CN209964136U - Hospital uses information input scanning device - Google Patents

Abstract

The embodiment of the utility model discloses a hospital uses information input scanning device, including scanning platform, install the pillar in scanning platform top one side and install at the pillar top and be located the scanning assembly directly over the scanning platform, one side of scanning platform is provided with the platform that stacks that is used for putting the data after the scanning, rotate on the pillar and install the transfer arm that is used for shifting the paper data on the scanning platform to stacking the platform, install a plurality of suction nozzles that are used for absorbing the paper on the transfer arm, carry out the transfer of paper data through the cooperation of transfer arm and suction nozzle, and scanning platform and the top of stacking the platform all install the height compensation mechanism that is used for making to keep suitable distance between paper pile top and the suction nozzle, be favorable to the paper to be absorbed and put, and scanning platform and the top of stacking the platform all install the paper pile location folded plate that is used for the paper location perpendicularly, prevent paper data from deviating from the scanning range of the scanning assembly.

Description

Hospital uses information input scanning device

Technical Field

The embodiment of the utility model provides a relate to scanning device technical field, concretely relates to hospital is with information input scanning device.

Background

The high-speed scanner is an office device which is developed in recent years and has high-efficiency electronic document scanning processing. The novel photo taking device has a folding type ultra-convenient design, is small and exquisite and portable, is high in scanning and shooting speed, can finish the shooting of text documents within 1 second, and can quickly convert scanned pictures into editable documents through an OCR character recognition function, so that the working efficiency is greatly improved. It can also be used for taking pictures, recording video, copying, network paperless fax, etc. The perfect solution of the system enables the office work to be easier, quicker and more environment-friendly, and meanwhile, the system has the system integration development capability and can provide customized development according to the requirements of customers;

the existing high-speed scanner generally comprises a scanning platform for placing the material to be scanned, an upright post installed at one side of the scanning platform, and a scanning assembly installed at the top end of the upright post and located right above the scanning platform, which has the following disadvantages in practical use:

(1) the scanning platform has no function of automatically placing scanned data, so that the data on the scanning platform needs to be manually taken down and placed, and then new data to be scanned is added, so that the operation is troublesome, the working efficiency is low, particularly when more data to be scanned exist, the working efficiency is seriously influenced, and the manpower is required to keep up nearby, so that the manpower resource is wasted;

(2) the height of the scanning assembly is adjusted and fixed before use, if the document in the form of the stack needs to be scanned and placed, along with the continuous reduction of the paper in the stack, the height of the scanning assembly or the focal length of a camera on the scanning assembly needs to be continuously dynamically adjusted, so that the focusing of the camera is clear when the height of the stack is reduced, the energy consumption is increased, the structure is complex, the production and use costs are increased, and the maintenance is difficult;

(3) the paper cannot be positioned on the scanning platform, so that the paper cannot be kept within the scanning range of the scanning assembly, or the scanning effect is influenced.

SUMMERY OF THE UTILITY MODEL

Therefore, the embodiment of the utility model provides an information input scanning device for hospital to solve prior art, because the unable automatic problem that work efficiency is low that leads to of putting the paper data after the scanning of high appearance of clapping.

In order to achieve the above object, the embodiment of the present invention discloses the following technical solutions:

the utility model provides a hospital is with information input scanning device, includes scanning platform, installs at the pillar of scanning platform top one side and install in the pillar top and be located the scanning assembly directly over the scanning platform, one side of scanning platform is provided with the platform that stacks that is used for putting the data after the scanning, rotate on the pillar and install the transfer arm, install a plurality of suction nozzle that is used for absorbing the paper on the transfer arm, a plurality of the suction nozzle passes through negative pressure mechanism and connects, install on the pillar and be used for driving the transfer arm at scanning platform top and the drive mechanism who stacks platform top reciprocating motion;

scanning platform and the top of stacking the platform all install and be used for making the height compensation mechanism who keeps suitable distance between pile top and the suction nozzle, height compensation mechanism includes the pile support plate and installs just support the elastic compensation piece at scanning platform or on stacking the platform bottom the pile support plate, scanning platform and the top of stacking the platform all install the pile location folded plate that is used for the paper location perpendicularly, be equipped with the folded plate groove that runs through its top and bottom on the pile support plate, the top of pile location folded plate is passed rather than clearance fit's folded plate groove.

Further, the driving mechanism comprises a bearing, a driven gear ring and a driving motor, wherein the bearing is sleeved with an inner ring on the support, the driven gear ring is fixedly sleeved on the outer ring of the bearing, the driving motor is fixedly installed on one side of the support, and a driving gear meshed with the driven gear ring is installed on an output shaft of the driving motor.

Further, the transfer arm is parallel to the scanning platform and the stacking platform, the transfer arm comprises a support rod and an L-shaped transfer rod, one end of the support rod is mounted on the outer ring of the bearing, the L-shaped transfer rod is perpendicularly mounted on one side of the other end of the support rod, and the suction nozzles are evenly distributed at the bottom of the L-shaped transfer rod.

As an optimal scheme of the utility model, scanning platform all is equipped with a plurality of paper supply with the top of stacking the platform and stacks the location folded plate and peg graft fixed L shape slot, a plurality of L shape slot is by scanning platform and the center of stacking the platform to the outside evenly distributed, and by the center to the outside a plurality of that distributes L shape slot's both ends length increases gradually, the folded plate groove corresponds the setting with L shape slot.

As an optimized scheme of the utility model, the bracing piece is the telescopic link, just L shape shifts the pole and all can stretch out and draw back for both ends.

Furthermore, the negative pressure mechanism comprises a negative pressure air pump, a main hose connected to a connector of the negative pressure air pump, and a plurality of branch hoses which are arranged on the main hose and used for connecting the suction nozzle.

The utility model discloses an embodiment has following advantage:

(1) the paper data scanned on the scanning platform is absorbed by the arranged transfer arm through the suction nozzle arranged at the bottom of the transfer arm, the transfer arm moves to the upper part of the stacking platform through the driving mechanism, then the suction nozzle puts down the paper, and the transfer arm reciprocates above the scanning platform and the stacking platform through the driving mechanism, so that the scanned paper data is automatically transferred and placed, the working efficiency is improved, and the labor intensity of operators is reduced;

(2) through the height compensation mechanism, no matter the paper stack on the scanning platform or the paper stack on the stacking platform has a proper distance with the suction nozzle, so that the paper can be sucked and placed conveniently;

(3) the paper or the stack is positioned by the part of the stack positioning folded plate protruding out of the top of the stack carrier plate, so that the paper or the stack is ensured to be in the scanning range of the scanning assembly, and the stack carrier plate is provided with the folded plate groove which is in clearance fit with the stack positioning folded plate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is to be understood that the drawings in the following description are merely exemplary and that other embodiments may be derived from the disclosed drawings by those skilled in the art without inventive step.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

FIG. 1 is a schematic view of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic view of a stacking platform according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a scanning platform according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a transfer arm according to an embodiment of the present invention.

In the figure:

1-a scanning platform; 2-upright post; 3-a scanning assembly; 4-stacking a platform; 5-a transfer arm; 6, a suction nozzle; 7-a negative pressure mechanism; 8-a drive mechanism; 9-a height compensation mechanism; 10-stack positioning flaps; 11-a flap slot; a 12-L shaped slot;

501-supporting rods; 502-L-shaped transfer bar;

701-negative pressure air pump; 702-a main hose; 703-branch hose;

801-bearings; 802-driven gear ring; 803-driving the motor; 804-a drive gear;

901-a palletizing plate; 902-elastic compensator.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 4, the utility model discloses a hospital uses information input scanning device is with well high appearance of clapping, it includes scanning platform 1, installs pillar 2 of scanning platform 1 top one side and install 2 tops of pillar just are located scanning assembly 3 directly over scanning platform 1 scans the data of putting at scanning platform 1 top through scanning assembly 3.

In addition, one side of scanning platform 1 is provided with the platform 4 that stacks that is used for putting the data after the scanning, rotate on the pillar 2 and install transfer arm 5, install the suction nozzle 6 that a plurality of is used for absorbing the paper on the transfer arm 5, a plurality of suction nozzle 6 is connected through negative pressure mechanism 7, install on the pillar 2 and be used for driving transfer arm 5 in scanning platform 1 top and the drive mechanism 8 of stacking platform 4 top reciprocating motion, after scanning assembly 3 is accomplished to placing at scanning platform 1 top and the paper data scanning of the superiors, drive transfer arm 5 through drive mechanism 8 and rotate to scanning platform 1's top to make suction nozzle 6 be located the paper data top of the superiors, then produce the negative pressure in making a plurality of suction nozzle 6 through negative pressure mechanism 7, thereby adsorb the paper data on suction nozzle 6, then drive transfer arm 5 rotates to the top of platform 4, the negative pressure mechanism 7 stops working, so that paper falls on the stacking platform 4 through self gravity, the paper is grabbed through the matching of the negative pressure mechanism 7 and the suction nozzle 6, and the scanned paper data are transferred through the reciprocating motion of the transfer arm 5 above the scanning platform 1 and the stacking platform 4, so that the working efficiency is improved, the labor intensity of operators is reduced, especially when the data to be scanned are more, the improvement on the working efficiency is obvious, the automation degree is high, and the waste of human resources is reduced.

In addition, when a large amount of strip scanning data are stacked on the scanning platform 1, in order to maintain the distance between the suction nozzle 6 and the uppermost layer of paper, ensure that the suction nozzle 6 can stably suck the paper, and ensure that the suction nozzle 6 has a proper distance from the top of the stacking platform 4 or the top of a stack on the stacking platform 4, so as to avoid the situation that the paper is not placed neatly due to drifting when the paper falls down caused by an excessive distance, a height compensation mechanism 9 for maintaining a proper distance between the top of the stack and the suction nozzle 6 is installed above both the scanning platform 1 and the stacking platform 4.

The scanning platform comprises a paper stack carrier 901 for placing paper materials and a plurality of elastic compensation members 902 which are arranged at the bottom of the paper stack carrier 901 and used for compensating the displacement of the paper stack carrier 901 in the vertical direction, wherein the elastic compensation members 902 are spring plungers, one ends of the spring plungers are arranged at the bottom of the paper stack carrier 901, the other ends of the spring plungers are arranged on the scanning platform 1 or the stacking platform 4, the spring plungers are uniformly distributed at the bottom of the paper stack carrier 901, when the paper materials on the paper stack carrier 901 gradually decrease, the paper stack carrier 901 is gradually jacked up by the elasticity of the spring plungers, and when the paper materials on the paper stack carrier 901 gradually increase, the paper stack carrier 901 gradually descends by the gravity of the paper stack.

Moreover, the top of each of the scanning platform 1 and the stacking platform 4 is vertically provided with a stack positioning flap 10 for positioning paper, the stack support plate 901 is provided with a flap slot 11 penetrating through the top and the bottom of the stack positioning flap 10, the top end of the stack positioning flap 10 passes through the flap slot 11 in clearance fit therewith, the stack positioning flap 10 is L-shaped, two sides of a paper or a stack are abutted against mutually perpendicular plate surfaces on two sides of the stack positioning flap 10, on one hand, the paper or the stack can be prevented from being orderly arranged, on the other hand, the paper or the stack can be ensured to be placed in the scanning range of the scanning assembly 3, the top end of the stack positioning flap 10 passes through the flap slot 11 and protrudes out of the top of the stack support plate 901, and as the number of paper at the top of the stack support plate 901 increases or decreases, the height of the stack positioning flap 10 protruding out of the top 901 of the paper stack support plate increases or decreases continuously to adapt to the placement of paper stacks with different thicknesses, the placement of the paper stack is convenient, and the paper stack is prevented from being deviated when the transfer arm 5 drags the paper stack, so that the paper is prevented from falling out of the scanning range of the scanning assembly 3.

Further, the driving mechanism 8 includes a bearing 801 whose inner ring is sleeved on the pillar 2, a driven gear ring 802 fixedly sleeved on the outer ring of the bearing 801, and a driving motor 803 fixedly installed on one side of the pillar 2, a driving gear 804 meshed with the driven gear ring 802 is installed on an output shaft of the driving motor 803, the output shaft of the driving motor 803 intermittently rotates forward and backward, and the driving gear 804 drives the driven gear ring 802 and the outer ring of the bearing 801 to correspondingly rotate, so that the transferring arm 5 installed on the outer ring of the bearing 801 swings back and forth above the scanning platform 1 and the stacking platform 4.

Preferably, the transfer arm 5 is parallel to the scanning platform 1 and the stacking platform 4, the transfer arm 5 includes one end and is installed the support rod 501 on the outer ring of the bearing 801, and is vertically installed the L-shaped transfer rod 502 and the plurality of suction nozzles 6 are uniformly distributed at the bottom of the L-shaped transfer rod 502, the suction nozzles 6 at the bottom of the L-shaped transfer rod 502 and the bottom of the L-shaped transfer rod 502 are located at the blank positions of the two adjacent sides of the paper, and the stacking platform 4 and the L-shaped transfer rod 502 are located at the same side of the scanning platform 1, so that the L-shaped transfer rod 502 cannot appear in the scanning range of the scanning assembly 3 when reciprocating above the scanning platform 1 and the stacking platform 4, and the improvement of the working efficiency is facilitated.

Preferably, a plurality of L-shaped slots 12 are formed in the tops of the scanning platform 1 and the stacking platform 4, the L-shaped slots 12 are evenly distributed from the center of the scanning platform 1 to the outside of the stacking platform 4, and the L-shaped slots 12 are distributed from the center to the outside, the lengths of the two ends of each L-shaped slot 12 are gradually increased, the flap slots 11 are correspondingly formed with the L-shaped slots 12, the arranged L-shaped slots 12 facilitate quick assembly and disassembly of the stack positioning flaps 10, the L-shaped slots 12 and the flap slots 11 with different lengths and sizes are adapted to installation of the stack positioning flaps 10 with different sizes, and the stack positioning flaps 10 with different sizes can be used for positioning paper sheets with different sizes such as A3, a4 and a5, and the scanning platform 1 and the stacking platform 4 are simple in structure, ingenious in design, and good in practicability.

Preferably, the supporting rod 501 is a telescopic rod, the L-shaped transfer rod 502 is telescopic at two ends, and the transfer arm 5 is adapted to the absorption of paper of different models through the telescopic rod 501 and the telescopic rod 502, so that the cost for replacing the transfer arm 5 is saved, and the operation is convenient.

Preferably, the negative pressure mechanism 7 includes a negative pressure air pump 701, a main hose 702 connected to an interface of the negative pressure air pump 701, and a plurality of branch hoses 703 mounted on the main hose 702 for connecting the suction nozzle 6, the negative pressure pump 701 may be fixed on the pillar 2, the main hose 701 may be laid and fixed along the support rod 501 and the L-shaped transfer rod 502, and the main hose 701 may be a telescopic bellows to accommodate the stretching of the main hose 701 caused by the movement of the transfer arm 5.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (6)

1. The utility model provides a hospital uses information input scanning device, includes scanning platform (1), installs pillar (2) of scanning platform (1) top one side and install pillar (2) top just is located scanning assembly (3) directly over scanning platform (1), its characterized in that, one side of scanning platform (1) is provided with the platform (4) that stacks that is used for putting the data after the scanning, rotate on pillar (2) and install transfer arm (5), install a plurality of suction nozzle (6) that are used for absorbing the paper on transfer arm (5), a plurality of suction nozzle (6) are connected through negative pressure mechanism (7), install on pillar (2) and be used for driving transfer arm (5) scanning platform (1) top and stack platform (4) top reciprocating motion's actuating mechanism (8);

the height compensation mechanism (9) used for keeping a proper distance between the top of a stack and the suction nozzle (6) is arranged above the scanning platform (1) and the stacking platform (4), the height compensation mechanism (9) comprises a stack support plate (901) used for placing paper materials and an elastic compensation piece (902) arranged at the bottom of the stack support plate (901) and used for compensating the displacement of the stack support plate (901) in the vertical direction, stack positioning folded plates (10) used for positioning paper are vertically arranged at the tops of the scanning platform (1) and the stacking platform (4), the stack support plate (901) is provided with folded plate grooves (11) penetrating through the tops and the bottoms of the stack positioning folded plates, and the top ends of the stack positioning folded plates (10) penetrate through the folded plate grooves (11) in clearance fit with the stack positioning folded plates.

2. The information recording and scanning device for the hospital as recited in claim 1, wherein the driving mechanism (8) comprises a bearing (801) sleeved on the pillar (2) at the inner ring, a driven gear ring (802) fixedly sleeved on the outer ring of the bearing (801), and a driving motor (803) fixedly installed on one side of the pillar (2), and a driving gear (804) meshed with the driven gear ring (802) is installed on an output shaft of the driving motor (803).

3. An information entry scanning device for hospitals according to claim 2, characterized in that said transfer arm (5) is parallel to the scanning platform (1) and the stacking platform (4), said transfer arm (5) comprises a support rod (501) with one end mounted on the outer ring of said bearing (801), and an L-shaped transfer rod (502) vertically mounted on one side of the other end of said support rod (501), and a plurality of said suction nozzles (6) are uniformly distributed on the bottom of said L-shaped transfer rod (502).

4. The hospital information entry scanning device according to claim 1, wherein a plurality of L-shaped slots (12) for inserting and fixing the stack positioning flap (10) are formed in the top of each of the scanning platform (1) and the stacking platform (4), the plurality of L-shaped slots (12) are uniformly distributed from the center of the scanning platform (1) to the outside of the stacking platform (4), the lengths of the two ends of the plurality of L-shaped slots (12) distributed from the center to the outside are gradually increased, and the flap slots (11) are arranged corresponding to the L-shaped slots (12).

5. A hospital information entry scanning device according to claim 3, wherein the supporting rod (501) is a telescopic rod, and the L-shaped transfer rod (502) is telescopic at both ends.

6. A hospital information entry scanning device according to claim 1, wherein the negative pressure mechanism (7) comprises a negative pressure air pump (701), a main hose (702) connected to the interface of the negative pressure air pump (701), and a plurality of branch hoses (703) mounted on the main hose (702) for connecting suction nozzles (6).

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