CN105277403A - Automatic constant temperature incubation device - Google Patents

Abstract

The invention discloses an automatic constant temperature incubation device. The automatic constant temperature incubation device comprises an integrated framework and a housing. The integrated framework employs partition and layering layout. The upper layer area is an incubation area. The lower layer area is a circulation refrigeration system area. The upper layer incubation area is equipped with a normal temperature incubation area and a heating incubation area. The normal temperature incubation area is arranged at the lower part of the incubation area. The heating incubation area is arranged at the upper part of the incubation area. A refrigeration circulation system is connected with normal temperature incubation positions through a refrigeration pipe, and the temperature of normal temperature incubation positions is kept in a steady temperature state. The automatic constant temperature incubation device can achieve large batch sample processing, a plurality of independent space incubation positions, independent and automatic control and automatic moving of a microplate. The labor cost is lowered, the experiment accuracy is raised, the experiment efficiency is raised and a streamlined experiment method is achieved.

Description

Automatic constant temperature incubating device

Technical field

The invention belongs to and hatch apparatus field, especially a kind ofly exempt to carry out to test sample the device that automatic constant temperature hatches in analytical technology for enzyme.

Background technology

At present, exempt from experiment at enzyme, simultaneously tradition constant-temperature incubation case hatches all samples putting into its case, then take out sample simultaneously and carry out next step test, so the sample first putting into incubator just starts to hatch after needing to wait case to pile sample together, which increase the stand-by period, the whole efficiency of test is lower, and the sample incubation time is not accurate.In addition, traditional constant-temperature incubation case need shift sample manually, and human cost is higher, and error rate is large, inefficiency.

Summary of the invention

The object of the present invention is to provide a kind of automatic constant temperature incubating device, realize sample process in enormous quantities, multiple separate space hatches position, independently automatically control, automatically shift microplate, reduce cost of labor, improve room and test accuracy rate, promote conventional efficient and streamlined experimental technique.

For achieving the above object, the technical solution used in the present invention is:

A kind of automatic constant temperature incubating device, comprise general frame and shell, described general frame takes subregion and hierarchical layout; Top regions is for hatching district, and district of lower floor is cycle refrigeration system district; Upper strata is hatched district and is provided with normal temperature and hatches district and incubation with heat district, and normal temperature is hatched district and is arranged on and hatches below district, and incubation with heat district is arranged on hatches above district; Cooling cycle system is hatched position by refrigerator pipes and normal temperature and is connected, and the temperature of hatching position so that the temperature remains within the normal range is in plateau temperature state.

Further: the outer lower portion of described incubating device shell arranges a wicket, arranges another door in the outer upper of incubating device shell.

Further: described one display is set at incubating device shell sidepiece.

Further: described incubating device cover top portion is provided with fan.

Further: be provided with castor bottom the general frame of described incubating device or/and pin cup.

Further: the pin cup of described incubating device is adjustable height pin cup.

Further: described normal temperature is hatched district and arranged two normal temperature and hatch assembly, normal temperature is hatched and assembly evenly arranges several normal temperature is hatched position; Described incubation with heat district arranges a constant-temperature incubation assembly, constant-temperature incubation assembly is evenly arranged several constant-temperature incubation positions.

Further: each constant-temperature incubation position described is provided with independent controling circuit, hatch space independence and each temperature and time of hatching position can be controlled separately.

Further: in described constant-temperature incubation device, be provided with automatic handgrip arm.

Further: described automatic handgrip arm is two.

Compared with prior art, the present invention can carry out normal temperature simultaneously hatch and constant-temperature incubation, carries out streamlined management to hatching in the present invention, saves test period and cost.

Automatic constant temperature incubating device of the present invention takes subregion and hierarchical layout, and top regions is for hatching district, and district of lower floor is cycle refrigeration system district; District is hatched on upper strata to be had and is divided into normal temperature to hatch district and incubation with heat district, and normal temperature is hatched district and is arranged on and hatches below district, and incubation with heat district is arranged on hatches above district.Cooling cycle system is hatched position by refrigerator pipes and normal temperature and is connected, and the temperature of hatching position so that the temperature remains within the normal range is in plateau temperature state.

Automatic constant temperature incubating device of the present invention utilizes independent controling circuit design proposal, that carries out independent incubation temperature accurately and time to each separate space incubation with heat position hatches control, improve the accuracy rate of experiment, achieve parallel that all samples hatches and hatch mode, save a large amount of stand-by period, improve integral experiment efficiency.

Be provided with automatic handgrip arm in automatic constant temperature incubating device of the present invention, realize microplate by handgrip arm and automatically shift, greatly reduce cost of labor, reduce the emergency risk that human factor causes.

Accompanying drawing explanation

Fig. 1 is one-piece construction schematic diagram of the present invention.

Fig. 2 of the present inventionly moves plate gripping structure schematic diagram.

Fig. 3 is inner structure schematic diagram of the present invention.

Fig. 4 is external structure schematic diagram of the present invention.

Fig. 5 of the present inventionly hatches bit architecture schematic diagram.

Fig. 6 is outer frame structure schematic diagram of the present invention.

Fig. 7 is gripping structure schematic diagram of the present invention.

Fig. 8 is handgrip partial structurtes schematic diagram of the present invention.

Fig. 9 is handgrip motor module partial structurtes schematic diagram of the present invention.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

As shown in Fig. 1-Fig. 9, automatic constant temperature incubating device disclosed in the present embodiment, comprise four castors 1, described castor 1 is separately fixed at four interior angle places of feet base plate 3 lower surface, described feet base plate 3 is smooth sheet metal and has two pieces, described two pieces of feet base plates 3 are separately fixed at high order end and the low order end of the horizontal rectangular framework lower surface of the first support rail 4 and the second support rail 5 composition, fix a pin cup 2 Liang Ge exterior angle, the left side place of high order end feet base plate 3 is each, fix a pin cup 2 two exterior angles, the right place of low order end feet base plate 3 is also each, the top of described pin cup 2 is provided with nut 73 near feet base plate 3, the height of pin cup 2 is increased with fixing constant-temperature incubation device by turning nut 73, prevent constant-temperature incubation device from sliding, similarly, reducing the height of pin cup 2 by turning nut 73, castor 1 can be landed and roll so that the position of mobile constant-temperature incubation device.In the upper surface of rectangular frame of the first support rail 4 and the second support rail 5 composition, one piece of plane bearing plate 7 is set, two water-cooled assemblies 8 are provided separately in the inner side of described bearing plate 7 upper surface, described two water-cooled assemblies 8 are hatched assembly 45 with two normal temperature respectively and are connected, reduce the surface temperature that normal temperature hatches assembly 45, keep it to be in normal temperature state always.Four fans 9 are set respectively in the left side of water-cooled assembly 8.Four angles of the framework upper surface that the first support rail 4 and the second support rail 5 form arrange a support bar 6 respectively, at the middle part of described first support bar 6, the 3rd support rail 10, the 4th support rail 11, the 5th support rail 12 and the 6th support rail 13 are set respectively, described 3rd support rail 10 is the same with the 4th support rail 11, and described 5th support rail 12 is the same with the 6th support rail 13.3rd support rail 10, the 4th support rail 11, the 5th support rail 12 and the 6th support rail 13 form horizontal rectangular framework.A box-like hardware 52 is set in the middle part of the upper surface of described 4th support rail 11, first motor 14 is set in the upper end of hardware 52, described first motor 14 rotating shaft insert in the hole in the middle of hardware 52 down, the rotating shaft of the first motor 14 arranges first synchronizing wheel 15, at the first synchronizing wheel 15 same level arranged outside second synchronizing wheel 17, described second synchronizing wheel 17 is fixed on the bottom of the first leading screw 20.First Timing Belt 16 is arranged on the first synchronizing wheel 15 and the second synchronizing wheel 17.Second Timing Belt 18 is arranged at the latter half of the second synchronizing wheel 17, and the other end of described second Timing Belt 18 is arranged on the 3rd synchronizing wheel 53, and this 3rd synchronizing wheel 53 is fixed on the lower end of the second leading screw 21.The outside of the 4th support rail 11 arrange one " on " font metal fixing 54, first leading screw 20 is arranged at the upper surface of described metal fixing 54 and the lower surface of the first leading screw 20 is fixed together through the mesopore of metal fixing 54 and the second synchronizing wheel 17; The outside of the 3rd support rail 10 arrange one " on " font metal fixing 55, second leading screw 21 is arranged at the upper surface of described metal fixing 55 and the lower surface of the second leading screw 21 is fixed together through the mesopore of metal fixing 55 and the 3rd synchronizing wheel 53.Arrange " L " shape guide rail fixed block 19 in the upper surface of described metal fixing 54, described first leading screw 20 is through the hole in the middle of guide rail fixed block 19 and the hole in the middle of metal fixing 54; Arrange " L " shape guide rail fixed block 56 in the upper surface of described metal fixing 55, described second leading screw 21 is through the hole in the middle of guide rail fixed block 56 and the hole in the middle of metal fixing 55.Described metal fixing 55 arranges the rotating shaft of second motor 22, second motor 22 down, the rotating shaft of described second motor 22 arranges the 5th synchronizing wheel 57; Described guide rail fixed block 56 arranges the 4th synchronizing wheel 23, and described 4th synchronizing wheel 23 and the 5th synchronizing wheel 57 are in same level.3rd Timing Belt 24 is arranged on the 5th synchronizing wheel 57 and the 4th synchronizing wheel 23.Inside and outside the right side of described guide rail fixed block 19, both sides fix a steel axle 25 respectively, and described steel axle 25 is fixed together with the left side of guide rail fixed block 56.Described two steel axles 25 arrange a handgrip base 27 respectively, in described two handgrip bases 27, a linear bearing 26 is set respectively, the outside Timing Belt of described 3rd Timing Belt 24 is fixed with the linear bearing 26 be on the steel axle 25 in outside, drives linear bearing 26 to move in the X direction by the 3rd Timing Belt 24.Arrange one piece of planar metal plate 31 in described two linear bearing 26 upper surfaces, described planar metal plate 31 and two linear bearings 26 are fixed together, and keep synchronously moving in the X direction.Fix the 3rd motor 28 in the end face outside of planar metal plate 31, the rotating shaft of described 3rd motor 28 arranges the 5th synchronizing wheel 29.A guide rail 58 is set in the upper surface central authorities of planar metal plate 31, a rectangular shaped slider 59 is set in the upper end of described guide rail 58.Arranging the 6th synchronizing wheel the 60, four Timing Belt 30 near inner face place on the right side of described sheet metal 31 is arranged on the 5th synchronizing wheel 29 and the 6th synchronizing wheel 60, and described 4th Timing Belt 30 liang of end interfaces are fixed on the right side of slide block 59.In described slide block 59 upper surface, a control enclosure 32 is set, 4th motor 33 is set in the inner side of control enclosure 32, the rotating shaft of described 4th motor 33 arranges the 7th synchronizing wheel 61, arrange the 8th synchronizing wheel the 62, five Timing Belt 66 to be arranged on the 7th synchronizing wheel 61 and the 8th synchronizing wheel 62 in the left side of the 7th synchronizing wheel 61.In the below of described 8th synchronizing wheel 62, a gear shaft 63 is set, a rectangle handgrip guide pin bushing 65 is set in the below of gear shaft 63, described handgrip guide pin bushing 65 above centre arranges a circular port, arranges the trapezoidal rails of two levels in the side of handgrip guide pin bushing 65.Described gear shaft 63 inserts handgrip guide pin bushing 65 above in Centromedian circular port from top to bottom, L shape tooth bar 34 is inserted in the left lateral trapezoidal guide rail of described handgrip guide pin bushing 65, in the right lateral trapezoidal guide rail of handgrip guide pin bushing 65, insert L shape tooth bar 64, described tooth bar 34 and tooth bar 64 engage with runner shaft 63.A strip handgrip arm 35 is set in the left side of tooth bar 34, a strip handgrip arm 36 is set on the right side of described tooth bar 64.

Arrange the 7th support rail 38, the 8th support rail 39, the 9th support rail 40 and the tenth support rail 47 in the upper surface of described support bar 6, described 7th support rail 38 is the same with the 8th support rail 39 specification; Described 9th support rail 40 is the same with the tenth support rail 47 specification.The rectangular frame that inner side two calcaneus branches strut 6 and the 6th support rail 13, the tenth support rail 47 form arranges one piece of rectangular slab 44, bottom outside described rectangular slab 44 arranges two normal temperature and hatches assembly 45, when taking into full account space utilization, two normal temperature are set and hatch assembly 45, so not only at utmost make use of the space in incubation tower but also fully ensure that when sample size is larger, the quantity that normal temperature hatches position 67 can be enough to meet experiment needs.And normal temperature to be hatched assembly 45 is provided separately be two, respectively it dispelled the heat, improve the rate of temperature fall that normal temperature hatches surface, position 67, reduce ambient temperature hatches position 67 impact on normal temperature.Hatch at normal temperature and assembly 45 evenly arranges N number of (N is that those skilled in the art are according to the reasonable natural numbers needing to arrange) normal temperature and hatch position 67, top outside described rectangular slab 44 arranges a constant-temperature incubation assembly 46, and constant-temperature incubation assembly 46 evenly arranges M (M is that those skilled in the art are according to the reasonable natural number needing to arrange) constant-temperature incubation position 68.Owing to only arranging a constant-temperature incubation assembly 46, therefore all constant-temperature incubation positions 68 are set together all compactly, improve temperature rate-of-rise, have saved the stand-by period, improve the efficiency that experiment is overall.The general frame form described first support rail 4, second support rail 5, bearing plate 7, support bar 6, the 3rd support rail 10, the 3rd support rail 11, the 5th support rail 12, the 6th support rail 13, the 7th support rail 38, the 8th support rail 39, the 9th support rail 40, the tenth support rail 47 and rectangular slab 44 and the parts that it is arranged are placed within incubating device shell 48.A wicket 49 is set in the outer lower portion of described incubating device shell 48, a door 50 is set in the outer upper of incubating device shell 48.In the right upper portion of incubating device shell 48, a display 51 is set.At the top of described incubating device shell 48,3 fans 41, fan 42 and fan 43 are evenly set.Described first fan 41, second fan 42, three fan 43 reasonably distribution improve the homogeneity of dispelling the heat in incubation tower, and 3 fans guarantee of work radiating rate and efficiency together, be more beneficial to the temperature of hatching and control, ensure experiment precision.

Before carrying out operation, the present invention can be moved integrally by castor 1, can fix this device by pin cup 2, greatly facilitates the transfer of this device and fixes.In test run process, described wicket 49 and door 50 are shut, and when internal operation situation checked by needs, can open wicket 49 at any time and door 50 is checked, improve reliability of the present invention and maintenanceability.Control visually to hatch by display 51, handgrip transfer microplate, water-cooling system, fan functionality, simplify operation easier, improve and hatch efficiency.Each in M of the present invention constant-temperature incubation position 68 hatches position to be had and independently hatches space and can control separately each temperature and time of hatching position, achieves the concurrent job of hatching with waiting for, and can carry out batch processing, improve and hatch efficiency.In incubating device, constant-temperature incubation position 68 and normal temperature are hatched position 67 and are stacked layer by layer, have saved space, decrease volume of the present invention.Normal temperature is hatched assembly 45 and constant-temperature incubation assembly 46 and is placed in incubating device and carries out work simultaneously, water-cooled assembly 8 is hatched assembly 45 by water route to normal temperature and is lowered the temperature, hatch position 67 to keep N number of normal temperature and be in normal temperature state always, achieve normal temperature like this and hatch the differentiation process interior at one time with constant-temperature incubation, save time cost.When controlling handgrip by display 51, described first motor 14 drives the first synchronizing wheel 15, first Timing Belt 16, second synchronizing wheel 17 to move together, second synchronizing wheel 17 drives the 3rd synchronizing wheel 53 to rotate by the second Timing Belt 18,3rd synchronizing wheel 53 drives the second leading screw 21 to rotate, and described second synchronizing wheel 17 drives the first leading screw 20 to rotate.Move under described second leading screw 21 and the first leading screw 20 drive guide rail fixed block 56 and guide rail fixed block 19 in z-direction respectively simultaneously.Described second motor 22 drives the 4th synchronizing wheel 23 and the 3rd Timing Belt 24 to rotate, and the 3rd Timing Belt 24 drives handgrip base 27 and linear bearing 26 to move in X direction on steel axle 25.Described 3rd motor 28 drives the 5th synchronizing wheel 29 to rotate, and the 5th synchronizing wheel 29 drives the 4th Timing Belt 30 to move, and the 4th Timing Belt 30 carries out the motion of Y-direction on guide rail 58 with movable slider 59.Described 4th motor 33 drives the 7th synchronizing wheel 61 in rotating shaft to rotate, 7th synchronizing wheel 61 drives the 8th synchronizing wheel 62 to rotate by the 5th Timing Belt 66, described 8th synchronizing wheel 62 driven gear axle 63 rotates, gear shaft 62 is moved in the X direction by engagement band carry-over bar 34 and tooth bar 64, described tooth bar 34 and tooth bar 64 drive handgrip arm 35 and handgrip arm 36 to move in the X direction respectively, by the opening and closing effect between handgrip arm 35 and handgrip arm 36, realize automatic capturing microplate, the function of transfer microplate, decrease the cost of artificial transfer microplate, improve work efficiency and experiment accuracy rate.

Claims (10)

1. an automatic constant temperature incubating device, comprises general frame and shell, it is characterized in that: described general frame takes subregion and hierarchical layout; Top regions is for hatching district, and district of lower floor is cycle refrigeration system district; Upper strata is hatched district and is provided with normal temperature and hatches district and incubation with heat district, and cooling cycle system is hatched position by refrigerator pipes and normal temperature and is connected, and the temperature of hatching position so that the temperature remains within the normal range is in plateau temperature state.

2. automatic constant temperature incubating device as claimed in claim 1, is characterized in that: described normal temperature is hatched district and is arranged on and hatches below district, and incubation with heat district is arranged on hatches above district; The outer lower portion of described incubating device shell arranges a wicket, arranges another door in the outer upper of incubating device shell.

3. automatic constant temperature incubating device as claimed in claim 1, is characterized in that: describedly arrange a display at incubating device shell sidepiece.

4. automatic constant temperature incubating device as claimed in claim 1, is characterized in that: described incubating device cover top portion is provided with fan.

5. automatic constant temperature incubating device as claimed in claim 1, is characterized in that: be provided with castor bottom the general frame of described incubating device or/and pin cup.

6. automatic constant temperature incubating device as claimed in claim 5, is characterized in that: the pin cup of described incubating device is adjustable height pin cup.

7. automatic constant temperature incubating device as claimed in claim 1, is characterized in that: described normal temperature is hatched district and arranged two normal temperature and hatch assembly, and normal temperature is hatched and assembly evenly arranges several normal temperature hatched position; Described incubation with heat district arranges a constant-temperature incubation assembly, constant-temperature incubation assembly is evenly arranged several constant-temperature incubation positions.

8. automatic constant temperature incubating device as claimed in claim 7, is characterized in that: each constant-temperature incubation position described is provided with independent controling circuit, hatches space independence and can control separately each temperature and time of hatching position.

9. automatic constant temperature incubating device as claimed in claim 1, is characterized in that: be provided with automatic handgrip arm in described constant-temperature incubation device.

10. automatic constant temperature incubating device as claimed in claim 9, is characterized in that: described automatic handgrip arm is two.