JP4746764B2 - Blood collection tube preparation device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention automatically selects a blood collection tube necessary for a patient's examination from a blood collection tube storage section in which a plurality of types of blood collection tubes are previously stored, and affixes a label on which information related to the patient corresponding to the selected blood collection tube is printed. The present invention relates to an improvement of a blood collection tube preparation device for accommodating a blood collection tube after attaching a label for each patient.
[0002]
[Prior art]
When a blood test is performed, a plurality of items are often tested for one patient. For this reason, hospitals change the type of blood collection tube used for each examination item, and attach a label with the name of the patient to each blood collection tube, so that the type of examination corresponding to each blood collection tube at the time of examination The patient can be identified.
However, as described above, the name and the like of the patient are written on the label for each blood collection tube, and the work of attaching the label is complicated and time-consuming. Serious mistakes such as wrong type may occur.
In order to solve this, the applicant holds at least two types of blood collection tubes for each examination item in the first storage unit, and selects and takes out blood collection tubes necessary for the patient's examination from the first storage unit, Invented a blood collection tube preparation device capable of printing information on a patient corresponding to the removed blood collection tube on a label, attaching the label to the removed blood collection tube, and further storing the blood collection tube after labeling for each patient. (Patent No. 2834595).
After the applicant's invention, various improvements have been made to the blood collection tube preparation device of the type described above by the applicant or a third party, and they have been proposed.
[0003]
[Problems to be solved by the invention]
Most of the above-described conventional blood collection tube preparation devices are configured such that a storage unit that accommodates the blood collection tubes before labeling for each examination item is directly stacked with a plurality of blood collection tubes lying side by side. The blood collection tubes are configured to be taken out one by one as needed from the collection of collected blood tubes.
However, it is not easy to take out the blood collection tubes one by one from the stack of blood collection tubes that are directly stacked. For this reason, each device has a complicated extraction mechanism only for taking out the blood collection tubes before labeling. There is a problem that the size of the device is increased due to this blood collection tube removal mechanism, and the manufacture of the device is complicated and the price is increased, and this blood collection tube removal mechanism causes a failure. There were also problems such as being connected.
An object of the present invention is to solve the above-described conventional problems and to provide a blood collection tube preparation device that does not require a complicated configuration of a blood collection tube extraction mechanism for extracting a blood collection tube.
[0004]
[Means for Solving the Problems]
In order to achieve the above-described object, the blood collection tube preparation device according to the present invention includes at least two blood collection tube storage units capable of accommodating the blood collection tubes to be labeled according to the type of the blood collection tube, and information on the subject on the label. Label printing / pasting means for printing and attaching a printed label to a blood collection tube, a blood collection tube collection unit capable of accommodating the blood collection tube after labeling for each patient, and a blood collection tube corresponding to a blood collection tube necessary for patient examination The blood collection tube receiving means that receives the blood collection tube from the blood vessel storage section and transports the blood collection tube to the label printing / pasting means and the blood collection tube collection section and the blood collection tube necessary for the examination of the patient are selectively taken out, and the patient is placed in the taken blood collection tube a label attached to the print information corresponding to further the blood collection tube after affixing labels to a label automatic sticking apparatus for blood collection tube and a control means for controlling the respective sections so as to accommodate by a patient, Accommodate all of the blood collection tube housing arranged laterally erected, and the one by one horizontal aliquot tubes to each blood collecting tube housing with serial to Vertical configured to extend each blood collection tube housing in a vertical direction A plurality of sections configured to be configured in the circumferential direction, and configured to be able to insert a blood collection tube into each of the sections from the front of the blood collection tube storage section, and are stored in the blood collection tube storage section both when to be able to see from the front of the device, the bottom of each blood collection tube housing, wherein provided an opening capable of discharging the blood collection tube housed in the compartment, each of said blood collecting tube housing, that Each partition is configured to be rotationally driven in the circumferential direction, and by driving the partition in the circumferential direction by a certain amount, the blood collection tube accommodated in the partition corresponding to the open part is dropped from the open part, At least a part of the blood collection tube transfer means is From the lower drop position of the blood collection tube in blood collection tube housing that is, by placing along these blood collection tube housing and is characterized by being configured to transfer and receive the dropped blood collection tube.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EMBODIMENTS Hereinafter, an embodiment of a blood collection tube preparation device according to the present invention will be described with reference to an embodiment shown in the accompanying drawings.
[0006]
1 is a schematic perspective view of a blood collection tube preparation device according to the present invention, FIG. 2 is a schematic side view of the internal structure of the device viewed from the right side in FIG. 1, and FIG. 3 is a schematic cross-sectional view taken along line AA in FIG. 4 is a schematic front view of the internal structure of the apparatus viewed from the front in FIG. 1, and FIG. 5 is a schematic bottom view of the internal structure of the apparatus viewed from below in FIG.
As shown in the drawing, this blood collection tube preparation device
Inside the housing 1,
Four rows of blood collection tubes 10a to 10d extending in the vertical direction;
A blood collection tube transfer means 20 disposed below the blood collection tube storage unit 10;
A label printing / pasting means 30 disposed on the lower front side of the blood collection tube storage unit 10;
And a blood collection tube collection unit 40 disposed below the label printing / pasting means 30.
[0007]
Each blood collection tube storage unit 10 is provided with a driving unit in which an endless belt 13 is wound between belt rotating shafts 11 and 12 arranged vertically on the inner side of an outer peripheral wall 19 opened at the lower side. By rotating the belt rotating shaft 11 with a supply motor 16 via a driven gear 14 and a driving gear 15, the endless belt 13 is configured to rotate. A plurality of partition plates 17 extending outwardly in a direction orthogonal to the outer peripheral surface of the belt 13 are integrally provided on the outer peripheral surface of the endless belt 13 at regular intervals, and the two partition plates 17, 17 and the outer peripheral wall 19 are provided. In each space surrounded by, a section 18 that can accommodate one blood collection tube is formed.
Each of the blood collection tube storage sections 10 configured as described above is rotated by the supply section motor 16 by a control means (not shown) so that the endless belt 13 rotates clockwise in FIG. When passing around the belt rotation shaft 11, the blood collection tube supported by the partition plate 17 is dropped to the lower blood collection tube transfer means 20 from the opened portion of the outer peripheral wall 19.
2 indicates a tube detection sensor provided in each of the blood collection tube storage portions 10a to 10d. This tube detection sensor S1 is immediately before the blood collection tube in each of the blood collection tube storage portions 10a to 10d drops. It is detected whether or not there is a blood collection tube in the section 18 located at the location. The endless belt 13 in each of the blood collection tube accommodating portions 10a to 10d is controlled to be driven to rotate until the tube collection sensor S1 detects the blood collection tube. Thereby, each blood-collecting-tube accommodating part 10a-10d always makes the blood-collecting tube wait in the division 18 located in the place just before a blood-collecting tube falls, even when the blood-collecting tube is not accommodated in all the divisions 18. If necessary, the blood collection tube can be discharged only by rotationally driving the endless belt 13 for one section.
[0008]
The blood collection tube transfer means 20 is provided with a single endless belt 21 disposed horizontally along the blood collection tube storage portion 10 below the four rows of blood collection tube storage portions 10. The endless belt 21 is wound between belt rotation shafts 22 and 23 arranged on the left and right sides, and the right belt rotation shaft 22 is rotated by a tube conveying motor 24 via a conduction belt (not indicated). It is comprised so that it may rotate clockwise in FIG.
A plurality of partition plates 25 extending outwardly in a direction orthogonal to the outer peripheral surface are integrally provided on the outer peripheral surface of the endless belt 21 at a predetermined interval. The blood collection tube is configured to be received.
In addition, the blood collection tube transfer means 20 includes a tube transfer guide 26 that extends forward in the direction orthogonal to the endless belt 21 below the right end of the endless belt 21 in FIG.
The tube transfer guide 26 is provided with a tube transfer plate 27. The tube transfer plate 27 is configured so that it can be moved back and forth in the tube transfer guide 26 by a tube transfer motor 29 along the tube transfer guide rail 28. The blood collection tube placed in the tube transfer guide 26 is The tube transfer plate 27 pushes out to the standby position X1 in the printing / sticking means 30 in front of it.
The blood collection tube transfer means 20 configured as described above receives the blood collection tube dropped from the blood collection tube storage unit 10 between the corresponding partition plates 25 and 25, and then the endless belt 21 by the tube transport motor 24. When the endless belt 21 rotates clockwise in FIG. 3 and passes around the right belt rotation shaft 22, the blood collection tube supported between the partition plates 25, 25 is dropped onto the lower tube transfer guide 26.
After the blood collection tube is dropped on the tube transfer guide 26, the tube transfer plate 27 is moved forward by the tube transfer motor 29 to push the blood collection tube to the standby position X1 positioned forward, and then the tube transfer plate 27 is moved to the end. Return until the next blood collection tube is dropped.
2 indicates a tube detection sensor provided at the right end of the endless belt 21. The tube detection sensor S2 has a blood collection tube at a position immediately before the blood collection tube drops onto the tube transfer guide 26. Detect whether or not there is. When the endless belt 21 receives a blood collection tube from the blood collection tube storage unit, the endless belt 21 is driven to rotate until the tube detection sensor S2 detects the blood collection tube, waits for the blood collection tube at that position, and a tube transfer guide at a predetermined timing. 26 is controlled to drop the blood collection tube. As a result, when processing a plurality of blood collection tubes in succession, while processing the previous blood collection tube, the endless conveyor 21 continues to the next test tube up to a position immediately before dropping the blood collection tube to the tube transfer guide 26. The processing efficiency can be improved.
[0009]
The label printing / pasting means 30 feeds the label mount from the label mount roll 33 by the rotation of the platen roller 31 and the driving rollers 32a and 32b that are driven in synchronization with the roller 31. Based on the information sent from the control means (not shown), information about the patient corresponding to the blood collection tube to which the label is to be attached is printed by the print head 34, and the printed label is sharpened in the advancing direction of the mount. The label is affixed to the blood collection tube which is peeled off by the bending peeler plate 35 and waits for rotation at the label sticking position X2 located near the tip of the peeler plate 35.
[0010]
At the label sticking position X2, a sticking roller 36 constituting a part of the label printing / sticking means 30 is disposed above the label sticking position X2, and below both the label printing / sticking means 30 and the blood collection tube transfer means 20 are disposed. A blood collection tube presser and blood collection tube discharge means 37 constituting a part of the blood collection tube is disposed.
The blood collection tube presser and blood collection tube discharge means 37 includes:
A fixed roller 37a for supporting the blood collection tube at the label attaching position X2,
A standby table 37b for supporting the blood collection tube at the standby position X1,
The pressurization table 37d provided with a pressure roller 37c that pushes the blood collection tube arriving at the standby position X1 to the upper label application position X2 and presses the blood collection tube toward the application roller 36 at the label application position X2, and the pressurization A guide rail 37e for enabling the roller 37c to move between the standby position X1, the label attaching position X2, the blood collection tube discharge position X3, and the label discharge position X4.
It has.
In FIG. 2, symbol S3 indicates a pipe arrival sensor, which is arranged on an extension line of the pipe transfer guide 26, and the blood collection tube is pushed out to the standby position X1 by the pipe transfer plate 27. Sometimes, the head of the blood collection tube is configured to contact this sensor S2. The pressure roller 37c in the blood collection tube pressing and blood collection tube discharging means 37 detects that the blood collection tube has arrived at the standby position X1 by the tube arrival sensor S2, and pushes the blood collection tube up to the label attaching position X2.
[0011]
The blood collection tube collection unit 40 is configured so that the tray T can be installed therein, and is configured to receive the blood collection tube after labeling dropped from the blood collection tube discharge port 27a by the installed tray T. ing.
[0012]
Finally, the configuration of the housing 1 that accommodates each of the above-described means will be described. A transparent front and back supply unit cover 2 that is openable and closable is provided at a portion corresponding to the front surface of the blood collection tube storage unit 1. The type of the collected blood collection tube is configured so that it can be confirmed at a glance.
Here, the blood collection tube will be briefly described. In recent years, a vacuum blood collection tube is often used as a blood collection tube used for blood collection, and this vacuum blood collection tube is preliminarily disposed in advance in order to maintain the negative pressure inside the blood collection tube. It is sealed with a reaction solution or the like placed in it. For this reason, the color of the cap is changed according to the type so that the vacuum blood collection tube can be identified as to which vacuum blood collection tube is used. Accordingly, the blood collection tube storage unit 10 is configured so that the vacuum blood collection tube cap can be accommodated forward, and the transparent door 2 is provided on the front surface thereof, so that the color of the blood collection tube cap can be externally changed. The user can see at a glance what kind of blood collection tube is housed in which blood collection tube storage part during use, as well as different types of blood collection tubes. It becomes possible to check the contamination of the blood collection tube and to check the remaining amount of the blood collection tube at a glance.
Furthermore, by partitioning the blood collection tube accommodating portion so that the blood collection tubes can be inserted one by one and providing the blood collection tube replenishment port so as to be exposed on the front surface of the device, the device can be operated even during operation. There is an effect that the blood collection tube can be replenished.
Further, a concave portion 3 that is recessed to a position adjacent to the label sticking position X2 is formed in a portion corresponding to the label sticking position X2 on the right side surface of the housing 1 in FIG. 1, and the label sticking position X2 of the concave portion 3 is formed. Is provided with an opening 4 for taking out the label (see FIGS. 4 and 6 to 9).
Here, the configuration of the label printing / sticking means 30 near the label sticking position X2 will be described again. As shown in FIG. 4, most of the constituent members 31 to 35 of the label printing / sticking means 30 are on the left side of the label sticking position X2. The sticking roller 36 is placed above the label sticking position X2, and the blood collection tube presser / collecting blood vessel discharge means 37 is placed below the label sticking position X2. Thus, the label sticking position X2 is opened without any obstacle on the right side thereof, that is, on the track in the traveling direction of the label peeled off from the mount, and the label is positioned at a position facing the open portion. An extraction opening 4 is provided. The label printing / pasting means 30 is configured so that it can be driven even when the blood collection tube is not at the label pasting position X2, if necessary, and when the label is peeled off, the pressure is located on the adhesive surface of the label The roller 37c is made of a non-adhesive material (for example, Teflon) or a plurality of grooves are formed so that the label glue does not stick to the surface.
Thus, for example, when using a type of blood collection tube that is not accommodated in the blood collection tube accommodating unit 10, it is necessary for the patient to drive the label printing / applying means 30 without the blood collection tube at the label application position X2. It becomes possible to remove the label printed with various information from the label extraction opening 4 in a peeled state.
[0013]
Next, the operation of the blood collection tube preparation device configured as described above will be described.
First, the user sets predetermined predetermined types of blood collection tubes in the respective blood collection tube storage portions 10a to 10d. The blood collection tube storage unit 10 stores at least the same type of blood collection tube in units of the blood collection tube storage units 10a to 10d, and the type of blood collection tube stored in each of the blood collection tube storage units 10a to 10d is a control device. (Or every time a blood collection tube is set).
Here, if the method of setting a blood collection tube to the blood collection tube accommodating part 10 is demonstrated easily, a user will open the supply part front cover 2 and the partition plates 14 and 14 in each blood collection tube accommodating part 10a-10d. The blood collection tube is set by inserting a predetermined type of blood collection tube into the space between the compartments 18 one by one so that the cap faces the front of the device (that is, the supply unit front cover 2 side). The In addition, although what kind of blood collection tubes are accommodated in the blood collection tube storage units 10a to 10d can be set on the control means side configured by a computer or the like, for example, the operation is performed on the blood collection tube preparation device side. A panel may be provided so that the change information of the type of blood collection tube to be accommodated can be sent to the control device side via this operation panel, and the frequency of use in each of the blood collection tube accommodation units 10a to 10d. If the type of blood collection tube to be accommodated is changed by pressing a button corresponding to the type after change, the type change information is displayed on the control means side. You may comprise so that it may send.
In addition, as described above, by inserting a blood collection tube into each blood collection tube storage portion so that the cap faces the front of the device, the cap of the blood collection tube accommodated from the outside of the device can be seen at a glance. Since the inner portion of the endless belt 13 in the blood collection tube storage portions 10a to 10d is empty, the mark blood collection tube storage portion 50 (one point difference in FIG. 4) that can store the blood collection tube for the mark vertically. This can be configured to make it easier for the user to see the types of blood collection tubes accommodated in the respective blood collection tube accommodating portions.
Returning to the description of the operation of the device, the blood collection tube preparation device receives information on the patient to be printed on the label and information on the type of blood collection tube necessary for the examination of the patient. The blood collection tube accommodating portions 10 (a to d) corresponding to the types of blood collection tubes are driven to rotate, and one blood collection tube is dropped onto the endless belt 21 of the blood collection tube transfer means 20.
When the blood collection tube transfer means 20 receives the blood collection tube dropped from the blood collection tube storage section 10 between the partition plates 25, 25 of the endless belt 21, the blood collection tube transfer means 20 is rotated clockwise and the received blood collection tube is transferred to the tube. Drop on transfer guide 26.
When the blood collection tube is dropped on the tube transfer guide 26, the tube transfer plate 27 pushes the blood collection tube to the standby position X1 in front. FIG. 6 shows a state where the blood collection tube is pushed out to the standby position X1.
When the blood collection tube is pushed out to the standby position X1, the pressure roller 37c pushes up the blood collection tube to the label application position X2 shown in FIG. 7, and at this label application position X2, the blood collection tube is applied to the application roller 36, the fixed roller 37a, and the pressure. It is supported at three points by the roller 37c and waits while being rotated by the sticking roller 36.
A label on which information related to a patient is printed is peeled off by a peeling plate 35 on a blood collection tube that is waiting while rotating, and the label is stuck around the blood collection tube by the sticking roller 36.
When the application of the label to the blood collection tube is completed, the pressure roller 37c is lowered while supporting the blood collection tube. When the pressure roller 37c is lowered to the blood collection tube discharge position X3, the blood collection tube after label application is the blood collection tube. It falls into the tray T arranged in the collection unit 40 (see FIG. 8).
Further, when it is necessary to attach a label to a type of blood collection tube that is not stored in the blood collection tube storage unit 10, the label printing / applying means 30 operates in a state where there is no blood collection tube at the label application position X2. . More specifically, in this case, as shown in FIG. 9, the pressure roller 37c rises to the label discharge position X4, and the printed label is opened by the label roller 36 and the pressure roller 37c. It is sent to the side and discharged.
The processing described above is continuously performed for one patient, and is stopped when the labeling and discharging of the labels for all blood collection tubes for one patient are completed.
In addition, the drive timing of the blood collection tube storage unit, the transfer means, and the label printing / pasting means is different from each other so that the blood collection tubes do not collide with each other during processing, It can be arbitrarily set so that the blood collection tube of the patient does not enter into one tray T. Specifically, for example, after the blood collection tube is dropped from the endless belt 21 in the transfer means 20 to the tube transfer guide 26, the blood collection tube storage unit 10 is driven to drop the next blood collection tube onto the endless belt 21. The belt 21 waits in a state where the received blood collection tube is transferred to the right end of the endless belt, and after the tube transfer plate 26 pushes out the previous blood collection tube and returns to the rearmost position, the blood collection tube is guided to the tube transfer. It can be driven at such a timing as to drop to 26. In addition, when continuously processing the blood collection tubes of a plurality of patients, after completing the processing of the blood collection tubes of one patient, until the tray T is replaced, It can be configured to wait in any of the blood collection tube storage section, the transfer means, or the label printing / sticking means.
[0014]
In the embodiment described above, the blood collection tube collection unit 40 is configured so that one tray T can be installed, and the tray T is replaced manually. The configuration of this tray collection unit is the present embodiment. However, the present invention is not limited to this. For example, an empty tray accommodating portion that can accommodate a plurality of empty trays T in a stacked or side-by-side arrangement, and a collection that can accommodate a plurality of trays T in which a blood collection tube after labeling is accommodated in a stacked or aligned manner. A tray transfer means capable of transferring the blood vessel-accommodated tray accommodation portion and the tray T from the empty tray accommodation portion to the blood collection tube-accommodated tray accommodation portion through the blood collection vessel collection position for collecting the labeled blood collection tube When the blood collection tube for one patient is accommodated in the tray T, the accommodated tray T is transferred to the tray collection portion with the blood collection tube, and the empty tray T is collected from the empty tray storage portion. It may be configured to transfer to yield position.
In the present embodiment, the tray T is installed in the blood collection tube storage section 40 and the blood collection tubes are collected in the tray T. However, the configuration of the tray collection section 40 is limited to this embodiment. For example, the blood collection tube may be collected in a bag or the like.
Further, in the present embodiment, each blood collection tube accommodating portion 10 is provided with a plurality of partition plates 17 on the endless belt 13 wound around the upper and lower belt rotating shafts 11 and 12, and blood collection tubes are provided between the partition plates 17. The compartment 18 to be accommodated is formed, but the configuration of the blood collection tube accommodating portion 10 is not limited to the present embodiment. For example, a plurality of notches are formed on the outer periphery of a disc having a predetermined thickness. And these notches may be used as compartments for receiving blood collection tubes.
Further, in the present embodiment, each blood collection tube storage unit 10 is stored vertically so as to extend in the vertical direction, and all the blood collection tube storage units 10 are erected so as to be arranged in the horizontal direction in FIG. 3 or FIG. However, the arrangement of the blood collection tube accommodating portion 10 is not limited to the present embodiment, and it may of course be arranged in the front-rear direction in FIG. 3 or FIG. .
Furthermore, in this embodiment, four blood collection tubes 10 are provided, and a maximum of four types of blood collection tubes can be accommodated in the blood collection tubes 10. However, the number of the blood collection tubes 10 is as follows. It can set arbitrarily, without being limited to a present Example.
Further, in this embodiment, the label printing / sticking means 30 is arranged on the lower front side of the blood collection tube storage section 10 and the blood collection tube collecting section 40 is arranged below the label printing / sticking means 30. The present invention is not limited to this embodiment. For example, the label printing / applying means 30 is disposed directly under the blood collection tube accommodating section 10, and the blood collection tube collecting section 40 is disposed directly under the label printing / applying means 30. You may comprise. With this configuration, the blood collection tube storage unit 10, the label printing / sticking means 30, and the blood collection tube collection unit 40 are all arranged vertically, so that the width of the entire apparatus in the front-rear direction can be shortened. There is an effect that the space can be further reduced, and furthermore, the transfer distance of the blood collection tube can be extremely shortened, and the configuration of the blood collection tube transfer means 20 can be simplified. As a matter of course, there is an effect that it is possible to reduce problems such as catching of a blood collection tube during transfer.
[0015]
【The invention's effect】
As described above, the blood collection tube preparation device according to the present invention is configured so that each of the blood collection tube storage portions is vertically long so as to extend in the vertical direction, and all the blood collection tube storage portions are arranged side by side in the horizontal direction, A plurality of compartments configured to accommodate the blood collection tubes side by side in each blood collection tube storage section are provided in the circumferential direction so that the blood collection tubes can be inserted into the sections from the front of the blood collection tube storage section configured to, both when to be able to see the blood collection tube is housed in the blood collection tube housing from the front of the device, the bottom of each blood collection tube housing, discharge the blood collection tube housed within said compartment A partition corresponding to the open portion by providing a possible open portion, and configuring each of the blood collection tube storage portions so that each of the partitions rotates in the circumferential direction, and driving the partition in the circumferential direction by a certain amount. The blood collection tube contained in the To, at least a portion of the blood collection tube transporting means below the drop position of the blood collection tube in the erected been bled tube housing, and disposed along these blood collection tube housing, receives the fallen blood collection tube Since it is configured to be transported, it is not necessary to provide a complicated blood collection tube take-out mechanism for taking out the blood collection tube from the blood collection tube storage unit, the structure of the device is simplified, and the device can be miniaturized. Has the effect of becoming.
In particular, the invention according to claim 1 is configured such that each of the blood collection tube storage portions is vertically long so as to extend in the vertical direction, and all the blood collection tube storage portions are arranged side by side in a horizontal direction, By arranging a part below the upright blood collection tube storage portion along these blood collection tube storage portions, the effect of reducing the size of the blood collection tube transfer means can be achieved.
Further, the blood collection tube replenishment port of each blood collection tube storage unit is provided so as to be exposed on the front surface of the apparatus, and each section of each blood collection tube storage unit is configured to be stored so that the cap of the blood collection tube faces the front of the device By doing this, there is an effect that the remaining amount and type of the blood collection tube in the blood collection tube storage unit can be confirmed at a glance even during operation of the apparatus, and thereby, different types of blood collection tubes in the blood collection tube storage unit There is also an effect that it is possible to confirm whether or not the is mixed.
In addition, the blood collection tube transfer means and the label printing / pasting means are disposed below the blood collection tube housing section, and the blood collection tube collection section is disposed below the label printing / pasting means, thereby enabling the blood collection tube housing section and label printing to be performed. -An attaching means and a blood-collecting-tube collection | recovery part can be arranged efficiently and compactly, and there exists an effect that an apparatus is reduced in size as a whole.
In addition, by providing a mark blood collection tube storage portion that can be accommodated vertically in the inner portion of each blood collection tube storage portion, the types of blood collection tubes stored in each blood collection tube storage portion are further increased. It becomes possible to make it easy for the user to see.
Still further, each part is accommodated in a suitable housing, and the label printing / pasting means is configured such that at least the side facing the direction of travel of the label peeled off from the mount at the label printing pasting position is opened. The label removal opening is provided in a portion corresponding to the open side of the label printing application position in the housing, and the printed label is peeled off when there is no blood collection tube at the label application position. Since the printed label is peeled off even when a different type of blood collection tube from the blood collection tube housed in the blood collection tube storage unit is required, the discharge is performed. This has the effect of simplifying the manual pasting operation.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of a blood collection tube preparation device according to the present invention.
2 is a schematic side view of the internal structure of the apparatus viewed from the right side in FIG.
3 is a schematic cross-sectional view taken along the line AA in FIG.
4 is a schematic front view showing the internal structure of the apparatus from the front in FIG. 1. FIG.
FIG. 5 is a schematic bottom view of the internal structure of the apparatus viewed from below in FIG.
FIG. 6 is a schematic enlarged view of the periphery of a label attaching position X2 showing a state in which the pressure roller is at the standby position X1.
FIG. 7 is a schematic enlarged view of the periphery of the label applying position X2 showing a state where the pressure roller is at the label applying position X2.
FIG. 8 is a schematic enlarged view of the periphery of a label sticking position X2 showing a state where the pressure roller is at the discharge position X3.
FIG. 9 is a schematic enlarged view of the periphery of the label application position X2 showing a state where the pressure roller is at the label discharge position X4.
[Explanation of symbols]
X1 standby position X2 label affixing position X3 discharge position X4 label discharge position S1 pipe detection sensor S2 pipe detection sensor S3 pipe arrival sensor 1 housing 2 supply part front cover 3 recess 4 opening 10 for removing the label (ad) Part 11 Belt rotation axis (lower side)
12 Belt rotation axis (upper side)
13 Endless belt 14 Driven gear 15 Drive gear 16 Supply motor 17 Partition plate 18 Partition 19 Outer wall 20 Blood collection tube transfer means 21 Endless belt 22 Belt rotation shaft (right side)
23 Belt rotation axis (left side)
24 tube transport motor 25 partition plate 26 tube transfer guide 27 tube transfer plate 28 tube transfer guide rail 29 tube transfer motor 30 label printing / pasting means 31 platen roller 32a drive roller 32b drive roller 33 mount roll with label 34 print head 35 peeling plate 36 Attaching roller 37 Blood collection tube presser and blood collection tube discharge means 37a Fixed roller 37b Standby stand 37c Pressure roller 37d Pressure stand 37e Guide rail 40 Blood collection tube collection unit 50

Claims (5)

At least two blood collection tubes that can accommodate the blood collection tubes to be labeled according to the type of the blood collection tube;
Label printing / pasting means for printing information on the subject on the label and pasting the printed label on the blood collection tube,
A blood collection tube collection unit capable of accommodating the blood collection tube after labeling for each patient;
Receives blood collection tubes necessary for patient examination from the corresponding blood collection tube storage unit, and selects blood collection tube transfer means for transferring the blood collection tubes to the label printing / applying means and blood collection tube collection section and the blood collection tubes necessary for patient examination And a control means for controlling each unit so as to accommodate the labeled blood collection tube for each patient, and a label printed with information corresponding to the patient is attached to the removed blood collection tube. An automatic labeling device for blood collection tubes,
Each of the blood collection tube storage units is configured to be vertically long so as to extend in the vertical direction and all the blood collection tube storage units are arranged side by side in the horizontal direction,
A plurality of compartments configured to be able to accommodate the blood collection tubes side by side in the respective blood collection tube storage sections are provided in the circumferential direction, and the blood collection tubes can be inserted into the sections from the front of the blood collection tube storage section configured to, when to be able to see the blood collection tube is housed in the blood collection tube housing from the front of the device together,
Provided at the bottom of each blood collection tube storage portion is an open portion that can discharge the blood collection tube stored in the compartment,
Each of the blood collection tube storage portions is configured such that each section thereof is rotationally driven in the circumferential direction,
By driving the partition in the circumferential direction by a certain amount, the blood collection tube accommodated in the partition corresponding to the open part falls from the open part,
At least a part of the blood collection tube transfer means is disposed along the blood collection tube storage section below the drop position of the blood collection tube in the standing blood collection tube storage section, and the dropped blood collection tube is received and transferred. A blood collection tube preparation device configured as described above . The blood collection tube replenishment port of each blood collection tube storage unit is provided so as to be exposed on the front surface of the device, and each section of each blood collection tube storage unit is configured to be stored so that the cap of the blood collection tube faces the front of the device. The blood collection tube preparation device according to claim 1 . Under the blood collection tube housing, together with placing the blood collection tube transport means and label print-sticking unit, according to claim 1 or 2, characterized in that a blood collection tube recovery unit below the label print-sticking unit Blood collection tube preparation device. The blood collection tube preparation device according to any one of claims 1 to 3, wherein a mark blood collection tube storage unit capable of storing the blood collection tube vertically is provided in an inner portion of each blood collection tube storage unit. . While accommodating each part in a suitable housing,
The label printing / pasting means is configured such that at least the side facing the traveling direction of the label peeled off from the mount at the label printing pasting position is opened,
A label extraction opening is provided in a portion corresponding to the opened side surface of the label printing application position in the housing,
The blood collection tube according to any one of claims 1 to 4 , wherein when there is no blood collection tube at a label attaching position, the printed label is peeled off and discharged from the label extraction opening. Preparation device.

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