CN113197779A - XiLin bottle and xiLin bottle mark device of beating - Google Patents

Abstract

The invention discloses a penicillin bottle and a penicillin bottle marking device, wherein the penicillin bottle comprises a bottle body and a bottle cap, and the bottle body is provided with at least one group of processing planes; the group of processing planes comprises one processing plane or two opposite processing planes. The processing plane on this xiLin bottle can characterize its unique identity information, marks the mark device through xiLin bottle and discern the back to xiLin bottle, generates corresponding label through the encryption means, can avoid improving the imitative degree of difficulty of xiLin bottle and improve xiLin bottle's safety in utilization.

Description

XiLin bottle and xiLin bottle mark device of beating

Technical Field

The invention relates to the field of processing, and particularly relates to a penicillin bottle and a penicillin bottle marking device.

Background

The vial is a container applied to the medical field, such as for storage of vaccines, loading and taking of powder, and correspondingly, the vial is used as a storage container for medical drugs, and in order to avoid counterfeit of the medical drugs, an anti-counterfeit label is generally required to be arranged on the vial so as to prevent counterfeit drugs from flowing into the market.

The existing counterfeit label is usually realized through a manufacturer-specific counterfeit system, and is only verified through a series of verification codes, that is, essentially, the counterfeit label only verifies the authenticity of the label itself, but not verifies the authenticity of the penicillin bottle and the drugs in the penicillin bottle.

If a bad merchant copies and counterfeits the label to a fake and fake product, a great safety risk is brought.

Disclosure of Invention

In order to solve the defects of the existing checking mechanism, the invention provides the penicillin bottle and the penicillin bottle marking device, wherein the label data on the penicillin bottle is actually related to the processing level on the penicillin bottle, namely the label data and the penicillin bottle are in one-to-one correspondence, and the implementation structure can well improve the counterfeit and imitation difficulty of the penicillin bottle and improve the safety of the penicillin bottle in storing medicines.

Correspondingly, the invention provides a penicillin bottle, which comprises a bottle body and a bottle cap, wherein the bottle body is provided with at least one group of processing planes;

the group of processing planes comprises one processing plane or two opposite processing planes.

In an alternative embodiment, the processing plane is formed on the basis of a heat treatment of a predetermined area of the vial.

Correspondingly, the invention also provides a penicillin bottle marking device, which is used for marking the penicillin bottle, and the penicillin bottle marking device comprises:

a fixing device: a bottle body for fixing the penicillin bottle;

light mixing and stabilizing light source: a light source for emitting directional light based on a mixture of colors toward a processing plane of the bottle body;

the photosensitive element array: the directional light rays are used for receiving the directional light rays after penetrating through the bottle body;

the control host computer: the check code is generated based on the directional light rays penetrating through the bottle body according to preset logic;

marking machine: marking the corresponding penicillin bottle based on the check code.

In an optional embodiment, the marking machine comprises:

bottle body marking machine: the bottle body of the penicillin bottle is marked;

bottle lid marking machine: the marking device is used for marking the bottle cap of the penicillin bottle.

In an alternative embodiment, the securing device comprises:

a positioning component: the device is used for limiting the penicillin bottle at a preset position, and the preset position corresponds to the setting position of the light mixing and stabilizing light source;

a driving component: the penicillin bottle is driven to move towards the direction of the positioning component;

adjusting the component: and the posture of the penicillin bottle is adjusted to a preset posture.

In an optional embodiment, the photosensitive element array is a photosensitive module.

In an optional embodiment, when the bottle body has more than two groups of processing planes, the processing planes of different groups are respectively arranged at positions of different heights of the penicillin bottle;

the height of the directional light rays emitted by the light mixing stabilizing light source corresponds to one group of processing planes.

An optional embodiment, further comprising:

light source adjusting device: the light source setting height of the light mixing and stabilizing light source is controlled and adjusted based on the control host;

the control host is further used for receiving the light source setting height, combining the light source setting height according to preset logic and generating a check code based on the directional light penetrating through the bottle body.

An optional embodiment, further comprising:

a photosensitive adjusting device: the photosensitive element array is used for controlling and adjusting the photosensitive setting height of the photosensitive element array based on the control host.

In an optional embodiment, the adjustment of the height of the photosensitive element array by the photosensitive adjustment device is synchronized with the adjustment of the light source setting height of the light mixing stabilizing light source by the light source adjustment device.

In conclusion, the invention provides the penicillin bottle and the penicillin bottle marking device, the processing plane on the penicillin bottle can represent the unique identity information of the penicillin bottle, and after the penicillin bottle is identified by the penicillin bottle marking device, the corresponding label is generated by an encryption means, so that the imitation difficulty of the penicillin bottle can be avoided being improved, and the use safety of the penicillin bottle can be improved.

Drawings

Fig. 1 is a front view of a vial body of a vial according to an embodiment of the present invention;

FIG. 2 is a side view of a vial body of an exemplary vial of the present invention;

FIG. 3 is a top view of a vial body of an exemplary vial of the present invention;

fig. 4 is a schematic view of a first partial structure of a penicillin bottle marking device according to an embodiment of the present invention;

fig. 5 is a schematic view of a first partial structure of a penicillin bottle marking device according to an embodiment of the present invention;

fig. 6 is a schematic view of a first partial structure of a penicillin bottle marking device according to an embodiment of the present invention;

fig. 7 is a schematic view of a first partial structure of a penicillin bottle marking device according to an embodiment of the present invention.

Detailed Description

Fig. 1 is a front view of a vial body 1 of a penicillin bottle according to an embodiment of the present invention, fig. 2 is a side view of the vial body 1 of the penicillin bottle according to the embodiment of the present invention, and fig. 3 is a top view of the vial body 1 of the penicillin bottle according to the embodiment of the present invention.

Correspondingly, the invention provides a penicillin bottle, which comprises a bottle body 1 and a bottle cap, and particularly, the embodiment of the invention mainly improves the structure of the bottle body 1.

Specifically, the bottle body 1 is provided with at least one group of processing planes 2; the group of machining planes 2 comprises one machining plane 2 or two opposite machining planes 2.

Specifically, the processing plane 2 in the embodiment of the present invention means a plane processed by a preset processing means is disposed on the penicillin bottle, and the plane is referred to as the processing plane 2. Specifically, the processing of the cillin bottle is similar to the processing of most glass products, after the molding by the mold, the bottle body 1 meeting the functional requirements and the performance requirements is obtained through the subsequent processing, and correspondingly, the formation of the processing plane 2 can be realized through the mold molding stage on one hand, for example, the cavity walls of the molding cavities of the general cillin bottle mold are relatively smooth, in the embodiment of the invention, the passivation treatment can be performed on the cavity walls of the molding cavities at the positions of the processing plane 2, so that the cavity walls of the molding cavities at the positions corresponding to the processing plane 2 are relatively rough, and the roughness of the processing plane 2 is improved.

Specifically, after the bottle body 1 is molded by the mold, it is generally required to perform a treatment by a heat treatment to eliminate the internal stress of the bottle body 1 and to stabilize the structure thereof. Firstly, from a microscopic point of view, the processing planes 2 of different vials 1 will not be identical after processing, and after heat treatment, the differences will be further magnified, i.e. the microstructure of the processing plane 2 of each vial 1 may not be identical. Therefore, in order to increase the variability of the processing planes 2 of the different bodies 1, an alternative embodiment is to form said processing planes 2 on the basis of a heat treatment of a predetermined area of said vial. The areas where the processing planes 2 in the bottle bodies 1 are located are subjected to heat treatment by using operating means with different temperatures, different heat preservation times and the like, so that the structure of the processing plane 2 of each bottle body 1 can be further ensured to be different.

Specifically, the difference of the processing planes 2 on the bottle body 1 is mainly used, and the corresponding label (code) is derived according to the structural characteristics of the penicillin bottle (the microstructure characteristics of the processing planes 2), so that the function of anti-counterfeiting identification is completed, and the anti-counterfeiting performance is improved.

Correspondingly, in order to finish labeling on the penicillin bottle, the invention also provides a penicillin bottle labeling device which is used for labeling one of the penicillin bottles, and the penicillin bottle labeling device comprises:

a fixing device: a bottle body 1 for fixing a penicillin bottle;

light-mixing stable light source 7: for emitting directional light based on a mixture of colors toward the processing plane 2 of the bottle body 1, particularly, because of the color unity of the artificial light source, since the processing plane 2 is irradiated with light formed by a mixture of colors in order to satisfy the light splitting requirement;

photosensitive element array 8: for receiving the directional light after passing through the bottle body 1;

the control host 9: the check code is generated based on the directional light rays penetrating through the bottle body 1 according to preset logic;

the marking machine 10: marking the corresponding penicillin bottle based on the check code.

Specifically, the operation principle of the penicillin bottle marking device is that firstly, a bottle body 1 of a penicillin bottle to be marked is fixed through a fixing device, and the orientation of a processing plane 2 of the bottle body is adjusted so as to adapt to the position of a light mixing and stabilizing light source 7 and the position of a photosensitive element array 8; irradiating the processing plane 2 by the light mixing and stabilizing light source 7, wherein the directional light passes through the processing plane 2 and is processed by the processing plane 2, and the directional light can generate a certain light splitting phenomenon, namely the directional light formed by mixing the light with various colors can be split due to factors such as light refraction and light reflection, and irregular transmitted light is formed; correspondingly, the transmitted light can be analyzed through the photosensitive element array 8, which is characterized in that each photosensitive element in the photosensitive element array 8 correspondingly receives a specific photosensitive color, the photosensitive element itself has a certain setting position, and correspondingly, the photosensitive element array 8 receives data of coordinates and light colors of a group; the data are received and processed by the control host 9, and based on preset logic, namely a preset encryption conversion mode, the data of the coordinates and the light colors can be converted into label data and sent to the marking machine 10, so that the marking machine 10 marks the label data on the penicillin bottles; accordingly, firstly, because of the non-remanufacturability of the processing plane 2 (the non-imitation of the processing plane 2 by means of manual orientation operations at low cost) and the label data generated after the manufacturing of the penicillin bottles, it is ensured that the imitation is not possible; the label data and the self structure (processing mode of the processing plane 2 to the directional light) of the bottle body 1 are hooked, the corresponding conversion relation is encrypted, the outside cannot easily know, and the label data cannot be deduced by the outside even through the same equipment; the related conversion relation is the conversion from pixel point color to label data, the data volume is huge, the higher encryption performance can be improved by a simple conversion mode, and the reverse difficulty of the conversion relation can be ensured.

In an alternative embodiment, the marking machine 10 comprises:

bottle 1 marking machine 10: the bottle body 1 is used for marking the penicillin bottle;

bottle lid marking machine 10: the marking device is used for marking the bottle cap of the penicillin bottle.

Specifically, beat the mark of xiLin bottle can be divided into and beat mark the bottle lid of xiLin bottle to bottle 1 of xiLin bottle, and is concrete, and the mark content of beating of bottle 1 and bottle lid can not be the same, but it has predetermined encryption relation, and the back is verified through the mark content of beating to bottle 1 and bottle lid to the user, can judge whether bottle 1 and bottle lid match to avoid regard as counterfeit with retrieving bottle 1. In addition, the encapsulation of bottle lid just can be carried out to xiLin bottle after bottling, after being equipped with liquid in bottle 1, because liquid carries out throughput to light equally, consequently, carry out corresponding mark process again after bottle 1 dress liquid to on printing label data to the bottle lid, can further improve its antifalsification can.

It should be noted that, due to the micro-fluidity of the liquid molecules and the difficulty of keeping the liquid in a macro-static state, in practical implementation, the data repetition performance of the corresponding marking process performed after the liquid is filled in the bottle 1 is not high, and certain implementation difficulty also exists in specific implementation.

Specific embodiments of a penicillin bottle marking apparatus are listed below for reference.

Fig. 4 is a schematic view of a first local structure of a penicillin bottle marking device according to an embodiment of the present invention, fig. 5 is a schematic view of the first local structure of the penicillin bottle marking device according to the embodiment of the present invention, fig. 6 is a schematic view of the first local structure of the penicillin bottle marking device according to the embodiment of the present invention, and fig. 7 is a schematic view of the first local structure of the penicillin bottle marking device according to the embodiment of the present invention.

In particular, in an alternative embodiment, the fixing means comprises:

a positioning component: the device is used for limiting the penicillin bottle at a preset position, and the preset position corresponds to the setting position of the light mixing and stabilizing light source 7; in the embodiment of the present invention, the positioning assembly includes a first positioning member 601 and a second positioning member 602, and the first positioning member 601 and the second positioning member 602 are matched to fix the vial reaching the preset position.

The driving assembly 3: the conveying device is used for driving the penicillin bottle to move towards the positioning component, and specifically, in the embodiment of the invention, the driving component 3 is a conveying belt;

adjusting the component: is used for adjusting the posture of the penicillin bottle to a preset posture, in particular, in the embodiment of the invention, the adjusting assembly comprises a vibrator 4 and an adjusting and limiting structure 5, specifically, the adjusting and limiting structure 5 is composed of a first guide part and a second guide part which are matched with each other, the first guide part and the second guide part are combined to form a guide track which is adaptive to the position of the processing plane 2, the vibrator 4 is arranged in the inlet direction of the adjusting and limiting structure 5, under the adjustment of the vibrator 4, the bottle body 1 of the penicillin bottle makes slight movement (including autorotation), when the orientation of the processing plane 2 is correct, the adjusting limit structure 5 can be used for the bottle body 1 of the penicillin bottle to pass through, because the conveyer belt constantly can convey xiLin bottle, subsequent xiLin bottle can lead to the fact the extrusion force to being in the xiLin bottle of adjusting 5 entrances of limit structure, makes it get into and adjusts 5 and flow to locating component's direction of limit structure. When arriving and predetermineeing the position, locating component fixes a position xiLin bottle, and the mixed light steady light source 7 and the photosensitive element array 8 that set up on predetermineeing the position begin the operation under the drive of main control system 9, accomplish the transmission of directional light and the sensitization of beam split light and receive, and after main control system 9 received corresponding data, generate label data and send to marking machine 10, xiLin bottle flow direction marking machine 10's position is beaten the mark operation. In the embodiment of the present invention, in order to ensure the photosensitive reception of the split light, the first guide is provided with a viewing port 501.

Specifically, the photosensitive element array 8 is a photosensitive module, i.e., an integrated photosensitive element such as a CCD module.

Further, when the bottle body 1 is provided with more than two groups of processing planes 2, the processing planes 2 of different groups are respectively arranged at the positions of different heights of the penicillin bottle; the height of the directional light emitted by the light mixing and stabilizing light source 7 corresponds to one group of processing planes 2.

In an optional embodiment, the penicillin bottle marking device further includes:

light source adjusting device: the light source setting height for controlling and adjusting the light mixing and stabilizing light source 7 based on the control host 9;

the control host 9 is further configured to receive the light source setting height, combine the light source setting height according to a preset logic, and generate a check code based on the directional light passing through the bottle body 1.

Specifically, although the processing planes 2 having a plurality of heights are provided, in actual use, the light-mixing stabilization light source 7 and the photosensitive element array 8 operate only on one of the processing planes 2 having one height, so that the confusion performance and the encryption performance can be further improved.

An optional embodiment, further comprising: a photosensitive adjusting device: for controlling and adjusting the photosensitive setting height of the photosensitive element array 8 based on the control host 9. In an alternative embodiment, the height of the photosensitive element array 8 is adjusted by the photosensitive adjusting device in synchronization with the adjustment of the light setting height of the light source mixing and stabilizing light source 7 by the light source adjusting device.

Specifically, if the size of the photosensitive element array 8 is small and cannot meet the light receiving requirements of the processing planes 2 at all heights, a photosensitive adjusting device needs to be arranged to adjust the heights of the photosensitive element array so as to receive the split light processed by the processing planes 2 at different heights.

In conclusion, the invention provides the penicillin bottle and the penicillin bottle marking device, the processing plane 2 on the penicillin bottle can represent the unique identity information of the penicillin bottle, and after the penicillin bottle is identified by the penicillin bottle marking device, the corresponding label is generated by an encryption means, so that the imitation difficulty of the penicillin bottle can be avoided being improved, and the use safety of the penicillin bottle can be improved.

The above embodiments of the present invention are described in detail, and the principle and the implementation manner of the present invention should be described herein by using specific embodiments, and the above description of the embodiments is only used to help understanding the method of the present invention and the core idea thereof; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. The penicillin bottle is characterized by comprising a bottle body and a bottle cap, wherein the bottle body is provided with at least one group of processing planes;

the group of processing planes comprises one processing plane or two opposite processing planes.

2. The vial according to claim 1, characterised in that the processing plane is formed on the basis of a heat treatment of a predetermined area of the vial.

3. A penicillin bottle marking device, which is used for marking the penicillin bottle as claimed in claim 1 or 2, and comprises:

a fixing device: a bottle body for fixing the penicillin bottle;

light mixing and stabilizing light source: a light source for emitting directional light based on a mixture of colors toward a processing plane of the bottle body;

the photosensitive element array: the directional light rays are used for receiving the directional light rays after penetrating through the bottle body;

the control host computer: the check code is generated based on the directional light rays penetrating through the bottle body according to preset logic;

marking machine: marking the corresponding penicillin bottle based on the check code.

4. The vial marking device of claim 3, wherein the marking machine comprises:

bottle body marking machine: the bottle body of the penicillin bottle is marked;

bottle lid marking machine: the marking device is used for marking the bottle cap of the penicillin bottle.

5. The vial marking device of claim 3, wherein the securing device comprises:

a positioning component: the device is used for limiting the penicillin bottle at a preset position, and the preset position corresponds to the setting position of the light mixing and stabilizing light source;

a driving component: the penicillin bottle is driven to move towards the direction of the positioning component;

adjusting the component: and the posture of the penicillin bottle is adjusted to a preset posture.

6. The vial marking device of claim 3, wherein the array of photosensitive elements is a photosensitive module.

7. The penicillin bottle marking device as claimed in claim 1, wherein when the bottle body has more than two groups of processing planes, the processing planes of different groups are respectively arranged at positions of different heights of the penicillin bottle;

the height of the directional light rays emitted by the light mixing stabilizing light source corresponds to one group of processing planes.

8. The penicillin bottle marking device as claimed in claim 7, further comprising:

light source adjusting device: the light source setting height of the light mixing and stabilizing light source is controlled and adjusted based on the control host;

the control host is further used for receiving the light source setting height, combining the light source setting height according to preset logic and generating a check code based on the directional light penetrating through the bottle body.

9. The penicillin bottle marking device as claimed in claim 8, further comprising:

a photosensitive adjusting device: the photosensitive element array is used for controlling and adjusting the photosensitive setting height of the photosensitive element array based on the control host.

10. The vial marking device according to claim 9, wherein the adjustment of the height of the array of photosensitive elements by the photosensitive adjustment device is synchronized with the adjustment of the light setting height of the light source of the light mixing stabilization light source by the light source adjustment device.

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