CN216993011U - Polyethylene core pipe shaping cooling jacket - Google Patents

Abstract

The utility model provides a polyethylene core pipe design cooling jacket, includes the basin, tank deck face interval connection has two solid fixed rings, two be connected with the connecting rod between the solid fixed ring, the connecting rod is connected with a plurality ofly, two along solid fixed ring circumference evenly distributed on the interval be provided with two sets of adjustable cooling body between the solid fixed ring, the cooling body bottom is connected inside the basin, and is two sets of be provided with the reposition of redundant personnel mechanism of dispersible rivers between the cooling body, reposition of redundant personnel mechanism cup joints in the connecting rod lateral wall, every a set of reposition of redundant personnel mechanism has all been cup jointed to the connecting rod lateral wall. After the core pipe enters the cooling sleeve, the water is sprayed to the surface of the core pipe by using one group of cooling mechanisms for cooling, then the water flow on the surface of the core pipe is dispersed by using the flow dividing mechanism on each connecting rod, so that the water flow can be uniformly distributed on the surface of the core pipe for cooling, and then the surface of the core pipe is cooled again by using the other group of cooling mechanisms, thereby improving the efficiency and the effect of cooling and shaping the core pipe.

Description

Polyethylene core pipe shaping cooling jacket

Technical Field

The utility model belongs to the technical field of polyethylene composite pipe processing equipment, and particularly relates to a polyethylene core pipe shaping cooling jacket.

Background

The polyethylene composite pipe is mainly based on a core pipe, and then other composite materials are fused on the outer side of the core pipe to form the polyethylene composite pipe with higher strength and quality; in the production of the core tube, polyethylene resin is subjected to melt extrusion molding, and then the extruded core tube is cooled and shaped;

when the core pipe is cooled, cold water is usually sprayed on the surface of the core pipe directly for cooling, but generally, after the cold water is sprayed on the surface of the core pipe, water flow is easy to gather and flows down in a strand, so that the local area on the surface of the core pipe is free from cold water adhesion, and the cooling effect on the core pipe is reduced.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a polyethylene core tube shaping cooling jacket, which has the following specific technical scheme:

the utility model provides a polyethylene core pipe design cooling jacket, includes the basin, tank deck face interval connection has two solid fixed rings, two be connected with the connecting rod between the solid fixed ring, the connecting rod is connected with a plurality ofly, two along solid fixed ring circumference evenly distributed on the interval be provided with two sets of adjustable cooling body between the solid fixed ring, the cooling body bottom is connected inside the basin, and is two sets of be provided with the reposition of redundant personnel mechanism of dispersible rivers between the cooling body, reposition of redundant personnel mechanism cup joints in the connecting rod lateral wall, every a set of reposition of redundant personnel mechanism has all been cup jointed to the connecting rod lateral wall.

Furthermore, cooling body includes ring joint frame, inlet tube, leads and spouts subassembly and supporting component, the inside embedding of ring joint frame is fixed with leads spouts the subassembly, it has the inlet tube to lead to spout subassembly one side through connection, one section through connection of inlet tube is in ring joint frame lateral wall, ring joint frame bottom side is fixed with the supporting component, the supporting component is connected in the basin inside.

Furthermore, the cooling mechanism further comprises a baffle ring, the baffle ring is fixed on the side wall of the annular joint frame, and the annular joint frame is formed by closing two semicircular ring structures.

Furthermore, it includes diversion ring and goes out the water shower nozzle to lead to spout the subassembly, inside diversion ring embedding was fixed in the ring joint frame, the inside drainage channel who sets up the loop configuration of diversion ring, link up between the inside and inlet tube of drainage channel, set up flutedly to the diversion ring inner wall, the inside water shower nozzle that can atomize and adjust that is fixed with of recess, it is provided with a plurality ofly to go out the water shower nozzle, the inside water channel that is used for communicateing drainage channel and play water shower nozzle of seting up of diversion ring.

Further, the supporting component comprises a supporting column, a sliding rod and a fixing knob, a sliding port is formed in the water tank, the sliding rod is inserted into the sliding port in a sliding mode, the two ends of the sliding rod are connected with the fixing knob, the supporting column is vertically fixed to the side of the sliding rod, and the top end of the supporting column is connected with the annular connecting frame.

Further, reposition of redundant personnel mechanism includes air pump, deep bead, branch flow block and the shower nozzle of giving vent to anger, the air pump cup joints in the connecting rod lateral wall, the air pump bottom surface is fixed with branch flow block, branch flow block bottom surface is connected with the shower nozzle of giving vent to anger, divide the inside air outlet channel who is used for through connection air pump and the shower nozzle of giving vent to anger of offering of flow block, the shower nozzle of giving vent to anger is provided with a plurality ofly, it has the deep bead to divide flow block lateral wall to articulate, the deep bead is provided with two about the vertical central line symmetry of branch flow block.

The utility model has the beneficial effects that: after the core pipe enters the cooling jacket, the water spray cooling is firstly carried out on the surface of the core pipe by utilizing one group of cooling mechanisms, then the water flow on the surface of the core pipe is dispersed by utilizing the flow dividing mechanism on each connecting rod, so that the water flow can be uniformly distributed on the surface of the core pipe for cooling, and then the surface of the core pipe is cooled again by utilizing the other group of cooling mechanisms, thereby improving the efficiency and the effect of cooling and shaping the core pipe.

Drawings

FIG. 1 is a schematic diagram showing the overall structure of a polyethylene core tube sizing cooling jacket according to the present invention;

FIG. 2 shows a cross-sectional view of the overall internal structure of the present invention;

FIG. 3 shows a cross-sectional view of a partially enlarged structure at A of the present invention;

FIG. 4 is a schematic view of the support assembly of the present invention in connection with a sink and an articulating frame;

FIG. 5 is a cross-sectional view of the structure of the pilot nozzle assembly of the present invention;

FIG. 6 shows a schematic structural view of the shunt mechanism of the present invention;

shown in the figure: 1. a water tank; 11. a sliding interface; 2. a fixing ring; 3. a connecting rod; 4. a cooling mechanism; 41. a baffle ring; 42. a ring joint frame; 43. a water inlet pipe; 44. a spray guide assembly; 441. a drainage channel; 442. a flow guide ring; 443. a water outlet channel; 444. a water outlet nozzle; 445. a groove; 45. a support assembly; 451. a support pillar; 452. a slide bar; 453. fixing the knob; 5. a flow dividing mechanism; 51. an air pump; 52. a wind deflector; 53. a shunting block; 54. an air outlet nozzle; 541. an air outlet channel; 6. and a core tube.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

A polyethylene core tube shaping cooling jacket comprises a water tank 1, wherein the top surface of the water tank 1 is connected with two fixing rings 2 at intervals, a connecting rod 3 is connected between the two fixing rings 2, the connecting rod 3 is uniformly distributed and connected with a plurality of fixing rings 2 along the circumference, two groups of adjustable cooling mechanisms 4 are arranged between the two fixing rings 2 at intervals, the bottom end of each cooling mechanism 4 is connected inside the water tank 1, a shunting mechanism 5 capable of dispersing water flow is arranged between the two groups of cooling mechanisms 4, the shunting mechanisms 5 are sleeved on the side walls of the connecting rod 3, and a group of shunting mechanisms 5 are sleeved on the side wall of each connecting rod 3;

after the core pipe enters the cooling jacket, the water spray cooling is firstly carried out on the surface of the core pipe by utilizing one group of cooling mechanisms, then the water flow on the surface of the core pipe is dispersed by utilizing the flow dividing mechanism on each connecting rod, so that the water flow can be uniformly distributed on the surface of the core pipe for cooling, and then the surface of the core pipe is cooled again by utilizing the other group of cooling mechanisms, thereby improving the efficiency and the effect of cooling and shaping the core pipe.

As shown in fig. 2 and 3, the cooling mechanism 4 includes an annular frame 42, a water inlet pipe 43, a spray guiding assembly 44, and a support assembly 45, the spray guiding assembly 44 is embedded and fixed in the annular frame 42, the water inlet pipe 43 is connected to one side of the spray guiding assembly 44, a section of the water inlet pipe 43 is connected to a side wall of the annular frame 42 in a penetrating manner, the support assembly 45 is fixed to a bottom side of the annular frame 42, and the support assembly 45 is connected to the inside of the water tank 1.

As shown in fig. 3 and 4, the cooling mechanism 4 further includes a blocking ring 41, the blocking ring 41 is fixed on a side wall of the ring joint frame 42, and the ring joint frame 42 is formed by closing two semicircular ring structures; adopt the annular joint frame that two semicircle ring closures formed, can relieve the fixed back that keeps off the ring again and separate, the embedding of being convenient for is fixed and is being connected the inside guide of frame and spout the subassembly and assemble and change, can change the equipment and adapt to the lead of core pipe diameter size and spout the subassembly, easy operation is convenient.

As shown in fig. 3 and 5, the guiding and spraying assembly 44 includes a guiding ring 442 and a water outlet nozzle 444, the guiding ring 442 is embedded and fixed inside the annular frame 42, a drainage channel 441 with an annular structure is formed inside the guiding ring 442, the interior of the drainage channel 441 is connected with the water inlet pipe 43 in a through manner, a groove 445 is formed on the inner wall of the guiding ring 442, an adjustable water outlet nozzle 444 is fixed inside the groove 445, the water outlet nozzle 444 is provided in plural, and a water outlet passage 443 for communicating the drainage channel 441 and the water outlet nozzle 444 is formed inside the guiding ring 442;

the rivers that will advance in the water pipe enter into the inside back of annular structure's drainage channel, spout in following the water spray head via a water outlet channel again, wherein the water spray head is adjusting the back through the degree of atomization to water, can spray the core pipe surface with water more dispersedly, guarantees the cooling effect to the core pipe.

As shown in fig. 2 and 4, the supporting assembly 45 includes a supporting column 451, a sliding rod 452 and a fixing knob 453, the inside of the sink 1 is provided with a sliding interface 11, the sliding rod 452 is inserted into the sliding interface 11 in a sliding manner, both ends of the sliding rod 452 are connected with the fixing knob 453, the supporting column 451 is vertically fixed on the side of the sliding rod 452, and the top end of the supporting column 451 is connected with the loop frame 42;

the position of the slide rod is adjusted through the moving strip in the water tank, so that the spacing distance between the two groups of cooling mechanisms and the flow dividing mechanism is adjusted, and the cooling interval time can be adjusted.

As shown in fig. 2 and 6, the flow dividing mechanism 5 includes an air pump 51, a wind shield 52, a flow dividing block 53 and an air outlet nozzle 54, the air pump 51 is sleeved on the side wall of the connecting rod 3, the flow dividing block 53 is fixed on the bottom surface of the air pump 51, the air outlet nozzle 54 is connected on the bottom surface of the flow dividing block 53, an air outlet channel 531 for connecting the air pump 51 and the air outlet nozzle 54 in a penetrating manner is formed in the flow dividing block 53, the air outlet nozzle 54 is provided with a plurality of air outlet nozzles, the wind shield 52 is hinged on the side wall of the flow dividing block 53, and two wind shields 52 are symmetrically arranged about the vertical central line of the flow dividing block 53;

the air pump is used for dispersing the water flow on the surface of the core pipe through the air outlet channel in the flow dividing block and the air outlet nozzle, so that the cooling effect of the water flow on the core pipe is improved; under the blocking action of the wind shield, the time of the blown cold air staying on the surface of the core pipe is increased, and the cooling effect of the flow dividing mechanism on the core pipe is further improved.

In the practice of the present invention, the catalyst is,

firstly, the interval position and the cooling mode of the two groups of cooling mechanisms 4 on the water tank 1 are adjusted according to the figures 2-4, the fixing knob 453 is loosened through rotation, the slide rod 452 is pushed to slide in the sliding interface 11, the ring-connected frame 42 slides on the connecting rod 3 in a guiding way, then the water outlet nozzles 444 in the two groups of cooling mechanisms 4 are adjusted, the water outlet nozzles 444 are all used for atomizing water flow, the water outlet nozzle 444 of one group of cooling mechanisms 4, into which the core pipe 6 firstly enters, is adjusted to be in a state of directly spraying water flow, and the water outlet nozzle 444 of the other group of cooling mechanisms 4 is adjusted to be in a state of spraying water mist;

then, the core tube 6 is firstly arranged into a group of cooling mechanisms 4 according to the fig. 1-6, cold water is guided into the drainage channel 441 in the diversion ring 442 through the water inlet tube 43 and then is sprayed out from the water outlet nozzle 444 through the water outlet channel 443, the cold water is directly sprayed on the surface of the core tube 6, and the cold water flows through the surface of the core tube 6 to take away heat and flows downwards into the water tank 1 for recycling;

then the core tube 6 sprayed with the supercooled water is conveyed to reach the position of the shunting mechanism 5, then the air pump 51 of the shunting mechanism 5 on each connecting rod 3 is started, the air pump 51 is utilized to enable sucked cold air to enter the air outlet channel 531 inside the shunting block 53, then the cold air is sprayed out from the air outlet nozzle 54 to blow away the cold water on the surface of the core tube 6, so that the cold water is more uniformly attached to the surface of the core tube 6 for a longer time to be cooled, the cold air is fully circulated on the surface of the core tube 6 under the action of the two wind shields 52, the blowing-away effect of the cold air on the cold water can be improved, and the air cooling effect can also be achieved on the surface of the core tube 6;

finally, the core tube 6 is conveyed to the inside of the other group of cooling mechanisms 4, water is conveyed to the water outlet nozzle 444 as same as the previous group of cooling mechanisms 4, and the adjusted water outlet nozzle 444 atomizes and sprays water flow and is uniformly attached to the surface of the core tube 6, because the temperature of the core tube 6 is reduced after water cooling and air cooling, the atomized water flow only needs to be sprayed on the core tube 6, so that a good cooling effect can be achieved, and the spraying amount of the water flow is reduced.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. The utility model provides a polyethylene core pipe design cooling jacket which characterized in that: including basin (1), basin (1) top surface interval connection has two solid fixed ring (2), two be connected with connecting rod (3) between solid fixed ring (2), connecting rod (3) are connected with a plurality ofly along solid fixed ring (2) circumference evenly distributed, two the interval is provided with two sets of adjustable cooling body (4) between solid fixed ring (2), cooling body (4) bottom is connected inside basin (1), and is two sets of be provided with reposition of redundant personnel mechanism (5) of dispersible rivers between cooling body (4), reposition of redundant personnel mechanism (5) cup joint in connecting rod (3) lateral wall, every connecting rod (3) lateral wall has all cup jointed a set of reposition of redundant personnel mechanism (5).

2. The polyethylene core tube sizing cooling jacket as claimed in claim 1, wherein: cooling body (4) including ring joint frame (42), inlet tube (43), lead spout subassembly (44) and supporting component (45), the inside embedding of ring joint frame (42) is fixed with leads and spouts subassembly (44), it has inlet tube (43) to lead spout subassembly (44) one side through connection, inlet tube (43) one end through connection is in ring joint frame (42) lateral wall, ring joint frame (42) bottom side is fixed with supporting component (45), supporting component (45) are connected inside basin (1).

3. The polyethylene core sizing cooling jacket according to claim 2, wherein: the cooling mechanism (4) further comprises a baffle ring (41), the baffle ring (41) is fixed on the side wall of the annular joint frame (42), and the annular joint frame (42) is formed by closing two semicircular rings.

4. The polyethylene core sizing cooling jacket according to claim 3, wherein: the guide spraying assembly (44) comprises a guide ring (442) and a water outlet spray head (444), the guide ring (442) is embedded and fixed inside the annular connection frame (42), a drainage channel (441) of an annular structure is formed inside the guide ring (442), the drainage channel (441) is communicated with the water inlet pipe (43), a groove (445) is formed in the inner wall of the guide ring (442), the water outlet spray head (444) capable of being adjusted in an atomized mode is fixed inside the groove (445), the water outlet spray heads (444) are multiple in number, and a water outlet channel (443) used for communicating the drainage channel (441) with the water outlet spray head (444) is formed inside the guide ring (442).

5. The polyethylene core tube sizing cooling jacket as claimed in claim 2, wherein: support assembly (45) include support column (451), slide bar (452) and fixed knob (453), inside smooth interface (11) of having seted up of basin (1), slide bar (452) slide and peg graft inside smooth interface (11), slide bar (452) both ends all are connected with fixed knob (453), slide bar (452) side vertical fixation has support column (451), support column (451) top links to each other with circumferential joint frame (42).

6. The polyethylene core tube sizing cooling jacket as claimed in claim 1, wherein: reposition of redundant personnel mechanism (5) are including air pump (51), deep bead (52), branch stream block (53) and air outlet nozzle (54), air pump (51) cup joint in connecting rod (3) lateral wall, air pump (51) bottom surface is fixed with branch stream block (53), branch stream block (53) bottom surface is connected with air outlet nozzle (54), divide stream block (53) inside offer be used for link up air pump (51) and air outlet nozzle (54) give vent to anger passageway (531), air outlet nozzle (54) are provided with a plurality ofly, branch stream block (53) lateral wall articulates there is deep bead (52), deep bead (52) are provided with two about dividing the vertical central line symmetry of stream block (53).

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