CN210903816U - Injection management device - Google Patents

Abstract

The utility model discloses a needle management device, it includes an at least administrative unit, the administrative unit includes a management main part, wherein the management main part has the holding tank of an at least rectangular shape to supply to hold a plurality of injections, and the administrative unit allows the injection along the management main part hold the track that the groove formed and follow the supplementary end of holding tank is slided to the takeout end, and through such a mode, injection management device guide doctor follows the injection is placed in the order of holding tank is used the injection, in order to avoid the injection is exposed in normal atmospheric temperature environment for a long time.

Description

Injection management device

Technical Field

The utility model relates to an injection management field, in particular to injection management device.

Background

The injection is a pharmaceutical dosage form, the medicament is made into sterilized solution after the steps of extraction, refining, preparation, etc., and is filled into ampoules to form the injection for subcutaneous, intramuscular or intravenous injection, and has the advantages of rapid action, convenient administration, no influence of digestive juice and food on the drug effect, direct access to human tissues, etc., therefore, the injection is used on a large scale clinically. In general, an ampoule of a vial is a glass bottle, and when the vial is to be used, the upper cap and the lower body of the ampoule are separated, so that the medicine contained in the lower body of the ampoule can be taken out (for example, sucked out through a needle tube). Like other drugs, ampoules have a shelf life that is safe and effective only if the ampoules are used in the correct manner during the shelf life. In addition, ampoules generally require storage in a low temperature environment and the time that ampoules are allowed to be exposed to a normal temperature environment is limited. In order to ensure safety and effectiveness of the injection solution, the injection solution taken out of the low-temperature environment needs to be used within a specified time. At present, when the injection is taken out from a low-temperature environment and then placed on a tray with a containing space, a doctor can conveniently take out the injection from the containing space of the tray when the doctor needs to use the injection. Although the existing tray is convenient for doctors to use the ampoules, it still has more defects.

Firstly, the injections are directly placed in the accommodating space of the tray after being taken out from the low-temperature environment, when the tray is moved, for example, in the process of making a tour of doctors or nurses, the injections need to be carried by the tray so as to be injected to patients, the injections may incline to cause the injections to incline and collide with each other, and even cause the injections to fall from the accommodating space of the tray to cause the injections to be damaged.

Secondly, after a part of the plurality of injections placed in the accommodating space of the tray is used, in order to avoid influencing doctor diagnosis and treatment or making rounds, a new injection needs to be taken out from a low-temperature environment and supplemented into the accommodating space of the tray after the part of the injections is used, however, when the injection is used by a doctor, which injections are placed in the accommodating space of the tray first and which injections are placed in the accommodating space of the tray later cannot be distinguished, that is, the order of the injections placed in the accommodating space of the tray cannot be distinguished. At this time, a problem that the injections placed in the accommodating space of the tray are used by the doctor first, and the injections exposed to the normal temperature environment for a long time may be ineffective due to the temperature is likely to occur. Once the injection solution is injected into the body of a patient, the injection solution cannot be used for treatment, and can cause negative effects on the body of the patient, and the life of the patient can be endangered in serious cases.

In addition, the ampoules of different types of injections are the same or similar, and doctors need to distinguish the types of injections by the product instructions attached to the ampoules when using the ampoules, however, because the ampoules are small in size, the words of the product instructions attached to the ampoules are very small. In order to facilitate the room patrol, doctors usually place a plurality of different types of injections in the accommodating space of the same tray to carry the injections, and when a doctor needs to use a certain type of injection, the doctor needs to distinguish which injections need to be used through the product description attached to the ampoule of the injection, which not only wastes time and energy, but also is easy to make mistakes. Once the doctor injects the wrong injection into the body of the patient, the doctor cannot perform medical treatment, but also can cause negative effects on the body of the patient, and the life of the patient can be endangered in serious cases.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an injection management device, wherein injection management device guides the doctor to use the injection according to the order of placing of injection to avoid the injection to lose efficacy because of exposing in normal atmospheric temperature environment for a long time.

An object of the utility model is to provide an injection management device, wherein injection management device can manage the injection according to the type of injection to avoid the injection by the misuse.

An object of the utility model is to provide an injection management device, wherein injection management device can manage the injection according to the type of injection to in the follow-up time of sparingly discerning the injection type.

An object of the utility model is to provide a injection management device, wherein injection management device avoids being placed when being removed injection management device's injection rocks.

An object of the utility model is to provide a injection management device, wherein injection management device avoids being placed when being removed injection management device's injection falls.

An object of the utility model is to provide a injection management device, wherein injection management device provides an at least administrative unit, the administrative unit provides the holding tank of an at least rectangular shape for hold the injection, and the administrative unit allows the injection to follow the replenishment end of holding tank slides to the delivery end of holding tank uses the injection to guide the doctor according to the order of placing of injection.

An object of the utility model is to provide a injection management device, wherein the management unit provides a management main part, in order to form the holding tank, wherein the management main part restricts the slip direction of injection when being operated.

An object of the utility model is to provide a needle management device, wherein the management main part be used for forming the lateral wall of holding tank limits the slip direction of injection at the middle part of injection, through such mode, can avoid the injection by the operation and along the track that the holding tank formed breaks away from when sliding the holding tank.

An object of the utility model is to provide a injection management device, wherein injection management device provides an adjusting element, adjusting element be operatively set up in the adjusting element, wherein the adjusting element is used for adjusting the size of holding tank to make injection be kept steadily and reliably the holding tank.

An object of the utility model is to provide a injection management device, wherein injection management device provides a holding unit, the holding unit is used for making the injection be kept reliably in manage the main part the holding tank in.

According to an aspect of the present invention, the utility model provides an injection management device, it includes an at least administrative unit, the administrative unit includes a management main part, wherein the management main part has the holding tank of an at least rectangular shape to supply to hold a plurality of injections, and the administrative unit allows the injection along the management main part the track that holds the groove formation is followed the supplementary end of holding tank slides to the takeout end.

According to an embodiment of the present invention, the management unit has a lower space formed at a lower portion of the management main body.

According to an embodiment of the present invention, the management unit includes a support body, the management body is provided to the support body, and the lower space is formed between the management body and the support body.

According to an embodiment of the present invention, the supporting body includes a rear supporting plate and a front supporting plate corresponding to the rear supporting plate, wherein the rear supporting plate and the front supporting plate respectively extend downward from the rear side and the front side of the management body, so that the supporting body the rear supporting plate with the front supporting plate and the management body form the lower space therebetween.

According to the utility model discloses an embodiment, the supporting body includes two tip backup pads, wherein two the tip backup pad is respectively certainly manage the both ends downwardly extending of main part, and two the tip backup pad connect respectively in the back side backup pad with the front side backup pad.

According to the utility model discloses an embodiment, the rear side backup pad front side backup pad and two the tip backup pad respectively certainly management body's rear side, front side and two tip extend upwards.

According to an embodiment of the present invention, the injection management device further comprises a holding unit, wherein the holding unit comprises a bottom plate capable of closing at least a part of the opening of the lower space, and the receiving groove of the management body corresponds to the bottom plate.

According to an embodiment of the present invention, the holding unit includes a peripheral wall extending from the periphery of the bottom plate to form a holding space between the peripheral wall and the bottom plate, wherein the management unit is detachably mounted to the holding space of the holding unit.

According to an embodiment of the present invention, a height dimension of the peripheral wall of the holding unit is larger than height dimensions of the rear side support plate, the front side support plate and two of the end support plates of the support main body.

According to an embodiment of the present invention, the ampoule management device further comprises a holding unit, wherein the holding unit comprises a bottom plate and a peripheral wall extending upward from the bottom plate and a holding space formed between the bottom plate and the peripheral wall, wherein the management body is disposed at the peripheral wall and held in the holding space to form a lower space at a lower portion of the management body.

According to an embodiment of the present invention, the injection management device further comprises an adjusting unit, wherein the adjusting unit is adjustably disposed on the management body.

According to an embodiment of the present invention, the adjusting unit is detachably provided to the management main body.

According to an embodiment of the present invention, the adjusting unit is slidably provided to the management main body.

According to an embodiment of the present invention, the management body further comprises at least one row of positioning grooves, these positioning grooves are respectively provided at intervals to the side wall of the management body for forming the holding groove, and these positioning grooves and the holding groove are communicated, wherein the adjusting unit has at least one positioning side, the positioning side of the adjusting unit is detachably positioned to the positioning grooves of the management body.

According to the utility model discloses an embodiment, the adjusting unit has the spout of two mutual symmetries, the management main part be used for forming two lateral walls of holding tank are movably set up in respectively adjusting unit every the spout.

According to another aspect of the present invention, the present invention can further provide an injection management method, wherein the injection management method comprises the steps of:

(a) supplementing an injection into a containing groove from a supplementing end of the containing groove of a management main body;

(b) allowing the shot to slide along a track formed by the accommodating grooves of the management body from the replenishing ends of the accommodating grooves to a withdrawing end; and

(c) allowing the shot to be taken out of the take-out end of the housing tank of the management body.

According to an embodiment of the present invention, in the above method, the length dimension of the accommodating groove of the management main body is adjusted by an adjusting unit.

According to an embodiment of the present invention, in the above method, a position of the adjusting unit with respect to the management main body is changed to adjust a length dimension of the accommodating groove of the management main body.

According to an embodiment of the present invention, in the above method, the adjusting unit is detachably mounted to the management main body to change a position of the adjusting unit with respect to the management main body.

According to an embodiment of the present invention, in the above method, the adjusting unit is slidably mounted to the management main body to change a position of the adjusting unit with respect to the management main body.

According to an embodiment of the present invention, in the above method, the type of the injection contained in the containing groove is marked at the taking-out end of the containing groove of the management body.

Drawings

Fig. 1 is a perspective view of a needle management device according to a first preferred embodiment of the present invention.

Fig. 2 is an exploded view of the injection management device according to the above preferred embodiment of the present invention.

Fig. 3 is a schematic cross-sectional view of the injection management device according to the above preferred embodiment of the present invention.

Fig. 4A is a schematic view of the injection management device according to the above preferred embodiment of the present invention in a use state.

Fig. 4B is a schematic view of another usage state of the injection management device according to the above preferred embodiment of the present invention.

Fig. 4C is a schematic view of another usage state of the injection management device according to the above preferred embodiment of the present invention.

Fig. 5 is a perspective view of a modified embodiment of the injection management device according to the above preferred embodiment of the present invention.

Fig. 6 is an exploded view of the injection management device according to the above preferred embodiment of the present invention.

Fig. 7 is a schematic cross-sectional view of the injection management device according to the above preferred embodiment of the present invention.

Fig. 8A is a schematic view of the injection management device according to the above preferred embodiment of the present invention in a use state.

Fig. 8B is a schematic view of another usage state of the injection management device according to the above preferred embodiment of the present invention.

Fig. 8C is a schematic view of another usage state of the injection management device according to the above preferred embodiment of the present invention.

Fig. 9 is a perspective view of the injection management device according to the second preferred embodiment of the present invention.

Fig. 10 is an exploded view of the injection management device according to the above preferred embodiment of the present invention.

Fig. 11A is a schematic view of the injection management device according to the above preferred embodiment of the present invention in a use state.

Fig. 11B is a schematic view of another usage state of the injection management device according to the above preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purposes of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1 to 4C of the drawings of the present application, a needle management device according to a first preferred embodiment of the present invention is disclosed and illustrated in the following description, wherein the injection management device includes at least one management unit 10, the management unit 10 includes a management main body 11, the management main body 11 has at least one elongated receiving groove 110 for receiving a plurality of injections 100, and the injection management device allows the injections 100 to slide along the track formed by the receiving groove 110, so as to guide a doctor to use the injections 100 according to the placing sequence of the injections 100, and in this way, the injection management device can prevent the injections 100 from being out of order due to long-term exposure to a normal temperature environment.

Specifically, the receiving tank 110 of the management body 11 has a replenishing end 1101 and a withdrawing end 1102 opposite to the replenishing end 1101, wherein the injection solution 100 can be placed in and replenished to the receiving tank 110 of the management body 11 from the replenishing end 1101 of the receiving tank 110 of the management body 11, and the injection solution 100 can be withdrawn from the withdrawing end 1102 of the receiving tank 110 after sliding from the replenishing end 1101 of the receiving tank 110 to the withdrawing end 1102 of the receiving tank 110 along the track formed by the receiving tank 110 of the management body 11, so that the injection solution management apparatus can guide a doctor to use the injection solutions 100 in the order of placing the injection solutions 100 in the receiving tank 110 of the management body 11, thereby preventing the injection solution 100 from being failed due to long-term exposure to a normal temperature environment.

The width dimension of the accommodating tank 110 of the management body 11 is slightly larger than the diameter of the injection solution 100, in such a way, in the process of moving the injection solution management device, the injection solution management device prevents the injection solution 100 from falling down and the injection solution 100 from falling off from the injection solution management device to protect the injection solution 100 under the condition that the injection solution 100 is allowed to slide from the replenishing end 1101 of the accommodating tank 110 to the extracting end 1102 along the track formed by the accommodating tank 110 of the management body 11.

It should be noted that although the length of the receiving groove 110 of the management body 11 is sized to allow the injection solution 100 to slide along the track formed by the receiving groove 110 of the management body 11 from the replenishing end 1101 of the receiving groove 110 to the removing end 1102, the injection solution 100 is prevented from sliding in the receiving groove 110 of the management body 11 during the process of moving the injection solution management device to prevent the injection solution 100 from falling over, so as to protect the injection solution 100.

Preferably, the management body 11 has a plurality of the accommodating grooves 110 to separately accommodate the injection bottles 100, thereby preventing the injection bottles 100 from being misused and saving time for recognizing the types of the injection bottles 100 later. That is, a plurality of injection solutions 100 of one type can be accommodated in one accommodating groove 110 of the management body 11, and a plurality of injection solutions 100 of another type can be accommodated in another accommodating groove 110 of the management body 11, that is, the same accommodating groove 110 of the management body 11 is only allowed to accommodate one or more injection solutions 100 of one type, in such a way, the injection solution management apparatus can avoid misuse of the injection solutions 100 and subsequently save time for identifying the type of the injection solutions 100.

Preferably, the plurality of receiving grooves 110 of the management body 11 are parallel to each other. It is worth mentioning that the width dimensions of the accommodating grooves 110 of the management body 11 may be uniform or non-uniform, that is, the width dimensions of the accommodating grooves 110 of the management body 11 are allowed to be selected according to the diameter dimensions of the injection solution 100.

With continued reference to fig. 1 to 4C, the management unit 10 further includes a support body 12, wherein the support body 12 is disposed at a lower portion of the management body 11 to form a lower space 13 of the management unit 10 between the management body 11 and the support body 12, wherein the receiving groove 110 of the management body 11 communicates with the lower space 13. After the shot 100 is placed in and replenished to the holding tank 110 of the management body 11 from the replenishing end 1101 of the holding tank 110, the lower portion of the shot 100 is held in the lower space 13 of the management unit 10, the middle portion of the shot 100 is limited by the management body 11 and only the shot 100 is allowed to slide along the track formed by the holding tank 110 of the management body 11 from the replenishing end 1101 of the holding tank 110 to the removing end 1102, and the upper portion of the shot 100 is exposed at the upper portion of the management body 11 to allow the shot 100 to be handled.

That is, the side walls of the management body 11 for forming the accommodating groove 110 can limit the moving direction of the injection 100 in the middle of the injection 100, that is, the middle of the injection 100 is limited by the side walls of the management body 11 for forming the accommodating groove 110 and is only allowed to slide along the track formed by the accommodating groove 110 of the management body 11 from the replenishing end 1101 of the accommodating groove 110 to the extracting end 1102 direction.

In this preferred example of the ampoule management apparatus shown in fig. 1 to 4C, the support body 12 includes a rear support plate 121 and a front support plate 122 corresponding to the rear support plate 121, wherein the rear support plate 121 and the front support plate 122 extend downward from the rear and front sides of the management body 11, respectively, for supporting the management body 11 to a preset height, and the lower space 13 of the management unit 10 is formed between the management body 11, the rear support plate 121, and the front support plate 122.

Further, the supporting body 12 includes two end supporting plates 123, wherein the two end supporting plates 123 respectively extend from both end types of the management body 11 for supporting the management body 11 to a preset height, and the lower space 13 of the management unit 10 is formed between the management body 11, the rear supporting plate 121, the front supporting plate 122, and the two end supporting plates 123. Preferably, two ends of the two end supporting plates 123 are respectively connected with two ends of the rear supporting plate 121 and the front supporting plate 122, so as to ensure stability and reliability of the injection management device.

Preferably, the rear support plate 121, the front support plate 122 and the two end support plates 123 extend downward from the rear side, the front side and both ends of the administration main body 11 to have the same length, so that the lower portion of the support main body 12 is flat, and in this way, the stability and reliability of the injection administration apparatus can be ensured.

Preferably, the rear support plate 121, the front support plate 122 and the two end support plates 123 extend upward from the rear side, the front side and both ends of the management body 11, respectively, so that the support body 12 protrudes above the management body 11, in such a manner that the stability and reliability of the injection management apparatus can be further ensured.

That is, in this preferred example of the injection management device shown in fig. 1 to 4C, the rear support plate 121, the front support plate 122 and the two end support plates 123 of the support body 12 form a block structure in which the periphery of the management body 11 extends such that the rear side, the front side and the both end portions of the support body 12 are respectively connected to the middle portions of the rear support plate 121, the front support plate 122 and the two end support plates 123 of the support body 12, so that the rear support plate 121, the front support plate 122 and the two end support plates 123 extend downward and upward from the rear side, the front side and the both end portions of the management body 11, respectively, to form the management unit 10.

More preferably, the rear support plate 121, the front support plate 122 and the two end support plates 123 of the management body 11 and the support body 12 may be an integral structure, for example, in a preferred example of the ampoule management device of the present invention, the management body 11 and the support body 12 can be formed as an integral structure by injection molding.

It should be noted that in the preferred example of the ampoule management device shown in fig. 1 to 4C, the management body 11 forms the receiving groove 110 by hollowing out, that is, the receiving groove 110 extends between the rear side and the front side of the management body 11, so that the receiving groove 110 forms the replenishing end 1101 at the end corresponding to the rear side of the management body 11 and the withdrawing end 1102 at the end corresponding to the front side of the management body 11. Alternatively, in other possible examples of the ampoule management device, the accommodating groove 110 of the management body 11 may extend to the rear side and the front side of the management body 11.

With continued reference to fig. 1 to 4C, the ampoule managing device further comprises at least one adjusting unit 20, wherein the adjusting unit 20 is operatively disposed on the managing body 11 of the managing unit 10 for adjusting the size of the accommodating tank 110 of the managing body 11, so that the ampoules 100 are stably and reliably held in the accommodating tank 110.

Specifically, referring to fig. 1 to 4C, the management body 11 has at least one row of positioning grooves 111, the positioning grooves 111 are arranged at intervals on the side wall of the management body 11 for forming the receiving grooves 110, and the positioning grooves 111 communicate with the receiving grooves 110, respectively. Preferably, both side walls of the management body 11 for forming the receiving groove 110 are provided with a row of the positioning grooves 111 symmetrical to each other, wherein the side of the adjusting unit 20 is detachably positioned at the positioning grooves 111 of the management body 11. When the side portions of the adjustment unit 20 are positioned at the positioning grooves 111 at different positions of the management body 11, the length dimension of the receiving groove 110 of the management body 11 is adjusted so that the injection bottles 100 are stably and reliably held in the receiving groove 110 of the management body 11.

More specifically, the regulating unit 20 has at least one positioning side 21, and the positioning side 21 of the regulating unit 20 is detachably positioned in the positioning groove 111 of the management body 11 to regulate the length dimension of the receiving groove 110 of the management body 11 in such a manner that the regulating unit 20 is held at different positions of the receiving groove 110 of the management body 11, thereby stably and reliably holding the injection 100 in the receiving groove 110 of the management body 11. For example, in the preferred example of the ampoule managing device shown in fig. 1 to 4C, the adjusting unit 20 has a plate shape, and the positioning sides 21 are formed at both sides of the adjusting unit 20 to be symmetrical to each other, so as to allow the positioning sides 21 of the adjusting unit 20 to be detachably positioned at the positioning grooves 111 of the managing body 11, thereby holding the adjusting unit 20 in the receiving groove 110 of the managing body 11 and adjusting the length dimension of the receiving groove 110.

Preferably, the height dimension of the adjusting unit 20 is greater than the sum of the length dimension of the supporting body 12 extending toward the lower portion of the managing body 11 and the thickness dimension of the managing body 11 in such a manner that the lower end portion of the adjusting unit 20 is held in the lower space 13 and the higher end portion of the adjusting unit 20 protrudes above the upper portion of the managing body 11 after the positioning side 21 of the adjusting unit 20 is positioned in the positioning groove 111 of the managing body 11 to hold the adjusting unit 20 in the receiving groove 110 of the managing body 11, to allow a doctor to conveniently operate the adjusting unit 20.

Further, one end of the adjusting unit 20 is provided with a non-slip portion 22, and the doctor can conveniently operate the adjusting unit 20 through the non-slip portion 22. After the positioning side 21 of the adjustment unit 20 is positioned in the positioning groove 111 of the management body 11, the end of the adjustment unit 20 provided with the anti-slip part 22 forms a high end of the adjustment unit 20, i.e., the anti-slip part 22 of the adjustment unit 20 protrudes above the management body 11 to allow a doctor to conveniently operate the adjustment unit 20.

In the preferred example of the ampoule managing apparatus shown in fig. 1 to 4C, the anti-slip part 22 of the adjusting unit 20 is a through hole. Alternatively, the anti-slip part 22 of the adjustment unit 20 may be a groove or a protrusion.

With continued reference to fig. 1 to 4C, the injection solution managing apparatus further includes a holding unit 30, wherein the holding unit 30 includes a bottom plate 31, and the managing unit 10 is disposed on the bottom plate 31 of the holding unit 30 such that the accommodating groove 110 of the managing main body 11 of the managing unit 10 corresponds to the bottom plate 31, in such a way that, when the injection solution 100 is accommodated in the accommodating groove 110 of the managing main body 11, the bottom plate 31 can support the injection solution 100 so that the injection solution 100 is stably and reliably held in the accommodating groove 110 of the managing main body 11.

Preferably, the supporting body 12 of the management unit 10 is detachably disposed on the bottom plate 31 so that the bottom plate 31 closes at least a portion of an opening of the lower space 13 formed between the supporting body 12 and the management body 11, thereby allowing the receiving groove 110 of the management body 11 to correspond to the bottom plate 31, in such a manner that, when the injection solution 100 is received in the receiving groove 110 of the management body 11, the bottom plate 31 can support the injection solution 100 so that a lower portion of the injection solution 100 is held in the lower space 13 and a middle portion of the injection solution 100 is limited by the side wall of the management body 11 for forming the receiving groove 110, thereby allowing the injection solution 100 to be stably and reliably held in the receiving groove 110 of the management body 11.

Further, the holding unit 30 includes a peripheral wall 32, wherein the peripheral wall 32 is provided to the bottom plate 31 so as to extend upward from the periphery of the bottom plate 31 to form a holding space 33 of the holding unit 30 between the bottom plate 31 and the peripheral wall 32, wherein the management unit 10 is provided to the holding space 33 of the holding unit 30 so that the bottom plate 31 can close the opening of the lower space 13 of the management unit 10.

Preferably, after the management unit 10 is disposed in the holding space 33 of the holding unit 30, the rear support plate 121, the front support plate 122, and the two end support plates 123 of the support body 12 of the management unit 10 are respectively attached to the peripheral wall 32 of the holding unit 30, so that the management unit 10 is prevented from being shaken in the holding unit 30 when the injection management apparatus is moved, thereby protecting the injection 100. Preferably, the height dimension of the peripheral wall 32 is larger than the height dimensions of the rear support plate 121, the front support plate 122 and the two end support plates 123 of the support body 12, so that when the vial management device is moved, it can be ensured that the management unit 10 is reliably held in the holding space 33 of the holding unit 30.

Further, the peripheral wall 32 of the holding unit 30 has at least one marking groove 321, wherein the taking-out end 1102 of the receiving groove 110 of the management body 11 corresponds to the marking groove 321 of the peripheral wall 32, and a doctor can hold a mark in the marking groove 321 of the peripheral wall 32 to mark the type of the injection solution 100 stored in the receiving groove 110 corresponding to the marking groove 321.

Referring to fig. 4A to 4C, the ampoule 100 can be replenished from the replenishing end 1101 of the accommodating tank 110 of the management body 11 to and held in the accommodating tank 110 of the management body 11. When a doctor takes out one injection solution 100 from the taking-out end 1102 of the accommodating tank 110 of the management body 11, the remaining injection solution 100 can slide to the taking-out end 1102 of the accommodating tank 110 along the track formed by the accommodating tank 110 of the management body 11, at this time, the replenishing end 1101 of the accommodating tank 110 of the management body 11 forms a free space 1103 to allow other injection solutions 100 to be replenished from the replenishing end 1101 of the accommodating tank 110 of the management body 11 to the free space 1103 of the accommodating tank 110 of the management body 11, and if no other injection solution 100 is replenished from the replenishing end 1101 of the accommodating tank 110 of the management body 11 to the free space 1103 of the accommodating tank 110, the positioning side 21 of the adjustment unit 20 can be positioned at the positioning groove 111 of the management body 11 to hold the adjustment unit 20 in the accommodating tank 110, to adjust the length of the accommodating groove 110 of the management body 11, so as to prevent the injection solution 100 stored in the accommodating groove 110 of the management body 11 from shaking and prevent the injection solution 100 from falling to the empty space 1103.

Fig. 5 to 8C show a modification of the above preferred embodiment, and unlike the injection management apparatus shown in fig. 1 to 4C, in the preferred example of the injection management apparatus shown in fig. 5 to 8C, the adjusting unit 20 is slidably provided to the management body 11 to adjust the length dimension of the accommodating groove 110 of the management body 11, so that the injection 100 is stably and reliably held in the accommodating groove 110 of the management body 11.

Specifically, both sides of the adjusting unit 20 are provided with a slide groove 23, wherein both side walls of the managing body 11 for forming the receiving groove 110 are respectively held in the slide grooves 23 of the adjusting unit 20, and the slide grooves 23 of the adjusting unit 20 correspond to different positions of the managing body 11 when the adjusting unit 20 is operated to slide the adjusting unit 20, thereby adjusting the length dimension of the receiving groove 110 of the managing body 11.

More specifically, the adjusting unit 20 includes a first adjusting member 24 and a second adjusting member 25, wherein the first adjusting member 24 and the second adjusting member 25 are mounted to each other to form the slide groove 23 between the first adjusting member 24 and the second adjusting member 25, and the first adjusting member 24 and the second adjusting member 25 are respectively held at both sides of the management body 11.

Referring to fig. 8A to 8C, the ampoule 100 can be replenished from the replenishing end 1101 of the accommodating tank 110 of the management body 11 to and held in the accommodating tank 110 of the management body 11. When a doctor takes out one injection solution 100 from the taking-out end 1102 of the accommodating tank 110 of the management body 11, the remaining injection solution 100 can slide to the taking-out end 1102 of the accommodating tank 110 along the track formed by the accommodating tank 110 of the management body 11, at this time, the replenishment end 1101 of the accommodating tank 110 of the management body 11 forms the free space 1103 to allow other injection solutions 100 to be replenished from the replenishment end 1101 of the accommodating tank 110 of the management body 11 to the free space 1103 of the accommodating tank 110 of the management body 11, and if no other injection solution 100 is replenished from the replenishment end 1101 of the accommodating tank 110 of the management body 11 to the free space 1103 of the accommodating tank 110, the adjustment unit 20 can be slid to adjust the length dimension of the accommodating tank 110 of the management body 11 by changing the position of the adjustment unit 20, thereby preventing the injection bottles 100 stored in the storage tank 110 of the management body 11 from shaking and preventing the injection bottles 100 from falling down toward the empty space 1103.

Referring to fig. 9 to 11B of the drawings of the specification of the present invention, a syringe management device according to a second preferred embodiment of the present invention is disclosed and explained in the following description, wherein the syringe management device includes at least one management unit 10A, the management unit 10A includes a management main body 11A, the management main body 11A has at least one elongated receiving groove 110A for receiving a plurality of syringes 100A, and the syringe management device allows the syringes 100A to slide along the track formed by the receiving groove 110A, thereby guiding a doctor to use the syringes 100A according to the placement order of the syringes 100A, and in this way, the syringe management device can prevent the syringes 100A from being out of order due to long-term exposure to a normal temperature environment.

Specifically, the receiving slot 110A of the management body 11A has a replenishing end 1101A and a withdrawing end 1102A opposite to the replenishing end 1101A, wherein the shot 100A can be placed in and replenished to the holding tank 110A of the management body 11A from the replenishing end 1101A of the holding tank 110A of the management body 11A, and the shot 100A can be taken out from the taking-out end 1102A of the receiving tank 110A after sliding along the track formed by the receiving tank 110A of the management body 11A from the replenishing end 1101A to the taking-out end 1102A of the receiving tank 110A, thereby guiding the doctor to use the ampoules 100A in the order in which the ampoules 100A are placed, in this way, the injection management device can prevent the injection 100A from being out of order due to long-term exposure to a normal temperature environment.

The width dimension of the accommodating tank 110A of the management body 11A is slightly larger than the diameter of the injection 100A, in such a way, in the process of moving the injection management device, the injection management device prevents the injection 100A from falling and prevents the injection 100A from falling from the injection management device so as to protect the injection 100A under the condition that the injection management device allows the injection 100A to slide from the replenishing end 1101A to the taking end 1102A along the track formed by the accommodating tank 110A of the management body 11A. It should be noted that although the length of the receiving slot 110A of the management body 11A is sized to allow the injection solution 100A to slide along the track formed by the receiving slot 110A from the replenishing end 1101A toward the removing end 1102A, the injection solution 100A is prevented from sliding in the receiving slot 110A of the management body 11A to protect the injection solution 100A during the process of moving the injection solution management apparatus to avoid the injection solution 100A from falling.

Preferably, the management body 11A has a plurality of the accommodating grooves 110A to separately accommodate the cartridges 100A, thereby preventing the cartridges 100A from being misused and saving time in recognizing the type of the cartridges 100A later. That is, a plurality of injection solutions 100A of one type can be accommodated in one of the accommodating tanks 110A of the management body 11A, and a plurality of injection solutions 100A of another type can be accommodated in another of the accommodating tanks 110A of the management body 11A, that is, the same accommodating tank 110A of the management body 11A is only allowed to accommodate one or more injection solutions 100A of one type, in such a way, the injection solution management apparatus can prevent the injection solutions 100A from being misused and save time for recognizing the types of the injection solutions 100A in the future.

Preferably, the plurality of receiving grooves 110A of the management body 11A are parallel to each other. It is worth mentioning that the width dimensions of the accommodating grooves 110A of the management body 11A may be uniform or non-uniform, that is, the width dimensions of the accommodating grooves 110A of the management body 11A are allowed to be selected according to the diameter dimensions of the injection solution 100A.

With continued reference to fig. 9 to 11B, the ampoule management apparatus further includes a holding unit 30A, wherein the holding unit 30A includes a bottom plate 31A and a peripheral wall 32A extending upward from the bottom plate 31A to form a holding space 33A between the bottom plate 31A and the peripheral wall 32A, wherein the management main body 11A is provided to the peripheral wall 32A of the holding unit 30A, and the management main body 11A is held in the holding space 33A to form a lower space 13A of the management unit 10A at a lower portion of the management main body 11A. After the shot 100A is replenished from the replenishing end 1101A of the accommodating tank 110A to and held in the accommodating tank 110A, the lower portion of the shot 100A is held in the lower space 13A of the management unit 10A, the middle portion of the shot 100A is retained by the management body 11A and only the shot 100A is allowed to slide along the track formed by the accommodating tank 110A of the management body 11A from the replenishing end 1101A of the accommodating tank 110A toward the dispensing end 1102A, and the upper portion of the shot 100A is exposed at the upper portion of the management body 11A to allow the shot 100A to be handled.

That is, the side walls of the management body 11A for forming the accommodating groove 110A can limit the moving direction of the injection 100A in the middle of the injection 100A, that is, the middle of the injection 100A is limited by the side walls of the management body 11A for forming the accommodating groove 110A and is only allowed to slide from the replenishing end 1101A of the accommodating groove 110A to the extracting end 1102A along the track formed by the accommodating groove 110A of the management body 11A.

Further, the holding unit 30A includes at least a pair of supporting portions 34A, wherein the pair of supporting portions 34A are provided to the peripheral wall 32A symmetrically to each other, and these supporting portions 34A are held in the holding space 33A of the holding unit 30A, wherein the management body 11A is provided to the peripheral wall 32A and held in the holding space 33A in such a manner as to be supported by these supporting portions 34A. Preferably, the support portion 34A and the peripheral wall 32A are integrally formed. More preferably, the support portion 34A, the peripheral wall 32A, and the bottom plate 31A are an integral structure. Preferably, the administration body 11A is detachably disposed on the holding unit 30A to facilitate cleaning of the ampoule administration device.

The peripheral wall 32A includes a rear-side peripheral wall 321A, a front-side peripheral wall 322A, and an end-portion peripheral wall 323A, wherein the rear-side peripheral wall 321A, the front-side peripheral wall 322A, and the end-portion peripheral wall 323A extend upward from the rear side, the front side, and one end portion of the bottom plate 31A, respectively, to form the holding space 33A between the rear-side peripheral wall 321A, the front-side peripheral wall 322A, and the end-portion peripheral wall 323A of the peripheral wall 32A and the bottom plate 31A, and to form an opening 35A communicating with the holding space 33A at one side of the peripheral wall 32A, wherein the management body 11A is detachably provided to the peripheral wall 32A from the opening 35A of the holding unit 30A, referring to fig. 11A and 11B.

Preferably, the management body 11A has at least one pair of holding grooves 112A, wherein the supporting portion 34A of the holding unit 30A can be held in the holding groove 112A of the management body 11A by the self-weight of the management body 11A, in such a manner that the management body 11A can be prevented from slipping off the holding unit 30A and the management body 11A can be prevented from shaking relative to the holding unit 30A during the process of moving the injection management apparatus, thereby ensuring the safety of the injection 100A.

With continued reference to fig. 9-11B, the ampoule managing device further comprises at least one adjusting unit 20A, wherein the adjusting unit 20A is operatively disposed on the managing body 11A of the managing unit 10A for adjusting the size of the accommodating tank 110A of the managing body 11A, such that the ampoule 100A is stably and reliably held in the accommodating tank 110A.

Specifically, referring to fig. 9 to 11B, the management body 11A has at least one row of positioning grooves 111A, the positioning grooves 111A are arranged at intervals to each other on the side wall of the management body 11A for forming the receiving grooves 110A, and the positioning grooves 111A communicate with the receiving grooves 110A, respectively. Preferably, both side walls of the management body 11A for forming the receiving groove 110A are provided with a row of the positioning grooves 111A symmetrical to each other, wherein the side of the adjusting unit 20A is detachably positioned at the positioning grooves 111A of the management body 11A. When the side portions of the regulating unit 20A are positioned in the positioning grooves 111A at different positions of the management body 11A, the length dimension of the receiving grooves 110A of the management body 11A is regulated so that the injection bottles 100A are stably and reliably held in the receiving grooves 110A of the management body 11A.

More specifically, the regulating unit 20A has at least one positioning side 21A, and the positioning side 21A of the regulating unit 20A is detachably positioned in the positioning groove 111A of the managing body 11A to regulate the length dimension of the accommodating groove 110A of the managing body 11A in such a manner that the regulating unit 20A is held at different positions of the accommodating groove 110A of the managing body 11A, so that the shot 100A is stably and reliably held in the accommodating groove 110A of the managing body 11A. For example, in the preferred example of the ampoule managing device shown in fig. 9 to 11B, the regulating unit 20A has a plate shape, and the positioning sides 21A are formed at both sides of the regulating unit 20A to be symmetrical to each other, so as to allow the positioning sides 21A of the regulating unit 20A to be detachably positioned at the positioning grooves 111A of the managing body 11A, thereby holding the regulating unit 20A in the receiving groove 110A of the managing body 11A to regulate the length dimension of the receiving groove 110A.

Further, one end of the adjusting unit 20A is provided with a non-slip portion 22A, and the doctor can conveniently operate the adjusting unit 20A through the non-slip portion 22A. After the positioning side 21A of the adjustment unit 20A is positioned in the positioning groove 111A of the management body 11A, the end of the adjustment unit 20A provided with the anti-slip part 22A forms a high end part of the adjustment unit 20A, i.e., the anti-slip part 22A of the adjustment unit 20A protrudes above the management body 11A, to allow a doctor to conveniently operate the adjustment unit 20A.

In the preferred example of the ampoule managing apparatus shown in fig. 9 to 11B, the non-slip part 22A of the adjusting unit 20A is a through hole. Alternatively, the non-slip portion 22A of the adjustment unit 20A may be a groove or a protrusion.

According to another aspect of the present invention, the present invention further provides a method for managing an injection, wherein the method for managing an injection comprises the following steps:

(a) replenishing the injection solution 100 in the accommodating tank 110 from the replenishing end 1101 of the accommodating tank 110 of the management body 11;

(b) allowing the shot 100 to slide along the track formed by the receiving groove 110 of the management body 11 from the replenishing end 1101 of the receiving groove 110 to the withdrawing end 1102; and

(c) allowing the injection bottles 100 to be taken out from the take-out ends 1102 of the housing grooves 110 of the management body 11.

Further, in the above method, the length dimension of the receiving groove 110 of the management body 11 is adjusted by the adjusting unit 20. For example, the position of the adjusting unit 20 with respect to the management body 11 is changed to adjust the length dimension of the receiving groove 110 of the management body 11. Specifically, in a preferred example of the method for administering a bolus according to the present invention, the adjustment unit 20 is detachably mounted to the administration main body 11 to change the position of the adjustment unit 20 relative to the administration main body 11. In another preferred example of the ampoule management method according to the present invention, the adjustment unit 20 is slidably mounted on the management main body 11 to change the position of the adjustment unit 20 relative to the management main body 11.

Further, in the above method, the types of the shots 100 accommodated in the accommodation grooves 110 are marked at the taking-out ends 1102 of the accommodation grooves 110 of the management body 11 for assisting in distinguishing the types of the shots 100 stored in the accommodation grooves 110 of the management body 11.

It will be appreciated by persons skilled in the art that the above embodiments are only examples, wherein features of different embodiments may be combined with each other to obtain embodiments which are easily imaginable in accordance with the disclosure of the invention, but which are not explicitly indicated in the drawings.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (19)

1. The injection management device is characterized by comprising at least one management unit, wherein the management unit comprises a management main body, the management main body is provided with at least one long-strip-shaped accommodating groove for accommodating a plurality of injections, and the management unit allows the injections to slide from a supplementing end to a taking-out end of the accommodating groove along a track formed by the accommodating groove of the management main body.

2. The vial management device of claim 1, wherein the management unit has a lower space, wherein the lower space is formed in a lower portion of the management body.

3. The ampoule management device of claim 2, wherein the management unit comprises a support body, the management body is disposed to the support body, and the lower space is formed between the management body and the support body.

4. The vial management device according to claim 3, wherein the support body comprises a rear support plate and a front support plate corresponding to the rear support plate, wherein the rear support plate and the front support plate extend downward from rear and front sides of the management body, respectively, to form the lower space between the rear support plate and the front support plate of the support body and the management body.

5. The vial management device of claim 4, wherein the support body comprises two end support plates, wherein the two end support plates extend downward from the two ends of the management body, and wherein the two end support plates are connected to the rear support plate and the front support plate, respectively.

6. The vial management device of claim 5, wherein the rear support plate, the front support plate and the two end support plates extend upward from the rear side, the front side and the two ends of the management body, respectively.

7. The ampoule management device of claim 3, further comprising a holding unit, wherein the holding unit comprises a bottom plate capable of closing at least a portion of the opening of the lower space, and wherein the receiving groove of the management body corresponds to the bottom plate.

8. The ampoule management device of claim 5, further comprising a holding unit, wherein the holding unit comprises a bottom plate capable of closing at least a portion of the opening of the lower space, and wherein the receiving groove of the management body corresponds to the bottom plate.

9. The ampoule management device of claim 6, further comprising a holding unit, wherein the holding unit comprises a bottom plate capable of closing at least a portion of the opening of the lower space, and wherein the receiving groove of the management body corresponds to the bottom plate.

10. The ampoule management device of claim 8, wherein the holding unit comprises a peripheral wall extending from the periphery of the bottom plate to form a holding space between the peripheral wall and the bottom plate, wherein the management unit is detachably mounted to the holding space of the holding unit.

11. The ampoule management device of claim 9, wherein the holding unit comprises a peripheral wall extending from the periphery of the bottom plate to form a holding space between the peripheral wall and the bottom plate, wherein the management unit is detachably mounted to the holding space of the holding unit.

12. The vial management device of claim 10, wherein the height dimension of the peripheral wall of the holding unit is greater than the height dimensions of the rear support plate, the front support plate and the two end support plates of the support body.

13. The vial management device of claim 11, wherein the height dimension of the peripheral wall of the holding unit is greater than the height dimensions of the rear support plate, the front support plate and the two end support plates of the support body.

14. The vial management device of claim 2, further comprising a holding unit, wherein the holding unit comprises a bottom plate and a peripheral wall extending upward from the bottom plate and a holding space formed between the bottom plate and the peripheral wall, wherein the management body is disposed at the peripheral wall and held in the holding space to form a lower space at a lower portion of the management body.

15. The vial management device of any of claims 1-14, wherein the vial management device further comprises an adjustment unit, wherein the adjustment unit is adjustably disposed to the management body.

16. The ampoule management device of claim 15, wherein the adjustment unit is detachably disposed to the management body.

17. The vial management device of claim 15, wherein the adjustment unit is slidably disposed on the management body.

18. The ampoule management device of claim 15, wherein the management body further comprises at least one row of positioning grooves, the positioning grooves are respectively spaced apart from each other and disposed on the side wall of the management body for forming the receiving grooves, and the positioning grooves are communicated with the receiving grooves, wherein the adjustment unit has at least one positioning side, and the positioning side of the adjustment unit is detachably positioned on the positioning grooves of the management body.

19. The ampoule management device according to claim 15, wherein the adjustment unit has two symmetrical slide slots, and two side walls of the management body for forming the receiving slots are movably disposed in each of the slide slots of the adjustment unit.

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