CN220883354U - Cooling device capable of automatically discharging for corrugated pipe production - Google Patents

Abstract

The application discloses a cooling device capable of automatically discharging for corrugated pipe production, which belongs to the technical field of corrugated pipe production equipment, and the technical scheme is characterized by comprising a device body, wherein the device body comprises: the water cooling mechanism comprises a first rail groove; the air cooling mechanism comprises a second rail groove; the discharging mechanism comprises an automatic feeding mechanism and a material receiving box; the first rail groove is matched with the automatic feeding mechanism, and the second rail groove is matched with the automatic feeding mechanism. The application provides a cooling device for corrugated pipe production, which can cool corrugated pipes by combining water cooling and air cooling modes so as to accelerate cooling rate, and the cooled corrugated pipes can be automatically discharged so as to improve the automation degree of the device.

Description

Cooling device capable of automatically discharging for corrugated pipe production

Technical Field

The application belongs to the technical field of corrugated pipe production equipment, and particularly relates to a cooling device capable of automatically discharging for corrugated pipe production.

Background

When the blowdown bellows is produced, generally, raw materials are melted into liquid, the raw materials are extruded into a forming machine through an extruder, the forming machine is vacuumized, raw materials are attached to a module to form the bellows, the raw materials are required to be cooled gradually in the forming process due to higher temperature, otherwise, the liquid raw materials are high in fluidity, and the forming effect is poor.

The current chinese patent of publication No. CN114378203a, it discloses a former for bellows processing with cooling mechanism, including conveying platform, arc gas-supply box, first gas-supply branch pipe, gas-supply round box and positioning mechanism, through arc gas-supply box and shower nozzle that the equidistance set up on former conveying platform, can be fine carry out the work of blowing and cooling to the lateral wall of bellows to be provided with arc connecting plate, connecting pipe, second gas-supply branch pipe, gas-supply round box and positioning mechanism in the one end of conveying platform, can carry out the processing of blowing and cooling to the inside wall of bellows after the shaping.

The cooling equipment can cool the inner side wall and the outer side wall of the corrugated pipe in a blowing way, so that the cooling time is reduced, and the working efficiency is improved. But the air cooling mode adopted by the equipment is slower than the water cooling mode in cooling rate, and the automatic discharging can not be realized, and the manual discharging can interrupt the cooling of the corrugated pipe, so that the production time is prolonged.

Disclosure of utility model

The application aims at solving the technical problems, and provides a cooling device for corrugated pipe production, which can automatically discharge materials, is used for cooling corrugated pipes by combining water cooling and air cooling so as to accelerate the cooling rate, and the cooled corrugated pipes can automatically discharge materials so as to improve the automation degree of the device.

The application provides a cooling device capable of automatically discharging for corrugated pipe production, which comprises a device body, wherein the device body comprises:

the water cooling mechanism comprises a first rail groove;

The air cooling mechanism comprises a second rail groove;

the discharging mechanism comprises an automatic feeding mechanism and a material receiving box;

the first rail groove is matched with the automatic feeding mechanism, and the second rail groove is matched with the automatic feeding mechanism.

In this technical scheme, through setting up water-cooling mechanism and forced air cooling mechanism in the device body, the bellows need cool off after accomplishing in production, place the bellows on autoloading mechanism, autoloading mechanism arranges in water-cooling mechanism and forced air cooling mechanism, and be provided with first rail groove in water-cooling mechanism, be provided with the second rail groove in forced air cooling mechanism, make cooperation between autoloading mechanism and first rail groove and the second rail groove, the bellows cools off through the mode of water-cooling in the water-cooling mechanism, after the cooling of water-cooling mechanism is accomplished, the bellows passes through in the autoloading mechanism passes through the forced air cooling mechanism, forced air cooling mechanism can carry out further cooling to the bellows, still have dry function simultaneously, the bellows through the water-cooling is comparatively moist, after processing through forced air cooling mechanism, not only promoted the cooling effect, can also accelerate the drying rate of bellows self, thereby make this device possess outstanding cooling function, after the forced air cooling mechanism cooling is accomplished, the bellows passes through in the material receiving box in the autoloading mechanism, accomplish automatic discharging, thereby make this device possess higher degree of automation.

Further, the water cooling mechanism includes:

A cold water tank;

The lifting mechanism is matched with the cold water tank;

a first side plate connected with the cold water tank;

The first spray head is connected with the first side plate;

The water pump is connected with the cold water tank and the first spray head;

the rotating roller comprises a first motor and a bracket;

Wherein, the support is connected with the first side plate.

In this technical scheme, through setting up cold water tank and elevating system in water-cooling mechanism, when the bellows carries out the transportation, elevating system descends, when the bellows carries out the cooling processing, elevating system rises, and be provided with water pump and first shower nozzle, be provided with first curb plate on the cold water tank, install first shower nozzle on first curb plate, first shower nozzle sprays the bellows in the water-cooling mechanism through controlling the water pump, be provided with electromagnetic control's elevating gear in the support, after the work of first shower nozzle, rotatory roller rises through electromagnetic elevating gear, hold up the bellows, start first motor simultaneously, make rotatory roller rotatory, rotatory roller drives the bellows that is held up again and rotates, make the surface cooling of bellows even, thereby strengthen water-cooling mechanism's cooling function.

Further, the elevating mechanism includes:

a liquid level sensor;

the first lifting baffle comprises a chain, a second nozzle and a rubber sealing strip;

A gear engaged with the chain;

the second motor is connected with the gear;

wherein the second spray head is connected with the water pump.

In this technical scheme, through setting up liquid level sensor and second motor in elevating system, liquid level sensor is used for confirming the liquid level in the water-cooling mechanism, again to second motor transmission signal, control gear is rotatory, cooperation between gear and the chain, make the rotatory ability control of gear go on going up and down on the water-cooling mechanism with the first elevating baffle that is connected between the chain, inside and liquid level sensor detects liquid level and be zero when the bellows gets into the water-cooling mechanism, make second motor drive first elevating baffle and rise, in order to conveniently spray, after spray cooling is accomplished and liquid level sensor detects liquid level and be zero, make second motor drive first elevating baffle decline, in order to conveniently continue transporting the bellows, and be provided with second shower nozzle and rubber sealing strip on first elevating baffle, be connected between second shower nozzle and the water pump, the second shower nozzle can spray the cooling to the bellows internal surface through control water pump, the cooling of combining first shower nozzle to the cooling of bellows surface, further strengthened the cooling effect of this device to the bellows, and rubber sealing strip can effectively prevent the inside liquid extravasation of water-cooling mechanism, in order to strengthen the leakproofness of this device.

Further, the air cooling mechanism includes:

The second side plate comprises a permanent magnet and a first fan;

The second lifting baffle comprises a power supply, a second fan, a refrigeration pipe, an electromagnet and a return spring;

the electromagnet is connected with the reset spring, the electromagnet is connected with the permanent magnet after being electrified, and the power supply is connected with the first fan, the second fan, the refrigeration tube and the electromagnet.

In the technical scheme, through setting up second curb plate and second lift baffle on the forced air cooling mechanism, be provided with the permanent magnet on the second curb plate, be provided with electromagnet and reset spring on the second lift baffle, be connected between electromagnet circular telegram back and the permanent magnet, reset through reset spring after the electromagnet is cut off the power supply, thereby make second lift baffle go on going up and down on the forced air cooling mechanism, be provided with first fan on the second curb plate, first fan can further cool the bellows surface, accelerate the drying of bellows surface simultaneously, be provided with the power on the second lift baffle, second fan and refrigeration pipe, after the bellows gets into forced air cooling mechanism, the power makes the electromagnet circular telegram, drive second lift baffle and rise, simultaneously the power drives first fan, second fan and refrigeration pipe work, the second fan can further cool down the bellows internal surface, and accelerate the drying of bellows internal surface, the refrigeration pipe is arranged in the second fan outside, it can strengthen the refrigeration effect of second fan, and make the second fan blow dry cold wind, in order to promote the drying effect.

Further, the automatic feeding mechanism includes:

The guide plate comprises a groove and a water leakage hole;

a transfer rail connected between the guide plates;

Wherein the transfer rail is engaged with the first rail groove and the second rail groove.

In this technical scheme, through setting up baffle and conveying guide rail in autoloading mechanism, the recess on the baffle is favorable to the fixed and the transportation of bellows, cooperation between conveying guide rail and first rail groove and the second rail groove makes the baffle of being connected between the conveying guide rail can slide on water-cooling mechanism and air-cooling mechanism, transport the bellows in the device promptly, and is provided with the hole that leaks on the baffle, the liquid on the water-cooling mechanism of being convenient for flows to the cold water tank through the hole that leaks for the circulation of cooling liquid, hoisting device is to the cooling rate of bellows.

Further, the device body further includes:

The support frame is arranged between the water cooling mechanism and the air cooling mechanism.

In this technical scheme, through setting up a support frame between water-cooling mechanism and forced air cooling mechanism, the support frame is used for supporting the bellows that moves from water-cooling mechanism to forced air cooling mechanism, prevents that the bellows from droing in the transportation to promote the stability of bellows in the transportation.

The beneficial effects of the application are as follows:

1. The corrugated pipe is cooled by combining a water cooling mode and an air cooling mode, the water cooling mechanism has an excellent cooling effect, and the air cooling mechanism can further cool the corrugated pipe and simultaneously dry the corrugated pipe, so that the corrugated pipe cooling device has an excellent cooling effect.

2. The automatic feeding mechanism is arranged in the water cooling mechanism and the air cooling mechanism, the corrugated pipe is arranged on the automatic feeding mechanism, and the corrugated pipe can be automatically discharged after being cooled through the cooperation between the automatic feeding mechanism and the water cooling mechanism and the air cooling mechanism, when one corrugated pipe is cooled in the water cooling mechanism, the other corrugated pipe can be cooled in the air cooling mechanism at the same time, and the two mechanisms are not interfered with each other when working, so that the device has higher cooling efficiency.

3. The first side plate and the first lifting baffle of the water cooling mechanism are respectively provided with a first spray head and a second spray head, the inner surface and the outer surface of the corrugated pipe can be sprayed and cooled simultaneously, the second side plate and the second lifting baffle of the air cooling mechanism are respectively provided with a first fan and a second fan, the inner surface and the outer surface of the corrugated pipe can be blown and cooled simultaneously, and the cooling effect of the device on the corrugated pipe is further improved.

Drawings

FIG. 1 is a schematic diagram of a cooling device for corrugated pipe production capable of automatically discharging materials;

FIG. 2 is a schematic view of a cooling device for corrugated pipe production, which can automatically discharge materials, according to another view angle;

FIG. 3 is a schematic diagram of a water cooling mechanism according to the present application;

FIG. 4 is a schematic diagram of an air cooling mechanism according to the present application;

Reference numeral 100 in the figure, the device body; 110. a support frame; 200. a water cooling mechanism; 210. a first rail groove; 220. a cold water tank; 230. a lifting mechanism; 231. a liquid level sensor; 232. a first lifting baffle; 233. a gear; 234. a second motor; 235. a chain; 236. a second nozzle; 237. a rubber sealing strip; 240. a first side plate; 250. a first nozzle; 260. a water pump; 270. a rotating roller; 271. a first motor; 272. a bracket; 300. an air cooling mechanism; 310. a second rail groove; 320. a second side plate; 321. a permanent magnet; 322. a first fan; 330. a second lifting baffle; 331. a power supply; 332. a second fan; 333. a refrigeration tube; 334. an electromagnet; 335. a return spring; 400. a discharging mechanism; 410. an automatic feeding mechanism; 411. a guide plate; 412. a transfer rail; 413. a groove; 414. a water leakage hole; 420. and (5) receiving a material box.

Detailed Description

The technical solutions of the embodiments of the present application will be clearly described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which are obtained by a person skilled in the art based on the embodiments of the present application, fall within the scope of protection of the present application.

The terms first, second and the like in the description and in the claims, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged, as appropriate, such that embodiments of the present application may be implemented in sequences other than those illustrated or described herein, and that the objects identified by "first," "second," etc. are generally of a type, and are not limited to the number of objects, such as the first object may be one or more. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/", generally means that the associated object is an "or" relationship.

The following provides a detailed description of embodiments of the present application through specific embodiments and application scenarios thereof with reference to the accompanying drawings.

Example 1:

As shown in fig. 1 to 4, an embodiment of the present application provides a cooling device for producing corrugated pipes capable of automatic discharging, which includes a device body 100, wherein the device body 100 includes:

A water cooling mechanism 200 including a first rail groove 210;

The air cooling mechanism 300 comprises a second rail groove 310;

the discharging mechanism 400 comprises an automatic feeding mechanism 410 and a material receiving box 420;

Wherein the first rail 210 is engaged with the automatic feeding mechanism 410, and the second rail 310 is engaged with the automatic feeding mechanism 410.

By arranging the water cooling mechanism 200 and the air cooling mechanism 300 in the device body 100, the corrugated pipe is required to be cooled after production is completed, the corrugated pipe is arranged on the automatic feeding mechanism 410, the automatic feeding mechanism 410 is arranged in the water cooling mechanism 200 and the air cooling mechanism 300, the first rail groove 210 is arranged in the water cooling mechanism 200, the second rail groove 310 is arranged in the air cooling mechanism 300, the automatic feeding mechanism 410 is matched with the first rail groove 210 and the second rail groove 310, the corrugated pipe is cooled in the water cooling mechanism 200 in a water cooling mode, after the cooling processing of the water cooling mechanism 200 is completed, the corrugated pipe is conveyed into the air cooling mechanism 300 through the automatic feeding mechanism 410, the air cooling mechanism 300 can further cool the corrugated pipe, and meanwhile, the corrugated pipe subjected to water cooling is moist, after the processing through the air cooling mechanism 300, not only the cooling effect is improved, but also the drying rate of the corrugated pipe is accelerated, so that the device has an excellent cooling function, after the cooling processing of the air cooling mechanism 300, the corrugated pipe is conveyed into the material receiving box 420 in the material receiving mechanism 400, and automatic discharging is completed, and the automatic device has a higher degree.

Further, the water cooling mechanism 200 includes:

A cold water tank 220;

a lifting mechanism 230 engaged with the cold water tank 220;

a first side plate 240 connected to the cold water tank 220;

a first nozzle 250 connected to the first side plate 240;

A water pump 260 connected between the cold water tank 220 and the first spray head 250;

a rotating roller 270 including a first motor 271 and a bracket 272;

wherein the bracket 272 is connected with the first side plate 240.

When the cooling water tank 220 and the lifting mechanism 230 are arranged in the water cooling mechanism 200, the lifting mechanism 230 descends, the lifting mechanism 230 ascends when the corrugated pipe is subjected to cooling processing, the water pump 260 and the first spray head 250 are arranged, the first side plate 240 is arranged on the cooling water tank 220, the first spray head 250 is arranged on the first side plate 240, the first spray head 250 sprays the corrugated pipe in the water cooling mechanism 200 by controlling the water pump 260, the electromagnetic control lifting device is arranged in the bracket 272, after the first spray head 250 works, the rotary roller 270 ascends by the electromagnetic lifting device to lift the corrugated pipe, the first motor 271 is started at the same time, the rotary roller 270 rotates, the supported corrugated pipe is driven to rotate again, and the outer surface of the corrugated pipe is uniformly cooled, so that the cooling function of the water cooling mechanism 200 is enhanced.

Further, the lifting mechanism 230 includes:

A liquid level sensor 231;

A first lifting baffle 232 comprising a chain 235, a second spray head 236 and a rubber sealing strip 237;

a gear 233 engaged with the chain 235;

A second motor 234 connected to the gear 233;

Wherein the second nozzle 236 is connected to the water pump 260.

Through setting up liquid level sensor 231 and second motor 234 in elevating system 230, liquid level sensor 231 is used for confirming the liquid level in the water-cooling mechanism 200, again to second motor 234 transmission signal, control gear 233 rotates, cooperation between gear 233 and the chain 235, make the rotatory first lift baffle 232 that is connected between the control of rotation ability of gear 233 and the chain 235 go on going up and down on the water-cooling mechanism 200, when the bellows gets into inside the water-cooling mechanism 200 and liquid level sensor 231 detects liquid level and is zero, make second motor 234 drive first lift baffle 232 rise, in order to conveniently spray, after the spray cooling is accomplished and liquid level sensor 231 detects liquid level and is zero, make second motor 234 drive first lift baffle 232 decline, in order to conveniently continue transporting the bellows, and be provided with second shower nozzle 236 and rubber seal 237 on first lift baffle 232, be connected between second shower nozzle 236 and the water pump 260, second shower nozzle 236 can cool down the bellows internal surface through control water pump 260, combine first shower nozzle 250 to the cooling of bellows surface, further strengthen this device cooling effect to the bellows, and the inside can effectively prevent the sealing device of sealing the outside of water-cooling mechanism 200 from oozing out.

Further, the air cooling mechanism 300 includes:

A second side plate 320 including a permanent magnet 321 and a first fan 322;

The second lifting baffle 330 comprises a power supply 331, a second fan 332, a refrigeration pipe 333, an electromagnet 334 and a return spring 335;

Wherein, the electromagnet 334 is connected with the return spring 335, the electromagnet 334 is connected with the permanent magnet 321 after being electrified, and the power source 331 is connected with the first fan 322, the second fan 332, the refrigeration tube 333 and the electromagnet 334.

Through setting up second curb plate 320 and second lift baffle 330 on forced air cooling mechanism 300, be provided with permanent magnet 321 on second curb plate 320, be provided with electromagnet 334 and reset spring 335 on second lift baffle 330, be connected between electromagnet 334 circular telegram back and permanent magnet 321, reset through reset spring 335 after the electromagnet 334 outage, thereby make second lift baffle 330 go on going up and down on forced air cooling mechanism 300, be provided with first fan 322 on second curb plate 320, first fan 322 can further cool the bellows surface, accelerate the drying of bellows surface simultaneously, be provided with power 331 on second lift baffle 330, second fan 332 and refrigeration pipe 333, after the bellows gets into forced air cooling mechanism 300, start power 331, power 331 makes electromagnet 334 switch on, drive second lift baffle 330 and rise, simultaneously power 331 drives first fan 322, second fan 332 and refrigeration pipe 333 work, second fan 332 can further cool down the bellows internal surface, and accelerate the drying of bellows internal surface, refrigeration pipe 333 is arranged in the outside of second fan 332, it can second fan 332, and make the second fan 332 dry with the drying effect of drying.

Example 2:

As shown in fig. 1 to 4, the embodiment of the present application provides a cooling device for producing corrugated pipes capable of automatically discharging, which has the following technical features in addition to the technical scheme of the above embodiment. The automatic feeding mechanism 410 includes:

a guide plate 411 including a groove 413 and a water leakage hole 414;

A transfer rail 412 connected to the guide plate 411;

wherein the transfer rail 412 mates with the first rail 210 and the second rail 310.

By arranging the guide plate 411 and the conveying guide rail 412 in the automatic feeding mechanism 410, the groove 413 on the guide plate 411 is beneficial to the fixation and transportation of the corrugated pipe, the conveying guide rail 412 is matched with the first rail groove 210 and the second rail groove 310, so that the guide plate 411 connected with the conveying guide rail 412 can slide on the water cooling mechanism 200 and the air cooling mechanism 300, namely the corrugated pipe is transported in the device, and the guide plate 411 is provided with the water leakage hole 414, so that liquid on the water cooling mechanism 200 can conveniently flow to the cold water tank 220 through the water leakage hole 414, the circulation of cooling liquid is accelerated, and the cooling rate of the corrugated pipe by the device is improved.

Further, the device body 100 further includes:

a support frame 110 interposed between the water cooling mechanism 200 and the air cooling mechanism 300.

By arranging the supporting frame 110 between the water cooling mechanism 200 and the air cooling mechanism 300, the supporting frame 110 is used for supporting the corrugated pipe moving from the water cooling mechanism 200 to the air cooling mechanism 300, so that the corrugated pipe is prevented from falling off in the transportation process, and the stability of the corrugated pipe in the transportation process is improved.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. Furthermore, it should be noted that the scope of the methods and apparatus in the embodiments of the present application is not limited to performing the functions in the order shown or discussed, but may also include performing the functions in a substantially simultaneous manner or in an opposite order depending on the functions involved, e.g., the described methods may be performed in an order different from that described, and various steps may be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.

The embodiments of the present application have been described above with reference to the accompanying drawings, but the present application is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are to be protected by the present application.

Claims (6)

1. The utility model provides a cooling device is used in bellows production that can automatic discharging, includes device body (100), its characterized in that, device body (100) include:

a water cooling mechanism (200) comprising a first rail groove (210);

An air cooling mechanism (300) comprising a second rail groove (310);

the discharging mechanism (400) comprises an automatic feeding mechanism (410) and a material receiving box (420);

Wherein the first rail groove (210) is matched with the automatic feeding mechanism (410), and the second rail groove (310) is matched with the automatic feeding mechanism (410).

2. The automatic discharging cooling device for bellows production according to claim 1, wherein the water cooling mechanism (200) comprises:

a cold water tank (220);

a lifting mechanism (230) which is matched with the cold water tank (220);

a first side plate (240) connected to the cold water tank (220);

A first nozzle (250) connected to the first side plate (240);

a water pump (260) connected between the cold water tank (220) and the first spray head (250);

A rotating roller (270) including a first motor (271) and a bracket (272);

wherein the bracket (272) is connected with the first side plate (240).

3. The automatic discharging cooling device for bellows production according to claim 2, wherein the lifting mechanism (230) comprises:

A liquid level sensor (231);

The first lifting baffle (232) comprises a chain (235), a second spray head (236) and a rubber sealing strip (237);

A gear (233) which cooperates with the chain (235);

A second motor (234) connected to the gear (233);

Wherein the second spray head (236) is connected with the water pump (260).

4. A cooling device for producing corrugated pipe capable of automatically discharging according to claim 3, wherein said air cooling mechanism (300) comprises:

A second side plate (320) including a permanent magnet (321) and a first fan (322);

The second lifting baffle (330) comprises a power supply (331), a second fan (332), a refrigerating tube (333), an electromagnet (334) and a return spring (335);

The electromagnet (334) is connected with the reset spring (335), the electromagnet (334) is connected with the permanent magnet (321) after being electrified, and the power supply (331) is connected with the first fan (322), the second fan (332), the refrigerating tube (333) and the electromagnet (334).

5. The automatic discharging cooling device for bellows production according to claim 4, wherein the automatic feeding mechanism (410) comprises:

A guide plate (411) comprising a groove (413) and a water leakage hole (414);

a transfer rail (412) connected to the guide plate (411);

wherein the transfer rail (412) mates with the first rail groove (210) and the second rail groove (310).

6. The automatic discharging cooling device for bellows production according to claim 5, wherein the device body (100) further comprises:

And a support (110) which is arranged between the water cooling mechanism (200) and the air cooling mechanism (300).