CN105628945A - Container rotating device and container rotating method - Google Patents

Abstract

The invention relates to a container rotating device and a container rotating method. The container rotating device comprises a conveying frame for conveying a plurality of containers, a container base connected with the conveying frame and a drive component used for driving the container base to rotate, wherein the container base comprises a container clamping end and a drive end; the drive component comprises a motor and a clamping piece driven by the motor; a channel matched with the drive end is formed in the clamping piece; when the drive end moves into the channel and stays, the clamping piece drives the drive end to rotate. The channel in the clamping piece is arranged into one part on a conveying path of the drive end, so that when the drive end enters the channel and rotates, the drive end and the channel offset; by the utilization of mutual matching between the clamping piece and the drive end, the rotation of the container rotating device is completed; the container rotating device has the advantages of being simple in structure and low in cost and failure rate.

Description

Container rotating device and container are from shifting method

Technical field

The present invention relates to device for analyzing samples technical field, particularly relate to a kind of container rotating device and a kind of container from shifting method.

Background technology

Full-automatic device for analyzing samples is applied to biochemical analysis, immunoassay, fluorescence immunoassay equal samples analysis technical field, when the content of material in whole blood, blood plasma, serum or urine equal samples is detected, need the bar code on scanned samples container, in order to the information of typing patient. Chinese patent CN201520158588.3 discloses a kind of automatic rotation bar code scan structure, including rotating plate rail, multiple test tube clamp, the probe that the bar code on test tube is scanned and the driving mechanism driving test tube clamp to rotate; Test tube clamp is movably arranged on rotation plate rail, and driving mechanism drives test tube clamp rotation, and the outside rotating plate rail is located at by probe. The drive end of test tube clamp has driven pulley, and driving mechanism includes drive motor and drivewheel, and drivewheel is connected to the rotating shaft of drive motor, and drivewheel engages with driven pulley. Rotating along with rotating plate rail, drivewheel needs switching engagement between different driven pulleys, and drivewheel can only engage with the driven pulley of single test tube clamp sometime, and therefore, drive motor is set to floating type, and the engagement to realize drivewheel switches.

Above-mentioned automatic rotation bar code scan structure need not adjust test tube position manually, improves the automaticity of sample tube scanning, but, structure is complicated, relatively costly, and parts are many and multiple component coordinates, and corresponding, fault rate also easily improves. As: rotate and the test tube clamp on plate rail all needs a driven pulley is installed, to realize and the engaging of drivewheel; Further, drivewheel needs constantly switching to engage each driven pulley, and in handoff procedure, the gear of drivewheel is very easily stuck with the gear of driven pulley, and the degree of wear of life-time service gear is high, and this is high to the hardness requirement of control accuracy and gear.

Summary of the invention

The technical problem to be solved is for the above-mentioned problems in the prior art, it is provided that a kind of simple in construction, cost are low, stability is high, the container rotating device of failure rate is low and container be from shifting method.

For solving the problems referred to above, a kind of technical scheme of the present invention is:

A kind of container rotating device, including the conveyer frames for transmitting several containers, the container base being connected on conveyer frames, for driving the driving assembly of container base rotation, described container base includes container bare terminal end and drive end, described driving assembly includes motor and by motor-driven holder, holder is provided with the conduit coordinated with drive end, when drive end moves in conduit and when stopping, this holder drives described drive end to rotate.

Preferably, described holder is arranged on the transmission path of drive end.

Preferably, the full-size of described drive end is more than the width of conduit, and the minimum dimension of drive end is less than the width of conduit.

Preferably, described rotating device also include for adjust drive end direction promote drive end enter conduit guide.

Preferably, described guide is arranged on drive end and transmits the side in path, is provided with gap between guide and drive end.

Preferably, described guide includes the first guide plate, and the first guide plate is arranged on drive end and transmits the inboard limit in path.

Preferably, described first guide plate is arranged on the porch of conduit.

Preferably, described first guide plate is distributed on the whole transmission path of drive end, and the first guide plate is provided with the first breach towards drive end side, and described clamp parts is contained in the first breach, and holder and drive end rotate in the first breach.

Preferably, described guide also includes the second guide plate being distributed side by side with the first guide plate, second guide plate is arranged on drive end and transmits another side in path, second guide plate is provided with the second breach towards the side of the first breach, described holder is contained in the port that two breach are formed, and holder and drive end rotate in port.

The another kind of technical scheme of the present invention is:

A kind of container, from shifting method, comprises the steps:

A) a kind of container spinning device is provided, described container spinning device includes the conveyer frames for transmitting several containers, be connected on conveyer frames container base, for driving the driving assembly of container base rotation, described container base includes container bare terminal end and drive end, described driving assembly includes motor and by motor-driven holder, holder is provided with the conduit coordinated with drive end, when drive end moves in conduit and when stopping, this holder drives described drive end to rotate;

B) being rested on by holder on the transmission path of drive end, the position of retaining clip gripping member makes drive end can enter conduit;

C) control conveyer frames to start to transmit container, when drive end moves in the conduit of holder, control conveyer frames and stop transmitting, make drive end stop in the channel;

D) motor drives holder to rotate, and holder offsets with drive end and coordinates, and holder drives drive end rotation, thus driving container base rotation;

E) motor control holder stops the rotation, and during stopping, the position of retaining clip gripping member makes drive end can leave conduit along transmitting path;

F) step c-e is repeated.

It is compared to prior art, conduit on holder is arranged to drive end and transmits the part on path by the present invention, make drive end enter conduit and both offset when rotated, utilize cooperating between holder and drive end, complete the spinning of container rotating device, having simple in construction, cost is low, the advantage of failure rate is low.

Accompanying drawing explanation

Fig. 1 is the axle geodesic structure schematic diagram of the present invention.

Fig. 1-1 is the structure for amplifying schematic diagram at A place in Fig. 1.

Fig. 2 is the main TV structure schematic diagram of Fig. 1.

Fig. 3 is the axle geodesic structure schematic diagram of another kind state of the present invention.

Fig. 3-1 is the structure for amplifying schematic diagram at B place in Fig. 3.

Fig. 4 is the main TV structure schematic diagram of Fig. 3.

Fig. 5 is the axle geodesic structure schematic diagram driving assembly in the present invention.

Fig. 5-1 is the main TV structure schematic diagram of Fig. 5.

Fig. 5-2 is the plan structure schematic diagram of Fig. 5.

Fig. 6 is the axle geodesic structure schematic diagram of container base in the present invention.

Fig. 6-1 is the left view structural representation of Fig. 6.

Fig. 6-2 is the main TV structure schematic diagram of Fig. 6.

Fig. 6-3 is the structural representation of container base another embodiment in the present invention.

Fig. 6-4 is the main TV structure schematic diagram of container base another embodiment in the present invention.

Fig. 7 is the axle geodesic structure schematic diagram driving assembly to coordinate with guide in the present invention.

Fig. 8 is the structural representation driving assembly, guide and drive end to coordinate in the present invention.

Fig. 9 is the another kind of structural representation driving assembly, guide and drive end to coordinate in the present invention.

Figure 10 is the yet another construction schematic diagram driving assembly, guide and drive end to coordinate in the present invention.

Figure 10-1 is a kind of mated condition schematic diagram of guide and drive end in the present invention.

Figure 10-2 is the another kind of mated condition schematic diagram of guide and drive end in the present invention.

Figure 10-3 is another mated condition schematic diagram of guide and drive end in the present invention.

Figure 11 is the internal structure schematic diagram of Full-automatic chemiluminescence immunoassay analysis meter.

Figure 12 is Full-automatic chemiluminescence immunoassay analysis meter schematic diagram.

Figure 13 is the Full-automatic chemiluminescence immunoassay analysis meter removing sample storehouse side shield.

Detailed description of the invention

Further illustrate the present invention below in conjunction with drawings and Examples, but protection scope of the present invention is not limited to this.

A kind of Full-automatic chemiluminescence immunoassay analysis meter 9000, includes sample storehouse 9300, agent bin 9400, reaction cup storage warehouse 9500 as figs 11-13, hatches storehouse 9600, cleans storehouse 9700 and detection storehouse 9800. When sample to be tested carries out component analysis, sample and reagent being first respectively put into sample storehouse and agent bin, Full-automatic chemiluminescence immunoassay analysis meter takes out reaction cup from reaction cup storage warehouse 9500, and puts it into and hatch in storehouse. Then by predetermined program, sample and reagent are joined in reaction cup, start and hatch program, cleaning procedure, finally make reaction cup enter detection storehouse and complete sample component analysis. Wherein said sample storehouse includes identity information reading device, and described agent bin includes reagent mixing transporter.

Wherein, identity information reading device, as Figure 1-4, including information reader 4 and container rotating device for reading container 2 identity information. When container rotating device drives container spinning, container rotation process is read the identity information on container 2 to identify this container by information reader 4. Information reader 4 and container rotating device are by controller control, and controller controls container rotating device and container 2 is transmitted, and completes the rotation of container 2 at ad-hoc location, control information reader 4 simultaneously and read the identity information on container 2 and store. Information reader 4 is for reading several containers 2 being provided with identity information. Preferably, described identity information is embodied by bar code, radio-frequency (RF) tag, graphics carrier or colour carrier. Wherein, bar code can be the information identifier such as one-dimensional bar code, Quick Response Code. Preferably, described container 2 is test tube, reagent bottle or carafe.

A kind of container rotating device, as Fig. 1,1-1,2,3, shown in 3-1 and 4, including the conveyer frames 6 for transmitting several containers 2, the container base 8 being connected on conveyer frames 6 and for driving the driving assembly 10 of container base 8 rotation, container base 8 includes container bare terminal end 802 and drive end 804, assembly 10 is driven to include motor 102 and by motor-driven holder 104, holder 104 is provided with the conduit 106 coordinated with drive end 804, when drive end 804 moves in conduit 106 and stops, this holder 104 drives described drive end 804 to rotate. Bare terminal end 802, for holding vessels, keeps container 2 to consolidate and is connected in container base 8, and drive end 804 rotates for driving bare terminal end 802 under the cooperation driving assembly 10. Holder 104 is directly driven by motor 102, is connected directly between such as holder 104 on the output shaft of 102 of motor, or holder 104 is driven indirectly by motor 102, as holder 104 is connected with motor by rotating shaft or bearing. Preferably, conveyer frames 6 is curved, annular or linear. Fig. 1-4 is described in detail for conveyer frames 6 for annular.

Wherein, the motion of conveyer frames 6 and driving assembly 10 is by controller control, under the control of the controller, transmitted container base 8 one by one by conveyer frames 6, when container base 8 moves to the position of holder 104, namely drive end 804 moves in conduit 106, controller controls conveyer frames 6 and stops, make drive end 804 rest in conduit 106, and control motor 102 and drive holder 104 to rotate, holder 104 drive container bottom 8 rotation. With reference to Fig. 3,3-1 and 4, drive end 804 moves and is transmitting on path, near the porch of conduit 106 and be introduced into conduit 106, now, conveyer frames 6 continues motion, when drive end 804 enters in conduit 106, conveyer frames 6 stop motion, drive end 804 rests in conduit 106, with reference to Fig. 1,1-1 and 2, now controls motor 102 and drives holder 104 to rotate. Conduit 106 on holder 104 when rotated, is arranged to the part that drive end 804 transmits on path by container rotating device, namely conduit 106 at drive end 804 must on path, simple in construction, cost is low. The structure of holder 104 and drive end 804 is without fine especially, but need the interworking between holder 104 and drive end 804 to close, holder 104 forms conduit 106 and can offset with drive end 804 when rotated, just can completing the function of rotation, trickle abrasion etc. impacts all without to stability and the effect of rotating device.

One as container rotating device is preferred, and with reference to Fig. 1-4, described holder 104 is arranged on the transmission path of drive end 804. The path of transmitting of drive end 804 is determined by the shape of conveyer frames 6, if conveyer frames is annular, then the transmission path of drive end is also annular, by that analogy. Holder 104 is directly installed on the transmission path of drive end 804, namely the position of conduit 106 is arranged on the transmission path of drive end 804, it is easy to drive end 804 and moves in holder 104, simple in construction, certainly, holder 104 by other Component driver, can also make holder 104 move on the transmission path of drive end, as risen or translation etc., also it is to realize the purpose of the present invention.

One as container rotating device is preferred, with reference to Fig. 5,5-1 and 5-2, described holder 104 includes base plate 112 and is distributed in the first double wall 108 and the second double wall 110 of base plate 112 both ends of the surface, and the passage between the first double wall 108 and the second double wall 110 is conduit 106. The structure of conduit 106 can be arranged as required to, and conduit 106 needs to coordinate with drive end so that drive end can move in conduit along transmitting path, and drive end can be driven to rotate by holder. As further preferably, holder 104 is in cylindrical shape, and conduit 106 is arranged on cylindrical top. As further preferably, the porch of conduit 106 and exit opposite intermediate portions open wide. Facilitate drive end to enter, the effect of guiding can be played.

One as container rotating device is preferred, and the full-size of described drive end 804 is more than the width of conduit 106, and the minimum dimension of drive end 804 is less than the width of conduit 106. The full-size of drive end 804 is the full-size of drive end cross section, and minimum dimension refers to the minimum dimension of drive end cross section. For drive end for cuboid, the diagonal of cuboid cross section is full-size, and the width of cross section is minimum dimension, if drive end is irregularly shaped, then takes full-size and the minimum dimension of drive end 804 maximum cross section. The minimum dimension of drive end 804 is less than the width of conduit 106, make drive end 804 can move in conduit 106 along transmitting path, otherwise, drive end 804 can stop and not enter in conduit 106 by held part, and the full-size of drive end 804 is more than the width of conduit 106, when holder rotates, drive end and holder is made to offset, the drive end can be driven, it is to avoid holder sky rotates, and can not offset with drive end to rotate.

One as container rotating device is preferred, and with reference to Fig. 6,6-1 and 6-2, described drive end 804 is a block, and block is rectangular-shaped. The shape of drive end 804 can be arranged as required to, it is possible to coordinates with the conduit 106 of holder 104 so that drive end 804 can move in conduit 106 along transmitting path, and drive end 804 can be driven to rotate by holder 104. With reference to Fig. 6-3 and 6-4, as a kind of embodiment, drive end 804 is a block, and block is rectangular-shaped, is provided with two cuboid projections 814 in the bottom of block, it is achieved container time rotational, it is necessary to the conduit on holder matches with this drive end. Preferably, two relative sides of described drive end 804 are smooth curved surface. Two opposite flanks refer to that drive end enters the entering surface of conduit 106 and the another side in this face relatively, and smooth curved surface makes drive end 804 be easier to enter in conduit 106, may also operate as guide effect when entering. The one side that drive end 804 is connected with container base 8 is end face, and drive end 804 is provided with a spigot surface, and spigot surface, for coordinating with guide, makes the direction that drive end maintenance is certain. Preferably, described bare terminal end 802 is the hollow o cylindrical body of one end open. Preferably, the inner surface of described body bottom portion is hemispherical curved surface. Preferably, described body bottom portion is provided with through hole.

One as container rotating device is preferred, with reference to Fig. 6,6-1 and 6-2, is provided with the guide rail 806 for being arranged on by container base 8 on conveyer frames between bare terminal end 802 and drive end 804. Preferably, described guide rail 806 includes the annular groove 812 that first annular flange 808 and the second annular flange flange 810, first annular flange 808 and the distribution of the second annular flange flange 810 axially spaced-apart, first annular flange 808 and the second annular flange flange 810 are formed. With reference to Fig. 6-4, during installation, conveyer frames 6 part extends in annular groove 812, and first annular flange 808 and the second annular flange flange 810 are separately positioned on the both sides up and down of conveyer frames 6, and offset with conveyer frames 6, it is to avoid container base 8 is separated from conveyer frames 6. Guide rail 806 and conveyer frames 6 leave gap between installing, and this gap is for realizing the rotation of the relative conveyer frames of container base, to reduce resistance between the two. Preferably, the upper end face of described drive end 804 and guide rail 806 fixing is connected or drive end 804 and guide rail 806 one-body molded.

As rotating device a kind of preferably, with reference to Fig. 7-8, described rotating device also includes promoting drive end 806 to enter the guide of conduit 106 for adjusting drive end 804 direction. Guide adjusts the direction of drive end so that the vertical section of drive end and guide are in predetermined angle. Drive end 804 is spigot surface towards the one side of guide, the vertical section of drive end is parallel with spigot surface, if the shape that guide is rule, then measure predetermined angle with the face at guide sidewall place, if guide is irregularly shaped, then measure predetermined angle with drive end vertical section to guide sidewall apart from the tangent line of the shortest point. Predetermined angle is used for ensureing that drive end 804 can enter conduit 106 smoothly, stop without held part 104, allowing also to drive end 804 under the guiding of guide, it is possible to rotation by a small margin in this angle, the rotation exceeding this predetermined angle can be stoped by guide.

One as guide is preferred, and described guide is arranged on drive end 804 and transmits the side in path, is provided with gap between guide and drive end. With guide matched in clearance when drive end 804 is along transmission path movement, the gap between guide and drive end makes drive end to move by counter-guide, reduces frictional resistance between the two.

One as guide is preferred, and with reference to Fig. 7-8, described guide includes the first guide plate 12, and the first guide plate 12 is arranged on drive end 804 and transmits the inboard limit in path. The inboard limit transmitting path is generally the position at approaching device center, and the outer side edges transmitting path is generally the position away from device center, if conveyer frames 6 is annular, then annular is inboard limit near circle centre position. First guide plate 12 has a sidewall 1202, and this sidewall 1202 is relative with the spigot surface of drive end 804, matched in clearance between the two.

One as the first guide plate is preferred, with reference to Fig. 8, described first guide plate 12 is distributed on the whole transmission path of drive end, first guide plate is provided with the first breach 1204 towards drive end side, described holder 104 is partially received in the first breach 1204, and holder 104 and drive end 804 rotate in the first breach 1204. The shape of the first guide plate 12 is followed drive end and is transmitted the shape in path, and here for conveyer frames for annular, the first breach 1204 is the depressed part on the first guide plate 12, and drive end 804 can rotate in the first breach 1204. Preferably, described first guide plate 12 is curved, annular or linear.

Preferably, with reference to Fig. 9, described guide also includes the second guide plate 14 being distributed side by side with the first guide plate 12, second guide plate 14 is arranged on drive end 804 and transmits another side in path, second guide plate 14 is provided with the second breach 1402 towards the side of the first breach 1204, described holder 104 is contained in the port that two breach are formed, and holder 104 and drive end 804 rotate in port. Namely the transmission path being spaced apart drive end 804 that the first guide plate 12 and the second guide plate 14 are formed, drive end 804 transmits in the interval of the first guide plate 12 and the second guide plate 14. First breach 1204 and the second breach 1402 also can not set, and the guide plate at the first breach 1204 and the second breach 1402 place directly disconnects also may be used. Preferably, described first breach 1204 is in arc-shaped. Second breach 1402 also in arc-shaped, facilitates the entrance of drive end 804. Preferably, described first guide plate 12 is provided with several installing holes, and installing hole is connected to some support columns 1206.

One as the first guide plate is preferred, and with reference to Figure 10, described first guide plate 12 is arranged on the porch of conduit 106. First guide plate 12 is a bit of for what transmit on path, and the first guide plate 12 entirety can be arcuation or strip. When drive end 804 moves near the first guide plate 12, due to the stop of the first guide plate 12, drive end 804 is carried out position adjustment, make the vertical section of drive end and guide be in predetermined angle. When drive end 804 moves near the first guide plate 12, the angle of the direction in drive end 804 vertical section and the first guide plate 12 is probably 0 degree, acute angle, right angle or obtuse angle, and various angles are all adjusted to predetermined angle by the first guide plate 12. As shown in Figure 10-1,10-2 and 10-3, when angle is acute angle, right angle or obtuse angle, the upper end of the first guide plate 12 and drive end 804 offsets, and the upper end stress of drive end 804 rotates between drive end up time, and drive end enters the first guide plate 12 region; When angle is 0 degree, drive end 804 is directly entered the first guide plate 12 region. Preferably, to be provided with one away from conduit 106 one end domatic for the first guide plate 12. Domatic for entering the first guide plate 12 region offer guiding to drive end. Preferably, described first guide plate 12 extends to the exit of conduit 106 by the porch of conduit 106. Namely the first guide plate 12 is not set at holder 104 place, it is simple to drive end 804 is in the rotation of clip position.

A kind of container, from shifting method, comprises the steps:

A) a kind of container spinning device is provided, described container spinning device includes the conveyer frames 6 for transmitting several containers 2, be connected on conveyer frames 6 container base 8 and for driving the driving assembly 10 of container base 8 rotation, container base 8 includes container bare terminal end 802 and drive end 804, assembly 10 is driven to include motor 102 and by motor-driven holder 104, holder 104 is provided with the conduit 106 coordinated with drive end 804, when drive end 804 moves in conduit 106 and stops, this holder 104 drives described drive end 804 to rotate;

B) resting on the transmission path of drive end 804 by holder 104, the position of retaining clip gripping member 104 makes drive end 804 can enter conduit 106;

C) control conveyer frames 6 to start to transmit container 2, when drive end 804 moves in the conduit 106 of holder 104, control conveyer frames 6 and stop transmitting, make drive end 804 stop in the channel; As shown in Figure 1-2;

D) motor 102 drives holder 104 to rotate, and holder 104 offsets with drive end 804 and coordinates, and holder 104 drives drive end 804 rotation, thus driving container base 8 rotation;

E) motor 102 controls holder 104 and stops the rotation, and during stopping, the position of retaining clip gripping member 104 makes drive end 804 can leave conduit 106 along transmitting path;

F) step c-e is repeated.

By said vesse from shifting method, it is possible to achieve container transmits one by one, rotation one by one. Wherein, the container spinning device in step a) includes the combination to various technical schemes mentioned above.

Claims (10)

1. a container rotating device, including the conveyer frames for transmitting several containers, the container base being connected on conveyer frames, for driving the driving assembly of container base rotation, described container base includes container bare terminal end and drive end, it is characterised in that

Described driving assembly includes motor and by motor-driven holder, and holder is provided with the conduit coordinated with drive end, and when drive end moves in conduit and when stopping, this holder drives described drive end to rotate.

2. container rotating device according to claim 1, it is characterised in that described holder is arranged on the transmission path of drive end.

3. container rotating device according to claim 1, it is characterised in that the full-size of described drive end is more than the width of conduit, and the minimum dimension of drive end is less than the width of conduit.

4. container rotating device according to claim 1, it is characterised in that described rotating device also includes the guide promoting drive end entrance conduit for adjusting drive end direction.

5. container rotating device according to claim 4, it is characterised in that described guide is arranged on drive end and transmits the side in path, is provided with gap between guide and drive end.

6. container rotating device according to claim 5, it is characterised in that described guide includes the first guide plate, the first guide plate is arranged on drive end and transmits the inboard limit in path.

7. container rotating device according to claim 6, it is characterised in that described first guide plate is arranged on the porch of conduit.

8. container rotating device according to claim 6, it is characterized in that, described first guide plate is distributed on the whole transmission path of drive end, first guide plate is provided with the first breach towards drive end side, described clamp parts is contained in the first breach, and holder and drive end rotate in the first breach.

9. container rotating device according to claim 8, it is characterized in that, described guide also includes the second guide plate being distributed side by side with the first guide plate, second guide plate is arranged on drive end and transmits another side in path, second guide plate is provided with the second breach towards the side of the first breach, described holder is contained in the port that two breach are formed, and holder and drive end rotate in port.

10. a container is from shifting method, it is characterised in that comprise the steps:

A) a kind of container spinning device is provided, described container spinning device includes the conveyer frames for transmitting several containers, be connected on conveyer frames container base, for driving the driving assembly of container base rotation, described container base includes container bare terminal end and drive end, described driving assembly includes motor and by motor-driven holder, holder is provided with the conduit coordinated with drive end, when drive end moves in conduit and when stopping, this holder drives described drive end to rotate;

B) being rested on by holder on the transmission path of drive end, the position of retaining clip gripping member makes drive end can enter conduit;

C) control conveyer frames to start to transmit container, when drive end moves in the conduit of holder, control conveyer frames and stop transmitting, make drive end stop in the channel;

D) motor drives holder to rotate, and holder offsets with drive end and coordinates, and holder drives drive end rotation, thus driving container base rotation;

E) motor control holder stops the rotation, and during stopping, the position of retaining clip gripping member makes drive end can leave conduit along transmitting path;

F) step c-e is repeated.