CN117486039B - Material conveying device for intelligent hospital elevator - Google Patents

Abstract

The invention relates to the technical field of material conveying for intelligent hospitals, in particular to a material conveying device for an elevator of an intelligent hospital. According to the material conveying device for the intelligent hospital elevator, the inclined mounting groove is formed in the inner side face of the elevator shaft of the building, the inclined containing square tubes for temporarily storing and longitudinally conveying express packages are fixedly arranged on the outer side face of the main body through bolts, and the express objects are conveyed outside through the inclined assembly frames of the external feeding box and the external discharging box, so that the express packages can be conveyed to a designated floor quickly through the vertical elevator, the delivery efficiency of an express delivery person is greatly improved, cross infection can be avoided, and the safety of the express delivery person and a receiver is improved; the operation is very simple and convenient; the transmission efficiency is greatly improved.

Description

Material conveying device for intelligent hospital elevator

Technical Field

The invention relates to the technical field of material conveying for intelligent hospitals, in particular to a material conveying device for an elevator of an intelligent hospital.

Background

The intelligent hospital is an innovative hospital which uses technologies such as cloud computing, big data, internet of things, mobile Internet, artificial intelligence and the like, integrates medical resources by establishing interconnection, internet of things, perception and intelligent medical service environments, optimizes medical service flows, standardizes diagnosis and treatment behaviors, improves diagnosis and treatment efficiency, achieves patient medical treatment convenience, and achieves medical service wisdom and hospital management refinement.

Elevators are important transportation devices serving modern high-rise buildings. Along with the increasing requirements of intelligent hospitals on the treatment efficiency, reasonable utilization of elevator resources becomes one of important factors for judging the operation efficiency of the hospitals.

At present, materials conveyed in a hospital comprise medical materials in the hospital and other materials entering from society, including express delivery and takeaway, an express delivery person is required to convey packages to a user in a manual mode in the delivery process, the traditional elevator is simple in structure and single in functionality, the packages can be delivered only by taking the elevator by assisting the express delivery person, the efficiency is low, the energy consumption of the elevator is increased, a great amount of time of the express delivery person is required to be consumed, the elevator with a layer control device can only be used by requiring a resident to control the elevator, the use is very inconvenient, and the close-range contact can also easily cause cross infection and is unsafe.

Disclosure of Invention

The invention aims to solve the technical problems that: in order to solve the problems in the prior art, the improved material conveying device for the intelligent hospital elevator is provided, the problems that the traditional elevator is simple in structure and single in functionality, packages can be delivered only by assisting an express delivery person to take the elevator, the efficiency is low, the energy consumption of the elevator is increased, a large amount of time of the express delivery person is required to be consumed, the use is very inconvenient, cross infection is easily caused due to close-range contact, and the safety is very unsafe are solved.

The technical scheme adopted for solving the technical problems is as follows: a material conveyor for wisdom hospital elevator, including installing the main carriage body in the building elevator shaft, install external feeding case on the indoor wall of building more than one building, install external row workbin on the indoor wall cloth of building more than one building, install main control unit on external feeding case lateral surface, offer the inclined mounting groove, accommodate motor and the electronic vaulting pole on building elevator shaft medial surface, main carriage lateral surface be located the inside bolt fastening of building elevator shaft and accomodate square pipe to one side, the inclined mounting groove correspond external feeding case and external row workbin end and all be equipped with the opening, external feeding case and external row workbin have to the protruding integrated structure inclined assembly frame of inclined mounting groove, inclined assembly frame keep away from external feeding case and external row workbin end medial surface on have the side assembly section of thick bamboo that is used for installing accommodate motor, inclined assembly frame medial surface and inclined assembly frame medial surface correspond the position and have offered a plurality of inboard storage grooves, the inside all movable mounting of inboard storage groove be equipped with by the bottom control of electronic vaulting pole.

The bottom control groove is formed in the inner bottom surface of the inclined mounting groove, which corresponds to the position of the electric stay bar, the bottom mounting frame for mounting the electric stay bar is fixed on the lower surface of the inclined assembly frame through bolts, the strip-shaped transition port matched with the electric stay bar is formed in the inner bottom surface of the inner storage groove, and the bottom movable connecting frame connected with the electric stay bar is fixed on the lower end of the bottom adjusting frame through bolts.

The lateral mounting frame for mounting the electric stay bars is fixed on the outer side surface of the main carriage body below the inclined storage square tube through bolts.

The inner side surface of the inclined assembly frame is provided with an outwards protruding integrated arc-shaped adjusting groove, a transverse adjusting screw rod controlled by an adjusting motor is movably assembled in the arc-shaped adjusting groove, an inner extrusion plate controlled by the transverse adjusting screw rod is mounted in the inclined assembly frame, the outer side surface of the inner extrusion plate is provided with an inwards protruding inner thread adjusting block in the arc-shaped adjusting groove, and the inner extrusion plate is in transmission connection with the adjusting motor outside the transverse adjusting screw rod through the inner thread adjusting block.

The inner extrusion plate is close to the outer opening surface of the inclined assembly frame, and the inner damping plate is elastically installed on the inner extrusion plate through a damping spring.

The inner side surface of the inner storage groove is provided with lateral openings close to the elevator shaft end of the building, lateral assembly blind holes are symmetrically formed in the inner side surface of the inner storage groove, an integral structure installation shaft protruding towards the inside of the lateral assembly blind holes is arranged at the top end of the side wall of the bottom adjusting frame, and an inner installation groove with a built-in pressing control switch is formed in the inner side surface of the inner storage groove.

The inner side surface of the external discharging box is provided with an arc-shaped guide plate at the connecting end of the inclined assembling frame.

The inner side surface of the bottom adjusting frame is movably provided with a position-adjustable bottom guide roller.

The bottom adjusting frame inner side be located the bottom guide roller assembly end that the position is adjustable and offered the inclined installation spout, the bottom guide roller that the position is adjustable include slidable mounting in the side direction adjustment slider and bottom support wheel of inclined installation spout, the bottom support wheel pass through side direction adjustment slider and side direction adjustment slider swing joint through the both sides pivot.

The beneficial effects of the invention are as follows:

(1) According to the material conveying device for the intelligent hospital elevator, the inclined mounting groove is formed in the inner side face of the elevator shaft of the building, the inclined containing square tubes for temporarily storing and longitudinally conveying express packages are fixedly arranged on the outer side face of the main body through bolts, and the express objects are conveyed outside through the inclined assembling frames of the external feeding box and the external discharging box, so that the express packages can be conveyed to an appointed floor quickly through the vertical elevator, households on the appointed floor are convenient to take, an express person does not need to take the elevator in person to go to the door for delivering goods, the delivery efficiency of the express person is greatly improved, cross infection can be avoided, and the safety of the express person and a receiver is improved;

(2) The inclined accommodating square tube and the inclined assembling frame are horizontally arranged, and the inner accommodating groove with the built-in bottom adjusting frame is formed in the inner side surface of the inclined accommodating square tube and the inner side surface of the inclined assembling frame, so that the electric supporting rod is utilized to control overturning, the package transfer between the inclined accommodating square tube and the inclined assembling frame is facilitated, and the operation is very simple and convenient;

(3) The inclined accommodating square tube and the inclined assembling frame adopt inclined layout, and the transmission efficiency is greatly improved by utilizing the design of high outside and low inside and sliding inwards through the gravity of the package;

(4) The internal extrusion plate controlled by the adjusting motor is arranged on the inclined assembly frame, so that the package is conveniently arranged inside the inclined assembly frame, the arc-shaped guide plate on the inner side of the external discharge box is matched, the package discharge efficiency is improved, and the use is more convenient.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic view of a structure of the present invention in a state in which a main car is traveling to a second floor.

Fig. 2 is an internal cross-sectional view of the diagonal bezel position in the present invention.

Fig. 3 is an internal cross-sectional view showing the position of the inclined storage square tube in the present invention.

Fig. 4 is a side sectional view of the position of the inclined fitting frame and the inclined storage square tube in the present invention.

Fig. 5 is a schematic view of the structure of the present invention when the main car is traveling to a first floor.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the invention and therefore show only the structures which are relevant to the invention.

The utility model provides a material conveyor for wisdom hospital elevator that is shown in fig. 1, fig. 2, fig. 3 and fig. 5, including installing the main carriage body 1 in the building elevator shaft, install external feeding case 2 on the indoor wall of building of first floor, install the external workbin 3 on the indoor wall cloth of building more than first floor, install the main control unit 4 on external feeding case 2 lateral surface, set up the inclined mounting groove 5 on the building elevator shaft medial surface, accommodate motor 6 and electric stay 7, main carriage body 1 lateral surface is located the inside bolt fastening of building elevator shaft and is equipped with the inclined square pipe 8 of accomodating, inclined mounting groove 5 corresponds external feeding case 2 and external workbin 3 end and all is equipped with the opening, external feeding case 2 and external workbin 3 have to the protruding integrated structure inclined assembly frame 9 of outside installation groove 5, inclined assembly frame 9 keeps away from external feeding case 2 and external workbin 3 end medial surface on have the side assembly section of thick bamboo 10 that is used for installing accommodate motor 6, 3 inboard side of inclined square pipe 8 medial surface and inclined assembly frame 9 medial surface correspond the position and have set up 3 inboard side accomodating groove 11, the inside side 11 is equipped with the electric stay 7 by the control frame bottom all movable bottom 12.

The express delivery person puts the express delivery into the external feeding box 2, then put the floor that needs to arrive according to the order of putting, say put first parcel, press the button 9 on the main control unit 4, put the second parcel again, press the button 11 on the main control unit 4, the parcel slides into the diagonal assembly frame 9 from external feeding box 2 this time, then the elevator descends to the building 1, after the elevator stops, the bottom control frame 12 of the diagonal assembly frame 9 of external feeding box 2 is overturned to the diagonal housing square pipe 8, parcel and takeout import are inside the diagonal housing square pipe 8, after the parcel is placed, the elevator starts to start, the elevator rises to 9 layers, then the bottom control frame 12 of diagonal housing square pipe 8 is overturned to the diagonal assembly frame 9, parcel and takeout import inside the diagonal assembly frame 9, and then discharge outside the external discharging box 3.

The effect of main control unit 4 is linked together with the control panel in the elevator, inside sets up control chip and memory chip, the priority is less than the control switch in the elevator, just can deliver the parcel only under unmanned state corresponding to the elevator, do not influence resident's function of use, the floor number of every parcel is recorded according to the sending sequence of express delivery parcel, every express delivery of placing will be pressed the floor, say first express delivery parcel is according to 11 building, the second is according to 13 building, the third is according to 15 building, the elevator can berth at 11 in proper order, 13, 15 building like this, then will send into 11 fast respectively through automatically controlled belt conveyor in the external blow-down case 3 of 13, 15 building.

The control chip and the memory chip control chip are simple in practice, are in the prior art, are used for linking buttons in an elevator, the memory chip is used for recording the key sequence of an express delivery person, and only the first step of operation is completed, the second step of operation is started, for example, the 9 th floor is pressed down, then the 7 th floor is pressed down, so that the control chip can control the elevator to drive to the 9 th floor, when the 7 th floor is parked, the electric supporting rod 7 for recording the package of the 7 th floor is started, the package overturning is led into the inclined assembly frame 9 of the 7 th floor, then the reset is carried out, the electric supporting rod 7 for recording the package of the 9 th floor is started, and the package overturning is led into the inclined assembly frame 9 of the 9 th floor.

The outer side end of the inclined assembly frame 9 is provided with a split type frame body at the connecting end of the external feeding box 2 and the external discharging box 3, and the split type frame body translates along with the translation door in and out of the main carriage body 1, so that the opening and closing of the elevator are not influenced, and the external feeding box 2, the external discharging box 3 and the inclined assembly frame 9 are separated when the elevator is opened, so that feeding and discharging to the inside of the inclined assembly frame 9 are not possible.

As shown in fig. 4, for the purpose of matching with the bottom installation and the movable adjustment and turnover, a bottom control groove 13 is formed in the inner bottom surface of the inclined installation groove 5 corresponding to the position of the electric stay bar 7, a bottom installation frame 14 for installing the electric stay bar 7 is fixed on the lower surface of the inclined assembly frame 9 through bolts, a bar-shaped transition opening 15 matched with the electric stay bar 7 is formed in the inner bottom surface of the inner storage groove 11, and a bottom movable connection frame 16 for being connected with the electric stay bar 7 is fixed on the lower end of the bottom adjustment frame 12 through bolts.

Further, in order to facilitate the bottom assembly, a lateral mounting frame 17 for mounting the electric stay bar 7 is bolted and fixed below the inclined storage square tube 8 on the outer side surface of the main carriage body 1.

Further, in order to facilitate outward discharge of packages and takeouts in the inclined assembly frame 9, an arc-shaped adjusting groove 18 with an outward protruding integrated structure is formed in the inner side face of the inclined assembly frame 9, a transverse adjusting screw rod 19 controlled by the adjusting motor 6 is movably arranged in the arc-shaped adjusting groove 18, an inner extruding plate 20 controlled by the transverse adjusting screw rod 19 is arranged in the inclined assembly frame 9, an inner thread adjusting block 21 protruding into the arc-shaped adjusting groove 18 is arranged on the outer side face of the inner extruding plate 20, and the inner extruding plate 20 is in transmission connection with the adjusting motor 6 outside the transverse adjusting screw rod 19 through the inner thread adjusting block 21.

The adjusting motor 6 in the prior art drives the transverse adjusting screw rod 19 to rotate, so that the inner extruding plate 20 is driven to move along the transverse adjusting screw rod 19 inside the inclined assembling frame 9, and the wrapping or takeaway positioned inside the inclined assembling frame 9 is extruded and moved outwards.

Further, in order to improve the safety of the package or take-out sliding in, an inner shock absorbing plate 23 is elastically installed on the outer opening surface of the inner squeeze plate 20 near the inclined assembly frame 9 by a shock absorbing spring 22.

After the elevator rises to the appointed floor, the bottom adjusting frame 12 of the inclined accommodating square tube 8 overturns to the position of the inclined assembling frame 9, and the package or take-out inside the inclined accommodating square tube 8 is originally positioned inside the inclined assembling frame 9, and then the package or take-out is discharged to the inside of the external discharging box 3 through the internal extruding plate 20 and the internal damping plate 23 outside the internal extruding plate.

Further, for cooperation movable assembly and extrusion control, the inner side surface of the inner side storage groove 11 is provided with a lateral opening near the elevator shaft end of the building, lateral assembly blind holes are symmetrically formed in the inner side surface of the inner side storage groove 11, an integral structure mounting shaft protruding towards the inside of the lateral assembly blind holes is arranged at the top end of the side wall of the bottom adjusting frame 12, and an inner mounting groove with a built-in pressing control switch 24 is formed in the inner side surface of the inner side storage groove 11.

Pressing the control switch 24 senses the pressure of the package and activates the electric stay 7, so that only the electric stay 7 with the package placed on the surface can be activated. For facilitating the discharge of packages at designated floors as desired.

Further, in order to facilitate the guiding of the package into the external discharging box 3 by the internal extrusion plate 20, the inner side surface of the external discharging box 3 is provided with an arc-shaped guide plate 25 at the connecting end of the inclined assembling frame 9.

The package is guided into the external discharging box 3 from the oblique assembling frame 9 through the arc-shaped guide plate 25, so that the package can be conveniently horizontally translated.

Further, in order to improve the package transfer efficiency and reduce the bottom friction, the inner side surface of the bottom adjusting frame 12 is movably provided with a position-adjustable bottom guide roller.

Further, for cooperation adjustment, the inner side surface of the bottom adjusting frame 12 is provided with an inclined mounting chute 26 at the assembly end of the position-adjustable bottom guide roller, the position-adjustable bottom guide roller comprises a lateral adjusting slide block 27 and a bottom supporting wheel 28 which are slidably mounted in the inclined mounting chute 26, and the bottom supporting wheel 28 penetrates through the lateral adjusting slide block 27 through two side rotating shafts to be movably connected with the lateral adjusting slide block 27.

The adjustable bottom guide roller design is adopted, the adjustable bottom guide roller can be stored on the inner side surface of the bottom adjusting frame 12 in a normal state, after the bottom adjusting frame 12 is turned upwards, the lateral adjusting sliding block 27 slides downwards, then slides in the inclined installation sliding groove 26, and then the bottom supporting wheel 28 extends outwards, so that the package can conveniently slide into the bottom adjusting frame 12 from the upper end to the lower end.

According to the material conveying device for the intelligent hospital elevator, the inclined mounting groove 5 is formed in the inner side face of the elevator shaft of the building, the inclined containing square pipe 8 for temporarily storing and longitudinally conveying express packages is fixedly arranged on the outer side face of the main box body 1 through bolts, and the express objects are conveyed outside through the inclined assembly frames of the external feeding box 2 and the external discharging box 3, so that the express packages can be conveyed to an appointed floor quickly through the vertical elevator, resident on the appointed floor can take conveniently, an express person does not need to take the elevator to go to the door for delivering goods personally, the delivery efficiency of the express person is greatly improved, cross infection can be avoided, and the safety of the express person and a receiver is improved; the inclined accommodating square tube 8 and the inclined assembling frame 9 are horizontally arranged and put, and the inner accommodating groove 11 with the built-in bottom adjusting frame 12 is arranged on the inner side surfaces of the inclined accommodating square tube 8 and the inclined assembling frame 9, so that the electric supporting rod 7 is utilized to control overturning, the package transfer between the inclined accommodating square tube 8 and the inclined assembling frame 9 is facilitated, and the operation is very simple and convenient; the inclined accommodating square tube 8 and the inclined assembling frame 9 adopt inclined layout, and the transmission efficiency is greatly improved by utilizing the design of high outside and low inside and sliding inwards through the gravity of the package; the inner extrusion plate 20 controlled by the adjusting motor 6 is arranged on the inclined assembly frame 9, so that the inner extrusion plate is conveniently wrapped in the inclined assembly frame 9 to be discharged, and the arc-shaped guide plate 25 matched with the inner side of the external discharge box 3 is used for improving the wrapping discharge efficiency, so that the use is more convenient.

With the above-described preferred embodiments according to the present invention as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.

Claims (5)

1. A material conveyor for wisdom hospital elevator, including installing main carriage body (1) in the building elevator shaft, install external feeding case (2) on the indoor wall of building, install external row workbin (3) on the indoor wall cloth of building more than the building, install main control unit (4) on external feeding case (2) lateral surface, offer oblique mounting groove (5), accommodate motor (6) and electronic vaulting pole (7) on the building elevator shaft medial surface, characterized by: the main carriage body (1) is characterized in that an inclined accommodating square tube (8) is fixedly arranged on the outer side surface of the main carriage body (1) in a building elevator shaft through bolts, openings are formed in the ends of the inclined accommodating square tube (5) corresponding to the external feeding box (2) and the external discharging box (3), the external feeding box (2) and the external discharging box (3) are provided with an integrally-structured inclined assembling frame (9) protruding inwards of the inclined accommodating groove (5), the inclined assembling frame (9) is far away from the inner side surfaces of the external feeding box (2) and the external discharging box (3), a lateral assembling cylinder (10) for installing an adjusting motor (6) is arranged on the inner side surface of the inclined accommodating square tube (8), a plurality of inner accommodating grooves (11) are formed in the inner side surfaces of the inclined accommodating square tube (8) and the inner side surfaces of the inclined assembling box (9), and a bottom adjusting frame (12) controlled by an electric supporting rod (7) is movably assembled in the inner side accommodating grooves (11);

the bottom control groove (13) is formed in the inner bottom surface of the inclined mounting groove (5) corresponding to the position of the electric stay bar (7), a bottom mounting frame (14) for mounting the electric stay bar (7) is fixed on the lower surface of the inclined mounting frame (9) through bolts, a strip-shaped transition opening (15) matched with the electric stay bar (7) is formed in the inner bottom surface of the inner side storage groove (11), and a bottom movable connecting frame (16) used for being connected with the electric stay bar (7) is fixed on the lower end of the bottom adjusting frame (12) through bolts;

the lateral mounting frame (17) for mounting the electric stay bar (7) is fixed on the outer side surface of the main carriage body (1) below the inclined storage square tube (8) through bolts;

the inner side surface of the inclined assembly frame (9) is provided with an outwards-protruding integrated arc-shaped adjusting groove (18), a transverse adjusting screw rod (19) controlled by an adjusting motor (6) is movably arranged in the arc-shaped adjusting groove (18), an inner extruding plate (20) controlled by the transverse adjusting screw rod (19) is arranged in the inclined assembly frame (9), the outer side surface of the inner extruding plate (20) is provided with an inner thread adjusting block (21) protruding inwards the arc-shaped adjusting groove (18), and the inner extruding plate (20) is sleeved outside the transverse adjusting screw rod (19) through the inner thread adjusting block (21) and is in transmission connection with the adjusting motor (6);

the inner side surface of the inner side storage groove (11) is provided with a lateral opening close to the elevator shaft end of a building, lateral assembly blind holes are symmetrically formed in the inner side surface of the inner side storage groove (11), an integral structure installation shaft protruding towards the inside of the lateral assembly blind holes is arranged at the top end of the side wall of the bottom adjusting frame (12), and an inner installation groove for internally arranging a pressing control switch (24) is formed in the inner side surface of the inner side storage groove (11).

2. The material conveying device for intelligent hospital elevators according to claim 1, wherein: the inner extrusion plate (20) is close to the outer opening surface of the inclined assembly frame (9), and an inner damping plate (23) is elastically installed on the inner extrusion plate through a damping spring (22).

3. The material conveying device for intelligent hospital elevators according to claim 1, wherein: the inner side surface of the external discharging box (3) is positioned at the connecting end of the inclined assembling frame and is provided with an arc-shaped guide plate (25).

4. The material conveying device for intelligent hospital elevators according to claim 1, wherein: the inner side surface of the bottom adjusting frame (12) is movably provided with a position-adjustable bottom guide roller.

5. The material conveying device for intelligent hospital elevators according to claim 1, wherein: the bottom adjusting frame (12) inner side be located the bottom guide roller assembly end that the position is adjustable and set up inclined installation spout (26), the bottom guide roller that the position is adjustable include slidable mounting in side direction adjustment slider (27) and bottom sprag wheel (28) of inclined installation spout (26), bottom sprag wheel (28) run through side direction adjustment slider (27) and side direction adjustment slider (27) swing joint through both sides pivot.