CN109159353A - A kind of bioengineering gene culture dish processing cooling and demolding device - Google Patents
A kind of bioengineering gene culture dish processing cooling and demolding device Download PDFInfo
- Publication number
- CN109159353A CN109159353A CN201810884007.2A CN201810884007A CN109159353A CN 109159353 A CN109159353 A CN 109159353A CN 201810884007 A CN201810884007 A CN 201810884007A CN 109159353 A CN109159353 A CN 109159353A
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- CN
- China
- Prior art keywords
- storage compartment
- injection molding
- culture dish
- telescopic rod
- cooling
- Prior art date
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C45/00—Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mould; Apparatus therefor
- B29C45/03—Injection moulding apparatus
- B29C45/036—Injection pistols
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C45/00—Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mould; Apparatus therefor
- B29C45/17—Component parts, details or accessories; Auxiliary operations
- B29C45/40—Removing or ejecting moulded articles
- B29C45/42—Removing or ejecting moulded articles using means movable from outside the mould between mould parts, e.g. robots
- B29C45/4225—Take-off members or carriers for the moulded articles, e.g. grippers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C45/00—Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mould; Apparatus therefor
- B29C45/17—Component parts, details or accessories; Auxiliary operations
- B29C45/46—Means for plasticising or homogenising the moulding material or forcing it into the mould
- B29C45/53—Means for plasticising or homogenising the moulding material or forcing it into the mould using injection ram or piston
- B29C45/531—Drive means therefor
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C45/00—Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mould; Apparatus therefor
- B29C45/17—Component parts, details or accessories; Auxiliary operations
- B29C45/72—Heating or cooling
- B29C45/73—Heating or cooling of the mould
- B29C45/7312—Construction of heating or cooling fluid flow channels
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C45/00—Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mould; Apparatus therefor
- B29C45/17—Component parts, details or accessories; Auxiliary operations
- B29C45/40—Removing or ejecting moulded articles
- B29C45/42—Removing or ejecting moulded articles using means movable from outside the mould between mould parts, e.g. robots
- B29C45/4225—Take-off members or carriers for the moulded articles, e.g. grippers
- B29C2045/4233—Take-off members or carriers for the moulded articles, e.g. grippers loading or holding moulded articles in take-off member by fluid ejection
Abstract
The present invention relates to a kind of bioengineering gene culture dish processing cooling and demolding devices; including injecting mechanism, feed pipe, inflator pump, air inlet pipe, moulding mechanism, cooling body and demoulding mechanism; feed pipe is interspersed on the side body wall of the injecting mechanism; the inflator pump is fixed on the upper surface of the injecting mechanism; air inlet pipe is connected with close to described inflator pump one end of injecting mechanism and one end is connected with injecting mechanism, and the moulding mechanism is mounted on the injecting mechanism side.The present invention is provided with the feed pipe that plastic solution can be supplemented at any time for storage compartment, and the inflator pump of pushing plate pressing push can be facilitated at any time, gas is charged into storage compartment by inflator pump using air inlet pipe, when pushing plate decline, since the gas in storage compartment is in a saturated state, therefore the gas that pushing plate decline pushes in storage compartment, which is pushed, pushes discharge storage compartment for solution, so that pushing plate will not touch solution, the culture dish being molded by will be more sterile.
Description
Technical field
The present invention relates to biological gene culture relevant device fields more particularly to a kind of bioengineering gene culture dish to add
Work cooling and demolding device.
Background technique
Biology character with kinetic energy is exactly biology, research of the mankind to biology, not just merely because open the scope of one's knowledge, raw
The research of object gene can apply in terms of medical technology, overcome the illnesss such as certain cancers to bring certain help for people.
The equipment that the research of biological gene is necessarily required to using clean and sterile equipment, about biological gene research has very
More, microscope is first, and microscopical indispensable observation apparatus is biological gene culture dish.The processing of culture dish needs
It is carried out under clean and sterile environment, the processing technology of existing culture dish is many, but existing biological gene culture dish
In terms of injection molding, structure too complex, and also blowing when being molded and demoulding are all the long-lasting operation machines with the same mechanical arm
The consume of tool arm is serious, and wastes more on the time, is deposited in view of the above existing bioengineering with gene culture dish processing unit (plant)
The shortcomings that, it is necessary to improved, to improve this device, bigger convenience provided for staff.
Summary of the invention
The purpose of the present invention is to provide a kind of bioengineering gene culture dish processing cooling and demolding devices, to solve
Existing biological gene culture dish mentioned above in the background art is in terms of injection molding, structure too complex, and when injection molding
Blowing and demoulding are all with the same mechanical arm, and the consume of long-lasting operation mechanical arm is serious, and more ask is wasted on the time
Topic.
In order to achieve the goal above, the technical solution adopted by the present invention are as follows: a kind of bioengineering gene culture dish processing
With cooling and demolding device, including injecting mechanism (1), feed pipe (2), inflator pump (3), air inlet pipe (4), moulding mechanism (5), cooling
Mechanism (6) and demoulding mechanism (7), it is characterised in that: feed pipe (2) are interspersed on the side body wall of the injecting mechanism (1),
In,
The inflator pump (3) is fixed on the upper surface of the injecting mechanism (1), the inflation close to injecting mechanism (1)
Pump (3) one end is connected with air inlet pipe (4) and one end is connected with injecting mechanism (1), and the moulding mechanism (5) is mounted on the note
Molding machine structure (1) side, moulding mechanism (5) side far from injecting mechanism (1) are equipped with cooling body (6), the cooling
Demoulding mechanism (7) is installed between mechanism (6) and moulding mechanism (5) and is established in the injecting mechanism (1) side.
Further, the injecting mechanism (1) includes storage compartment (11), servo motor (12), screw rod (13), angular wheel
(14), pushing plate (15), plugging block (16), telescopic rod (17) and spring (18), the storage compartment (11) are mounted on the inflation
(3) lower surface is pumped, the storage compartment (11) upper surface close to inflator pump (3) is equipped with servo motor (12), the servo electricity
Machine (12) one end is connected with screw rod (13) and is mounted on the storage compartment (11) inside, and the angular wheel (14) is fixed on silk
On the outside of bar (13), the angular wheel (14) one end far from servo motor (12) is connected with pushing plate (15), close to pushing plate
(15) it being equipped with plugging block (16) inside the storage compartment (11), described plugging block (16) one end is equipped with telescopic rod (17),
It is internal that the spring (18) is fixed on telescopic rod (17).
Further, the moulding mechanism (5) includes hydraulic telescopic rod (51), injection molding plates (52), connecting plate (53), drain
(54), separating tube (55), grinding tool block (56), built-in slot (57) and electric telescopic rod (58) are managed, the hydraulic telescopic rod (51) is solid
It is scheduled on the body wall of the storage compartment (11) side, the hydraulic telescopic rod (51) one end close to storage compartment (11) is connected with injection molding
Plate (52), injection molding plates (52) side are equipped with connecting plate (53) and are socketed in the storage compartment (11) body wall, the row
Liquid pipe (54) is embedded in the injection molding plates (52), and the drain pipe (54) side close to storage compartment (11) is equipped with separating tube
(55), the grinding tool block (56) is fixed on the body wall of the injection molding plates (52) side, the grinding tool block close to separating tube (55)
(56) it is offered built-in slot (57) in, the electric telescopic rod (58) is mounted on grinding tool block (56) side.
Further, the cooling body (6) includes placing box (61), grinding tool slot (62), water cooling tube (63), water tank
(64), water pump (65), water-cooled block (66) and heat exchanger (67), the placing box (61) is mounted on injection molding plates (52) side, close
It offers grinding tool slot (62) in the placing box (61) side body wall of injection molding plates (52), is wound on the outside of the grinding tool slot (62)
Water cooling tube (63), the placing box (61) far from grinding tool slot (62) is internal to be equipped with water tank (64), water tank (64) side
It is equipped with water pump (65), the water-cooled block (66) is fixed on the water pump (65) side, and the heat exchanger (67) is mounted on described
Water-cooled block (66) side.
Further, the demoulding mechanism (7) includes motor (71), interlocking lever (72), interlock plate (73), adsorption tank
(74), aspirating hole (75), exhaust tube (76), integrated pipeline (77) and air exhauster (78), the motor (71) are mounted on described deposit
Storehouse (11) side is put, the motor (71) one end close to storage compartment (11) is fixed with interlocking lever (72), the interlocking lever (72)
One end is equipped with interlock plate (73), and the adsorption tank (74) is provided with the interlock plate (73) inside, aspirating hole (75) packet
It is rolled on the outside of the adsorption tank (74) and is mounted in the interlock plate (73), the aspirating hole close to adsorption tank (74)
(75) one end is connected with exhaust tube (76), and described exhaust tube (76) one end is connected with integrated pipeline (77), the air exhauster (78)
It is mounted on the motor (71) upper surface.
Further, piston is constituted between the storage compartment (11) and pushing plate (15) to connect, and pushing plate (15) is most
Big actuating length is no more than the length of screw rod (13).
Further, the cross section of the plugging block (16) is set as trapezoidal, and plugging block (16) and telescopic rod (17) it
Between constitute stretching structure, and the maximal dilation distance of plugging block (16) is no more than the length of telescopic rod (17) itself telescopic arm.
It further, is all stretching structure between the hydraulic telescopic rod (51) and injection molding plates (52), and injection molding plates (52)
Distance of stretch out and draw back it is identical as the collapsing length of injection molding plates (52), and the maximal dilation distance of injection molding plates (52) and injection molding plates (52)
The no more than length of connecting plate (53).
Further, quantity set by the separating tube (55) is identical as quantity set by grinding tool block (56), and separating tube (55)
It constitutes and is connected together between built-in slot (57), and be dismantling connection between separating tube (55) and built-in slot (57).
Further, there are four interlock plate (73) settings, and four interlock plates (73) are respectively about motor (71)
Central axes, which are that midpoint is equidistant, to be fitted around in motor (71) side.
The invention has the benefit that
1, the feeding form and structure for being provided with injecting mechanism change, and original lateral feeding device is changed to perpendicular row
Feeding, original feeding device press injection plastic solution by spiral, and existing improved injecting mechanism is by servo motor band
Dynamic screw rod rotation, is released so that angular wheel drives pushing plate to press liquid in storage compartment, simpler in structure, and
The purpose that injecting mechanism after restructuring reaches is identical.
2, the feed pipe of plastic solution can be supplemented at any time for storage compartment by being provided with, and can facilitate at any time pushing plate by
The inflator pump of push is pressed, gas is charged into storage compartment by inflator pump using air inlet pipe, when pushing plate decline, due in storage compartment
Gas it is in a saturated state, therefore pushing plate decline push storage compartment in gas push by solution push discharge storage compartment,
So that pushing plate will not touch solution, the culture dish being molded by will be more sterile.
3, it is provided with the plugging block that can control solution discharge rate, while pushing plate decline, starts hydraulic telescopic rod
Injection molding plates decline is driven, separating tube is mounted in injection molding plates, separating tube can be made close to grinding tool slot, solution is avoided to spill, simultaneously
Injection molding plates decline also will drive the plugging block decline of telescopic rod connection, and plugging block, which drops to certain degree, will block storage
Cang Pailiaochu achievees the effect that control discharge capacity.
4, it is provided with moulding mechanism to be fixed on the body wall of storage compartment, reduces occupying for space, and hydraulic telescopic rod
Plugging block decline control discharge capacity can not only be driven, additionally it is possible to drive grinding tool block to be molded culture dish, after separating tube liquid separation,
It pushes grinding tool block to slide on injection molding plates using electric telescopic rod to engage with separating tube, be again started up pressure injection under hydraulic telescopic rod
Plate, so that grinding tool block is molded culture dish by being pressed into grinding tool slot.
5, the connecting plate of storage compartment liquid leakage, connecting plate can be prevented when hydraulic telescopic rod declines injection molding plates by being provided with
It assigns into the body wall of storage compartment, one end is fixed on injection molding plates, and when injection molding plates decline, connecting plate will be in the body wall of storage compartment
Inside be slidably matched extension, connect so that storage compartment is remained with injection molding plates, is not in liquid leakage phenomenon.
6, it is provided with the cooling body that can individually cool down culture dish mold, water cooling tube is single and is uniformly wrapped in each
On the outside of grinding tool slot, after the completion of culture dish injection molding, it can uniformly be cooled down for culture dish, be convenient for fast demoulding.
7, four interlock plates motor-driven are provided with, are fitted with adsorption tank in interlock plate, adsorption tank can rely on
Air exhauster adsorbs the culture dish in grinding tool slot, and motor is able to drive four interlock plates rotations, achievees the effect that circulate operation, than
More original single mechanical arm, interlock plate plays the role of only being merely demoulding, and recycles for short spacing, operates faster, more
It is consumed while supernumerary segment saves time less.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of bioengineering gene culture dish processing cooling and demolding device.
Fig. 2 is a kind of moulding mechanism structural schematic diagram of bioengineering gene culture dish processing cooling and demolding device.
Fig. 3 is a kind of cooling body structural schematic diagram of bioengineering gene culture dish processing cooling and demolding device.
Fig. 4 is that a kind of interlock plate distributed architecture of bioengineering gene culture dish processing cooling and demolding device is illustrated
Figure.
Fig. 5 is a kind of demoulding mechanism structural schematic diagram of bioengineering gene culture dish processing cooling and demolding device.
Fig. 6 is a kind of moulding mechanism left view structural representation of bioengineering gene culture dish processing cooling and demolding device
Figure.
Label character as shown in the figure indicates are as follows: 1, injecting mechanism, 11, storage compartment, 12, servo motor, 13, screw rod, 14, cone
Shape gear, 15, pushing plate, 16, plugging block, 17, telescopic rod, 18, spring, 2, feed pipe, 3, inflator pump, 4, air inlet pipe, 5, modeling
Shape mechanism, 51, hydraulic telescopic rod, 52, injection molding plates, 53, connecting plate, 54, drain pipe, 55, separating tube, 56, grinding tool block, 57, interior
Set slot, 58, electric telescopic rod, 6, cooling body, 61, placing box, 62, grinding tool slot, 63, water cooling tube, 64, water tank, 65, water pump,
66, water-cooled block, 67, heat exchanger, 7, demoulding mechanism, 71, motor, 72, interlocking lever, 73, interlock plate, 74, adsorption tank, 75, pumping
Hole, 76, exhaust tube, 77, integrated pipeline, 78, air exhauster.
Specific embodiment
In order to make those skilled in the art more fully understand technical solution of the present invention, with reference to the accompanying drawing to the present invention into
Row detailed description, the description of this part be only it is exemplary and explanatory, should not have any limitation to protection scope of the present invention
Effect.
As shown in figs 1 to 6, specific structure of the invention are as follows: a kind of bioengineering is de- with cooling with the processing of gene culture dish
Mold device, including injecting mechanism 1, feed pipe 2, inflator pump 3, air inlet pipe 4, moulding mechanism 5, cooling body 6 and demoulding mechanism 7,
It is characterized by: being interspersed with feed pipe 2 on the side body wall of the injecting mechanism 1, wherein
The inflator pump 3 is fixed on the upper surface of the injecting mechanism 1, close to 3 one end of the inflator pump of injecting mechanism 1
It is connected with air inlet pipe 4 and one end is connected with injecting mechanism 1, the moulding mechanism 5 is mounted on 1 side of injecting mechanism, separate
5 side of moulding mechanism of injecting mechanism 1 is equipped with cooling body 6, installs between the cooling body 6 and moulding mechanism 5
There is demoulding mechanism 7 and establishes in 1 side of injecting mechanism.
Preferably, the injecting mechanism 1 includes storage compartment 11, servo motor 12, screw rod 13, angular wheel 14, pushing plate
15, plugging block 16, telescopic rod 17 and spring 18, the storage compartment 11 are mounted on 3 lower surface of inflator pump, close to inflator pump 3
11 upper surface of the storage compartment servo motor 12 is installed, described 12 one end of servo motor is connected with screw rod 13 and is mounted on
Inside the storage compartment 11, the angular wheel 14 is fixed on 13 outside of screw rod, the angular wheel far from servo motor 12
14 one end are connected with pushing plate 15, are equipped with plugging block 16, the plugging block inside the storage compartment 11 of pushing plate 15
16 one end are equipped with telescopic rod 17, and the spring 18 is fixed on inside telescopic rod 17.
Preferably, the moulding mechanism 5 includes hydraulic telescopic rod 51, injection molding plates 52, connecting plate 53, drain pipe 54, liquid separation
Pipe 55, grinding tool block 56, built-in slot 57 and electric telescopic rod 58, the hydraulic telescopic rod 51 are fixed on 11 1 lateral body of storage compartment
On wall, 51 one end of the hydraulic telescopic rod close to storage compartment 11 is connected with injection molding plates 52, and 52 side of injection molding plates is equipped with
Connecting plate 53 is simultaneously socketed in 11 body wall of storage compartment, and the drain pipe 54 is embedded in the injection molding plates 52, close to storage
54 side of the drain pipe in storehouse 11 is equipped with separating tube 55, and the grinding tool block 56 is fixed on the 52 side body wall of injection molding plates
On, built-in slot 57 is offered in the grinding tool block 56 of separating tube 55, the electric telescopic rod 58 is mounted on the grinding tool
56 side of block.
Preferably, the cooling body 6 includes placing box 61, grinding tool slot 62, water cooling tube 63, water tank 64, water pump 65, water cooling
Block 66 and heat exchanger 67, the placing box 61 are mounted on 52 side of injection molding plates, close to 61 side of the placing box of injection molding plates 52
Grinding tool slot 62 is offered in body wall, is wound with water cooling tube 63 on the outside of the grinding tool slot 62, the placing box far from grinding tool slot 62
Water tank 64 is installed, 64 side of water tank is equipped with water pump 65, and the water-cooled block 66 is fixed on the water pump 65 1 inside 61
Side, the heat exchanger 67 are mounted on 66 side of water-cooled block.
Preferably, the demoulding mechanism 7 includes motor 71, interlocking lever 72, interlock plate 73, adsorption tank 74, aspirating hole 75, takes out
Tracheae 76, integrated pipeline 77 and air exhauster 78, the motor 71 are mounted on 11 side of storage compartment, close to the institute of storage compartment 11
It states 71 one end of motor and is fixed with interlocking lever 72, described 72 one end of interlocking lever is equipped with interlock plate 73, and the adsorption tank 74 is provided with
Inside the interlock plate 73, the aspirating hole 75 is wrapped in 74 outside of adsorption tank and is mounted in the interlock plate 73, leans on
75 one end of the aspirating hole of nearly adsorption tank 74 is connected with exhaust tube 76, and described 76 one end of exhaust tube is connected with integrated pipeline 77,
The air exhauster 78 is mounted on 71 upper surface of motor.
Preferably, constitute piston connection between the storage compartment 11 and pushing plate 15, and pushing plate 15 it is maximum push away from
From the length for being no more than screw rod 13.
Preferably, the cross section of the plugging block 16 is set as trapezoidal, and constitutes and stretch between plugging block 16 and telescopic rod 17
Shrinking structure, and the maximal dilation distance of plugging block 16 is no more than the length of itself telescopic arm of telescopic rod 17.
It preferably, is all stretching structure between the hydraulic telescopic rod 51 and injection molding plates 52, and the telescopic distance of injection molding plates 52
It is identical from the collapsing length of injection molding plates 52, and the maximal dilation of injection molding plates 52 and injection molding plates 52 distance is no more than connecting plate
53 length.
Preferably, quantity set by the separating tube 55 is identical as quantity set by grinding tool block 56, and separating tube 55 and built-in slot
It constitutes and is connected together between 57, and be dismantling connection between separating tube 55 and built-in slot 57.
Preferably, there are four the settings of interlock plate 73, and four interlock plates 73 are respectively about the central axes of motor 71
Midpoint is equidistant to be fitted around in 71 side of motor.
When specifically used, it is necessary first to carry out one with the processing of gene culture dish with cooling and demolding device to the bioengineering
Simple to understand, user first starts servo motor 12 and screw rod 13 is driven to rotate, band under the action of screw rod 13 of angular wheel 14
Dynamic pushing plate 15 declines in storage compartment 11, while starting inflator pump 3 using air inlet pipe 4 to inflating in storage compartment 11, storage compartment
Gas is excessive in 11, then cooperates the pushing of pushing plate 15, and air pressure enhancing will push plastic solution and arrange from 11 discharge gate of storage compartment
Into in drain pipe 54, starts hydraulic telescopic rod 51 at this time and injection molding plates 52 is driven to decline, so that company of the plugging block 16 in telescopic rod 17
It connects down and injection molding plates 52 is followed to decline, plugging block 16 will block 11 discharge gate of storage compartment when dropping to mobile degree, molten at this time
Liquid still passes through separating tube 55 and uniformly flows into grinding tool slot 62, starts electric telescopic rod 58 at this time and pushes grinding tool block 56 close to liquid separation
Pipe 55 so that separating tube 55 engages with grinding tool block 56, and by the closure of built-in slot 57 can not drain, hydraulic telescopic rod 51 starts
Continue that injection molding plates 52 is driven to decline, plugging block 16 at this time is limited and can not decline by 11 discharge gate of storage compartment, and telescopic rod
Spring 18 in 17, which is subject to involve, continues that telescopic rod 17 is driven to extend, while connecting plate 53 can also follow under injection molding plates 52
Drop, grinding tool block 56 drop in grinding tool slot 62, and after press solution forming, hydraulic telescopic rod 51 drives grinding tool block 56 etc. to reset, and open
Dynamic water pump 65 extracts the water in water tank 64 out, is flowed into water cooling tube 63 by heat exchanger 67 again after water-cooled block 66, circulating cooling
Culture dish in grinding tool slot 62 starts motor 71 at this time and interlocking lever 72 is driven to rotate, and drives interlock plate 73 close and of short duration stagnation
On grinding tool slot 62, starting air exhauster 78 extracts the gas in integrated pipeline 77, and exhaust tube 76 will will be ground using aspirating hole 75
Culture dish in tool slot 62 is adsorbed into adsorption tank 74, and then motor 71 continues to rotate and shifts culture dish, and here it is the devices
Workflow.
It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row
His property includes, so that the process, method, article or equipment for including a series of elements not only includes those elements, and
And further include other elements that are not explicitly listed, or further include for this process, method, article or equipment institute it is intrinsic
Element.
Used herein a specific example illustrates the principle and implementation of the invention, the explanation of above example
It is merely used to help understand method and its core concept of the invention.The above is only a preferred embodiment of the present invention, it answers
When pointing out due to the finiteness of literal expression, and objectively there is unlimited specific structure, for the common skill of the art
For art personnel, without departing from the principle of the present invention, several improvement, retouching or variation can also be made, can also incited somebody to action
Above-mentioned technical characteristic is combined in the right way;These improve retouching, variation or combination, or the not improved structure by invention
Think and technical solution directly applies to other occasions, is regarded as protection scope of the present invention.
Claims (10)
1. a kind of bioengineering gene culture dish processing cooling and demolding device, including injecting mechanism (1), feed pipe (2), fill
Air pump (3), air inlet pipe (4), moulding mechanism (5), cooling body (6) and demoulding mechanism (7), it is characterised in that: the injection molding machine
Feed pipe (2) are interspersed on the side body wall of structure (1), wherein
The inflator pump (3) is fixed on the upper surface of the injecting mechanism (1), the inflator pump (3) close to injecting mechanism (1)
One end is connected with air inlet pipe (4) and one end is connected with injecting mechanism (1), and the moulding mechanism (5) is mounted on the injecting mechanism
(1) side, moulding mechanism (5) side far from injecting mechanism (1) are equipped with cooling body (6), the cooling body (6)
Demoulding mechanism (7) is installed between moulding mechanism (5) and is established in the injecting mechanism (1) side.
2. a kind of bioengineering according to claim 1 gene culture dish processing cooling and demolding device, feature exist
In: the injecting mechanism (1) includes storage compartment (11), servo motor (12), screw rod (13), angular wheel (14), pushing plate
(15), plugging block (16), telescopic rod (17) and spring (18), the storage compartment (11) are mounted on the inflator pump (3) lower surface,
The storage compartment (11) upper surface close to inflator pump (3) is equipped with servo motor (12), and described servo motor (12) one end connects
It is connected to screw rod (13) and is mounted on the storage compartment (11) inside, the angular wheel (14) is fixed on the outside of screw rod (13), far
The angular wheel (14) one end from servo motor (12) is connected with pushing plate (15), the storage close to pushing plate (15)
It is equipped with plugging block (16) inside storehouse (11), described plugging block (16) one end is equipped with telescopic rod (17), and the spring (18) is solid
It is internal to be scheduled on telescopic rod (17).
3. a kind of bioengineering according to claim 1 gene culture dish processing cooling and demolding device, feature exist
In: the moulding mechanism (5) includes hydraulic telescopic rod (51), injection molding plates (52), connecting plate (53), drain pipe (54), separating tube
(55), grinding tool block (56), built-in slot (57) and electric telescopic rod (58), the hydraulic telescopic rod (51) are fixed on the storage compartment
(11) on the body wall of side, the hydraulic telescopic rod (51) one end close to storage compartment (11) is connected with injection molding plates (52), the note
Mould plate (52) side is equipped with connecting plate (53) and is socketed in the storage compartment (11) body wall, and the drain pipe (54) is inlayed
In the injection molding plates (52), the drain pipe (54) side close to storage compartment (11) is equipped with separating tube (55), the mill
Tool block (56) is fixed on the body wall of the injection molding plates (52) side, is offered in the grinding tool block (56) of separating tube (55)
Built-in slot (57), the electric telescopic rod (58) are mounted on grinding tool block (56) side.
4. a kind of bioengineering according to claim 1 gene culture dish processing cooling and demolding device, feature exist
In: the cooling body (6) includes placing box (61), grinding tool slot (62), water cooling tube (63), water tank (64), water pump (65), water cooling
Block (66) and heat exchanger (67), the placing box (61) are mounted on injection molding plates (52) side, and described close to injection molding plates (52) is put
It sets in the body wall of case (61) side and offers grinding tool slot (62), be wound with water cooling tube (63) on the outside of the grinding tool slot (62), far from mill
It is equipped with water tank (64) inside the placing box (61) for having slot (62), water tank (64) side is equipped with water pump (65), institute
It states water-cooled block (66) and is fixed on the water pump (65) side, the heat exchanger (67) is mounted on the water-cooled block (66) side.
5. a kind of bioengineering according to claim 1 gene culture dish processing cooling and demolding device, feature exist
In: the demoulding mechanism (7) includes motor (71), interlocking lever (72), interlock plate (73), adsorption tank (74), aspirating hole (75), takes out
Tracheae (76), integrated pipeline (77) and air exhauster (78), the motor (71) is mounted on the storage compartment (11) side, close to deposit
The motor (71) one end for putting storehouse (11) is fixed with interlocking lever (72), and described interlocking lever (72) one end is equipped with interlock plate
(73), the adsorption tank (74) is provided with the interlock plate (73) inside, and the aspirating hole (75) is wrapped in the adsorption tank
(74) it on the outside of and is mounted in the interlock plate (73), the aspirating hole (75) one end close to adsorption tank (74) is connected with pumping
Tracheae (76), described exhaust tube (76) one end are connected with integrated pipeline (77), and the air exhauster (78) is mounted on the motor
(71) upper surface.
6. a kind of bioengineering according to claim 2 gene culture dish processing cooling and demolding device, feature exist
In: piston is constituted between the storage compartment (11) and pushing plate (15) and is connect, and the maximum actuating length of pushing plate (15) does not surpass
Cross the length of screw rod (13).
7. a kind of bioengineering according to claim 2 gene culture dish processing cooling and demolding device, feature exist
In: the cross section of the plugging block (16) is set as trapezoidal, and constitutes stretching structure between plugging block (16) and telescopic rod (17),
And the maximal dilation distance of plugging block (16) is no more than the length of telescopic rod (17) itself telescopic arm.
8. a kind of bioengineering according to claim 2 or 3 gene culture dish processing cooling and demolding device, feature
Be: being all stretching structure between the hydraulic telescopic rod (51) and injection molding plates (52), and the distance of stretch out and draw back of injection molding plates (52) with
The collapsing length of injection molding plates (52) is identical, and injection molding plates (52) and the maximal dilation of injection molding plates (52) distance no more than connect
The length of plate (53).
9. a kind of bioengineering according to claim 3 gene culture dish processing cooling and demolding device, feature exist
In: quantity set by the separating tube (55) is identical as quantity set by grinding tool block (56), and separating tube (55) and built-in slot (57) it
Between constitute and be connected together, and be dismantling connection between separating tube (55) and built-in slot (57).
10. a kind of bioengineering according to claim 5 gene culture dish processing cooling and demolding device, feature exist
In: there are four interlock plate (73) settings, and four interlock plates (73) are midpoint etc. respectively about the central axes of motor (71)
Rang ring is around being mounted on motor (71) side.
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