CN109179287B - Device for opening cover of cryopreserved pipe in batches - Google Patents

Abstract

The invention discloses a batch cover opening device for freezing pipes, which structurally comprises a control machine table, a cover opening device, a support column, a freezing pipe storage tray, a base and an embedding hole, the lower end surface of the control machine platform is welded with the lower end surface of the support column, the cover opening device is positioned right above the freezing storage tube storage tray, the lower end surface of the supporting column is welded with the upper end surface of the base, the freezing storage tube storage disc is arranged on the base in an embedded mode, the embedding hole and the freezing storage tube storage disc are of an integrated structure, the freezing storage tube storage disc is positioned under the control machine table, the bottle cap is repeatedly extruded through the bottle cap compression mechanism, so that when the bottle cap is stored, gaps generated when the bottle cap is stored can be effectively reduced, and the storage space of the bottle cap is reduced, so that a worker does not need to frequently open equipment to recycle the bottle cap.

Description

Device for opening cover of cryopreserved pipe in batches

Technical Field

The invention relates to the field of cover opening devices, in particular to a batch cover opening device for freezing storage tubes.

Background

The device of uncapping of freezing pipe is also called freezing pipe bottle-opener, and its theory of operation: through on the anchor clamps of depositing with the cryopreserved pipe installation in batches and cryopreserved pipe, carry out fixed mounting, place and the below of uncapping the device, mechanism of uncapping through switching device starts, descend, carry out interference fit with the cryopreserved pipe lid, make uncapping mechanism screw thread rotatory, with the pipe lid perk, adsorb the pipe lid and demolish, prior art is carrying out the in-process of perk recovery to the cryopreserved pipe lid, its pipe lid is at the in-process to the storage tank of retrieving, owing to adopt irregular stacking mode, lead to the pipe lid to stack between easily produce the clearance that needs to right, greatly increased the required space when the pipe lid deposits, cause the staff to need frequent pipe lid to handle, influence the job schedule.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the device for opening the cover of the freezing storage tubes in batches structurally comprises a control machine table, a cover opening device, a support column, a freezing storage tube storage disc, a base and an embedding hole, wherein the rear end face of the bottom of the control machine table is welded with the top end of the support column, the bottom end of the support column is embedded and installed in the rear end face of the top of the base, the bottom end of the freezing storage tube storage disc is welded with the front end of the top of the base and is positioned right below the cover opening device, and the embedding hole and the freezing storage tube storage disc are of an integrated structure; the cover opening device comprises a storage tank power trigger mechanism, a hydraulic pushing mechanism, a storage tank power mechanism, a storage tank connecting mechanism, a bottle cap compression mechanism, a hydraulic stop mechanism and a cover opening mechanism, and a shell, wherein the storage tank power trigger mechanism is welded with the upper left end inside the shell, the hydraulic pushing mechanism is welded with the upper end surface of the middle part of the shell and is positioned right above the bottle cap compression mechanism, the top end of the storage tank connecting mechanism is mechanically connected with the tail end of the storage tank power mechanism, the hydraulic stop mechanism is welded with the lower left end inside the shell and is positioned right below the storage tank power trigger mechanism, and the upper right end of the cover opening mechanism is connected with the hydraulic pushing mechanism in a matched mode and is positioned at the left side of the bottle cap compression mechanism.

As a further optimization of this technical scheme, storage tank power trigger mechanism includes signalling module, contact, sticks up pole, axis of rotation, slide rail, spacing spring, spacing ball, removal valve piece, push pedal, signalling module is located the contact directly over and is connected rather than the electricity, stick up the pole and locate the contact below and be the V type structure, stick up pole one end and contact activity touching, the other end is equipped with spacing ball and the two structure that is the body, stick up the pole and run through the activity by the axis of rotation in the middle of the centre and fix on the slide rail, the right-hand member of contact is kept away from to the slide rail, spacing spring end is fixed with the removal valve piece, be equipped with the push pedal under the removal valve piece and the two laminates mutually, spacing ball still touches with the mechanism activity of uncapping.

As a further optimization of this technical scheme, hydraulic pressure push mechanism includes hydraulic oil storage tank, stand pipe, one-way plate fixed block, coupling spring, the pump body, imbibition sealed piece, pump body controller, defeated liquid piece, one-way plate, the upper right end of hydraulic oil storage tank and shell welds mutually, the left end face at the hydraulic oil storage tank inside is installed in the stand pipe embedding, coupling spring's one end and one-way plate fixed block weld mutually, and the other end is located on the one-way plate and the inside that the stand pipe was all located to the three, the one end and the stand pipe of imbibition sealed piece weld mutually, and both as an organic whole structures on the pump body are located to the other end, pump body controller and pump body structure as an organic whole, defeated liquid piece adopts the mode of electric welding to weld in the left end.

As a further optimization of the technical scheme, the power mechanism of the storage tank comprises a gear, a rack rod, a hinge bracket push rod, a slide rod connecting sleeve, an air pump sealing sleeve, an air pump tank, a barometer, an air pump, an air pipe, a connecting rod, a slide rod, a power rod and a slide rod connecting block, wherein the gear is arranged below the rack rod and is meshed with the rack rod and the air pump sealing sleeve, the rack rod is horizontally embedded into the left end surface of the air pump sealing sleeve, the hinge bracket push rod is vertically embedded into the slide rod connecting sleeve, the air pump sealing sleeve is arranged on the left end surface of the air pump tank and is of an integrated structure, the air pump tank is welded with the right middle part inside the shell, the barometer is embedded into the air pump, one side joint of the air pipe is welded with the air pump and the other side joint is welded with the bottom end of the air pump tank, one end of the connecting rod is, and the bottom end of the hinge bracket push rod is mechanically connected with the top end of the storage tank connecting mechanism.

As a further optimization of the technical scheme, the storage tank connecting mechanism comprises a hinge bracket sliding block, a sliding square block, a pushing hinge bracket, a straight rod, a buffering valve block, a sliding plate, a rotating expansion piece, a telescopic rod and a storage tank, wherein the hinge bracket sliding block is positioned at the right lower end of the shell and is embedded in the top end of the sliding square block, the pushing hinge bracket is arranged on two sides of the straight rod and is connected with the straight rod through a hinge, the bottom end of the straight rod is arranged at the middle part of the buffering valve block and is connected with the sliding plate through a hinge, the sliding plate is welded with the bottom end of the middle part of the shell and is connected with the bottom point of the storage tank, the rotating expansion piece is connected with the pushing hinge bracket hinge, one end of the telescopic rod is horizontally embedded into the rotating expansion piece, the other end of the telescopic rod is.

As a further optimization of this technical scheme, bottle lid compression mechanism includes spacing slide rail, rotation axis, motor, power shifting block, power piece, compression board, buffer board, shock insulation board, sliding connection pole, spacing slide rail is located the both sides of motor, the rotation axis embedding is installed on the motor, power shifting block and rotation axis structure as an organic whole to the pointed end is equipped with the power piece, the top of compression board welds mutually with the bottom of buffer board, the top of buffer board welds mutually with the bottom of shock insulation board, and the shock insulation board top is equipped with sliding connection pole both as an organic whole structure.

As a further optimization of this technical scheme, hydraulic pressure stop gear includes protecting crust, button, trigger plate, drawing liquid pump control module, return spring, the protecting crust welds mutually with the left lower extreme of shell, the button imbeds perpendicularly at the up end of protecting crust and the bottom welds mutually with return spring, the bottom that triggers the plate welds mutually with the top of drawing liquid pump control module, return spring's bottom welds mutually with the top that triggers the plate.

As a further optimization of the technical scheme, the uncovering mechanism comprises a pusher, a propelling block, a pushing plate slide rail, a limiting slide block, a limiting block and an uncovering device, the pusher is located right above the propelling block, the pushing plate slide rail is embedded into the left end face of the propelling block, the limiting block is arranged on the upper side and the lower side of the left end face of the propelling block, the limiting block is welded with the propelling block, and the uncovering device and the propelling block are of an integrated structure.

Advantageous effects

The invention discloses a batch cover opening device for freezing pipes, which is characterized in that a control machine platform controls a cover opening device to open a bottle cover by installing the batch freezing pipes on a freezing pipe storage disc, then a pump body on a hydraulic pushing mechanism is started, hydraulic oil in a pusher is pumped through a guide pipe and returns to a hydraulic oil storage groove through a discharge pipe below the guide pipe, so that the cover opening device is pulled to move upwards, a limiting slide block is driven to move upwards to be contacted with a limiting block for limiting while the cover opening device moves upwards, a push plate is driven to move upwards, a movable valve block is pushed to move on a slide rail to be matched with a limiting ball, a tilting rod is pushed to move to be connected with a contact, a signal emission module is triggered to control an air pump, the air pump is started, air is sucked from an air pump groove, and a toothed rod on a sealing sleeve is driven to move rightwards, the gear rod is matched with the gear to drive the gear to rotate for a circle, so that the power rod on the gear rotates and is matched with the slide rod, the slide rod drives the connecting rod to pull the hinge frame push rod to slide on the slide rod connecting sleeve, the straight rod is pressed to move downwards under the buffer of the buffer valve block, the pushing hinge frames on two sides are pushed to slide towards two sides, the storage groove is pushed to move leftwards, the rotary expansion piece is delayed along with the rotation of the pushing hinge frame until the storage groove is pushed to the lower part of the cover opener, the cover opener is loosened to clamp the bottle cover, the bottle cover falls into the storage groove, finally the storage groove is reset through the original track, the push plate on the cover opener moves downwards along with the cover opener and presses the button to press the button under the gravity, the liquid pump control module is triggered to control the pump body to stop the operation of the pump body, the hydraulic oil to in the hydraulic oil storage tank is extracted, the cover opener stops descending, and finally a motor on the bottle cap compression mechanism is started to drive the rotating shaft to rotate, so that the rotating shaft drives the power block on the power shifting block to rotate, the power block is matched with the moving frame to drive the sliding connecting rod to move downwards, and the compression plate compresses the recovered bottle caps, so that the effect of reducing gaps among the bottle caps is achieved.

Based on the prior art, the bottle cap recovery device is provided with the compression device, when the device enables a hydraulic rod on the bottle cap opener to generate mechanical energy through hydraulic transmission, the bottle cap opener descends to open a bottle cap, finally retracts into the device to be stored in the storage groove, and the bottle cap is repeatedly extruded through the bottle cap compression mechanism, so that when the bottle cap is stored, gaps generated when the bottle cap is stored can be effectively reduced, the storage space of the bottle cap is reduced, and workers do not need to frequently open the device to recover the bottle cap.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a batch uncovering device for a cryopreservation tube.

Fig. 2 is a detailed structural schematic diagram of the cap opening device of the present invention.

Fig. 3 is a schematic view of the dynamic structure of the uncapping device.

Fig. 4 is a schematic view of a static structure of the uncapping device after operation.

Fig. 5 is a schematic structural view of a bottle cap compressing mechanism of the uncapping device of the present invention.

FIG. 6 is a schematic structural view of a power triggering mechanism of the storage tank of the present invention

In the figure: a control machine table-1, a cover opening device-2, a support column-3, a frozen storage tube storage tray-4, a base-5, an embedding hole-6, a storage groove power trigger mechanism-21, a hydraulic pushing mechanism-22, a storage groove power mechanism-23, a storage groove connecting mechanism-24, a bottle cover compression mechanism-25, a hydraulic stop mechanism-26, a cover opening mechanism-27, a signal emission module-211, a contact-212, a tilting rod-213, a rotating shaft-214, a sliding rail-215, a limiting spring-216, a limiting ball-217, a movable valve block-218, a push plate-219, a hydraulic oil storage groove-221, a guide tube-222, a one-way plate fixing block-223, a connecting spring-224, a pump body-225, a liquid absorption sealing block-226, a liquid, A pump controller-227, an infusion block-228, a one-way plate-229, a gear-2301, a toothed bar-2302, a hinged frame push rod-2303, a slide bar connecting sleeve-2304, an air pump sealing sleeve-2305, an air pump groove-2306, an air pressure gauge-2307, an air pump-2308, an air pipe-2309, an engagement bar-2310, a slide bar-2311, a power bar-2312, a slide bar connecting block-2313, a storage groove connecting mechanism-24 comprising a hinged frame slide block-241, a slide block-242, a pushing hinged frame-243, a straight bar-244, a buffer valve block-245, a slide plate-246, a rotary expansion device-247, an expansion bar-248, a storage groove-249, a limiting slide rail-251, a rotary shaft-252, a motor-253, a power shifting block-254, a power block-255, The device comprises a compression plate-256, a buffer plate-257, a vibration isolation plate-258, a sliding connecting rod-259, a protective shell-261, a button-262, a trigger plate-263, a liquid pump control module-264, a return spring-265, a pusher-271, a cover opening device-272, a pushing plate sliding rail-273, a limiting slide block-274, a limiting block-275 and a cover opener-276.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1-6, the invention provides a device for opening a cover of a frozen tube in batch, which structurally comprises a control machine table 1, a cover opening device 2, a support column 3, a frozen tube storage tray 4, a base 5 and an embedding hole 6, wherein the rear end face of the bottom of the control machine table 1 is welded with the top end of the support column 3, the bottom end of the support column 3 is embedded and installed on the rear end face of the top of the base 5, the bottom end of the frozen tube storage tray 4 is welded with the front end of the top of the base 5 and is positioned right below the cover opening device 2, and the embedding hole 6 and the frozen tube storage tray 4 are of an integrated structure;

the uncovering device 2 comprises a storage tank power triggering mechanism 21, a hydraulic pushing mechanism 22, a storage tank power mechanism 23, a storage tank connecting mechanism 24, a bottle cap compression mechanism 25, a hydraulic stopping mechanism 26, an uncovering mechanism 27 and a shell, wherein the storage tank power triggering mechanism 21 is welded with the left upper end inside the shell, the hydraulic pushing mechanism 22 is welded with the upper end face of the middle part of the shell and is positioned right above the bottle cap compression mechanism 25, the top end of the storage tank connecting mechanism 24 is mechanically connected with the tail end of the storage tank power mechanism 23, the hydraulic stopping mechanism 26 is welded with the left lower end inside the shell and is positioned under the storage tank power triggering mechanism 21, and the right upper end of the uncovering mechanism 27 is connected with the hydraulic pushing mechanism 22 in a matched mode and is positioned on the left side of the bottle cap compression mechanism 25.

Storage tank power trigger mechanism 21 includes signal emission module 211, contact 212, sticks up pole 213, axis of rotation 214, slide rail 215, spacing spring 216, spacing ball 217, removal valve block 218, push pedal 219, signal emission module 211 is located contact 212 directly over and rather than the electricity be connected, stick up pole 213 and locate contact 212 below and be the V type structure, stick up pole 213 one end and contact 212 activity touching, the other end is equipped with spacing ball 217 and the two structure that is integrated, stick up pole 213 and run through the activity by axis of rotation 214 in the middle of right, the right-hand member of contact 212 is kept away from to slide rail 215, spacing spring 216 end is fixed with removes valve block 218, be equipped with push pedal 219 under removing valve block 218 and the two laminates mutually, spacing ball 217 still touches with uncapping mechanism 27 activity.

Hydraulic pressure push mechanism 22 includes hydraulic oil storage tank 221, stand pipe 222, one-way board fixed block 223, coupling spring 224, the pump body 225, imbibition sealed block 226, pump body controller 227, infusion piece 228, one-way board 229, the upper right end of hydraulic oil storage tank 221 and shell welds mutually, the left end face at hydraulic oil storage tank 221 inside is installed in the stand pipe 222 embedding, coupling spring 224's one end and one-way board fixed block 223 weld mutually, and the other end is located on one-way board 229 and the inside that the stand pipe 222 was all located to the three, the one end and the stand pipe 222 of imbibition sealed block 226 weld mutually, and both as an organic whole structures on the pump body 225 are located to the other end, pump body controller 227 and pump body 225 are the integrated structure, infusion piece 228 adopts the mode of electric welding to weld in the left end face of the pump body 225.

The storage groove power mechanism 23 comprises a gear 2301, a toothed bar 2302, a hinge frame push rod 2303, a sliding rod connecting sleeve 2304, an air pump sealing sleeve 2305, an air pump groove 2306, an air pressure gauge 2307, an air pump 2308, an air pipe 2309, a connecting rod 2310, a sliding rod 2311, a power rod 2312 and a sliding rod connecting block 2313, wherein the gear 2301 is arranged below the toothed bar 2302 and is meshed with the toothed bar 2302, the toothed bar 2302 is horizontally embedded into the left end surface of the air pump sealing sleeve 2305, the hinge frame push rod 2303 is vertically embedded into the sliding rod connecting sleeve 2304, the air pump sealing sleeve 2305 is arranged on the left end surface of the air pump groove 2306, the air pump groove 2306 and the right middle part inside the housing are welded, the air pressure gauge 2307 is embedded into the air pump 2308, one side joint of the air pipe 2309 is welded with the air pump 2308, the other side joint is welded with the bottom end of the air pump groove 2306, one end of the connecting, and the other end is hinged with a slide bar 2311, the slide bar 2311 is embedded and installed on a slide bar connecting block 2313 and is in point connection with a power bar 2312, the slide bar connecting block 2313 is positioned at the left side of the gear 2301, and the bottom end of the hinge frame push rod 2303 is mechanically connected with the top end of the storage tank connecting mechanism 24.

The storage tank connecting mechanism 24 comprises a hinge bracket slider 241, a sliding block 242, a pushing hinge bracket 243, a straight rod 244, a buffer valve block 245, a sliding plate 246, a rotating telescopic device 247, a telescopic rod 248 and a storage tank 249, wherein the hinge bracket slider 241 is located at the right lower end of the shell and is embedded in the top end of the sliding block 242, the pushing hinge bracket 243 is located on two sides of the straight rod 244 and is hinged to the straight rod, the bottom end of the straight rod 244 is located in the middle of the buffer valve block 245 and is hinged to the buffering valve block, the sliding plate 246 is welded to the bottom end of the middle of the shell and is connected to the bottom point of the storage tank 249, the rotating telescopic device 247 is hinged to the pushing hinge bracket 243, one end of the telescopic rod 248 is horizontally embedded in the rotating telescopic device 247 and the other end of the telescopic rod is welded to the storage tank 249, and the top end of the.

The bottle cap compression mechanism 25 comprises a limiting slide rail 251, a rotating shaft 252, a motor 253, a power shifting block 254, a power block 255, a compression plate 256, a buffer plate 257, a vibration isolation plate 258 and a sliding connecting rod 259, wherein the limiting slide rail 251 is located on two sides of the motor 253, the rotating shaft 252 is embedded and installed on the motor 253, the power shifting block 254 and the rotating shaft 252 are of an integrated structure, the power block 255 is arranged at the tip end of the power shifting block, the top end of the compression plate 256 is welded with the bottom end of the buffer plate 257, the top end of the buffer plate 257 is welded with the bottom end of the vibration isolation plate 258, and the sliding connecting rod 259 is arranged at the top end of the vibration isolation plate 258.

The hydraulic stop mechanism 26 comprises a protective shell 261, a button 262, a trigger plate 263, a liquid pump control module 264 and a return spring 265, wherein the protective shell 261 is welded with the lower left end of the outer shell, the button 262 is vertically embedded in the upper end face of the protective shell 261, the bottom end of the button 262 is welded with the return spring 265, the bottom end of the trigger plate 263 is welded with the top end of the liquid pump control module 264, and the bottom end of the return spring 265 is welded with the top end of the trigger plate 263.

The cover opening mechanism 27 comprises a pushing device 271, a pushing block 272, a pushing plate sliding rail 273, a limiting slider 274, a limiting block 275 and a cover opening device 276, wherein the pushing device 271 is positioned right above the pushing block 272, the pushing plate sliding rail 273 is embedded in the left end face of the pushing block 272, the limiting blocks 275 are arranged on the upper side and the lower side of the pushing plate sliding rail 273, the limiting blocks 275 are welded with the pushing block 272, and the cover opening device 276 and the pushing block 272 are of an integrated structure.

The bottle cap is opened by installing a batch of freezing tubes 4 on the freezing tube storage tray 4, the control machine 1 controls the cap opening device 2 to open the bottle cap, then the pump body 225 on the hydraulic pushing mechanism 22 is started, the hydraulic oil in the pusher 271 is extracted through the guide tube 222 and returns to the hydraulic oil storage groove 221 through the drain pipe below the guide tube 222 through the pump body 225, so that the cap opener 276 is pulled to move upwards, the cap opener 276 can move upwards stably, the limit slider 274 can be driven to move upwards while the cap opener 276 moves upwards and is in contact with the limit block 275 for limiting, the push plate 219 is driven to move upwards, the movable valve block 217 is pushed to move on the slide rail 215 to be matched with the limit ball 217, the tilting rod 213 is pushed to pry, the contact 212 is connected with the trigger signal transmitting module 211, the air pump 2308 is controlled by the trigger signal transmitting module 211, and the effect of quickly transmitting signals to the air pump 2308 is achieved, the air pump 2308 is started to suck air from the air pump groove 2306, the toothed bar 2302 on the air pump sealing sleeve 226 is driven to move rightwards, the toothed bar 2302 is matched with the gear 2301 to drive the gear 2301 to rotate for a circle, the power rod 2312 on the gear rotates to be matched with the sliding rod 2311, so that the sliding rod 2311 drives the connecting rod 2310 to pull the hinge frame push rod 2303 to slide on the sliding rod connecting sleeve 2304, the temperature of the downward pressing of the straight rod 244 is stabilized, the straight rod 244 is stressed, the straight rod 244 moves downwards under the buffering of the buffering valve block 245 to push the pushing hinge frames 243 at two sides to slide towards two sides, the storage groove 249 is pushed to move leftwards, the rotating expansion piece 248 is delayed along with the rotation of the pushing hinge frames 243 until the storage groove 249 is pushed to the lower part of the cover opener 276, the cover opener 276 loosens the clamping of the bottle cover to enable the bottle cover to fall into the storage groove 249, and finally the storage groove is returned through, meanwhile, the push plate 219 on the cap opener 276 moves downwards along with the cap opener 276 and presses on the button 262, so that the button 262 is pressed downwards by gravity, the liquid pumping pump control module 264 is triggered to control the pump body 225, thereby rapidly controlling the pump body 220, stopping the operation of the pump body 220, pumping the hydraulic oil in the hydraulic oil storage tank 221, stopping the falling of the cap opener 276, finally, the motor 241 on the bottle cap compression mechanism 25 is started to drive the rotating shaft 252 to rotate, so that the rotating shaft 252 drives the power block 255 on the power shifting block 254 to rotate, the power block 255 is matched with the moving frame, the sliding connecting rod 259 is driven to move downwards, so that the compression plate 256 compresses the recovered bottle caps, and the effect of reducing the gap between the bottle caps is realized.

The pump body 225 electric liquid pump is an ideal tool for conveying gasoline, kerosene, diesel oil and light fuel oil. The pump has the advantages of simple use and operation, stable performance, capability of conveying media such as acid, alkali, salt, oil products, beverages and the like, and wide application in chemical industry, petrochemical industry, fine chemical industry, dye chemical industry, environmental protection, water treatment, medicine, food and other departments.

The invention solves the problem that in the process of recovering a frozen pipe cover in the prior art, due to the adoption of an irregular stacking mode, gaps needing to be aligned are easily generated among stacked pipe covers in the process of recovering the pipe cover to a storage groove, the space needed by the pipe cover during storage is greatly increased, so that workers need to frequently process the pipe cover, and the working progress is influenced.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The device for opening the frozen pipes in batches structurally comprises a control machine table (1), an opening device (2), a support column (3), a frozen pipe storage tray (4), a base (5) and an embedding hole (6), wherein the rear end face of the bottom of the control machine table (1) is welded with the top end of the support column (3), the bottom end of the support column (3) is embedded into the rear end face of the top of the base (5), the bottom end of the frozen pipe storage tray (4) is welded with the front end of the top of the base (5) and is positioned right below the opening device (2), and the embedding hole (6) and the frozen pipe storage tray (4) are of an integrated structure; the cover opening device (2) comprises a storage tank power triggering mechanism (21), a hydraulic pushing mechanism (22), a storage tank power mechanism (23), a storage tank connecting mechanism (24), a bottle cover compression mechanism (25), a hydraulic stopping mechanism (26), a cover opening mechanism (27) and a shell, the storage tank power triggering mechanism (21) is welded with the left upper end inside the shell, the hydraulic pushing mechanism (22) is welded with the upper end surface of the middle part of the shell and is positioned right above the bottle cap compression mechanism (25), the top end of the storage groove connecting mechanism (24) is mechanically connected with the tail end of the storage groove power mechanism (23), the hydraulic stop mechanism (26) is welded with the left lower end inside the shell and is positioned right below the power trigger mechanism (21) of the storage tank, the upper right end of the cap opening mechanism (27) is connected with the hydraulic pushing mechanism (22) in a matched mode and is positioned on the left side of the bottle cap compression mechanism (25);

the storage tank power trigger mechanism (21) comprises a signal emitting module (211), a contact (212), a tilting rod (213), a rotating shaft (214), a sliding rail (215), a limiting spring (216), a limiting ball (217), a movable valve block (218) and a push plate (219), wherein the signal emitting module (211) is located right above the contact (212) and is electrically connected with the contact, the tilting rod (213) is arranged below the contact (212) and is of a V-shaped structure, one end of the tilting rod (213) is movably touched with the contact (212), the other end of the tilting rod (213) is provided with the limiting ball (217) and is of an integrated structure, the tilting rod (213) is penetrated through the rotating shaft (214) in the middle and is movably fixed on the sliding rail (215), the sliding rail (215) is far away from the right end of the contact (212), the tail end of the limiting spring (216) is fixedly provided with the movable valve block (218), the push plate (219) is arranged right below the movable valve block, the limiting ball (217) is movably touched with the cover opening mechanism (27).

2. The device of claim 1, characterized in that is uncapped to cryopreserved pipe in batches: the hydraulic pushing mechanism (22) comprises a hydraulic oil storage groove (221), a guide pipe (222), a one-way plate fixing block (223), a connecting spring (224), a pump body (225), a liquid absorption sealing block (226), a pump body controller (227), a liquid infusion block (228) and a one-way plate (229), wherein the hydraulic oil storage groove (221) is welded with the upper right end of the shell, the guide pipe (222) is embedded in the left end face of the interior of the hydraulic oil storage groove (221), one end of the connecting spring (224) is welded with the one-way plate fixing block (223), the other end of the connecting spring (224) is arranged on the one-way plate (229) and the three of the connecting spring and the one-way plate fixing block are arranged in the interior of the guide pipe (222), one end of the liquid absorption sealing block (226) is welded with the guide pipe (222), the other end of the connecting spring is arranged on the pump body (225, the infusion block (228) is welded on the left end face of the pump body (225) in an electric welding mode.

3. The device of claim 1, characterized in that is uncapped to cryopreserved pipe in batches: the storage groove power mechanism (23) comprises a gear (2301), a toothed bar (2302), a gallows push rod (2303), a sliding rod connecting sleeve (2304), an air pump sealing sleeve (2305), an air pump groove (2306), an air pressure gauge (2307), an air pump (2308), an air pipe (2309), a connecting rod (2310), a sliding rod (2311), a power rod (2312) and a sliding rod connecting block (2313), wherein the gear (2301) is arranged below the toothed bar (2302) and is meshed with the toothed bar (2302), the toothed bar (2302) is horizontally embedded into the left end face of the air pump sealing sleeve (2305), the gallows push rod (2303) is vertically embedded into the sliding rod connecting sleeve (2304), the air pump sealing sleeve (2305) is arranged on the left end face of the air pump groove (2306) and is of an integrated structure, the air pump groove (2306) is welded with the middle of the right side inside of the shell, the air pump groove (2307) is embedded into the air pump (2308), one side joint of the air pipe (2309) is welded with the air pump groove (2308) The bottom ends of the connecting rods (2310) are welded, one ends of the connecting rods are embedded in the hinge frame push rods (2303), the other ends of the connecting rods are hinged to the sliding rods (2311), the sliding rods (2311) are embedded in the sliding rod connecting blocks (2313) and are in point connection with the power rods (2312), the sliding rod connecting blocks (2313) are located on the left side of the gear (2301), and the bottom ends of the hinge frame push rods (2303) are mechanically connected with the top ends of the storage groove connecting mechanisms (24).

4. The batch uncovering device for the cryopreservation tubes as claimed in claim 1 or 3, wherein: the storage tank connecting mechanism (24) comprises a hinge bracket sliding block (241), a sliding block (242), a pushing hinge bracket (243), a straight rod (244), a buffering valve block (245), a sliding plate (246), a rotating expansion piece (247), an expansion rod (248) and a storage tank (249), wherein the hinge bracket sliding block (241) is positioned at the right lower end of the shell and is embedded and installed at the top end of the sliding block (242), the pushing hinge bracket (243) is arranged at two sides of the straight rod (244) and is hinged with the straight rod (244), the bottom end of the straight rod (244) is arranged in the middle of the buffering valve block (245) and is hinged with the buffering valve block and the buffering valve block, the sliding plate (246) is welded with the bottom end of the middle of the shell and is connected with the bottom point of the storage tank (249), the rotating expansion piece (247) is hinged with the pushing hinge bracket (243), one end of the expansion rod (248) is horizontally embedded in the rotating expansion piece (247) and the other, the top end of the straight rod (244) is connected with a bottle cap compression mechanism (25).

5. The device of claim 1, characterized in that is uncapped to cryopreserved pipe in batches: bottle lid compression mechanism (25) are including spacing slide rail (251), rotation axis (252), motor (253), power shifting block (254), power piece (255), compression board (256), buffer board (257), shock insulation board (258), sliding connection pole (259), spacing slide rail (251) are located the both sides of motor (253), rotation axis (252) embedding is installed on motor (253), power shifting block (254) and rotation axis (252) are the integrated structure to the pointed end is equipped with power piece (255), the top of compression board (256) welds with the bottom of buffer board (257), the top of buffer board (257) welds with the bottom of shock insulation board (258) mutually to shock insulation board (258) top is equipped with sliding connection pole (259) both are the integrated structure.

6. The device of claim 1, characterized in that is uncapped to cryopreserved pipe in batches: the hydraulic stop mechanism (26) comprises a protective shell (261), a button (262), a trigger plate (263), a liquid pump control module (264) and a return spring (265), wherein the protective shell (261) is welded with the lower left end of the outer shell, the button (262) is vertically embedded into the upper end face of the protective shell (261) and the bottom end of the button is welded with the return spring (265), the bottom end of the trigger plate (263) is welded with the top end of the liquid pump control module (264), and the bottom end of the return spring (265) is welded with the top end of the trigger plate (263).

7. The device of claim 1, characterized in that is uncapped to cryopreserved pipe in batches: uncapping mechanism (27) are including bulldozing ware (271), propulsion piece (272), bulldozing board slide rail (273), spacing slider (274), stopper (275), uncapping ware (276), bulldozing ware (271) are located propulsion piece (272) directly over, bulldozing board slide rail (273) embedding is equipped with stopper (275) in the left end face and upper and lower both sides of propulsion piece (272) and stopper (275) and propulsion piece (272) weld mutually, uncapping ware (276) and propulsion piece (272) are the integral structure.

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