CN210063615U - Floor type blood sampling management system - Google Patents

Abstract

The utility model provides a console mode blood sampling management system belongs to medical equipment technical field. It has solved the practical loaded down with trivial details scheduling problem of current blood sampling management system. This console mode blood sampling management system, the on-line screen storage device comprises a base, the frame and set up the test tube box in the frame, the tube selection mechanism, the ejector sleeve mechanism, print mechanism, labeller constructs and transport mechanism, the play mouth of pipe has still been seted up in the frame, the test tube box is used for holding the test tube, tube selection mechanism is used for selecting the test tube that needs carry out the subsides mark, print mechanism is used for printing the label and transmits the label of printing to labeller constructs, labeller constructs to be used for pasting the label to the test tube that needs carry out the subsides mark on, transport mechanism is used for transmitting the test tube that will paste the. The utility model has the advantages of high automation degree, convenient use and the like.

Description

Floor type blood sampling management system

Technical Field

The utility model belongs to the technical field of medical equipment, a management system is related to, in particular to console mode blood sampling management system.

Background

The heparin tube is comparatively common medical instrument in the hospital, mainly is the vacuum test tube, utilizes its negative pressure automatic quantification to gather venous blood sample during the use, and blood taking needle one end pierces human vein back other end and inserts the plug of vacuum test tube and realize the collection to the blood sample, can need carry out post processing such as automatic subsides mark or letter sorting after the collection, consequently need arrange heparin tube (vacuum empty tube/blood sampling tube) according to specific orientation is unified, carries out subsequent system management.

The storage capacity of test tubes of a blood sampling management system in the market is not large enough, the requirement of a large hospital cannot be met, the tube adding mode is that the test tubes are directly taken and placed by hands, the tube adding speed is greatly reduced, and a printer is fixed on equipment and is very troublesome in paper changing.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem that exists among the prior art, provide a degree of automation height, use convenient console mode blood sampling management system.

The purpose of the utility model can be realized by the following technical proposal: the utility model provides a console mode blood sampling management system, includes the frame and sets up test tube box, tube selection mechanism, ejector sleeve mechanism, printing mechanism, labeller and transmission device in the frame, the frame on still seted up out the mouth of pipe, the test tube box be used for holding the test tube, tube selection mechanism be used for selecting the test tube that needs carry out the subsides mark, printing mechanism be used for printing the label and transmit the label of printing to labeller, labeller be used for pasting the label to need carry out the test tube of subsides mark on, transmission device be used for transmitting the test tube of pasting the mark to a mouth of pipe.

In the above floor type blood sampling management system, an inlet is formed in the top of the test tube box, an outlet is formed in the bottom of the test tube box, the inlet is used for placing test tubes, the outlet is in butt joint with the tube selecting mechanism, and the test tubes can be conveyed to the tube selecting mechanism from the outlet under the action of gravity.

In the above-mentioned floor type blood sampling management system, the inside of the test tube box is provided with a limiting rib for limiting the test tube.

In the above floor type blood sampling management system, the tube selection mechanism includes a test tube box seat, a rotary shifting block and a first driving device for driving the rotary shifting block to rotate, the test tube box seat is provided with an installation through groove in butt joint with the test tube box, the rotary shifting block is located at the bottom of the installation through groove, and when the rotary shifting block rotates, a test tube can fall out from the installation through groove.

In foretell console mode blood sampling management system, rotatory shifting block on offer the recess that is used for holding a test tube, rotatory shifting block when rotatory to the recess upwards, a test tube can fall into the recess, rotatory shifting block when rotatory to the recess downwards, the test tube in the recess drops under the effect of gravity.

In the above floor type blood sampling management system, the tube pushing mechanism is arranged below the tube selecting mechanism and comprises a tube pushing sliding plate and a push rod, one end of the tube pushing sliding plate is in butt joint with the labeling mechanism, the push rod is connected with a second driving device, and the second driving device is used for driving the push rod to move along the length direction of the tube pushing sliding plate.

In the floor type blood sampling management system, the cross section of the push tube sliding plate is V-shaped, a push tube groove is formed in the bottom of the push tube sliding plate, the push rod extends into the push tube groove from the lower portion of the push tube groove, and the driving device II comprises a belt II and a driving motor for driving the belt II to operate.

In the above-mentioned console mode blood sampling management system, the printing mechanism and the frame can be dismantled and connected, and the printing mechanism is provided with a handle.

In foretell console mode blood sampling management system, labeling mechanism include test tube clamping module, rotation driving module, subsides mark ware fall pipe slide, seek limit sensor, color sensor, detection and have a sensor, test tube clamping module is used for pressing from both sides tight test tube, and rotation driving module is used for driving the test tube rotatory, it is used for judging the subsides mark position of test tube to seek the limit sensor, color sensor is used for judging whether labeling mechanism has the colour of test tube and test tube, it has or not sensor to be used for judging whether labeling mechanism has the test tube to detect, rotation driving module drive test tube rotatory and make the label paste on the test tube pipe wall.

In the above floor type blood sampling management system, the transmission mechanism includes a vertical transportation mechanism, the vertical transportation mechanism includes a third driving device, a third belt and a tensioning mechanism, the third belt is arranged on the third driving device, the tensioning mechanism is arranged on the far end portion of the third belt, a support tube bracket which runs along with the third belt is arranged on the third belt, and the support tube bracket is used for supporting and transmitting the test tube.

In the floor type blood sampling management system, the arc plates are further arranged in the vertical conveying mechanism and are arranged at the lowest point and the highest point of the third belt, so that the test tubes moving to the bottom and the top cannot be separated from the constraint of the third belt.

In the above floor type blood sampling management system, the belt is provided with a plurality of damping modules.

In foretell floor-type blood sampling management system, transport mechanism still include horizontal transport mechanism, horizontal transport mechanism include link, drive arrangement four and baffle and turn to the slide, turn to the slide set up and be used for the transmission to follow the test tube of roll-off in the vertical transport mechanism in establishing in the link, the baffle set up in the outside of link and be used for preventing the test tube roll-off, drive arrangement four be used for carrying the test tube that comes out from the waterwheel to the mouth of pipe.

In the floor type blood sampling management system, the base is provided with the lifting mechanism, the lifting mechanism comprises a driving device five and a connecting rod, the driving device five is internally provided with a screw rod for driving the connecting rod to perform lifting movement, one end of the connecting rod is connected to the rack, and a screw seat is connected between the other end of the connecting rod and the screw rod.

Compared with the prior art, the utility model discloses constitute by a plurality of mechanisms, perfect management system through the cooperation of each mechanism, have degree of automation height, use convenient advantage.

Drawings

Fig. 1 is a general schematic diagram of the floor type blood sampling management system.

Fig. 2 is an internal structure diagram of the floor type blood collection management system.

Fig. 3 is a structural diagram of a tube selecting mechanism in the floor type blood sampling management system.

Fig. 4 is a structural diagram of a tube pushing mechanism in the floor type blood sampling management system.

Fig. 5 is a structural diagram of a labeling mechanism in the floor type blood sampling management system.

Fig. 6 is a structural view of a horizontal transport mechanism in the floor type blood collection management system.

Fig. 7 is a structural diagram of a vertical transportation mechanism in the floor type blood sampling management system.

In the figure, 1, a frame; 2. a test tube box; 3. a pipe selecting mechanism; 4. a printing mechanism; 5. a labeling mechanism; 6. a transport mechanism; 7. an outlet pipe orifice; 8. an inlet; 9. an outlet; 10. limiting ribs; 11. a test tube box base; 12. rotating the shifting block; 13. a first driving device; 14. installing a through groove; 15. a groove; 16. a push tube sliding plate; 17. a push rod; 18. a second driving device; 19. pushing the pipe groove; 20. a second belt; 21. a drive motor; 22. a handle; 23. a test tube clamping module; 24. a rotation driving module; 25. a labeler drop tube sliding plate; 26. an edge searching sensor; 27. a color sensor; 28. detecting the presence or absence of a sensor; 29. a vertical transport mechanism; 30. a third driving device; 31. a third belt; 32. a tensioning mechanism; 33. a support tube bracket; 34. an arc plate; 35. a shock-absorbing module; 36. a transverse transport mechanism; 37. a connecting frame; 38. driving device four; 39. a baffle plate; 40. a steering slide plate; 41. a lifting mechanism; 42. a fifth driving device; 43. a connecting rod; 44. a screw rod; 45. a nut seat; 46. a base; 47. a pipe pushing mechanism.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 7, this console mode blood sampling management system, including frame 1 and set up test tube box 2 in frame 1, tube selection mechanism 3, printing mechanism 4, labeling mechanism 5 and transmission device 6, outlet pipe mouth 7 has still been seted up in frame 1, test tube box 2 is used for holding the test tube, tube selection mechanism 3 is used for selecting the test tube that needs to carry out the subsides mark, printing mechanism 4 is used for printing the label and transmits the label of printing to labeling mechanism 5, labeling mechanism 5 is used for pasting the label to the test tube that needs to carry out the subsides mark on, transmission device 6 is used for transmitting the test tube that has pasted the mark to outlet pipe mouth 7.

The utility model discloses a theory of operation does: this management system is provided with test tube box 2 in frame 1, utilizes the tube selection mechanism 3 to select needs labeller's test tube after, pushes the test tube in labeller constructs 5 through push tube mechanism (47), and labeller constructs 5 and pastes the label in 4 printing mechanism to the test tube on, pastes on the target test tube landing promotes through vertical transport mechanism 29 after vertical transport mechanism 29 and slides to transport mechanism 6, and transport mechanism 6 will paste the target test tube and carry out mouth of pipe 7.

Further saying in detail, import 8 has been seted up at the top of test tube box 2, and export 9 has been seted up to the bottom of test tube box 2, and import 8 is used for supplying the test tube to put into, and export 9 docks with selection pipe mechanism 3, and the test tube can be under the effect of gravity from export 9 transmission to selection pipe mechanism 3 in.

In order to improve the stability of the test tube in the test tube box 2, the inside of the test tube box 2 is provided with a limiting rib 10 for limiting the test tube.

In further detail, the tube sorting mechanism 3 includes a first driving device 13 for driving the first test tube holder 11, a first rotating shifting block 12 and a first driving device 13 for driving the first rotating shifting block 12 to rotate, an installation through slot 14 for butting with the first test tube holder 2 is formed in the first test tube holder 11, the first rotating shifting block 12 is located at the bottom of the installation through slot 14, and the first test tube can fall out from the installation through slot 14 when the first rotating shifting block 12 rotates.

Further saying in detail, offer the recess 15 that is used for holding a test tube on rotatory shifting block 12, rotatory shifting block 12 is rotatory when 15 upwards recesses, and a test tube can fall into recess 15, and rotatory shifting block 12 is rotatory when 15 downwards recesses, and the test tube in the recess 15 drops under the effect of gravity.

In further detail, the tube pushing mechanism (47) is arranged below the tube selecting mechanism 3, the tube pushing mechanism (47) comprises a tube pushing sliding plate 16 and a push rod 17, one end of the tube pushing sliding plate 16 is in butt joint with the labeling mechanism 5, the push rod 17 is connected with a second driving device 18, and the second driving device 18 is used for driving the push rod 17 to move along the length direction of the tube pushing sliding plate 16.

In more detail, the cross section of the tube pushing sliding plate 16 is in a shape of a letter "V", a tube pushing groove 19 is formed in the bottom of the tube pushing sliding plate 16, the push rod 17 extends into the tube pushing groove 19 from the lower portion of the tube pushing groove 19, and the second driving device 18 comprises a second belt 20 and a driving motor 21 for driving the second belt 20 to operate.

In order to facilitate the disassembly and assembly of the whole printing mechanism 4, the printing mechanism 4 is detachably connected with the frame 1, and the printing mechanism 4 is also provided with a handle 22.

Further saying, labeller constructs 5 and includes test tube clamping module 23, rotary drive module 24, labeller fall tube slide 25, seek limit sensor 26, color sensor 27, it has sensor 28 to detect, test tube clamping module 23 is used for pressing from both sides tight test tube, rotary drive module 24 is used for driving the test tube rotatory, it is used for judging the subsides mark position of test tube to seek limit sensor 26, color sensor 27 is used for judging whether labeller constructs 5 and has the colour of test tube, it has sensor 28 to be used for judging whether labeller constructs 5 has the test tube to detect, rotary drive module 24 drives the test tube rotatory and makes the label paste on the test tube pipe wall.

In further detail, the conveying mechanism 6 comprises a vertical conveying mechanism 29, the vertical conveying mechanism 29 comprises a driving device III 30, a belt III 31 arranged on the driving device III 30, and a tensioning mechanism 32, the tensioning mechanism 32 is arranged at the far end part of the belt III 31, a supporting pipe bracket 33 which runs along with the belt III 31 is arranged on the belt III 31, and the supporting pipe bracket 33 is used for supporting and conveying the test tube.

In more detail, the vertical transportation mechanism 29 is also provided with an arc plate 34, and the arc plate 34 is arranged at the lowest point and the highest point of the belt III 31, so as to ensure that the test tube moving to the bottom and the top cannot be separated from the constraint of the belt III 31.

In further detail, the third belt is provided with a plurality of damping modules 35. Reduce the vibration of the third belt 31 during movement and prevent the test tube from being separated.

In further detail, the conveying mechanism 6 further comprises a transverse conveying mechanism 36, the transverse conveying mechanism 36 comprises a connecting frame 37, a driving device four 38, a baffle 39 and a steering sliding plate 40, the steering sliding plate 40 is arranged in the connecting frame 37 and used for transferring test tubes sliding out of the vertical conveying mechanism 29, the baffle 39 is arranged on the outer side of the connecting frame 37 and used for preventing the test tubes from sliding out, and the driving device four 38 is used for conveying the test tubes coming out of the waterwheel to the outlet pipe opening 7.

In more detail, the base (46) is provided with a lifting mechanism 41, the lifting mechanism 41 includes a five driving device 42 and a five connecting rod 43, the five driving device 42 is provided with a lead screw 44 for driving the five connecting rod 43 to perform lifting movement, one end of the five connecting rod 43 is connected to the frame 1, and a nut seat 45 is connected between the other end of the five connecting rod and the lead screw 44.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the machine frame 1, the test tube box 2, the tube selecting mechanism 3, the printing mechanism 4, the labeling mechanism 5, the conveying mechanism 6, the tube outlet 7, the inlet 8, the outlet 9, the limiting rib 10, the test tube box seat 11, the rotary shifting block 12, the first driving device 13, the installation through groove 14, the groove 15, the tube pushing sliding plate 16, the push rod 17, the second driving device 18, the tube pushing groove 19, the second belt 20, the driving motor 21, the handle 22, the test tube clamping module 23, the rotary driving module 24, the labeler tube dropping sliding plate 25, the edge finding sensor 26, the color sensor 27, the presence or absence detecting sensor 28, the vertical conveying mechanism 29, the third driving device 30, the third belt 31, the tensioning mechanism 32, the tube supporting frame 33, the arc plate 34, the shock absorption module 35, the transverse conveying mechanism 36, the connecting frame 37, the fourth driving device 38, the baffle 39, the steering sliding plate 40, the pushing mechanism 41, the fifth driving device 42, the fifth, The terms of the connecting rod 43, the lead screw 44, the nut block 45, the base 46, the pipe pushing mechanism 47, etc., do not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a console mode blood sampling management system, its characterized in that includes base (46), frame (1) and sets up test tube box (2), selection pipe mechanism (3), ejector sleeve mechanism (47), printing mechanism (4), labeller constructs (5) and transport mechanism (6) in frame (1), frame (1) on still seted up out mouth of pipe (7), test tube box (2) be used for holding the test tube, selection pipe mechanism (3) be used for selecting the test tube that needs carry out the subsides mark, printing mechanism (4) be used for printing the label and transmit the label of printing to labeller constructs (5), labeller constructs (5) be used for pasting the label to the test tube that needs carry out the subsides mark on, transport mechanism (6) be used for transmitting the test tube that has pasted the mark to out mouth of pipe (7).

2. The floor type blood collection management system according to claim 1, characterized in that an inlet (8) is formed in the top of the test tube box (2), an outlet (9) is formed in the bottom of the test tube box (2), the inlet (8) is used for placing a test tube, the outlet (9) is in butt joint with the tube selection mechanism (3), the test tube can be conveyed into the tube selection mechanism (3) from the outlet (9) under the action of gravity, and a limiting rib (10) used for limiting the test tube is arranged inside the test tube box (2).

3. The floor type blood collection management system according to claim 1, wherein the tube selection mechanism (3) comprises a test tube box seat (11), a rotary shifting block (12) and a first driving device (13) for driving the rotary shifting block (12) to rotate, a mounting through groove (14) which is in butt joint with the test tube box (2) is formed in the test tube box seat (11), the rotary shifting block (12) is located at the bottom of the mounting through groove (14), and when the rotary shifting block (12) rotates, a test tube can fall out of the mounting through groove (14).

4. A floor type blood sampling management system according to claim 3, characterized in that the rotary dial block (12) is provided with a groove (15) for accommodating a test tube, when the rotary dial block (12) rotates to the groove (15) upwards, a test tube can fall into the groove (15), and when the rotary dial block (12) rotates to the groove (15) downwards, the test tube in the groove (15) falls under the action of gravity.

5. The floor type blood collection management system according to claim 1, wherein the tube pushing mechanism (47) is arranged below the tube selecting mechanism (3), the tube pushing mechanism (47) comprises a tube pushing sliding plate (16) and a push rod (17), one end of the tube pushing sliding plate (16) is in butt joint with the labeling mechanism (5), the push rod (17) is connected with a second driving device (18), and the second driving device (18) is used for driving the push rod (17) to move along the length direction of the tube pushing sliding plate (16).

6. The floor type blood collection management system according to claim 5, wherein the cross section of the push tube sliding plate (16) is V-shaped, a push tube groove (19) is formed in the bottom of the push tube sliding plate (16), the push rod (17) extends into the push tube groove (19) from the lower portion of the push tube groove (19), and the second driving device (18) comprises a second belt (20) and a driving motor (21) for driving the second belt (20) to run.

7. The floor type blood sampling management system according to claim 1, wherein the labeling mechanism (5) comprises a test tube clamping module (23), a rotation driving module (24), a labeler drop tube sliding plate (25), an edge finding sensor (26), a color sensor (27) and a sensor (28) for detecting whether or not, the test tube clamping module (23) is used for clamping a test tube, the rotation driving module (24) is used for driving the test tube to rotate, the edge finding sensor (26) is used for judging the labeling position of the test tube, the color sensor (27) is used for judging whether the labeling mechanism (5) has the test tube and the color of the test tube, the sensor (28) is used for judging whether the labeling mechanism (5) has the test tube or not, the rotation driving module (24) drives the test tube to rotate and enables a label to be adhered to the tube wall of the test tube, and the printing mechanism (4) is detachably connected with the rack (1), the printing mechanism (4) is also provided with a handle (22).

8. A floor standing blood collection management system according to claim 1, wherein the transport mechanism (6) comprises a vertical transport mechanism (29), the vertical conveying mechanism (29) comprises a third driving device (30), a third belt (31) arranged on the third driving device (30) and a tensioning mechanism (32), the tensioning mechanism (32) is arranged at the far end part of the third belt (31), a supporting pipe bracket (33) running along with the third belt (31) is arranged on the third belt (31), the tube supporting bracket (33) is used for supporting and transferring test tubes, an arc plate (34) is also arranged in the vertical conveying mechanism (29), the arc plates (34) are arranged at the lowest point and the highest point of the third belt (31), thereby ensuring that the test tubes moving to the bottom and the top do not get rid of the constraint of the third belt (31), and a plurality of damping modules (35) are arranged on the third belt (31).

9. A floor type blood sampling management system according to claim 1, characterized in that the transfer mechanism (6) further comprises a transverse transport mechanism (36), the transverse transport mechanism (36) comprises a connecting frame (37), a driving device four (38), a baffle plate (39) and a steering slide plate (40), the steering slide plate (40) is arranged in the connecting frame (37) and used for transferring test tubes sliding out of the vertical transport mechanism (29), the baffle plate (39) is arranged on the outer side of the connecting frame (37) and used for preventing the test tubes from sliding out, and the driving device four (38) is used for conveying the test tubes coming out of the water wagon to the outlet nozzle (7).

10. The floor type blood collection management system according to claim 1, wherein a lifting mechanism (41) is arranged on the base (46), the lifting mechanism (41) comprises a driving device five (42) and a connecting rod (43), a screw rod (44) for driving the connecting rod (43) to perform lifting motion is arranged in the driving device five (42), one end of the connecting rod (43) is connected to the rack (1), and a screw seat (45) is connected between the other end of the connecting rod and the screw rod (44).

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