sprayed on the ground and air of the tracheotomy sickroom every day, the sickroom is ventilated for 4 times in the daytime, the temperature is 18-20 ℃, the humidity is 60 ℃, and terminal sterilization is carried out after discharge.

The distribution of the traditional Chinese medicine and the auxiliary materials in the ward is mainly completed through manual operation, the medicines are generally required to be sorted at a special place and then are uniformly distributed through a carrier, the distribution errors are caused due to too many distributed medicines in the distribution process, the medicines are directly exposed and distributed in the ward, the safety factor is not high, the size of a distribution mechanism is large, and the distribution efficiency is very limited.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problems existing in the prior art, an improved ward medicine conveying mechanism is provided, and the problems that the traditional ward medicine and auxiliary material distribution efficiency is low, the distribution safety is not high, and the distribution mechanism is large in size are solved.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a ward is with medicine conveying mechanism, is including seting up outside feed inlet on the ward inner wall, installing direction installation pipe, driving motor and automatically controlled hydraulic pressure vaulting pole on the ward inner wall, the inside activity of direction installation pipe is equipped with the inside conveyer belt mechanism by driving motor control, the activity is equipped with the upset separation plectrum by automatically controlled hydraulic pressure vaulting pole control on the intraductal top surface of direction installation, set up the side direction discharge gate of built-in upset apron on the direction installation pipe lateral surface.

The internal conveying belt mechanism comprises a main driving wheel, an auxiliary driven wheel, an internal supporting plate, an internal conveying belt and a top conveying plate, wherein the main driving wheel, the auxiliary driven wheel and the internal supporting plate are movably assembled in the guide mounting pipe through a lateral rotating shaft, the internal conveying belt is movably sleeved on the outer sides of the main driving wheel and the auxiliary driven wheel, and the top conveying plate is movably assembled on the outer side of the internal conveying.

The overturning separation shifting piece comprises a longitudinal assembling rod fixed on the inner top surface and the inner bottom surface of the guide mounting pipe, a movable assembling pipe movably sleeved on the outer side of the longitudinal assembling rod, an integrated structure transverse shifting pipe fixed on the arc surface on the outer side of the movable assembling pipe and an integrated structure guide plate fixed at the lower end of the transverse shifting pipe.

The outer side surface of the movable assembly pipe is provided with an annular adjusting tooth groove, the electric control hydraulic support rod is fixedly arranged on the inner side surface of the guide installation pipe through a bolt, and the top end of a telescopic rod of the electric control hydraulic support rod is axially and fixedly connected with an internal rack matched with the annular adjusting tooth groove.

The horizontal pipe internal activity of dialling be equipped with inside extrusion telescopic link, axial fixation at the spacing dish of the integrative structure on inside extrusion telescopic link lateral surface and the activity cup joint the extrusion reset spring on inside extrusion telescopic link.

The inside extrusion telescopic link top that corresponds of direction installation pipe be fixed with integrative structure arc deflector, direction installation intraductal side and the inboard outer wall of arc deflector on seted up arc direction spout.

Upset apron both sides inner wall upper end horizontal pivot has, side direction discharge gate medial surface middle part inside limiting plate has, side direction discharge gate medial surface top have with horizontal pivot matched with an organic whole structure assembly reel, the upset apron inserts the inside movable assembly of assembly reel and side direction discharge gate through the horizontal pivot of both sides.

The guide installation pipe is provided with a side feed inlet on the side wall close to the external feed inlet, a side turnover cover plate is movably assembled in the side feed inlet, the upper end and the lower end of the side turnover cover plate are provided with top assembly grooves internally provided with transverse assembly rods, and a top assembly pipe is movably assembled on the outer side of each transverse assembly rod.

And an external conveying belt is movably sleeved on the side-arranged turnover cover plate and positioned on the outer side of the top assembly pipe.

The outer side surface of the external conveying belt and the outer side surface of the top conveying plate are provided with mutually matched transmission meshing surfaces.

The side feed inlet in the bottom surface seted up inside open-ended bottom assembly recess, side upset apron outside connect the face and the bottom assembly recess inboard is connected the face and is seted up the interior assembly recess of built-in iron folding elastic sheet, the horizontal recess in bottom that is linked together with the interior assembly recess is seted up to bottom assembly recess inside, the horizontal recess in bottom inside be fixed with the horizontal electro-magnet that is used for controlling iron folding elastic sheet.

The invention has the beneficial effects that:

(1) the ward medicine conveying mechanism is composed of the guide installation pipes which are installed and fixed on the inner wall of the ward, and can be directly conducted to the position of the specified side discharge hole in the ward through the mutual matching with the corridor medicine distribution mechanism, so that medical staff and patients can conveniently take medicines in the ward directly, and the medicine dispensing safety and efficiency are greatly improved;

(2) the guide installation pipe is installed on the inner wall of the ward, and then an opening is formed in the wall of the ward to match with the guide installation pipe, so that the requirement on the installation position is low, the reconstruction cost of the existing ward is low, and the popularization is convenient;

(3) the overturning separation shifting sheet controlled by the electric control hydraulic support rod is movably assembled on the inner top surface of the guide installation pipe, so that medicines on the upper surface of the internal conveying belt mechanism can be separated and guided when the overturning separation shifting sheet overturns, the medicines can be guided into the lateral discharge port as required, and the internal extrusion telescopic rod is controlled to stretch in a linkage manner, so that the overturning cover plate is synchronously controlled, the medicines are conveniently distributed, separated and discharged, and the operation is simple;

(4) the side feed inlet with the built-in magnetic control side turnover cover plate is formed in the side wall, close to the external feed inlet, of the guide installation pipe, so that external linkage control is facilitated while external sealing performance is guaranteed;

(5) an external conveying belt matched with the top conveying plate is movably sleeved on the outer side of the side-arranged turnover cover plate, and the side-arranged turnover cover plate can be in linkage operation with the internal conveying belt mechanism when being turned over, so that the side-arranged guidance is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is an internal cross-sectional view of the feed inlet location of the present invention.

Fig. 3 is an assembly diagram of the present invention.

FIG. 4 is a schematic view of the structure of the present invention in which the transverse electromagnet is installed at the inner bottom.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Fig. 1, a medicine conveying mechanism for ward that fig. 2 and fig. 3 show, including seting up outside feed inlet 1 on the ward inner wall, install direction installation pipe 2 on the ward inner wall, driving motor 3 and automatically controlled hydraulic pressure vaulting pole 4, the inside activity of direction installation pipe 2 is equipped with the inside conveyer belt mechanism by driving motor 3 control, the activity is equipped with the upset separation plectrum by automatically controlled hydraulic pressure vaulting pole 4 control on the top surface in the direction installation pipe 2, set up the side direction discharge gate 6 of built-in upset apron 5 on the 2 lateral surfaces of direction installation pipe.

Further, in order to cooperate with internal material conveying, the internal conveying belt mechanism comprises a main driving wheel 7, an auxiliary driven wheel 8, an internal supporting plate 9, an internal conveying belt 10 and a top conveying plate 11, wherein the main driving wheel 7, the auxiliary driven wheel 8 and the internal supporting plate are movably assembled inside the guide mounting pipe 2 through lateral rotating shafts, the internal conveying belt 10 is movably sleeved outside the main driving wheel 7 and the auxiliary driven wheel 8, and the top conveying plate 11 is movably assembled outside the internal conveying belt 10.

Further, in order to match with the turnover guide material discharge, the turnover separation shifting piece comprises a longitudinal assembling rod 12 fixed on the inner top surface and the inner bottom surface of the guide mounting pipe 2, a movable assembling pipe 13 movably sleeved on the outer side of the longitudinal assembling rod 12, an integrated structure transverse shifting pipe 14 fixed on the outer arc surface of the movable assembling pipe 13 and an integrated structure guide plate 15 fixed at the lower end of the transverse shifting pipe 14.

Example (b): the guide plate 15 is used for controlling the turnover through the expansion of the electric control hydraulic support rod 4, controlling the guide plate 15 to turn outwards, forming an inclined plate body above the top conveying plate 11, and driving the medicine to be conveyed by utilizing the top conveying plate 11, so that the medicine is extruded from the side discharge port 6 by matching with the guide plate 15.

Furthermore, in order to match with telescopic control, an annular adjusting tooth socket 16 is formed in the outer side face of the movable assembly pipe 13, the electric control hydraulic support rod 4 is fixedly installed on the inner side face of the guide installation pipe 2 through a bolt, and an inner rack 17 matched with the annular adjusting tooth socket 16 is fixedly connected to the top end of the telescopic rod of the electric control hydraulic support rod 4 in the axial direction.

Further, reset in order to cooperate the elasticity extrusion, transversely dial 14 inside activities of pipe and be equipped with inside extrusion telescopic link 18, the axial fixity is at the spacing dish 19 of integrative structure on 18 lateral surfaces of inside extrusion telescopic link and the activity cup joints the extrusion reset spring 20 on inside extrusion telescopic link 18, furthermore, in order to extrude flexible in step when the upset, 2 inside corresponding inside extrusion telescopic link 18 tops of direction installation pipe are fixed with integrative structure arc deflector 21, arc direction spout 22 has been seted up on 2 medial surfaces of direction installation pipe and the inboard outer wall of arc deflector 21, furthermore, in order to cooperate inside discharge, 5 both sides inner wall upper end has horizontal pivot on the inside wall of upset apron, 6 medial surfaces middle part of side direction discharge gate has inside limiting plate 23, 6 medial surfaces top of side direction discharge gate has the integrative structure assembly reel 24 with horizontal pivot matched with, upset apron 5 inserts the inside of assembly reel 24 and the inside activities of 6 of side direction discharge gate through the horizontal pivot of both sides And (6) assembling.

Example (b): automatically controlled hydraulic pressure vaulting pole 4 outwards stretches out, drives inside rack 17 and adjusts the inside translation of tooth's socket 16 in the annular, drives the upset of movable assembly pipe 13, make deflector 15 overturn inside conveyer belt mechanism top, 18 medial extremity of inside extrusion telescopic link inserts arc guide chute 22 from arc deflector 21 at this time, 18 outside tops of inside extrusion telescopic link are stretched out at this time, then 18 outside tops of inside extrusion telescopic link extrude flip cover 5, thereby control flip cover 5 outwards overturns, open side direction discharge gate 6.

Further, for the matching installation and feeding, a side feed inlet 25 is opened on the side wall of the guide installation pipe 2 close to the external feed inlet 1, a side flip cover plate 26 is movably assembled inside the side feed inlet 25, a top assembly groove 28 with a built-in transverse assembly rod 27 is opened on the side flip cover plate 26 and at the lower end, a top assembly pipe 29 is movably assembled outside the transverse assembly rod 27, further, for the matching of lateral material guiding, an external conveying belt 30 is movably sleeved outside the top assembly pipe 29 on the side flip cover plate 26, further, for the improvement of linkage efficiency, transmission meshing surfaces which are mutually matched are arranged on the outer side surface of the external conveying belt 30 and the outer side surface of the top conveying plate 11, further, for the matching of magnetic control overturning, an internal opening bottom assembly groove 31 is opened on the inner bottom surface of the side feed inlet 25, and an internal assembly surface of the built-in iron folding elastic sheet 32 is opened on the outer side connecting surface of the side flip cover plate 26 and the The bottom transverse groove 33 communicated with the internal assembly groove 33 is formed in the bottom assembly groove 31, and a transverse electromagnet 34 used for controlling the iron folding elastic sheet 32 is fixed in the bottom transverse groove.

Example 1: the conveying mechanism is matched with the corridor distribution mechanism, when the corridor distribution mechanism is matched with the guide installation pipe 2, the transverse electromagnet 34 is closed, the iron folding elastic sheet 32 is bent and reset, and the side-arranged turnover cover plate 26 is controlled to turn inwards;

example 2: as shown in fig. 4, a transverse electromagnet 34 may be fixed to the inner bottom surface of the guide mounting tube 2, so that the transverse electromagnet 34 can be activated to control opening, and when the transverse electromagnet 34 is closed, the side flip cover 26 is controlled to flip outwardly to close. When the side flip cover 26 is flipped inward, the outer conveying belt 30 on the side flip cover 26 is engaged with the top conveying plate 11 on the secondary driven wheel 8 for transmission. The top conveying plate 11 drives the external conveying belt 30 to rotate and operate, when the side-mounted turnover cover plate 26 overturns outwards, the internal conveying belt 10 runs clockwise, the medicine on the upper end of the external conveying belt 30 is driven to be conveyed to the upper surface of the internal conveying belt 10 from the right side to the left side, when the medicine leaves the side-mounted turnover cover plate 26, the internal conveying belt 10 runs anticlockwise, the medicine is driven to be conveyed into a ward on the surface of the top conveying plate 11, and the surface of the side-mounted turnover cover plate 26 can be provided with a pressure sensor. The drive motor can also be arranged on one side of the side-arranged turnover cover plate 26, so that the independent operation can be realized.

Example 3: carry it really very simply to multiclass medicine, only need to put the required medicine in the receiver of unified specification in appointed ward, then the radio frequency card of the built-in sick bed information of cartridge on the receiver lateral wall, when the medicine passes through appointed ward, automatic control side flip cover board 26 is opened, and the medicine just can fall into side flip cover board 26 upper surface from outside feed inlet 1 automatically.

The ward medicine conveying mechanism is composed of the guide installation pipes 2 which are installed and fixed on the inner wall of the ward, and can be directly conducted to the position of the specified side discharge hole 6 in the ward through the mutual matching with the corridor medicine distribution mechanism, so that medical staff and patients can conveniently take medicines in the ward directly, and the medicine dispensing safety and efficiency are greatly improved; the guide installation pipe 2 is installed on the inner wall of the ward, and then an opening is formed in the wall of the ward to match with the guide installation pipe, so that the requirement on the installation position is low, the modification cost of the existing ward is low, and the popularization is convenient; the overturning separation shifting sheet controlled by the electric control hydraulic support rod 4 is movably assembled on the inner top surface of the guide installation pipe 2, so that medicines on the upper surface of the internal conveying belt mechanism can be separated and guided when the overturning separation shifting sheet is overturned, the medicines can be guided into the lateral discharge port 6 as required, and the internal extrusion telescopic rod 18 is controlled to stretch in a linkage manner, so that the overturning cover plate 5 is synchronously controlled, the medicines are conveniently distributed, separated and discharged, and the operation is simple; a side feed inlet 25 with a built-in magnetic control side turnover cover plate 26 is formed in the side wall of the guide installation pipe 2 close to the external feed inlet 1, so that external linkage control is facilitated while external sealing performance is guaranteed; an external conveying belt 30 matched with the top conveying plate 11 is movably sleeved on the outer side of the side-arranged turnover cover plate 26, and the side-arranged turnover cover plate can be in linkage operation with the internal conveying belt mechanism when being turned over, so that the side-arranged guidance quality is improved.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a medicine conveying mechanism is used in ward, is including offering outside feed inlet (1) on the ward inner wall, installing direction installation pipe (2), driving motor (3) and automatically controlled hydraulic strut (4) on the ward inner wall, characterized by: an internal conveying belt mechanism controlled by a driving motor (3) is movably assembled inside the guide mounting pipe (2), an overturning separation shifting sheet controlled by an electric control hydraulic support rod (4) is movably assembled on the inner top surface of the guide mounting pipe (2), and a lateral discharge hole (6) with a built-in overturning cover plate (5) is formed in the outer side surface of the guide mounting pipe (2); a side feed inlet (25) is formed in the side wall, close to the external feed inlet (1), of the guide mounting pipe (2), a side turnover cover plate (26) is movably assembled inside the side feed inlet (25), a top assembly groove (28) with a built-in transverse assembly rod (27) is formed in the upper end and the lower end of the side turnover cover plate (26), and a top assembly pipe (29) is movably assembled on the outer side of the transverse assembly rod (27); an external conveying belt (30) is movably sleeved on the side-arranged turnover cover plate (26) and positioned on the outer side of the top assembly pipe (29); the outer side surface of the external conveying belt (30) and the outer side surface of the top conveying plate (11) are provided with mutually matched transmission meshing surfaces.

2. The ward medication delivery mechanism of claim 1, further comprising: the inner conveying belt mechanism comprises a main driving wheel (7), an auxiliary driven wheel (8), an inner supporting plate (9), an inner conveying belt (10) and a top conveying plate (11), wherein the main driving wheel (7), the auxiliary driven wheel (8) and the inner supporting plate are movably assembled inside the guide mounting pipe (2) through lateral rotating shafts, the inner conveying belt (10) is movably sleeved on the outer sides of the main driving wheel (7) and the auxiliary driven wheel (8), and the top conveying plate (11) is movably assembled on the outer.

3. The ward medication delivery mechanism of claim 1, further comprising: the overturning separation shifting sheet comprises a longitudinal assembling rod (12) fixed on the inner top surface and the inner bottom surface of the guide mounting pipe (2), a movable assembling pipe (13) movably sleeved on the outer side of the longitudinal assembling rod (12), an integrated structure transverse shifting pipe (14) fixed on the outer arc surface of the movable assembling pipe (13) and an integrated structure guide plate (15) fixed at the lower end of the transverse shifting pipe (14).

4. The ward medication delivery mechanism of claim 3, wherein: the outer side surface of the movable assembly pipe (13) is provided with an annular adjusting toothed groove (16), the electric control hydraulic support rod (4) is fixedly installed on the inner side surface of the guide installation pipe (2) through a bolt, and an inner rack (17) matched with the annular adjusting toothed groove (16) is fixedly connected to the top end of a telescopic rod of the electric control hydraulic support rod (4) in the axial direction.

5. The ward medication delivery mechanism of claim 3, wherein: the transverse shifting pipe (14) is internally movably assembled with an internal extrusion telescopic rod (18), an integrated structure limiting disc (19) axially fixed on the outer side surface of the internal extrusion telescopic rod (18) and an extrusion reset spring (20) movably sleeved on the internal extrusion telescopic rod (18).

6. The ward medication delivery mechanism of claim 5, wherein: the inside extrusion telescopic link (18) top that corresponds of direction installation pipe (2) be fixed with integrative structure arc deflector (21), direction installation pipe (2) medial surface and arc deflector (21) inboard outer wall on seted up arc direction spout (22).

7. The ward medication delivery mechanism of claim 1, further comprising: upset apron (5) both sides inner wall upper end horizontal pivot has, side direction discharge gate (6) medial surface middle part inside limiting plate (23) have, side direction discharge gate (6) medial surface top have with horizontal pivot matched with an organic whole structure assembly reel (24), upset apron (5) insert through the horizontal pivot of both sides and assemble reel (24) inside and side direction discharge gate (6) inside movable assembly.

8. The ward medication delivery mechanism of claim 7, wherein: the side put feed inlet (25) in the bottom seted up inside open-ended bottom assembly recess (31), side put flip cover board (26) outside connect the face and bottom assembly recess (31) inboard connect the face and set up inside assembly recess (33) of built-in iron folding shell fragment (32), bottom assembly recess (31) inside set up the horizontal recess in bottom that is linked together with inside assembly recess (33), the horizontal recess of bottom inside be fixed with horizontal electro-magnet (34) that are used for controlling iron folding shell fragment (32).