CN115258328B - Coding identification system and hospital asset coding identification method - Google Patents

Abstract

The invention relates to the technical field of hospital asset management, and particularly discloses a coding identification system and a hospital asset coding identification method. The coding identification system comprises a support frame, a labeling mechanism, a cutting mechanism, a pressing mechanism and a data processing module; the labeling mechanism comprises a rolling assembly and a driving assembly, wherein the rolling assembly is used for discharging label strips, rolling label residues and release paper; the driving assembly is configured to drive the first winding drum to rotate; the cutting mechanism is arranged on the support frame in a lifting manner and is configured to cut off the corresponding label body from the label residual material; the pressing mechanism can press the label body cut by the cutting mechanism on the corresponding to-be-posted piece; the data processing module is configured to store identification code information of the to-be-posted piece and identify two-dimensional code information on the tag body so as to establish a mapping relation between the identification code and the two-dimensional code. The code identification system can realize automatic posting of the two-dimension code notes, is high in efficiency and can ensure posting quality.

Description

Coding identification system and hospital asset coding identification method

Technical Field

The invention relates to the technical field of hospital asset management, in particular to a coding identification system and a hospital asset coding identification method.

Background

In the repair process of the space, equipment or facility of the hospital, the codes of the space, equipment or facility are required to be filled first, the repair position is determined, then the repair process is initiated, after the maintenance personnel arrive at the designated position, the codes of the space, equipment or facility are required to be filled to determine that the designated position is reached, the equipment or facility which needs to be repaired is found, and the subsequent operations such as repair and the like are started. In order to facilitate management, save time for manually filling in position information and avoid human filling in errors, two-dimensional code labels are usually posted on spaces, equipment or facilities in the prior art. However, in the prior art, the two-dimension code label is usually posted manually, so that the operator can paste the two-dimension code label one by one, the posting efficiency is low, a certain quality defect exists, the phenomena of askew, uneven adhesion, wrinkling and the like of the two-dimension code label are easily caused, and when the two-dimension code label is used for logistic management, the two-dimension code information cannot be effectively identified, so that the scanning code report, maintenance, transportation and the like are invalid.

Therefore, it is needed to provide a code identification system and a hospital asset code identification method to solve the above problems.

Disclosure of Invention

The invention aims to provide a coding identification system and a hospital asset coding identification method, which can realize automatic posting of two-dimension code notes, have higher efficiency and can ensure posting quality.

The technical scheme adopted by the invention is as follows:

the utility model provides a code identification system for paste the label body on the label strip on waiting to post the piece, every wait to post the piece and all have the identification code of one-to-one, the label strip includes from type paper, label body and label clout, a plurality of the label body interval inlay locate in the label clout, the label body with the label clout all paste in on the type paper, the label body deviates from the one side printing of type paper has the two-dimensional code, code identification system includes:

a support frame;

the labeling mechanism comprises a rolling assembly and a driving assembly, wherein the rolling assembly comprises a first winding drum, a second winding drum and a third winding drum which are all rotatably arranged on the supporting frame, the second winding drum is wound with the label strip, the free end of the label residual is fixed on the first winding drum, the free end of the release paper is fixed on the third winding drum, and the second winding drum is in transmission connection with the third winding drum; the drive assembly is configured to drive the first spool to rotate;

A cutting mechanism arranged on the supporting frame in a lifting manner, wherein the cutting mechanism is configured to cut off the corresponding label body from the label residual material;

the pressing mechanism is arranged on the supporting frame and can press the label body cut by the cutting mechanism onto the corresponding to-be-posted piece;

the data processing module is arranged on the supporting frame and is configured to store the identification code information of the to-be-posted piece and identify the two-dimensional code information on the tag body so as to establish the mapping relation between the identification code and the two-dimensional code.

As a preferred embodiment of the coded identification system, the cutting mechanism comprises:

the mounting frame is arranged on the supporting frame in a lifting manner;

the two mounting rods are arranged on the mounting frame in parallel at intervals, each mounting rod is provided with a vertical groove extending along the length direction of the mounting rod, each mounting rod is also provided with a plurality of transverse grooves perpendicular to the vertical grooves, and the transverse grooves are arranged in parallel and at intervals along the length direction of the corresponding mounting rod;

the cutting knife comprises a transverse blade and a longitudinal blade, wherein the longitudinal blade can be inserted into the vertical groove of the mounting rod, and two ends of the transverse blade can be respectively inserted into two opposite transverse grooves on the mounting rod.

As a preferable scheme of the coding identification system, a guide chute is arranged on the mounting frame, a sliding piece is arranged on the mounting rod, and the sliding piece is in sliding fit with the guide chute;

the number of the transverse blades is multiple, and the lengths of the transverse blades are not the same; the number of the longitudinal blades is a plurality, and the sizes of the longitudinal blades are not the same.

As a preferred version of the coded identification system, the drive assembly comprises:

the connecting piece is arranged on the mounting frame;

the driving rack is arranged on the connecting piece;

the driving gear is connected with the first winding drum and meshed with the driving rack;

the belt and two belt pulleys are respectively connected with the second winding drum and the third winding drum, and the belt is wound on the peripheries of the second winding drum and the third winding drum.

As a preferable scheme of the coding identification system, the first winding drum is a one-way roller, and the cutting mechanism further comprises a reset piece, wherein the reset piece is positioned between the mounting frame and the supporting frame.

As a preferable scheme of the coding identification system, the driving assembly further comprises an adjusting piece, a plurality of adjusting holes which are arranged at intervals along the vertical direction are formed in the connecting piece, and the adjusting piece can be fixed on the driving rack and selectively penetrate through any adjusting hole.

As a preferred embodiment of the coded identification system, the pressing mechanism includes:

the pressure rod is arranged on the support frame;

the pressure block is connected to the pressure rod in a sliding manner and is detachably connected with the pressure rod.

As a preferred embodiment of the coded identification system, the data processing module includes:

the camera is used for acquiring the two-dimensional code information on the tag body and transmitting the two-dimensional code information to the control unit of the coding identification system;

and the input key is used for inputting the identification code of the to-be-posted piece and transmitting the identification code to the control unit so as to establish a mapping relation between the two-dimensional code information and the identification code.

As a preferable scheme of the coding identification system, the identification code comprises N groups of character strings, each group of character strings is an arrangement of a letters and b numbers, wherein N is more than or equal to 1, and N is a positive integer; a is more than or equal to 0, and a is a positive integer; b is more than or equal to 0, and b is a positive integer.

The invention also provides a hospital asset coding identification method based on the coding identification system according to any scheme, which comprises the following steps:

step S1: the driving assembly drives the first winding drum to rotate so as to enable one of the label bodies to move to the position right above the to-be-posted piece;

Step S2: the label body is cut off from the label residual material by a cutting mechanism;

step S3: the pressing mechanism presses the label body cut by the cutting mechanism on the to-be-posted piece;

step S4: the data processing module stores the identification code information of the to-be-posted piece and identifies the two-dimensional code information on the tag body so as to establish a mapping relation between the identification code and the two-dimensional code.

The beneficial effects of the invention are as follows:

the invention provides a coding identification system, wherein a support frame plays a role in integrally supporting a labeling mechanism, a cutting mechanism, a pressing mechanism and a data processing module; by arranging the labeling mechanism, when the driving assembly drives the first winding drum to rotate, the second winding drum and the third winding drum are driven to synchronously rotate through the label strip, so that the separation among the label body, the label surplus material and the release paper, the rolling of the release paper and the rolling of the label surplus material can be realized; through setting up shutdown mechanism and pressing mechanism, shutdown mechanism can cut off the label body from the label clout, and pressing mechanism can paste the label body of cutting off on waiting to paste the piece to realize automatic labeling operation, need not the manual work and operated piece by piece, very big saving the cost of labor, it is higher to paste efficiency, and can also guarantee the quality of pasting of label body, makes it can laminate on waiting to paste the piece smoothly, avoids appearing the phenomenon of fold; through setting up data processing module, can establish the mapping relation between the two-dimensional code information on the label body and the identification code of this piece of waiting to post itself to make things convenient for the maintenance personal to fix a position of waiting to post fast, so that wait to post to carry out quick maintenance operation.

The invention also provides a hospital asset coding identification method, which can realize quick posting of the hospital asset identification, and can establish a mapping relation between the two-dimensional code information on the label body and the identification code of the to-be-posted piece, thereby facilitating quick positioning of the to-be-posted piece by maintenance personnel, facilitating quick maintenance operation of the to-be-posted piece and convenient digital management of the hospital asset.

Drawings

FIG. 1 is a schematic view of a label strip according to a first embodiment of the present invention;

FIG. 2 is an exploded view of a coded identification system according to a first embodiment of the present invention;

FIG. 3 is a schematic explosion diagram of a coded identification system according to a first embodiment of the present invention;

FIG. 4 is a schematic diagram of a cutoff mechanism and a drive assembly of a coded identification system according to a first embodiment of the present invention;

FIG. 5 is an exploded view of the drive assembly of the coded identification system provided in accordance with one embodiment of the present invention;

FIG. 6 is an exploded view of a coded identification system according to a first embodiment of the present invention;

FIG. 7 is a flowchart I of a hospital asset code identification method provided by a third embodiment of the present invention;

fig. 8 is a flowchart II of a hospital asset coding identification method according to the third embodiment of the present invention.

In the figure:

100-tag strips; 101-release paper; 102-tag body; 103-label remainder;

1-a supporting frame; 11-a handle; 12-limiting holes; 13-a first accommodation groove; 14-a second accommodating groove;

2-a labeling mechanism; 21-a winding assembly; 211-a first reel; 212-a second reel; 213-a third reel; 214-a connecting rod; 22-a drive assembly; 221-a connector; 2211-a regulating hole; 222-driving a rack; 223-a drive gear; 224-pulleys; 225-an adjusting member; 226-fastening bolts;

3-a cutting mechanism; 31-mounting frame; 301-mounting plates; 302-mounting posts; 303-connecting rods; 311-guiding chute; 312-avoiding holes; 32-mounting a rod; 321-vertical grooves; 322-transverse grooves; 33-a slider; 34-a reset member; 35-limiting piece; 36-fixing piece;

4-a pressing mechanism; 41-a pressure bar; 42-a pressure block; 43-limit rings;

a 5-data processing module; 51-a display screen; 52-a camera; 53-input keys.

Detailed Description

The invention is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present invention are shown in the drawings.

In the description of the present invention, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In the present invention, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are orientation or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of operation, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the invention. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for distinguishing between them.

Example 1

The present embodiment provides a coded identification system capable of attaching a tag body 102 printed with a two-dimensional code as shown in fig. 1 to a to-be-posted member. In this embodiment, the coded identification system is applied to the field of hospital asset management, and is used for labeling a space, equipment or facility of a hospital, and the to-be-posted piece mainly refers to the space, equipment or facility of the hospital. Of course, in other embodiments, the coded identification system can also be used for labeling of products and equipment which need to be uniformly managed in other fields.

Specifically, as shown in fig. 1, the existing two-dimensional code strip 100 generally includes a release paper 101, a label body 102 and a label remainder 103, wherein a plurality of label bodies 102 are embedded in the label remainder 103 at intervals, the label body 102 and the label remainder 103 are both adhered to the release paper 101, and a two-dimensional code is printed on one side of the label body 102 away from the release paper 101, and can uniquely determine a to-be-posted piece. Conventionally, manual pasting is generally adopted, an operator holds the tag tape 100, tears the tag body 102 from the release paper 101 one by one, and pastes it onto a corresponding piece of to be posted. However, by adopting the mode, the posting efficiency is low, certain quality defects exist, phenomena such as askew, uneven adhesion, non-adhesion with the wall surface, wrinkling and the like of the two-dimensional code are easily caused, and when the two-dimensional code is used for logistic management, the two-dimensional code information cannot be effectively identified, so that the scanning code report, maintenance, transportation and the like are invalid.

In order to solve the above problems, as shown in fig. 2 to 6, the code marking system provided in this embodiment includes a support frame 1, a labeling mechanism 2, a cutting mechanism 3, a pressing mechanism 4, and a data processing module 5; the labeling mechanism 2 comprises a rolling assembly 21 and a driving assembly 22, wherein the rolling assembly 21 comprises a first winding drum 211, a second winding drum 212 and a third winding drum 213 which are all rotatably arranged on the support frame 1, a label strip 100 is wound on the second winding drum 212, the free end of a label residual 103 is fixed on the first winding drum 211, the free end of a release paper 101 is fixed on the third winding drum 213, and the second winding drum 212 is in transmission connection with the third winding drum 213; the drive assembly 22 is configured to drive the first spool 211 in rotation; the cutting mechanism 3 is arranged on the support frame 1 in a lifting manner, and the cutting mechanism 3 is configured to cut the corresponding label body 102 from the label residual 103; the pressing mechanism 4 is arranged on the support frame 1, and the pressing mechanism 4 can press the label body 102 cut off by the cutting mechanism 3 on the corresponding to-be-posted piece; the data processing module 5 is disposed on the supporting frame 1, and the data processing module 5 is configured to store identification code information of the to-be-posted piece and identify two-dimensional code information on the tag body 102, so as to establish a mapping relationship between the identification code and the two-dimensional code.

The code identification system provided by the embodiment has the advantages that the support frame 1 plays a role in integrally supporting the labeling mechanism 2, the cutting mechanism 3, the pressing mechanism 4 and the data processing module 5; by arranging the labeling mechanism 2, when the driving assembly 22 drives the first winding drum 211 to rotate, the second winding drum 212 and the third winding drum 213 are driven by the label strip 100 to synchronously rotate, so that the separation among the label body 102, the label residual 103 and the release paper 101, the winding of the release paper 101 and the winding of the label residual 103 can be realized; by arranging the cutting mechanism 3 and the pressing mechanism 4, the cutting mechanism 3 can cut the label body 102 from the label residual 103, and the pressing mechanism 4 can post the cut label body 102 on a to-be-posted piece, so that automatic labeling operation is realized, manual piece by piece operation is not needed, the labor cost is greatly saved, the posting efficiency is higher, the posting quality of the label body 102 can be ensured, the label body can be flatly attached to the to-be-posted piece, and the phenomenon of wrinkles is avoided; by arranging the data processing module 5, a mapping relationship between the two-dimensional code information on the tag body 102 and the identification code of the to-be-posted piece can be established, so that a maintainer can conveniently and quickly locate the position of the to-be-posted piece, and quick maintenance operation can be performed on the to-be-posted piece.

Alternatively, the first spool 211, the second spool 212 and the third spool 213 are all rotatably disposed on the support frame 1 via the link 214.

Further, the cutting mechanism 3 comprises a mounting frame 31, a cutting knife and two mounting rods 32, and the mounting frame 31 is arranged on the support frame 1 in a lifting manner; the two mounting rods 32 are arranged on the mounting frame 31 in parallel at intervals, each mounting rod 32 is provided with a vertical groove 321 extending along the length direction of the mounting rod, each mounting rod 32 is also provided with a plurality of transverse grooves 322 perpendicular to the vertical grooves 321, and the plurality of transverse grooves 322 are arranged in parallel and at intervals along the length direction of the corresponding mounting rod 32; the cutter comprises a transverse blade and a longitudinal blade, the longitudinal blade can be inserted into the vertical groove 321 of the mounting rod 32, and two ends of the transverse blade can be respectively inserted into two opposite transverse grooves 322 on the two mounting rods 32. The rectangular shape enclosed by the two transverse blades and the two longitudinal blades is the same as the shape of the single label body 102, and the rectangular size enclosed by the two transverse blades and the two longitudinal blades is equal to or slightly larger than the size of the single label body 102, so that the label body 102 can be completely cut from the label remainder 103.

Further, a guiding chute 311 is arranged on the mounting frame 31, a sliding piece 33 is arranged on the mounting rod 32, and the sliding piece 33 is in sliding fit with the guiding chute 311; the number of the transverse blades is multiple, and the lengths of the transverse blades are not the same; the number of longitudinal blades is plural, and the sizes of the plural longitudinal blades are not the same. Before the label body 102 is posted, an operator can select two transverse blades and two longitudinal blades with proper lengths according to the size of the label body 102, then adjust the distance between the two mounting rods 32 according to the length of the transverse blades, respectively insert the two longitudinal blades into the vertical grooves 321 of the two mounting rods 32, respectively insert the two ends of the transverse blades into the two opposite transverse grooves 322 on the two mounting rods 32, so as to adapt to the sizes of different label bodies 102, and further improve the universality of the coding identification system.

In order to avoid the relative movement of the mounting rod 32 with respect to the mounting frame 31 during the cutting of the tag body 102 by the cutter, the cutting mechanism 3 further comprises a fixing member 36, wherein the fixing member 36 is used for fixing the relative position between the mounting rod 32 and the mounting frame 31, so that the mounting rod 32 and the mounting frame 31 are always kept relatively stationary when the cutter cuts the tag body 102. In the present embodiment, the slider 33 is a sliding screw, and the fixing member 36 is a fixing nut. The two ends of each mounting rod 32 are fixedly provided with sliding screws, and one end of each sliding screw, which is far away from each mounting rod 32, passes through the guide sliding groove 311 and is screwed on the fixing nut, so that the adjustment and the fixation of the relative position between the mounting rod 32 and the mounting frame 31 are realized; when the distance between the two mounting rods 32 needs to be adjusted, the fixing nuts are only required to be unscrewed, the mounting rods 32 are manually pushed, the sliding piece 33 slides along the guide sliding groove 311, and after the adjustment is completed, the fixing nuts are screwed on the sliding screw.

Optionally, scale marks are arranged on the mounting frame 31 along the extending direction of the guide chute 311 so as to realize accurate adjustment of the distance between the two mounting rods 32, and the scale marks are positioned on one side of the guide chute 311, so that an operator can observe and adjust conveniently.

Further, as shown in fig. 3 to 6, the driving assembly 22 includes a connection member 221, a driving rack 222, a driving gear 223, a belt, and two pulleys 224, and the connection member 221 is disposed on the mounting frame 31; the driving rack 222 is disposed on the connecting member 221; the driving gear 223 is connected with the first reel 211 and meshed with the driving rack 222; two pulleys 224 are connected to the second drum 212 and the third drum 213, respectively, and a belt is wound around the outer circumferences of the second drum 212 and the third drum 213. When the mounting frame 31 moves upwards along the supporting frame 1, the driving rack 222 can be driven to move upwards, so that the driving gear 223 is driven to rotate, the third winding drum 213 and the belt pulley 224 arranged on the third winding drum are driven to rotate by the label residual 103, and then the second winding drum 212 is driven to rotate by the belt, so that the discharging of the label strip 100, the rolling of the label residual 103 and the rolling of the release paper 101 are realized.

In this embodiment, the connecting member 221 is connected with the mounting frame 31 by fastening bolts 226, so that the connection is stable, the disassembly and assembly are convenient, and the cost is low.

Alternatively, the connecting piece 221 is in a curved bar structure, the connecting piece 221 is provided with an accommodating groove, the driving rack 222 is located in the accommodating groove, and displacement of the driving rack 222 in the horizontal direction can be limited.

It will be appreciated that if it is desired that the coded identification system be capable of continuous operation, the length of the drive rack 222 may be significant, not only inconvenient for the operator, but also difficult to store and costly to manufacture. To solve this problem, in the present embodiment, the first spool 211 is a one-way roller, and the cutting mechanism 3 further includes a reset member 34, the reset member 34 being located between the mounting frame 31 and the support frame 1. Specifically, after the label body 102 is posted once, the mounting frame 31 resets under the elastic force of the resetting member 34, and drives the driving rack 222 to move downwards, and simultaneously drives the driving gear 223 to rotate, and since the first roller 211 is a unidirectional roller, the first roller 211 does not rotate along with the rotation of the driving gear 223, so that the phenomenon that the label strip 100 is retracted along with the resetting of the driving rack 222 is avoided.

Optionally, the restoring member 34 is a spring, which has a larger elastic restoring force, is convenient to obtain materials, and has lower production cost. Optionally, the number of the reset pieces 34 is four, and the four reset pieces 34 are respectively arranged at four corners of the mounting frame 31, so as to improve the stability of the connection between the mounting frame 31 and the supporting frame 1.

In the present embodiment, the second roll 212 and the third roll 213 are unidirectional rolls.

Further, the cutting mechanism 3 further comprises a limiting piece 35, a limiting hole 12 is formed in the support frame 1, and the limiting piece 35 is arranged in the limiting hole 12 in a penetrating mode and can be abutted to the mounting frame 31 to limit the maximum displacement of the mounting frame 31 along the movement of the support frame 1. Specifically, in the present embodiment, the limiting member 35 is a limiting bolt, and the limiting hole 12 is a threaded hole. Optionally, the quantity of spacing hole 12 is a plurality of, and a plurality of spacing holes 12 set up along the circumference interval of support frame 1, and every spacing hole 12 all corresponds a locating part 35, and a plurality of locating parts 35 divide while butt mounting bracket 31, guarantee the even atress of mounting bracket 31, improve spacing effect. In the present embodiment, the number of the limiting holes 12 is four.

In order to ensure that the cutting mechanism 3 can accurately and completely cut off the label body 102 from the label remainder 103, it is necessary to control the rotation amount of the driving gear 223 driven by the driving rack 222 each time, in this embodiment, the driving assembly 22 further includes an adjusting member 225, the connecting member 221 is provided with a plurality of adjusting holes 2211 arranged at intervals along the vertical direction, and the adjusting member 225 can be fixed on the driving rack 222 and selectively inserted into any adjusting hole 2211. Before the labeling operation, the position of the driving rack 222 on the connecting piece 221 needs to be adjusted, so that the distance between the meshing position of the driving rack 222 and the driving gear 223 and the bottom of the driving rack 222 is ensured to be the distance between the two label bodies 102. In this embodiment, the adjusting member 225 is specifically an adjusting bolt, and the adjusting hole 2211 is a threaded hole.

Optionally, the number of the adjusting members 225 is plural, and the plurality of adjusting members 225 simultaneously lock the driving rack 222 and the connecting member 221 to ensure stable connection between the driving rack 222 and the connecting member 221. In the present embodiment, the number of the adjusting members 225 is four.

Further, an avoidance hole 312 for avoiding the pressing mechanism 4 is formed in the mounting frame 31, and the projection of the pressing mechanism 4 in the horizontal plane is located between the two mounting rods 32. Specifically, the support frame 1 has a hollow rectangular parallelepiped structure with an opening at the bottom. The mounting frame 31 comprises a mounting plate 301, four mounting columns 302 and two connecting rods 303, the top of the mounting plate 301 is connected with the inner top of the support frame 1 through a reset piece 34, and the avoiding hole 312 is positioned on the mounting plate 301; four erection columns 302 are arranged at four corners of the bottom of the erection plate 301, wherein a connecting rod 303 is connected between two erection columns 302, another connecting rod 303 is connected between the other two erection columns 302, and the connecting rod 303 is provided with the guide chute 311. The stopper 35 abuts against the bottom of the mounting plate 301.

When the winding assembly 21 is installed, the label strip 100 is first wound on the second roll 212, a small part of the label stock 103 and the label body 102 are torn away from the release paper 101, the free end of the release paper 101 is fixed on the third roll 213, and the free end of the label stock 103 passes between the mounting plate 301 and the mounting rod 32 and is then fixed on the first roll 211. When the labeling operation is carried out, the coding identification system is fixed on a piece to be posted through the four support columns 302, so that the four support columns 302 are positioned around the position to be posted; an operator presses the support frame 1 to enable the support frame 1 to relatively displace with the mounting frame 31, so that the driving gear 223 is driven to rotate through the driving rack 222, the first winding drum 211 is driven to rotate, and the third winding drum 213 and the second winding drum 212 are driven to rotate through the label residual 103, so that the label body 102 moves to be right above a position to be posted of a piece to be posted; along with the relative movement between the support frame 1 and the mounting frame 31, the pressing mechanism 4 can move downwards relative to the mounting rod 32 until the pressing mechanism 4 contacts with the tag body 102, when the pressing mechanism 4 continues to move downwards, the tag body 102 is cut off under the joint extrusion of the pressing mechanism 4 and the cutting knife on the mounting rod 32, and then the tag body 102 is pressed on a piece to be posted by the pressing mechanism 4, so that the posting operation of the tag body 102 is completed; the operator transfers the coded identification system to the next piece to be posted, and under the action of the elastic restoring force of the restoring piece 34, the mounting frame 31 drives the driving rack 222 to move downwards relative to the supporting frame 1 to restore to the original position under the action of the elastic restoring force of the restoring piece 34, so that the meshing position of the driving rack 222 and the driving gear 223 is restored to the original position, and the first winding drum 211 is a unidirectional roller, so that the label strip 100 cannot fall back along with the restoration of the driving rack 222; and after the operator transfers the coded identification system to the next to-be-posted piece, continuing the labeling operation according to the operation steps.

Further, the data processing module 5 includes a camera 52 and an input key 53, where the camera 52 is used to obtain two-dimensional code information on the tag body 102 and transmit the two-dimensional code information to a control unit of the code identification system; the input key 53 is used for inputting the identification code of the to-be-posted, and transmitting the identification code to the control unit, so as to establish a mapping relationship between the two-dimensional code information and the identification code. Alternatively, the input key 53 may be a keyboard provided on the support frame 1.

Optionally, the data processing module 5 further includes a storage medium, and the support frame 1 is provided with a first accommodating groove 13, where the storage medium is accommodated in the first accommodating groove 13. When an operator inputs the identification code of the to-be-posted piece, the identification code can be selected to be directly transmitted into a logistics management system of a hospital through WIFI, a mapping relation between two-dimensional code information on the sign body 102 and the identification code is established, or the identification code can be directly stored in a storage medium, a stored data structure is stored through a hash table, a mapping relation between the two-dimensional code information on the sign body 102 and the identification code is established, the logistics system can be input after all the sign bodies 102 are posted, and a relation between the corresponding two-dimensional code and the identification code is established.

Further, the data processing module 5 further comprises a display screen 51, and when the operator inputs the identification code of the to-be-posted piece, the identification code can be displayed on the display screen 51 so as to be checked by the operator, thereby ensuring that the operator can accurately input the identification code of the to-be-posted piece.

Further, the support frame 1 further includes a second accommodating groove 14, where the second accommodating groove 14 is used for accommodating a battery. Of course, the coded identification system may be pre-charged prior to use or may be powered by a battery in the second housing 14.

It should be noted that, the identification codes and the to-be-posted piece are in a one-to-one correspondence, but the two-dimensional codes on the tag body 102 are not in a one-to-one correspondence, one identification code can correspond to a plurality of two-dimensional codes, and one two-dimensional code corresponds to only one identification code. In the labeling operation, a plurality of label bodies 102 can be posted for the same to-be-posted piece, and any label body 102 on the to-be-posted piece can be identified as the to-be-posted piece in a hospital system when a subsequent operator scans codes.

Further, the pressing mechanism 4 includes a pressure lever 41 and a pressure block 42, the pressure lever 41 being provided on the support frame 1; the pressure block 42 is slidably coupled to the pressure bar 41 and is detachably coupled to the pressure bar 41. The pressure bar 41 and the pressure block 42 are connected in a detachable connection mode, and the pressure block 42 can be replaced according to the size of the tag body 102, so that the bottom surface size of the pressure block 42 is equal to or slightly larger than the size of the tag body 102, and the tag body 102 can be completely and flatly posted on a piece to be posted; by arranging the pressure rod 41 and the pressure block 42 to slide relatively, after the pressure block 42 contacts with the tag body 102, the pressure block 42 can move upwards for a certain distance relative to the pressure rod 41, so as to play a role of buffering.

Specifically, in this embodiment, the pressing mechanism 4 further includes a transparent member, the pressure block 42 is provided with a through hole along the vertical direction, the transparent member is disposed at the bottom of the pressure block 42 to block the opening of the through hole, the camera 52 is disposed at the bottom of the pressure rod 41, one end of the pressure rod 41 deviating from the support frame 1 is disposed in the through hole in a penetrating manner, and the camera 52 obtains the two-dimensional code information on the tag body 102 located right below the transparent member through the transparent member.

Further, the pressing mechanism 4 further includes a limiting ring 43, and the limiting ring 43 is sleeved on the pressure rod 41 to limit the maximum displacement of the pressure block 42 relative to the movement of the pressure rod 41, so as to avoid damage to the camera 52 caused by collision between the camera 52 and the transparent member. Optionally, the stop collar 43 is made of rubber, so that the stop effect is good and the stop collar is not easy to damage.

Further, the top of support frame 1 still is provided with handle 11, and operating personnel is through holding handle 11 and is pressed support frame 1 or shift this coding identification system, convenient operation. Alternatively, the handle 11 has a D-shaped cross-section for easy grasping by an operator.

The coded identification system provided by the embodiment realizes the requirement of establishing a hospital asset identification system. The data processing module 5 can establish the corresponding relation between the two-dimensional code on the posted tag body 102 and the identification code in the hospital logistics system, can post a plurality of tag bodies 102 for the same asset, is convenient for operators to perform code scanning operation at any required position, does not need to find the corresponding space, equipment or facility and other positions of the tag bodies 102 by using a manual bill Zhang Caozuo, can randomly select the posted position, and inputs the corresponding identification code; the code identification system can also realize that after the label body 102 is posted once, the code identification system automatically resets to the initial state of the next label body 102; the cutting mechanism 3 and the pressing mechanism 4 cooperate to enable the pasting operation of the tag body 102 of different sizes.

Example two

In the prior art, the identification code of the space, the equipment or the facility of the hospital is usually a serial number, and the serial number has no meaning, is inconvenient for operators to quickly position the specific position of the space, the equipment or the facility, is easy to cause errors, and brings unnecessary trouble to maintenance work.

In order to solve the above-mentioned problems, the present embodiment provides a coding method of an identification code, where the identification code and a to-be-posted piece are in a one-to-one correspondence. In the present embodiment, the poster to be posted mainly refers to a space, equipment or facility of a hospital. Of course, in other embodiments, the poster to be posted may also refer to other spaces, devices, or facilities that require unified management.

Specifically, the identification code of the to-be-posted piece comprises N groups of character strings, each group of character strings is an arrangement of a letters and b numbers, wherein N is more than or equal to 1, and N is a positive integer; a is more than or equal to 0, and a is a positive integer; b is more than or equal to 0, and b is a positive integer.

Further, the encoding method of the identification code provided in this embodiment includes the following steps:

step S1: determining the content of the identification code, and executing step S2 if the identification code is space coding; if the identification code is the equipment code, executing step S3; if the identification code is facility code, executing step S4;

Step S2: sequentially inputting character strings representing spatial positions of the respective groups displayed on the display screen 51;

step S3: sequentially inputting character strings representing the device positions of the respective groups displayed in the display screen 51;

step S4: the character strings indicating the facility locations of the respective groups displayed on the display screen 51 are sequentially inputted.

The following describes in detail the encoding method of the identification code for identifying the spatial location with reference to the table, specifically, the identification code for identifying the spatial location includes four sets of character strings, and the four sets of character strings respectively represent hospitals and hospital areas, buildings, floors and rooms. Wherein, the first group of character strings is 0-level code, in this embodiment, the first group of character strings includes a first 0-level sub-character string and a second 0-level sub-character string, the first 0-level sub-character string represents hospital code, the first 0-level sub-character string is composed of four-bit letters, and the four-bit letters are preset by the system; the second 0-level sub-character string represents hospital partition coding, the second 0-level sub-character string consists of two digits, a main hospital area is preset by default in system initialization, and the serial numbers are compiled according to the serial numbers, so that the number of digits can be expanded.

The second group of character strings is a 1-level code, in this embodiment, the second group of character strings includes a first 1-level sub-character string, a second 1-level sub-character string, and a third 1-level sub-character string, the first 1-level sub-character string representing a building identification code, the first 1-level sub-character string being composed of one-bit letters, the one-bit letters being automatically generated by the system; the second 1-level sub-character string represents building codes, the second 1-level sub-character string consists of two digits, the second 1-level sub-character string is compiled according to a serial number, and the serial number can be expanded in digits; the third 1-level substring represents a building partition, the third 1-level substring is composed of one-bit letters, if the building has no partition, the third 1-level substring is uniformly marked by X, and other partitions are sequentially organized according to the sequence of an alphabet from A.

The third group of character strings is a 2-level code, in this embodiment, the third group of character strings includes a first 2-level sub-character string, a second 2-level sub-character string, and a third 2-level sub-character string, the first 2-level sub-character string represents a floor classification code, and the first 2-level sub-character string is composed of one-bit letters, and the coding rule is: f represents an overground natural layer, M represents an overground interlayer, B represents an underground natural layer, and U represents an underground interlayer; the second 2-level sub-character string represents floor codes, the second 2-level sub-character string consists of two digits, and is compiled by serial numbers according to floor distribution; the third 2-level sub-character string represents floor partition coding, the third 2-level sub-character string is composed of one-bit letters, if the floor is not partitioned, the third 2-level sub-character string is uniformly marked by X, other partitions are organized from A in the same level, and the third 2-level sub-character string is sequentially organized according to the sequence of an alphabet.

The fourth group of character strings is 3-level code, in this embodiment, the third group of character strings includes a first 3-level sub-character string, a second 3-level sub-character string and a third 3-level sub-character string, the first 3-level sub-character string represents room identification code, the first 3-level sub-character string is composed of one-bit letters, and is automatically generated by the system; the second 3-level substring represents room coding, the second 3-level substring consists of three digits, and is compiled according to a serial number; the third 3-level substring represents the coding of the subdivision room, and the third 3-level substring is composed of one-bit letters, is compiled from A, and is sequentially compiled according to the sequence of an alphabet.

For example: the identification code of the No. 1 building in the main hospital area of a certain hospital is as follows: XXYY01-A01; the identification code of the No. 1 building A seat 2 building in the south lake area of a certain hospital is: XXYY02-A01A-F02; the identification code of the room 204 of the building A, the seat 2 in the southern lake district 1 of a certain hospital is: XXYY02-A01A-F02X-R204.

Table one: space coding method

In table one, N represents arabic numerals, 1, 2, 3, and … …. L represents english capital letters A, B, C, … …. G represents the 0 level of the space code and represents the whole hospital and hospital area identification. GN represents the nth bit within stage 0. F represents level 1 of the space code, representing the building level identification. FN represents the number of bits within stage 1. A represents level 2 of the space code, representing a floor level identification. AN represents the number of bits within stage 2. B represents level 3 of the space code, representing the room level identity. BN represents the number of bits within stage 3. Representing the connectors between the stages.

Of course, in other embodiments, each level of substring may also be composed of b 1-bit digits or a 1-bit letters and b 2-bit digits, where a1, b1 and b2 are positive integers greater than or equal to 1.

The following describes in detail the encoding method of the identification code for identifying the location of the device in combination with the table two, specifically, the identification code for identifying the location of the device includes four sets of character strings, and the four sets of character strings represent hospitals, systems, devices and components, respectively.

The first group of character strings are 0-level codes, the first group of character strings represent hospital codes, and the first group of character strings consist of four-bit letters and are preset by a system.

The second group of character strings is 1-level coding, in this embodiment, the second group of character strings includes a first 1-level sub-character string and a second 1-level sub-character string, the first 1-level sub-character string represents one-level systematic classification coding, and the first 1-level sub-character string is composed of three-bit letters, and the three-bit letters are derived from a custom device data dictionary library; the second level 1 substring represents a subsystem taxonomy code, the second level 1 substring consisting of three letters derived from a custom device data dictionary library.

The third group of character strings is 2-level coding, in this embodiment, the third group of character strings includes a first 2-level sub-character string and a second 2-level sub-character string, the first 2-level sub-character string represents equipment classification coding, the first 2-level sub-character string is composed of four-bit letters, and the four-bit letters are derived from a custom equipment data dictionary library; the second level 2 substring represents the physical device code, and the second level 2 substring is composed of four digits, which are programmed by the serial number.

The fourth group of character strings is 3-level coding, in this embodiment, the third group of character strings includes a first 3-level sub-character string and a second 3-level sub-character string, the first 3-level sub-character string represents the component unit classification coding, and the first 3-level sub-character string is composed of three-bit letters, and the three-bit letters are derived from a custom device data dictionary library; the second 3-level substring represents the physical component code, and the second 3-level substring is composed of three digits, which are programmed according to the serial number.

And (II) table: device encoding method

For example: the identification code of the equipment No. 1 of the power transformation and distribution system of a certain hospital is as follows: XXYY-TDS0001; the identification code of the No. 1 isolation cabinet of the high-voltage equipment of the power transformation and distribution system of a certain hospital is as follows: XXYY-TDS-HVS-ISOC0001.

In table two, N represents arabic numerals, 1, 2, 3, and … …. L represents english capital letters A, B, C, … …. G represents the 0 level of the device code, indicating the whole house identification. GN represents the nth bit within stage 0. F represents level 1 of the device code, representing a system level identification. FN represents the number of bits within stage 1. A represents level 2 of the device code, representing a device level identification. AN represents the number of bits within stage 2. B represents level 3 of the device code, representing the component level identity. BN represents the number of bits within stage 3. Representing the connectors between the stages.

It should be noted that, the device data dictionary library is pre-programmed by the operator and stored in the control unit, and when the operator inputs the identification code through the input key 53, the content of the device data dictionary library is directly displayed on the display screen 51, so that the operator can select the device data dictionary library without self-input.

Further, the identification code for identifying the facility location includes two sets of character strings, the two sets of character strings respectively representing facility category codes and a system preset serial number, wherein the facility category codes are derived from a custom facility data dictionary library. For example: the identification code of the door for decoration is: ZSZ0001.

It should be noted that, the facility data dictionary library is pre-programmed by the operator and stored in the control unit, and when the operator inputs the identification code through the input key 53, the content of the facility data dictionary library is directly displayed on the display screen 51, so that the operator can select the facility data dictionary library without self-input.

The encoding method of the identification code provided by the embodiment systematically maintains the mapping relation between the tag body 102 and the hospital asset, and each group of character strings represent different meanings, so that an operator can conveniently and rapidly position the space, equipment and facilities according to the composition of the identification code, the time for searching the position is saved, and the maintenance efficiency is improved.

Example III

As shown in fig. 7, the present embodiment provides a hospital asset coding identification method, which is based on the coding identification system of the embodiment, and includes the following steps:

step S1: the driving assembly 22 drives the first reel 211 to rotate so as to enable one of the tag bodies 102 to move to the position right above the to-be-posted piece;

step S2: the cutting mechanism 3 cuts the label body 102 from the label remainder 103;

step S3: the pressing mechanism 4 presses the label body 102 cut by the cutting mechanism 3 onto the to-be-posted piece;

Step S4: the data processing module 5 stores the identification code information of the to-be-posted and identifies the two-dimensional code information on the tag body 102 to establish a mapping relationship between the identification code and the two-dimensional code.

In the present embodiment, the to-be-posted is specifically a hospital asset including a hospital device, a hospital facility, and a hospital space.

The hospital asset coding identification method provided by the embodiment can realize quick posting of the hospital asset identification, and can establish a mapping relation between the two-dimensional code information on the tag body 102 and the identification code of the to-be-posted piece, so that maintenance personnel can conveniently and quickly position the to-be-posted piece, quick maintenance operation can be conveniently carried out on the to-be-posted piece, and digital management is convenient to carry out on the hospital asset.

Further, before step S1, the method further includes:

step S0: the label strip 100 required for the post is printed out and the label strip 100 is mounted on the take-up assembly 21.

The label strip 100 is integrally wound on the second roll 212, and then the free end portion of the label strip 100 on the second roll 212 is torn to separate the label stock 103 from the release paper 101, and then the free end of the label stock 103 is fixed on the first roll 211 and the free end of the release paper 101 is fixed on the third roll 213. When the driving assembly 22 drives the first reel 211 to rotate, the feeding of the label strip 100, the receiving of the release paper 101 and the receiving of the label remainder 103 can be simultaneously realized.

Further, as shown in fig. 8, step S4 specifically includes:

step S41: the camera 52 acquires the two-dimensional code information on the tag body 102 positioned right above the to-be-posted piece and transmits the two-dimensional code information to a control unit of the code identification system;

step S42: the operator inputs the identification code of the to-be-posted by using the input key 53;

step S43: the control unit automatically establishes a mapping relation between the identification code of the to-be-posted piece and the two-dimensional code of the tag body 102 posted on the identification code;

step S44: the control unit transmits the established mapping relation to a hospital asset identification data system through WIFI, or stores the mapping relation in storage media such as an SD card or a USB flash disk of the data processing module 5, and after the posting operation is finished, the data in the storage media are uniformly transmitted to the hospital asset identification data system.

Specifically, the encoding rule of the identification code of the to-be-posted is encoded by the encoding method of the identification code provided in the second embodiment. By establishing the mapping relation between the identification code of the to-be-posted piece and the two-dimensional code of the tag body 102 posted on the identification code, the subsequent operators can scan the code to view and edit the corresponding asset information or perform business operations such as repair, maintenance and the like.

The above embodiments merely illustrate the basic principle and features of the present invention, and the present invention is not limited to the above embodiments, but may be varied and altered without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. An encoded identification system for pasting a label body (102) on a label strip (100) onto a piece to be posted, each piece to be posted having a one-to-one identification code, the label strip (100) comprising a release paper (101), a label body (102) and a label remainder (103), a plurality of the label bodies (102) being embedded in the label remainder (103) at intervals, the label body (102) and the label remainder (103) being pasted on the release paper (101), one side of the label body (102) facing away from the release paper (101) being printed with a two-dimensional code, characterized in that the encoded identification system comprises:

a support (1);

the labeling mechanism (2) comprises a rolling assembly (21) and a driving assembly (22), the rolling assembly (21) comprises a first winding drum (211), a second winding drum (212) and a third winding drum (213) which are all rotatably arranged on the supporting frame (1), the second winding drum (212) is wound with the label strip (100), the free end of the label residue (103) is fixed on the first winding drum (211), the free end of the release paper (101) is fixed on the third winding drum (213), and the second winding drum (212) is in transmission connection with the third winding drum (213); -the drive assembly (22) is configured to drive the first spool (211) in rotation;

The cutting mechanism (3) comprises a mounting frame (31), a cutting knife and two mounting rods (32), wherein the mounting frame (31) is arranged on the supporting frame (1) in a lifting manner, and a guide chute (311) is arranged on the mounting frame (31); the two mounting rods (32) are parallel and are arranged on the mounting frame (31) at intervals, each mounting rod (32) is provided with a vertical groove (321) extending along the length direction of the mounting rod, each mounting rod (32) is also provided with a plurality of transverse grooves (322) perpendicular to the vertical grooves (321), the transverse grooves (322) are parallel and are arranged at intervals along the length direction of the corresponding mounting rod (32), the mounting rods (32) are provided with sliding parts (33), and the sliding parts (33) are in sliding fit with the guide sliding grooves (311); the cutting knife comprises transverse blades and longitudinal blades, the longitudinal blades can be inserted into vertical grooves (321) of the mounting rods (32), two ends of each transverse blade can be respectively inserted into two opposite transverse grooves (322) on the two mounting rods (32), the number of the transverse blades is multiple, and the lengths of the transverse blades are not the same; the number of the longitudinal blades is a plurality, and the sizes of the longitudinal blades are not the same; -the severing mechanism (3) is configured to sever the corresponding label body (102) from the label remainder (103);

The pressing mechanism (4) is arranged on the supporting frame (1), and the pressing mechanism (4) can press the label body (102) cut by the cutting mechanism (3) on the corresponding to-be-posted piece;

the data processing module (5) is arranged on the supporting frame (1), and the data processing module (5) is configured to store the identification code information of the to-be-posted piece and identify the two-dimensional code information on the tag body (102) so as to establish the mapping relation between the identification code and the two-dimensional code.

2. The coded identification system of claim 1, wherein the drive assembly (22) comprises:

a connecting piece (221) arranged on the mounting frame (31);

a drive rack (222) provided on the connecting member (221);

a drive gear (223) connected to the first spool (211) and meshed with the drive rack (222);

and the belt and two belt pulleys (224), two belt pulleys (224) are respectively connected with the second winding drum (212) and the third winding drum (213), and the belt is wound on the peripheries of the second winding drum (212) and the third winding drum (213).

3. The coded identification system according to claim 2, characterized in that the first reel (211) is a unidirectional roller, the cutting mechanism (3) further comprising a return element (34), the return element (34) being located between the mounting frame (31) and the support frame (1).

4. The coded identification system according to claim 2, wherein the driving assembly (22) further comprises an adjusting member (225), a plurality of adjusting holes (2211) are formed in the connecting member (221) at intervals along the vertical direction, and the adjusting member (225) can be fixed on the driving rack (222) and selectively penetrates any adjusting hole (2211).

5. Coded identification system according to claim 1, characterized in that the pressing mechanism (4) comprises:

a pressure rod (41) arranged on the support frame (1);

and the pressure block (42) is connected to the pressure rod (41) in a sliding manner and is detachably connected with the pressure rod (41).

6. The coded identification system according to claim 1, characterized in that the data processing module (5) comprises:

the camera (52) is used for acquiring the two-dimensional code information on the tag body (102) and transmitting the two-dimensional code information to the control unit of the coding identification system;

And the input key (53) is used for inputting the identification code of the to-be-posted piece and transmitting the identification code to the control unit so as to establish a mapping relation between the two-dimensional code information and the identification code.

7. The coded identification system of any one of claims 1-6, wherein the identification code comprises N sets of strings, each set of strings being an arrangement of a letters and b numbers, wherein N is greater than or equal to 1 and N is a positive integer; a is more than or equal to 0, and a is a positive integer; b is more than or equal to 0, and b is a positive integer.

8. A hospital asset code identification method, based on a code identification system according to any of claims 1-7, comprising the steps of:

step S1: the driving assembly (22) drives the first winding drum (211) to rotate so as to enable one of the tag bodies (102) to move to the position right above the to-be-posted piece;

step S2: a cutting mechanism (3) cuts the label body (102) from the label remainder (103);

step S3: the pressing mechanism (4) presses the label body (102) cut by the cutting mechanism (3) on the to-be-posted piece;

step S4: the data processing module (5) stores the identification code information of the to-be-posted piece and identifies the two-dimensional code information on the tag body (102) so as to establish a mapping relation between the identification code and the two-dimensional code.