CN214605866U - Winding pipe cooler setting device - Google Patents

Abstract

The utility model relates to the technical field of winding pipe cooling, in particular to a shaping device of a winding pipe round pipe cooler, wherein a movable die mechanism comprises a steel bar and two sliding die assemblies; the sliding module assemblies are symmetrically arranged on the left side and the right side of the steel bar; the guide rail extends along the transverse direction of the belt conveying line; the guide rail and the sliding block are used in a matching way; the slide block is embedded into the guide rail; the inclined distance is gradually increased along with the distance from one end of the parallel section; a cooling mechanism is arranged below the belt conveying line; the cooling mechanism is arranged between two dies of the same movable die mechanism; the cooling mechanism comprises a condenser and a plurality of cooling fans; the heat radiation fans are arranged in a staggered mode. Use the utility model discloses the time, this structure can realize plastic and cooling through the direct contact of mould with the pipe, shortens the cooling time and the cooling distance of pipe, reduces cooling arrangement occupation space.

Description

Winding pipe cooler setting device

Technical Field

The utility model relates to a winding pipe cooling technology field, in particular to winding pipe cooler setting device.

Background

The HDPE hollow wall winding pipe is a structural wall pipe made of high-density polyethylene serving as a raw material by adopting a thermal state winding forming process, and in order to ensure the quality of the wound pipe, the extruded pipe needs to be cooled and shaped before winding; the existing method adopts a water cooling mode to directly cool and then air-dries before winding, and the cooling mode needs longer cooling lines and air ducts, occupies larger space, and does not reshape pipes, thereby influencing the surface quality of wound products.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a winding pipe cooler setting device to prior art's defect with not enough.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model relates to a winding pipe round pipe cooler shaping device, which comprises a belt conveying line; a plurality of movable die mechanisms are fixed on the outer side surface of the belt conveying line; the movable die mechanisms are arranged along the length direction of the belt conveying line; the movable die mechanism comprises a steel bar and two sliding die assemblies; the sliding die assemblies are symmetrically arranged on the left side and the right side of the steel bar; the sliding die assembly comprises a die, a roller, a guide rail and a sliding block; the guide rail is fixed on the outer side surface of the belt conveying line; the guide rail extends along the transverse direction of the belt conveying line; the guide rail is matched with the sliding block for use; the sliding block is embedded into the guide rail; a spring is fixed on the sliding block; the tail end of the spring is pressed on the steel bar; the die is fixed on the sliding block; a roller is arranged at the back of the die; the left side and the right side of the belt conveying line are both provided with a stop lever; the gear lever consists of a parallel section and two inclined sections; the two inclined sections are symmetrically arranged at two ends of the parallel section; the parallel section is parallel to the conveying direction of the belt conveying line; the distance between the inclined section and the belt conveying line is an inclined distance; the inclined distance is gradually increased along with the distance from one end of the parallel section; a cooling mechanism is arranged below the belt conveying line; the cooling mechanism is arranged between two dies of the same movable die mechanism; the cooling mechanism comprises a condenser and a plurality of cooling fans; the heat radiation fans are arranged in a staggered mode.

Further, the die consists of a shaping die and a fixed seat; the fixed seat is fixed on the sliding block; the shaping die is provided with a guide groove; the fixed seat is provided with a convex block matched with the guide groove; the lug is inserted into the guide groove; the fixed seat is in threaded connection with a screw; a tooth groove is formed in the shaping die; the nail tip of the screw is inserted into the tooth groove.

Further, the die cavity of the shaping die is a shaping die cavity; the cross section of the shaping die cavity is in a semicircular shape.

After the structure is adopted, the utility model discloses beneficial effect does: the utility model relates to a winding pipe round pipe cooler shaping device, a plurality of movable die mechanisms are fixed on the outer surface of a belt conveying line; the movable die mechanisms are arranged along the length direction of the belt conveying line; the movable die mechanism comprises a steel bar and two sliding die assemblies; the sliding module assemblies are symmetrically arranged on the left side and the right side of the steel bar; the sliding die assembly comprises a die, a roller, a guide rail and a sliding block; the guide rail is fixed on the outer side surface of the belt conveying line; the guide rail extends along the transverse direction of the belt conveying line; the guide rail and the sliding block are used in a matching way; the slide block is embedded into the guide rail; a spring is fixed on the sliding block; the tail end of the spring is pressed on the steel bar; the die is fixed on the sliding block; a roller is arranged at the back of the die; the left side and the right side of the belt conveying line are both provided with a stop lever; the gear lever consists of a parallel section and two inclined sections; the two inclined sections are symmetrically arranged at two ends of the parallel section; the parallel section is parallel to the conveying direction of the belt conveying line; the distance between the inclined section and the belt conveying line is an inclined distance; the inclined distance is gradually increased along with the distance from one end of the parallel section; a cooling mechanism is arranged below the belt conveying line; the cooling mechanism is arranged between two dies of the same movable die mechanism; the cooling mechanism comprises a condenser and a plurality of cooling fans; the heat radiation fans are arranged in a staggered mode. When the utility model is used, when the same movable mould mechanism is not pressed by the stop lever, the two moulds are separated by a certain distance due to the acting force of the spring; when the molds are conveyed to the lower part of the belt conveying line, the two molds of the same movable mold mechanism are separated from each other by a certain distance, so that the cooling mechanism can enter between the two molds of the same movable mold mechanism; the airflow generated by the cooling fan is cooled at the position of the condenser and then blown onto the surface of the mold, so that the surface of the mold is cooled; the mold moves along with the belt conveying line, when the mold moves above the belt conveying line, the rollers on the mold are gradually contacted with the inclined sections, the two molds of the same movable mold mechanism synchronously move in opposite directions through the inclined sections on the left side and the right side of the belt, and when the rollers are contacted with the parallel sections, the two molds on the two sides are closed to shape and cool the pipe blank; the structure can realize shaping and cooling through the direct contact of the die and the tube blank, shorten the cooling time and the cooling distance of the tube blank, and reduce the occupied space of cooling equipment.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a schematic structural view of a mold;

FIG. 4 is a schematic view of the lever;

description of reference numerals:

1. a mold; 101. shaping the die; 101a, a guide groove; 101b, a tooth groove; 102. a fixed seat;

102a, a bump; 2. a gear lever; 201. an inclined section; 202. a parallel segment; 3. a roller; 4. a guide rail;

5. a belt conveyor line; 6. a slider; 7. a heat radiation fan; 8. a condenser; 9. a steel belt; 10. a spring;

11. a screw; A. and (5) tube blanks.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 4, the shaping device for a round pipe cooling machine of a winding pipe of the present invention comprises a belt conveyor 5; the belt conveying line 5 consists of a conveying belt, a driving wheel and a driven wheel, wherein the driving wheel and the driven wheel are tensioned on the conveying belt; a plurality of movable die mechanisms are fixed on the outer side surface of the belt conveying line 5; the movable die mechanisms are arranged along the length direction of the belt conveying line 5; the movable die mechanism comprises a steel bar 9 and two sliding die assemblies; the sliding module assemblies are symmetrically arranged at the left side and the right side of the steel bar 9; the sliding die assembly comprises a die 1, a roller 3, a guide rail 4 and a sliding block 6; the guide rail 4 is fixed on the outer side surface of the belt conveying line 5; the guide rail 4 extends in the transverse direction of the belt conveyor line 5; the guide rail 4 is matched with the sliding block 6 for use; the sliding block 6 is embedded into the guide rail 4; a spring 10 is fixed on the sliding block 6; the tail end of the spring 10 is pressed on the steel bar 9; the die 1 is fixed on the sliding block 6; a roller 3 is arranged at the back of the die 1; the left side and the right side of the belt conveyor line 5 are both provided with a stop lever 2; the gear lever 2 consists of a parallel section 202 and two inclined sections 201; two inclined sections 201 are symmetrically arranged at two ends of the parallel section 202; the parallel section 202 is parallel to the conveying direction of the belt conveying line 5; the distance between the inclined section 201 and the belt conveying line 5 is an inclined distance; the slant distance gradually increases as it is away from the end of the parallel section 202; a cooling mechanism is arranged below the belt conveying line 5; the cooling mechanism is arranged between the two dies 1 of the same movable die mechanism; the cooling mechanism comprises a condenser 8 and a plurality of cooling fans 7; the heat radiation fans 7 are arranged in a staggered manner; the gear rod 2, the belt conveying line 5, the cooling fan 7 and the condenser 8 are all fixed on an external rack, and the condenser 8 can refrigerate and is not detailed as the essential difference with the prior art is avoided; when the same movable die mechanism is not pressed by the stop lever 2, the two dies 1 are separated by a certain distance due to the acting force of the spring 10; when the molds 1 are conveyed to the position below the belt conveying line 5, the two molds 1 of the same movable mold mechanism are separated from each other by a certain distance, so that the cooling mechanism can enter between the two molds 1 of the same movable mold mechanism; the air flow generated by the cooling fan 7 is cooled at the position of the condenser 8 and then blown onto the surface of the mold 1, so that the surface of the mold 1 is cooled; the die 1 moves along with the belt conveying line 5, when the die 1 moves above the belt conveying line 5, the rollers 3 on the die 1 gradually contact the inclined sections 201, the two dies 1 of the same movable die mechanism synchronously move in opposite directions through the inclined sections 201 on the left side and the right side of the belt, and when the rollers 3 contact the parallel sections 202, the dies 1 on the two sides are closed to shape and cool the tube blank A; the structure can realize shaping and cooling through the direct contact of the die 1 and the tube blank A, shorten the cooling time and the cooling distance of the tube blank A, and reduce the occupied space of cooling equipment.

As a preferred mode of the present invention, the mold 1 is composed of a shaping mold 101 and a fixing seat 102; the fixed seat 102 is fixed on the slide block 6; a guide groove 101a is formed in the shaping die 101; the fixed seat 102 is provided with a convex block 102a matched with the guide groove 101 a; the projection 102a is inserted into the guide groove 101 a; a screw 11 is connected to the fixed seat 102 in a threaded manner; a tooth groove 101b is formed in the shaping die 101; the nail tip of the screw 11 is inserted into the tooth groove 101 b; the shaping die 101 and the fixed seat 102 are fixed by inserting the nail tip of the screw 11 into the tooth groove 101b, and when the shaping die 101 with different specifications needs to be replaced, the nail tip of the screw 11 only needs to be loosened from the tooth groove 101b for replacement.

As a preferred mode of the present invention, the cavity of the shaping mold 101 is a shaping cavity; the cross section of the shaping die cavity is in a semicircular shape.

When the utility model is used, when the same movable mould mechanism is not pressed by the stop lever, the two moulds are separated by a certain distance due to the acting force of the spring; when the molds are conveyed to the lower part of the belt conveying line, the two molds of the same movable mold mechanism are separated from each other by a certain distance, so that the cooling mechanism can enter between the two molds of the same movable mold mechanism; the airflow generated by the cooling fan is cooled at the position of the condenser and then blown onto the surface of the mold, so that the surface of the mold is cooled; the mold moves along with the belt conveying line, when the mold moves above the belt conveying line, the rollers on the mold are gradually contacted with the inclined sections, the two molds of the same movable mold mechanism synchronously move in opposite directions through the inclined sections on the left side and the right side of the belt, and when the rollers are contacted with the parallel sections, the two molds on the two sides are closed to shape and cool the pipe blank; the structure can realize shaping and cooling through the direct contact between the die and the tube blank, shorten the cooling time and the cooling route of the tube blank, and reduce the occupied space of cooling equipment; insert into the tooth's socket through the nail point of screw and make sizing die and fixing base fixed, when the sizing die of different specifications is changed to needs, only need the nail point of screw to loosen from the tooth's socket and can change.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (3)

1. The utility model provides a winding pipe cooler setting device which characterized in that: it comprises a belt conveying line (5); a plurality of movable die mechanisms are fixed on the outer side surface of the belt conveying line (5); the movable die mechanisms are arranged along the length direction of the belt conveying line (5); the movable die mechanism comprises a steel bar (9) and two sliding die assemblies; the sliding die assemblies are symmetrically arranged on the left side and the right side of the steel bar (9); the sliding die assembly comprises a die (1), a roller (3), a guide rail (4) and a sliding block (6); the guide rail (4) is fixed on the outer side surface of the belt conveying line (5); the guide rail (4) extends along the transverse direction of the belt conveying line (5); the guide rail (4) is matched with the sliding block (6) for use; the sliding block (6) is embedded into the guide rail (4); a spring (10) is fixed on the sliding block (6); the tail end of the spring (10) is pressed on the steel bar (9); the die (1) is fixed on the sliding block (6); a roller (3) is arranged at the back of the die (1); the left side and the right side of the belt conveying line (5) are both provided with a stop lever (2); the gear lever (2) consists of a parallel section (202) and two inclined sections (201); the two inclined sections (201) are symmetrically arranged at two ends of the parallel section (202); the parallel section (202) is parallel to the conveying direction of the belt conveying line (5); the distance between the inclined section (201) and the belt conveying line (5) is an inclined distance; the inclination distance is gradually increased along with the distance from one end of the parallel section (202); a cooling mechanism is arranged below the belt conveying line (5); the cooling mechanism is arranged between two dies (1) of the same movable die mechanism; the cooling mechanism comprises a condenser (8) and a plurality of radiating fans (7); the heat radiation fans (7) are arranged in a staggered mode.

2. The winding pipe round tube cooling machine setting device of claim 1, characterized in that: the die (1) consists of a shaping die (101) and a fixed seat (102); the fixed seat (102) is fixed on the sliding block (6); a guide groove (101 a) is formed in the shaping die (101); the fixed seat (102) is provided with a convex block (102 a) matched with the guide groove (101 a); the lug (102 a) is inserted into the guide groove (101 a); a screw (11) is connected to the fixed seat (102) in a threaded manner; a tooth groove (101 b) is formed in the shaping die (101); the tip of the screw (11) is inserted into the tooth groove (101 b).

3. The winding pipe round tube cooling machine setting device of claim 2, characterized in that: the die cavity of the shaping die (101) is a shaping die cavity; the cross section of the shaping die cavity is in a semicircular shape.

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