CN116080014B - Cooling shedder that culture dish processing of moulding plastics was used - Google Patents

Abstract

The invention discloses a cooling demoulding device for injection molding of a culture dish, which specifically comprises the following components: the cooling and demolding device comprises a base, wherein the top of the base is fixedly connected with upright rods, the upright rods are positioned at four corners of the base, the top ends of the upright rods are fixedly connected with a flat plate, an injection molding device is movably installed in the center of the top of the flat plate, a demolding mechanism is fixedly connected in the middle of the top of the base, and a speed increasing device is movably installed in the middle of the top of the demolding mechanism. This cooling shedder that culture dish injection molding was used, through wiping the strip and then the displacement, first slider is along the down motion in the middle rod outside, and two fixed wiping strip shape adhesion of second slider to make upper member self have the effect of reinforcement, produce when preventing the displacement and rock or the influence of resilience force and appear the error, thereby make equipment have the function of automatic reinforcement drawing of patterns displacement force, promote the accurate effect of drawing of patterns, realize the treatment effect of more steady drawing of patterns.

Description

Cooling shedder that culture dish processing of moulding plastics was used

Technical Field

The invention relates to the technical field of cooling demolding, in particular to a cooling demolding device for injection molding of a culture dish.

Background

The culture dish is a laboratory vessel for culturing microorganisms or cells, and consists of a planar disc-shaped bottom and a cover, and is generally made of glass or plastic, wherein the materials of the culture dish are basically divided into two types, mainly plastic and glass, the glass can be used for plant materials, microorganism culture and animal cell wall-attached culture, the culture dish is produced and processed without a die, and the die is mainly used for various dies and tools for injection molding, blow molding, extrusion, die casting or forging, smelting, stamping and other methods to obtain required products in industrial production.

According to CN114536681A3 of Chinese patent publication, a cooling demoulding device for plastic box production comprises a device main body, a supporting rod is fixedly arranged on the front surface of the device main body, a fixing plate is fixedly connected to the top of the supporting rod, a demoulding frame is arranged on the top of the device main body, and a demoulding plate is connected to the bottom of the demoulding frame in a sliding manner.

In summary, the above-mentioned prior art has the disadvantage that the cooling can be performed rapidly by the cooling baffle, but the steps are complicated, and the cooling effect is often affected due to the excessive and complicated mechanism in the use process, so that there is still room for improvement.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the technical problems by adopting the following technical scheme:

a cooling demoulding device for injection molding of a culture dish specifically comprises:

the device comprises a base, wherein the top of the base is fixedly connected with upright rods, the upright rods are positioned at four corners of the base, the top of the upright rods is fixedly connected with a flat plate, an injection molding device is movably arranged in the center of the top of the flat plate, the device has the function of automatically and quickly demolding through the arrangement of the injection molding device, the convenience of processing and use is improved, the function of quickly demolding is realized, the redundant and complicated operation steps are removed, the injection molding device penetrates through the inner cavity of the flat plate, a demolding mechanism is fixedly connected in the middle of the top of the base, the high temperature generated by demolding is removed through the arrangement of the demolding mechanism, the effect of cooling treatment is improved, the damage caused by overhigh temperature is prevented, and a speed-increasing device is movably arranged in the middle of the top of the demolding mechanism;

the demoulding mechanism comprises:

the device comprises a blending device, wherein an inner layer cylinder is fixedly arranged in the middle of the bottom of the blending device, the accurate demolding effect is improved through the arrangement of the blending device, the processing effect of more stable demolding is achieved, a plurality of main cylinders are fixedly arranged at the bottom of the blending device and located on the outer side of the inner layer cylinder, a thin shaft is fixedly arranged at the bottom of the main cylinders, a refrigerating part is movably arranged at the bottom end of the thin shaft, a pushing block is movably arranged on the inner surface of the inner layer cylinder, the pushing block is close to the left side, a speed-raising device is used for linking a coil layer to displace, the pressing bar moves along with the pushing block, a coil layer is movably arranged on the outer surface of the pushing block, the bottom of the coil layer is fixedly connected with the pressing bar, a plate is movably connected to the left side of the pressing bar, and a mounting seat is fixedly connected in the middle of the top of the base.

Further, circle layer and ejector pad surface swing joint, circle layer and ejector pad's central line is on same straight line, the ejector pad itself has irregular texture, the ejector pad is cylinder shape structural design, the cylinder shape structural design of upper and lower through-hole is personally submitted to the inlayer section of thick bamboo, the contained angle between allotment device and the main section of thick bamboo is ninety degrees designs, the inlayer section of thick bamboo is located allotment device's inner chamber department, allotment device still includes upper layer spare, and upper layer spare extrusion auxiliary moves, and one side of auxiliary spare takes place to incline, and the balancing piece moves thereupon, upper layer spare right side fixedly connected with first slider, sliding connection has well pole strip between first slider and the upper layer spare, first slider bottom fixedly connected with wipes the strip, well pole strip bottom right side sliding connection has the second slider, well pole strip is located the right side of upper layer spare, equal fixed mounting has the strip between first slider and the second slider, well pole strip corresponds with the notch on first slider and the second slider.

Further, accelerating device includes the external member, external member outside fixedly connected with splicing block, external member inner chamber department movable mounting has the utricule, movable mounting has the inner panel in the middle of the external member inner wall, sliding connection has the platform of placing in the middle of the inner panel, places the platform and peg graft to inlayer section of thick bamboo inner wall, takes off the piece and forms the trend that contacts with placing the platform, takes off one side that the piece bottom is close to the ring layer and is extruded, place the platform and be cylindrical structural design, the fixed cell body of having seted up evenly distributed of external member inside wall, the coating has the viscose between splicing block and the external member.

Further, the injection molding device comprises a disc, a center shaft is fixedly connected to the bottom end of the disc, a block is movably arranged at the bottom of the center shaft, a pressing piece is fixedly connected to the bottom of the center shaft, the pressing piece gradually moves downwards along the outer surface of the vertical rod, a fixing seat is impacted on the place of the pressing piece, a fixing seat is fixedly arranged in the middle of the bottom of the pressing piece, a groove corresponding to the outer surface of the center shaft is formed in the block, the fixing seat is connected with the block through the pressing piece, the disc is connected with the pressing piece through the center shaft, and the block form a vertical effect.

The invention provides a cooling demolding device for injection molding of a culture dish. The beneficial effects are as follows:

1. this cooling shedder that culture dish processing of moulding plastics was used promotes the axis through the disc and moves, and the axis moves under the spacing effect of block, and the casting die is in line with the texture looks adaptation of pole setting surface, and first slider is corresponding with the texture on the pole strip in, and evenly distributed's cell body has been seted up to the external member inner wall to make equipment have the basic condition of automatically cooling drawing of patterns, provide the bedding for subsequent processing.

2. This cooling shedder that culture dish processing of moulding plastics was used consolidates the fixed performance between casting die and the block through the fixing base, and the casting die moves down gradually along the pole setting surface, and fixing base striking is placed a department, and the module of placing the inside place of platform is bumped gradually, and the module of placing the platform is bumped and takes place to shake, and the module of placing the platform drops gradually to make equipment have the effect of automatic quick drawing of patterns, promote the convenience of processing use, realize the function of quick drawing of patterns, get rid of unnecessary loaded down with trivial details operating procedure.

3. This cooling shedder that culture dish processing of moulding plastics was used receives the influence of upper member through the main section of thick bamboo and down displaces gradually, produces stronger wind-force when main section of thick bamboo displacement, receives wind-force influence and rotation when refrigerating member displacement, and the inside circulation of air is accelerated in refrigerating member rotation, and the inside wind-force velocity of flow of equipment increases gradually, makes the high temperature that the drawing of patterns produced clear away through quick forced air cooling effect, promotes the effect of cooling treatment, prevents that the temperature is too high and damage.

4. This cooling shedder that culture dish processing of moulding plastics was used, form through taking off the piece and place the trend that the platform contacted, take off one side that the piece bottom is close to the ring layer and be extruded, take off the piece top and draw close down Fang Pianxie, take off the piece and promote the bottom, take off the piece and prevent that the bottom from appearing rocking, take off under the influence of piece top decurrent skew, the ejector pad can produce to left side and be close to, the displacement takes place for the device linkage ring layer of accelerating, the layering moves thereupon, the plate stirs up gradually, the plate is pegged graft to ejector pad notch department, and then make equipment have the effect of automatic acceleration drawing of patterns, realize the auxiliary objective of quick drawing of patterns processing operation.

5. This cooling shedder that culture dish injection molding was used, through wiping the strip and displace thereupon, first slider is along the outside down motion in well pole strip, wipe the strip and be close to towards the direction of second slider, two fixed strips of wiping of second slider form adhesion, thereby make upper member self have the effect of reinforcement, produce when preventing the displacement and rock or the influence of resilience force and appear the error, thereby make equipment have the function of automatic reinforcement drawing of patterns displacement force, promote the accurate effect of drawing of patterns, realize the treatment effect of more steady drawing of patterns.

6. This cooling shedder that culture dish injection molding was used forms the displacement through the member at upper member middle part, and upper member extrusion auxiliary member moves, and one side of auxiliary member takes place the skew, and the balancing piece moves thereupon, and two places are altogether shared to the balancing piece, and the opposite side that the balancing piece corresponds forms ascending striking gradually, and the balancing piece accelerates the effect that drops of shake mould, promotes the speed of drawing of patterns, promotes work effect, reduces the loaded down with trivial details step of people's operation.

Drawings

FIG. 1 is a schematic perspective view of the whole structure of the present invention;

FIG. 2 is a schematic perspective view of a plate according to the present invention;

FIG. 3 is a schematic perspective view of the disk of the present invention;

FIG. 4 is a schematic perspective view of the inner layer cartridge of the present invention;

FIG. 5 is a schematic perspective view of a push block according to the present invention;

FIG. 6 is a schematic perspective view of the structure of the hoop layer of the present invention;

FIG. 7 is a schematic perspective view of a first slider of the present invention;

FIG. 8 is a schematic perspective view of a balance weight according to the present invention;

FIG. 9 is a schematic perspective view of the upper member of the present invention;

FIG. 10 is a schematic perspective view of the bladder of the present invention;

fig. 11 is a schematic perspective view of the structure of the joint block of the present invention.

In the figure: 1. a base; 2. a vertical rod; 3. a flat plate; 4. an injection molding device; 5. a demoulding mechanism; 6. a speed increasing device; 41. a disc; 42. a center shaft; 43. a block; 44. a pressing piece; 45. a fixing seat; 50. a mounting base; 51. a blending device; 52. an inner layer cylinder; 53. a main barrel; 54. a thin shaft; 55. a refrigerating member; 56. a pushing block; 57. a ring layer; 58. pressing strips; 59. a plate member; 500. removing blocks; 511. an upper member; 512. a first slider; 513. a wiping strip; 514. a second slider; 515. a middle bar; 516. a support post; 517. an auxiliary member; 518. a balance weight; 61. a kit; 62. connecting blocks; 63. a bladder; 64. an inner plate; 65. placing a table.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Example 1

Referring to fig. 1-3, the present invention provides a technical solution: a cooling demoulding device for injection molding of a culture dish specifically comprises:

the device comprises a base 1, wherein the top of the base 1 is fixedly connected with upright rods 2, the upright rods 2 are positioned at four corners of the base 1, the top ends of the upright rods 2 are fixedly connected with a flat plate 3, an injection molding device 4 is movably arranged in the center of the top of the flat plate 3, and the injection molding device 4 is arranged, so that the device has the function of automatically and rapidly demolding, the convenience of processing and use is improved, the function of rapidly demolding is realized, and redundant and complicated operation steps are removed;

the injection molding device 4 comprises a disc 41, a central shaft 42 is fixedly connected to the bottom end of the disc 41, a block 43 is movably mounted at the bottom of the central shaft 42, a pressing piece 44 is fixedly connected to the bottom of the central shaft 42, the pressing piece 44 gradually moves downwards along the outer surface of the vertical rod 2, a fixing seat 45 is impacted on a place 65, a fixing seat 45 is fixedly mounted in the middle of the bottom of the pressing piece 44, a groove corresponding to the outer surface of the central shaft 42 is formed in the block 43, the fixing seat 45 is connected with the block 43 through the pressing piece 44, the disc 41 is connected with the pressing piece 44 through the central shaft 42, and the block 43 form a vertical effect.

When the device is used, firstly, the mounting and the safety protection are checked, the disc 41 is pressed downwards by electrifying to move, the disc 41 pushes the center shaft 42 to move, the center shaft 42 moves under the limit action of the block 43, the pressing piece 44 is matched with the texture of the outer surface of the vertical rod 2, the first sliding piece 512 corresponds to the texture on the middle rod 515, and the inner wall of the sleeve piece 61 is provided with uniformly distributed groove bodies, so that the device has the basic condition of automatic cooling and demoulding, and a bedding is provided for subsequent processing.

When demolding is needed, the middle shaft 42 pushes the pressing piece 44 to move, the middle shaft 42 generates downward pushing force on the pressing piece 44, the fixing seat 45 moves along with the pressing piece 44, the fixing seat 45 reinforces the fixing performance between the pressing piece 44 and the block 43, the pressing piece 44 gradually moves downward along the outer surface of the vertical rod 2, the fixing seat 45 impacts the placing table 65, a module placed in the placing table 65 is gradually impacted, the module placed in the placing table 65 is impacted to shake, and the module placed in the placing table 65 gradually drops, so that the equipment has the function of automatic rapid demolding, the convenience of processing and use is improved, the rapid demolding function is realized, and redundant and complicated operation steps are removed.

When the cooling treatment is needed, the disc 41 pushes the center shaft 42 downwards to run, the pressing piece 44 synchronously runs, the pressing piece 44 presses the upper layer piece 511 downwards to run, the main cylinder 53 is influenced by the upper layer piece 511 to gradually displace downwards, stronger wind force is generated when the main cylinder 53 displaces, the refrigerating piece 55 is influenced by the wind force to rotate when the refrigerating piece 55 displaces, the rotation of the refrigerating piece 55 accelerates the internal air circulation, the wind force flow rate in the equipment gradually increases, the high temperature generated by demoulding is removed through the rapid air cooling effect, the effect of the cooling treatment is improved, and damage caused by overhigh temperature is prevented.

Example 2

Referring to fig. 1, 2 and 4-9, the present invention provides a technical solution: the injection molding device 4 penetrates through the inner cavity of the flat plate 3, the demolding mechanism 5 is fixedly connected in the middle of the top of the base 1, high temperature generated by demolding is removed through rapid air cooling effect through the setting of the demolding mechanism 5, the effect of cooling treatment is improved, and damage caused by overhigh temperature is prevented;

when the demolding is performed, the shaking condition is often generated, and sometimes even shaking can occur to cause upward rebound, so that the demolding precision is easy to influence, when the demolding is required to be performed stably, the upper piece 511 moves downwards, the first slider 512 is gradually influenced by the upper piece 511 to move downwards, the wiping strip 513 moves along with the displacement, the first slider 512 moves downwards along the outer side of the middle rod strip 515, the wiping strip 513 approaches to the direction of the second slider 514, two wiping strips 513 fixed by the second slider 514 are adhered to each other, the upper piece 511 has a reinforcing effect, the shaking or the influence of the rebound force is prevented from occurring to cause errors when the displacement is performed, the equipment has the function of automatically reinforcing the demolding displacement force, the precise demolding effect is improved, and the processing effect of more stable demolding is realized.

When the demolding efficiency is required to be improved, when the spring at the bottom of the upper layer piece 511 is compressed, the rod piece in the middle of the upper layer piece 511 is displaced, the upper layer piece 511 extrudes the auxiliary piece 517 to move, one side of the auxiliary piece 517 deflects, the balance weight 518 moves along with the auxiliary piece, the balance weight 518 has two parts, the corresponding other side of the balance weight 518 gradually forms upward impact, the balance weight 518 accelerates the falling-off effect of the shaking mold, the demolding speed is improved, the working effect is improved, and the complicated steps of people operation are reduced.

When the culture dish needs to be subjected to accelerated demolding treatment, the inner layer cylinder 52 moves downwards, the push block 56 moves along with the push block, the demolding block 500 moves downwards, the placing table 65 is inserted into the inner wall of the inner layer cylinder 52, the demolding block 500 forms a trend of contacting with the placing table 65, one side, close to the ring layer 57, of the bottom of the demolding block 500 is extruded, the upper part of the demolding block 500 is closed to Fang Pianxie, the demolding block 500 pushes the bottom, the demolding block 500 prevents the bottom from shaking, under the influence of downward deflection above the demolding block 500, the push block 56 can be close to the left side, the moving coil layer 57 of the accelerating device 6 moves, the pressing bar 58 moves along with the moving coil layer, the plate 59 is gradually moved upwards, the plate 59 is inserted into the notch of the push block 56, and therefore the device has the function of automatically accelerating demolding, and the auxiliary purpose of rapid demolding treatment operation is achieved.

Example 3

Referring to fig. 1 to 11, the present invention provides a technical solution: on the basis of the first embodiment of the present invention,

a speed increasing device 6 is movably arranged in the middle of the top of the demoulding mechanism 5;

the demolding mechanism 5 includes:

the device comprises a blending device 51, an inner layer cylinder 52 is fixedly arranged in the middle of the bottom of the blending device 51, the precise demolding effect is improved through the arrangement of the blending device 51, the treatment effect of more stable demolding is achieved, a plurality of main cylinders 53 are fixedly arranged at the bottom of the blending device 51, the main cylinders 53 are located on the outer side of the inner layer cylinder 52, a thin shaft 54 is fixedly arranged at the bottom of the main cylinders 53, a refrigerating part 55 is movably arranged at the bottom end of the thin shaft 54, a pushing block 56 is movably arranged on the inner surface of the inner layer cylinder 52, the pushing block 56 is close to the left side, a coil layer 57 is moved along with the pushing block 56, a stripping block 500 is movably connected to one side, away from the inner layer cylinder 52, of the pushing block 56, a coil layer 57 is movably arranged on the outer surface of the pushing block 56, a pressing bar 58 is fixedly connected to the bottom of the coil layer 57, a plate 59 is movably connected to the left side of the pressing bar 58, and a mounting seat 50 is fixedly connected to the middle of the top of a base 1.

The ring layer 57 is movably connected with the outer surface of the push block 56, the center lines of the ring layer 57 and the push block 56 are on the same straight line, the stripping block 500 is provided with irregular textures, the push block 56 is of a cylindrical structural design, the inner layer barrel 52 is of a cylindrical structural design with upper and lower through holes, an included angle between the blending device 51 and the main barrel 53 is ninety degrees, the inner layer barrel 52 is positioned at the inner cavity of the blending device 51, the blending device 51 further comprises an upper layer piece 511, the upper layer piece 511 extrudes an auxiliary piece 517 to move, one side of the auxiliary piece 517 deflects, a balance block 518 moves along with the upper layer piece 511, a first sliding piece 512 is fixedly connected to the right side of the upper layer piece 511, a middle rod 515 is slidably connected between the first sliding piece 512 and the upper layer piece 511, a wiping rod 513 is fixedly connected to the bottom of the first sliding piece 512, a second sliding piece 514 is slidably connected to the bottom of the middle rod 515, the middle rod 515 is positioned on the right side of the upper layer piece 511, the wiping rod 513 is fixedly arranged between the first sliding piece 512 and the second sliding piece 514, the middle rod 515 is fixedly arranged on the right side of the first sliding piece 512 and the second sliding piece 514, the auxiliary piece 516 is fixedly arranged on the top of the auxiliary piece 516, and the auxiliary support piece 516 is fixedly arranged on the top of the auxiliary piece 516.

The accelerating device 6 comprises a sleeve 61, a connecting block 62 is fixedly connected to the outer side of the sleeve 61, a bag 63 is movably mounted at the inner cavity of the sleeve 61, an inner plate 64 is movably mounted in the middle of the inner wall of the sleeve 61, a placing table 65 is slidably connected in the middle of the inner plate 64, the placing table 65 is inserted into the inner wall of the inner layer cylinder 52, a stripping block 500 forms a trend of contacting with the placing table 65, one side, close to the ring layer 57, of the bottom of the stripping block 500 is extruded, the placing table 65 is of a cylindrical structural design, a groove body which is uniformly distributed is fixedly formed in the inner wall of the sleeve 61, and viscose is coated between the connecting block 62 and the sleeve 61.

When the device is used, firstly, the mounting and the safety protection are checked, the disc 41 is pressed downwards by electrifying to move, the disc 41 pushes the center shaft 42 to move, the center shaft 42 moves under the limit action of the block 43, the pressing piece 44 is matched with the texture of the outer surface of the vertical rod 2, the first sliding piece 512 corresponds to the texture on the middle rod 515, and the inner wall of the sleeve piece 61 is provided with uniformly distributed groove bodies, so that the device has the basic condition of automatic cooling and demoulding, and a bedding is provided for subsequent processing.

When the temperature around the upper part 511 is higher after demolding, the workpiece after demolding always needs to stand for a longer time to be contacted, the delay time is more, when the upper part 511 moves downwards, the upper part 511 extrudes the spring part at the bottom, the spring part is in an irregular shape, the upper part 511 extrudes the spring to enable the spring to be in a compressed shape, the spring on the upper part 511 moves downwards to be in contact with the bag body 63, the bag body 63 internally contains aqueous solution, the bag body 63 gradually changes from a saturated shape into a shrunken shape, the aqueous solution in the bag body 63 flows to the upper part of the inner plate 64 through the notch of the inner wall, so that the internal demolding temperature is reduced, the water cooling effect is ensured, and the waiting time after demolding is reduced.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (7)

1. A cooling demoulding device for injection molding of a culture dish specifically comprises:

base (1), base (1) top fixedly connected with pole setting (2), pole setting (2) are located four corners departments of base (1), pole setting (2) top fixedly connected with flat board (3), flat board (3) top center department movable mounting has injection molding device (4), injection molding device (4) run through the inner chamber setting of flat board (3), fixedly connected with demoulding mechanism (5) in the middle of base (1) top, movable mounting has speed increaser (6) in the middle of demoulding mechanism (5) top, its characterized in that:

the demolding mechanism (5) comprises:

the device comprises a blending device (51), wherein an inner layer cylinder (52) is fixedly arranged in the middle of the bottom of the blending device (51), a plurality of main cylinders (53) are fixedly arranged at the bottom of the blending device (51), the main cylinders (53) are positioned at the outer sides of the inner layer cylinder (52), a thin shaft (54) is fixedly arranged at the bottom of the main cylinders (53), a refrigerating part (55) is movably arranged at the bottom end of the thin shaft (54), a pushing block (56) is movably arranged on the inner surface of the inner layer cylinder (52), a stripping block (500) is movably connected to one side, far away from the inner layer cylinder (52), of the pushing block (56), a ring layer (57) is movably arranged on the outer surface of the pushing block (56), a pressing strip (58) is fixedly connected to the bottom of the ring layer (57), a plate (59) is movably connected to the left side of the pressing strip (58), and a mounting seat (50) is fixedly connected to the middle of the top of the base (1).

The blending device (51) further comprises an upper layer part (511), a first sliding part (512) is fixedly connected to the right side of the upper layer part (511), the upper layer part (511) moves downwards, the first sliding part (512) is gradually influenced by the upper layer part (511) to move downwards, the first sliding part (512) moves downwards along the outer side of the middle rod (515) along with the displacement of the first sliding part (513), the second sliding part (514) approaches to the second sliding part (514), the two sliding parts (513) fixedly adhere to each other in shape, so that the upper layer part (511) has a reinforcing effect, the middle rod (515) is connected between the first sliding part (512) and the upper layer part (511) in a sliding manner, the bottom of the first sliding part (512) is fixedly connected with the sliding part (513), the bottom of the middle rod (515) is fixedly connected with a second sliding part (514) in a sliding manner, a support column (516) is fixedly installed in the installation seat (50), and the top part (516) is movably connected with an auxiliary balancing block (517);

the accelerating device (6) comprises a sleeve (61), a connecting block (62) is fixedly connected to the outer side of the sleeve (61), a bag body (63) is movably mounted at the inner cavity of the sleeve (61), an inner plate (64) is movably mounted in the middle of the inner wall of the sleeve (61), and a placing table (65) is slidably connected in the middle of the inner plate (64).

2. The cooling and demolding device for injection molding of culture dishes according to claim 1, wherein: the ring layer (57) is movably connected with the outer surface of the pushing block (56), the center lines of the ring layer (57) and the pushing block (56) are on the same straight line, the stripping block (500) is provided with irregular textures, and the pushing block (56) is in a cylindrical structural design.

3. The cooling and demolding device for injection molding of culture dishes according to claim 1, wherein: the inner layer cylinder (52) is of a cylindrical structural design with upper and lower through holes, an included angle between the blending device (51) and the main cylinder (53) is of ninety degrees, and the inner layer cylinder (52) is located at an inner cavity of the blending device (51).

4. The cooling and demolding device for injection molding of culture dishes according to claim 1, wherein: the middle rod bar (515) is positioned on the right side of the upper layer piece (511), the wiping bars (513) are fixedly arranged between the first sliding piece (512) and the second sliding piece (514), and the middle rod bar (515) corresponds to the notch on the first sliding piece (512) and the notch on the second sliding piece (514).

5. The cooling and demolding device for injection molding of culture dishes according to claim 1, wherein: the placing table (65) is of a cylindrical structural design, the inner side wall of the sleeve (61) is fixedly provided with uniformly distributed groove bodies, and viscose is coated between the connecting block (62) and the sleeve (61).

6. The cooling and demolding device for injection molding of culture dishes according to claim 1, wherein: the injection molding device (4) comprises a disc (41), a middle shaft (42) is fixedly connected to the bottom end of the disc (41), a block (43) is movably mounted at the bottom of the middle shaft (42), a pressing piece (44) is fixedly connected to the bottom of the middle shaft (42), and a fixing seat (45) is fixedly mounted in the middle of the bottom of the pressing piece (44).

7. The cooling and demolding device for injection molding of culture dishes according to claim 6, wherein: the inside cell body that corresponds with axis (42) is seted up of block (43), fixing base (45) are connected with block (43) through casting die (44), disc (41) are connected with casting die (44) through axis (42), block (43) and block (43) form the perpendicular effect.