CN106033527B - Automatic rotation bar code scanner - Google Patents

Abstract

The present invention relates to the technical field of bar code scan, automatic rotation bar code Scan Architecture is disclosed, including rotation plate rail, multiple test tube clamps, to the driving mechanism of the probe being scanned of the bar code on test tube and driving test tube clamp rotation；Test tube clamp is movably connected in rotation plate rail, and there is test tube clamp driving end and the clamping end for gripping test tube, the driving end of test tube clamp to be connected to driving mechanism；Probe is set to the outside of rotation plate rail.Probe is arranged in the outside of rotation plate rail, is scanned to the bar code on test tube, does not need manually to be scanned, and scan efficiency is high, and cost of labor is low；And test tube is fixed in the clamping end of test tube clamp, the driving end of test tube clamp is driven by driving mechanism, so that test tube clamp rotates, the scanning laser face that bar code and probe on test tube can be made to issue, without manually adjusting the position of test tube, the risk of scanning error is avoided the occurrence of, and avoids artificially contacting and causes the phenomenon that sample pollutes in test tube.

Description

Automatic rotation bar code scanner

Technical field

The present invention relates to the technical fields of bar code scan, more particularly to automatic rotation bar code Scan Architecture.

Background technique

Blomelicalbloodgasandelectrolrteanalyzers be used to measure whole blood, blood plasma, in serum and urine specimen electrolyte content, whole blood, blood In test tube, test tube is placed in the bar code scan structure of blomelicalbloodgasandelectrolrteanalyzers, is being carried out for slurry, serum and urine specimen device In electrolyte content analytic process, need to be scanned the bar code on test tube, so as to the letter of blomelicalbloodgasandelectrolrteanalyzers typing patient Breath.

In the prior art, generally the bar code of test tube is scanned by the way of manual hand manipulation, alternatively, in order to mention Multiple test tubes are placed in plate rail the bar code scan of test tube by height, recycle manual hand manipulation's mode to the bar code of test tube It is scanned.Since bar code is sticked on the lateral wall of test tube, in this way, the bar code on test tube is towards different, staff into When the bar code scan of row test tube, need to manually adjust test tube position, so that the bar code of test tube is towards staff, it could be to test tube Bar code be scanned.

The above-mentioned scan operation to test tube bar code has a variety of defects: 1), manually scans, it is time-consuming more, and increase people Work cost；2) it, needs either scans and manually adjusts test tube position, there is the risk of scanning mistake, artificial contact easily causes sample Product pollution, impact analysis result.

Summary of the invention

The purpose of the present invention is to provide automatic rotation bar code Scan Architectures, it is intended to solve in the prior art, manually Bar code scan to test tube and test tube position is manually adjusted, there are problems that time-consuming sample more, at high cost and easy to pollute.

The invention is realized in this way rotating bar code Scan Architecture automatically, including rotatably rotate plate rail, multiple test tubes It presss from both sides, to the driving mechanism of the probe being scanned of the bar code on test tube and driving test tube clamp rotation；The test tube clamp activity It is connected in the rotation plate rail, the test tube clamp has driving end and the clamping end for gripping test tube, the examination The driving end of pipe clamp is connected to the driving mechanism；The probe is set to the outside of the rotation plate rail.

Further, the rotation plate rail includes disk table, and the test tube clamp is actively located in the disk table, described The clamping end of test tube clamp is placed in the top of the disk table, and the driving end of the test tube clamp is placed in the lower section of the disk table, and Multiple test tube clamp arrangements in rounded shape.

Further, the accommodation groove that the clamping end of the test tube clamp has upper end opening and plugs for test tube, the clamping The upper end at end is extended with multiple clamping strips upward, and multiple clamping strips are separately arranged, and in around shape.

Further, the abutting block for abutting test tube, the inside for abutting block are convexly equipped on the inside of the clamping strip In arc surfaced.

Further, the driving end of the test tube clamp has driven wheel, and the driving mechanism includes driving motor and is used for The driving wheel engaged with the driven wheel, the driving wheel are connected to the shaft of the driving motor.

Further, the automatic rotation bar code Scan Architecture includes installation set and spring, and the driving motor is placed in In the installation set, one end of the spring is connected to the installation set back to the side of the test tube clamp, the spring it is another One end fixed and arranged.

Further, the automatic rotation bar code Scan Architecture includes guide plate, has in the guide plate and supplies the peace The mobile guide groove of encapsulation, the lower end insertion of the installation set in the guide groove, the extending direction of the guide groove and institute The extending direction for stating spring is consistent.

Further, the upper end of the disk table extends annular slab upward, and the annular slab is set to multiple test tube clamps Side, the side wall of the annular slab, which extends outwardly, multiple locating pieces, and multiple locating pieces are separately arranged, and in surround Shape has interval region, the upper end alignment of the interval region and the test tube clamp between adjacent locating piece.

Further, the inside of the annular slab is equipped with connecting plate, and the connecting plate and the disk table are arranged in parallel；Institute Stating automatic rotation bar code Scan Architecture includes rotation axis, the rotation axis and the perpendicular arrangement of the disk table, and is passed through described Disk table is connect with the connecting plate.

Further, the automatic rotation bar code Scan Architecture includes the rotation detection for detecting the rotation axis rotational angle Mechanism.

Compared with prior art, automatic rotation bar code Scan Architecture provided by the invention, probe are arranged in rotation plate rail Outside, using probe transmitting scanning laser the bar code on test tube is scanned, do not need manually to be scanned, sweep Retouch high-efficient, cost of labor is low；And test tube is fixed in the clamping end of test tube clamp, and the driving of test tube clamp is driven by driving mechanism End, so that test tube clamp rotates, the scanning laser face that bar code and probe on test tube can be made to issue, without people Work manually adjusts the position of test tube, avoids the occurrence of the risk of scanning error, and avoids artificially contacting and sample in test tube is caused to pollute The phenomenon that.

Detailed description of the invention

Fig. 1 is the part isometric schematic diagram one of automatic rotation bar code Scan Architecture provided in an embodiment of the present invention；

Fig. 2 is the part isometric schematic diagram two of automatic rotation bar code Scan Architecture provided in an embodiment of the present invention；

Fig. 3 is the part isometric schematic diagram three of automatic rotation bar code Scan Architecture provided in an embodiment of the present invention；

Fig. 4 is enlarged diagram at A in Fig. 2；

Fig. 5 is enlarged diagram at B in Fig. 2；

Fig. 6 is enlarged diagram at C in Fig. 3.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

Realization of the invention is described in detail below in conjunction with specific embodiment.

It is preferred embodiment provided by the invention shown in referring to Fig.1~6.

Automatic rotation bar code Scan Architecture provided in this embodiment is used in blomelicalbloodgasandelectrolrteanalyzers, certainly, can also be with It is used in other equipment for needing the bar code to test tube 2 to be scanned.

Automatic rotation bar code Scan Architecture includes rotating plate rail 101, multiple test tube clamps, probe 104 and driving mechanism, Wherein, rotation plate rail 101 is driven by external impetus element and is rotated, and multiple test tube clamps are movably connected on rotation plate rail 101, test tube Fixture has driving end and clamping end 102, test tube 2 to be plugged in the clamping end 102 of test tube clamp, and by the clamping end of test tube clamp 102 grip, and probe 104 is arranged in the outside of rotation plate rail 101, are used to be scanned the bar code on test tube 2.It drives Dynamic element is used to drive the test tube clamp with 104 face of probe arrangement, so that the bar code and probe of the test tube 2 in test tube clamp 104 faces arrangement.

In the practical operation of rotation bar code Scan Architecture automatically, multiple test tubes 2 are plugged in rotation plate rail by worker respectively In the clamping end 102 of 101 multiple test tube clamps, do not need deliberately to adjust position of the test tube 2 in test tube clamp, as long as test tube clamp can To be clamped, test tube 2 then may be used.In this way, rotation plate rail 101 rotates when the information collection of test tube 2 to be carried out, plate rail is rotated The corresponding rotation of test tube 2 is arranged with 104 face of probe on 101, at this point, if bar code and probe 104 on test tube 2 are sent out When scanning laser face out, probe 104 can be then scanned the bar code of test tube 2, and export corresponding bar code letter Breath；If the scanning laser that bar code on test tube 2 and probe 104 issue not face when, at this point, drive can be passed through if driving mechanism The driving end of the test tube 2 is moved, so that test tube clamp rotates, certainly, the test tube 2 being plugged in the test tube clamp is also rotated, until test tube 2 On bar code and probe 104 issue scanning laser face, thus, probe 104 can scan the test tube 2 bar code letter Breath.

Certainly, a variety of causes causes the scanning of probe 104 less than the bar code of test tube 2 in order to prevent, and driving mechanism generally can Driving test tube clamp is rotated further by a circle, arrives so that the bar code on test tube 2 can be scanned first 104 scanning.

In the automatic rotation bar code Scan Architecture of above-mentioned offer, probe 104 is arranged in the outside of rotation plate rail 101, adopts Emit scanning laser with probe 104 to be scanned the bar code on test tube 2, does not need manually to be scanned, scanning effect Rate is high, and cost of labor is low；And during the scanning process, test tube clamp rotation is driven by driving mechanism, realizes the automatic rotation of test tube clamp Turn, the scanning laser face that bar code and probe 104 on test tube 2 can be made to issue, without manually adjusting The position of test tube 2, avoids the occurrence of the risk of scanning error, and avoids artificially contacting and cause the phenomenon that sample pollutes in test tube 2.

In the present embodiment, rotation plate rail 101 includes disk table 1011, and test tube clamp activity is threaded through in disk table 1011, and The clamping end 102 of test tube clamp is formed in the top of disk table 1011, and the driving end of test tube clamp is formed in the lower section of disk table 1011, Multiple test tube clamps arrangement in rounded shape on disk table 1011.The lower section of disk table 1011 is arranged in driving mechanism.

As other embodiments, multiple test tube clamps can also be on the disk table 1011 in other shapes arrangement, such as vertical bar Shape etc. is not limited to above-mentioned round arrangement.

Specifically, there is the accommodation groove of upper end opening, test tube 2 can directly be plugged in this in the clamping end 102 of test tube clamp In accommodation groove.There are the multiple clamping strips 109 being disposed to extend upward in the upper end of clamping end 102, multiple clamping strips 109 are separately Arrangement, and the arrangement in rounded shape of multiple clamping strips 109, in this way, after in the accommodation groove that test tube 2 is plugged in clamping end 102, clamping Item 109, which then abuts, to be clamped on the lateral wall of test tube 2, and test tube 2 is fixed together with test tube clamp.

In addition, the inside of clamping strip 109, which is convexly equipped with, abuts block 1091, in this way, when clamping strip 109 is clamped in the outer of test tube 2 Side wall abuts block 1091 and is connected on the lateral wall of test tube 2, to play the role of support and fixation to test tube 2.Also, In order to avoid damaging to test tube 2, the arc-shaped face of medial surface of block 1091 is abutted.

The driving end of test tube clamp has driven wheel 108, and above-mentioned driving structure includes driving motor 115 and driving wheel 110, driving wheel 110 is connected to the shaft of driving motor 115, and driving wheel 110 is used for the driven wheel with the driving end of test tube clamp 108 engagement, in this way, by driving motor 115 drive driving wheel 110 rotate, thus driving wheel 110 driving engage it is driven 108 rotation of wheel, and then drive test tube clamp rotation.

When rotating plate rail 101 in the course of rotation, since the driving wheel 110 of driving motor 115 sometime can only Engage with the driven wheel 108 when test tube clamp, in this way, as rotation plate rail 101 rotates, the needs of driving wheel 110 it is different from Suit engagement between driving wheel 108, in this way, the driving motor 115 in the present embodiment is set as floating type, that is, driving motor 115 are connected in installation set 106, and the installation set 106 is connected with spring 111, and one end of the spring 111 is connected to installation set 106 backwards to the side of test tube clamp, other end fixed setting, in this way, installation set 106 is towards bullet when driving wheel 110 is when switching engagement The direction that spring 111 elongates is mobile, and when driving wheel 110 is engaged with another driven wheel 108, installation set 106 is extruded towards compression bullet The direction of spring 111 is mobile, to realize the engagement switching of the driving wheel 110 of driving motor 115.

Specifically, rotation bar code Scan Architecture includes guide plate 105 automatically, and guide groove is equipped in the guide plate 105, on The lower end for the installation set 106 stated is embedded in the guide groove of guide plate 105, and can be moved along guide groove；In addition, spring 111 extending direction is consistent with the extending direction of guide groove, in this way, having the limit of guide groove when installation set 106 is in moving process System then can deviate setting position to avoid installation set 106.

In the present embodiment, the upper end of disk table 1011 is extended with annular slab upward, which is arranged in multiple test tube clamps Side, the side wall of annular slab, which extends outwardly, multiple locating pieces 1013, and multiple locating piece 1013 is separately arranged, and multiple Locating piece 1013 is circumferentially arranged on annular slab around shape, has interval region, the interval between adjacent locating piece 1013 The upper end alignment in region and test tube clamp, in this way, after test tube 2 is plugged in the clamping end 102 of test tube clamp, test tube 2 it is upper The interval region across locating piece 1013 is held, thus, under the limitation of the locating piece 1013 of interval region two sides, Ke Yijin One step consolidates the position of test tube 2.

Specifically, the inside of multiple test tube clamps is arranged in annular slab, in this way, locating piece 1013 then deviates from disk table 1011 The heart extends outwardly arrangement, and certainly, annular slab also can be set in the outside of multiple test tubes 2, thus, locating piece 1013 is then towards circle The center of dish platform 1011 extends outwardly arrangement, and specific set-up mode can be depending on actual needs.

In the present embodiment, the inside of annular slab forms connecting plate 1012, the connecting plate 1012 cloth parallel with disk table 1011 It sets；Automatic rotation bar code Scan Architecture includes rotation axis 107, which is arranged vertically with disk table 1011, passes through disk The center of platform 1011 is connected on connecting plate 1012, thus, with the rotation of rotation axis 107, it is entire rotate plate rail 101 then with Rotation.

Specifically, rotation axis 107 is driven by belt and motor driven rotates, and certainly, the driving of rotation axis 107 rotates Mode can also have other various ways, such as gear engaged transmission.

For the ease of the connection of rotation axis 107 and connecting plate 1012, in the present embodiment, the upper end of rotation axis 107 is formed with Connector 1071, the center slot of connecting plate 1012, the connector 1071 of rotation axis 107 are plugged in inserting for connecting plate 1012 It in slot, and is fitting to connection with connecting plate 1012, to realize that rotation axis 107 drives the rotation of entire rotation plate rail 101.

In addition, in order to which the rotational angle to rotation plate rail 101 accurately identifies, the automatic bar code Scan Architecture that rotates includes Turning feeler mechanism, for detecting 107 rotational angle of rotation axis.It is adjacent since multiple test tube clamps are arranged on rotation plate rail 101 Test tube clamp spacing determine, thus, after probe 104 scans through the bar code of a test tube 2, need to next test tube 2 Bar code scan, rotation plate rail 101 rotate angle be also determining, in this way, can then be controlled by the detection of turning feeler mechanism The rotational angle of rotation axis 107 processed.

Specifically, turning feeler mechanism includes rotating disc 113 and photoelectric sensor 112, which, which is set in, turns The periphery of moving axis 107, and the periphery of rotating disc 113 is equipped with multiple notches 1131, multiple notch 1131 is around rotating disc 113 Periphery arrangement；Photoelectric sensor 112 has photoemission end and opto-electronic receiver end, and photoemission end and opto-electronic receiver end point It is not arranged in the over and under of rotating disc 113, and photoemission end and opto-electronic receiver are rectified to arrangement, in this way, with rotation The rotation of disk 113, when the notch 1131 of rotating disc 113 is aligned with the transmitting terminal of photoelectric sensor 112 and opto-electronic receiver end, light Electric receiving end then can receive the signal at photoemission end, when the notch 1131 of rotating disc 113 and the hair of photoelectric sensor 112 When penetrating end and the dislocation of opto-electronic receiver end, opto-electronic receiver end cannot then receive the signal at photoemission end.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within mind and principle.

Claims (7)

1. rotation bar code scanner automatically, which is characterized in that including rotatably rotating plate rail, multiple test tube clamps, to test tube On the probe that is scanned of bar code and driving test tube clamp rotation driving mechanism；The test tube clamp is movably connected in described It rotates in plate rail, the test tube clamp has driving end and the clamping end for gripping test tube, the driving of the test tube clamp End is connected to the driving mechanism；The probe is set to the outside of the rotation plate rail, and the driving end of the test tube clamp has Driven wheel, the driving mechanism include driving motor and the driving wheel for engaging with the driven wheel, the driving wheel connection In the shaft of the driving motor, the automatic bar code scanner that rotates further includes installation set and spring, guide plate, the driving Motor is placed in the installation set, and one end of the spring is connected to the installation set back to the side of the test tube clamp, described The other end fixed and arranged of spring, has the guide groove mobile for the installation set in the guide plate, under the installation set End is embedded in the guide groove, and the extending direction of the guide groove is consistent with the extending direction of the spring.

2. automatic rotation bar code scanner as described in claim 1, which is characterized in that the rotation plate rail includes disk Platform, the test tube clamp are actively located in the disk table, and the clamping end of the test tube clamp is placed in the top of the disk table, institute The driving end for stating test tube clamp is placed in the lower section of the disk table, and multiple test tube clamp arrangements in rounded shape.

3. automatic rotation bar code scanner as described in claim 1, which is characterized in that the clamping end of the test tube clamp has Upper end opening and the accommodation groove plugged for test tube, the upper end of the clamping end are extended with multiple clamping strips, multiple folders upward It holds item separately to arrange, and in around shape.

4. automatic rotation bar code scanner as claimed in claim 3, which is characterized in that be convexly equipped on the inside of the clamping strip For abutting the abutting block of test tube, the inside for abutting block is in arc surfaced.

5. automatic rotation bar code scanner as claimed in claim 2, which is characterized in that prolong upward the upper end of the disk table Stretch annular slab, the annular slab is set to the side of multiple test tube clamps, the side wall of the annular slab extend outwardly have it is multiple fixed Position block, multiple locating pieces are separately arranged, and in shape is surround, have interval region between adjacent locating piece, between described The upper end alignment in septal area domain and the test tube clamp.

6. automatic rotation bar code scanner as claimed in claim 5, which is characterized in that the inside of the annular slab, which is equipped with, to be connected Fishplate bar, the connecting plate and the disk table are arranged in parallel；The automatic rotation bar code scanner includes rotation axis, and described turn Moving axis and the perpendicular arrangement of the disk table, and the disk table is passed through, it is connect with the connecting plate.

7. automatic rotation bar code scanner as claimed in claim 6, which is characterized in that the automatic rotation bar code scan dress Setting further includes the turning feeler mechanism for detecting the rotation axis rotational angle.