CN210161596U - Energy-saving inflation film manufacturing machine - Google Patents

Abstract

The utility model discloses an energy-saving inflation film manufacturing machine, including first guide roll and the coiling mechanism that uses with first guide roll cooperation, the coiling mechanism includes the second guide roll that sets up on base and the base and through the rolling axle of driving motor drive rotation, be equipped with non-plus power radiator unit between first guide roll and the second guide roll; non-plus power radiator unit includes two installation poles that set up side by side, and two installation poles pass through mounting and base rigid coupling, wherein are equipped with a plurality of parallel arrangement's heating panel between two installation poles, and every heating panel all sets up with two mounting panels are articulated, and the polylith heating panel is connected through the movable rod with installation pole parallel arrangement, and the movable rod all articulates with every heating panel, the movable rod passes through the connecting piece and is connected with driving motor, and driving motor rotates and drives movable rod reciprocating motion and make a plurality of heating panels reciprocating swing. The film can be subjected to heat dissipation treatment without an external power source due to the arrangement of the non-external power heat dissipation assembly, so that more energy is saved.

Description

Energy-saving inflation film manufacturing machine

Technical Field

The utility model belongs to the technical field of the film processing, concretely relates to energy-saving inflation film manufacturing machine.

Background

The film blowing machine is a working machine for heating and melting plastic particles and then blowing the plastic particles into a film, and mainly comprises an extruder, a machine head, a film head, a cooling device, a foam stabilizing frame, a herringbone plate, a traction roller, a winding device and the like.

As shown in fig. 1, when the film blowing machine works, dry plastic particles are introduced into an extruder 102 from a feed hopper 101, a screw feeding rod arranged in the extruder 102 carries out screw feeding along a direction far away from the feed hopper 101, the extruder 102 is provided with a heating component for continuously heating the plastic particles in the moving process until the plastic particles are in a molten state, the plastic in the molten state is filtered by a filtering device 103 arranged at the head of the extruder 102, and then is cooled and blown by an air ring 104, and a film 113 is wound up from a first drawing roller 105, a second drawing roller 106, a first guide roller 107, a second guide roller 108, a third guide roller 109, a pressing shaft 110 and a driving roller 111 to a winding shaft 112.

When the film blowing machine is installed, the thickness of the film can be adjusted by setting the distance between the overhead traction roller and the air ring, and the film is naturally cooled by setting the distance between the guide roller and the guide roller.

In the prior art, a targeted cooling device is not arranged to cool the produced film, the produced film is cooled by properly setting the distance between the first guide roller 107 and the second guide roller 108, and the production area occupation space of the film blowing machine is increased and the unfavorable beneficial production area is arranged due to the overlong distance between the first guide roller 107 and the second guide roller 108.

In order to solve the above problems, in the prior art, a blower is adopted to supply air, and the air flow between the first guide roller 107 and the second guide roller 108 is increased to achieve the purpose of cooling, so as to reduce the installation space occupation ratio of the film blowing machine. But the fan is adopted to provide power for cooling treatment, so that the noise pollution of the production environment (noise generated by a motor of the fan and noise generated by air flow) is increased, and the energy-saving production of the film blowing machine is not facilitated.

And, the winding device is a self-powered organic driving device, as shown in fig. 2, the winding device includes a second guide roller 13, a third guide roller 15, a pressing shaft 16, a driving roller 19, a winding shaft 20, and a motor, a third belt pulley 18 is disposed on an output shaft 11 of the motor, a fourth belt pulley 17 is also disposed on the driving roller 19, the third belt pulley 18 and the fourth belt pulley 17 are connected through a belt, the motor rotates to drive the driving roller 19 to rotate, the winding shaft 20 attached to the driving roller 19 rotates to wind, gears 21 rotatably connected to two ends of the winding shaft 20 are disposed, and the gears 21 are provided with racks 22 used in cooperation, so that the winding shaft can be conveniently pushed and pulled after the film collected on the winding shaft 20 becomes thick.

In summary, it is necessary to provide a film blowing machine capable of cooling a film drawn between a first guide roller 107 and a second guide roller 108 by directly using a power source of a winding device without an external power source.

SUMMERY OF THE UTILITY MODEL

To the not enough that exists among the prior art, the utility model provides an energy-saving inflation film manufacturing machine, the non-exogenic power radiator unit that this inflation film manufacturing machine set up just can carry out the heat dissipation processing to the film without exogenic source.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an energy-saving film blowing machine comprises a first guide roller and a winding device matched with the first guide roller, wherein the winding device comprises a base, a second guide roller arranged on the base and a winding shaft driven to rotate by a driving motor, and a non-external power heat dissipation assembly is arranged between the first guide roller and the second guide roller;

non-plus power radiator unit includes two installation poles that set up side by side, and two installation poles pass through mounting and base rigid coupling, wherein are equipped with a plurality of parallel arrangement's heating panel between two installation poles, and every heating panel all sets up with two mounting panels are articulated, and the polylith heating panel is connected through the movable rod with installation pole parallel arrangement, and the movable rod all articulates with every heating panel, the movable rod passes through the connecting piece and is connected with driving motor, and driving motor rotates and drives movable rod reciprocating motion and make a plurality of heating panels reciprocating swing.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model discloses the movable rod that sets up passes through the connecting piece and is connected with driving motor, make driving motor rotate and just can drive movable rod reciprocating motion, movable rod reciprocating motion drives a plurality of heating panels along its pin joint reciprocating motion with the installation pole, heating panel reciprocating motion makes the air produce the convection current, dispel the heat to the film of conduction between first guide roll and the second guide roll, make non-applied power radiator unit's setting just can carry out the heat dissipation processing to the film without external power source, the design is also very ingenious when the energy saving.

Drawings

FIG. 1 is a schematic structural diagram of a film blowing machine in the prior art;

FIG. 2 is a schematic view of a winding device in the prior art;

FIG. 3 is a schematic view of the rolling device of the present invention;

FIG. 4 is a diagram showing the relationship between the output shaft, the first pulley and the third pulley;

FIG. 5 is a diagram showing the fitting relationship between the connecting shaft, the second pulley, the rotating disc and the fixing block;

FIG. 6 is a top view of the installation rod and the heat sink plate of the present invention;

FIG. 7 is a side view of the mounting bar of the present invention;

fig. 8 is a schematic view of the structure of the end of the rotating shaft of the present invention;

fig. 9 is a schematic state diagram of the matching of the rotation axis and the positioning rod of the present invention.

In the figure, a first guide roller 1, a heat radiation plate 2, an installation rod 3, an installation through hole 31, a sliding groove 32, a movable rod 4, a bracket 5, a rotating rod 6, a second belt pulley 7, a base 8, a rotating disc 9, a fixed block 10, an output shaft 11, a first belt pulley 12, a second guide roller 13, a film 14, a third guide roller 15, a pressing shaft 16, a fourth belt pulley 17, a third belt pulley 18, a transmission roller 19, a winding shaft 20, a gear 21, a rack 22, a leveling wheel 23, a driving motor 24, a rotating shaft 25, a spring 251, a spherical sliding block 252, an annular sliding groove 253, an installation groove 254, a positioning rod 255, a positioning groove 256, a positioning protrusion 257 and a connecting shaft 26.

Detailed Description

As shown in fig. 3-9, the utility model relates to an energy-saving film blowing machine, which comprises a first guide roller 1 and a winding device matched with the first guide roller 1 for use, wherein the winding device comprises a base 8, a second guide roller 13 arranged on the base 8 and a winding shaft 20 driven to rotate by a driving motor 24, and a non-external power heat dissipation component is arranged between the first guide roller 1 and the second guide roller 13; non plus power radiator unit includes two installation poles 3 that set up side by side, and two installation poles 3 pass through mounting and 8 rigid couplings of base, wherein are equipped with a plurality of parallel arrangement's heating panel 2 between two installation poles 3, and every heating panel 2 all sets up with two mounting plates are articulated, and polylith heating panel 2 is connected through the movable rod 4 with installation pole 3 parallel arrangement, and movable rod 4 and every heating panel 2 are all articulated, movable rod 4 passes through the connecting piece and is connected with driving motor 24, and driving motor 24 rotates and drives 4 reciprocating motion of movable rod and make a plurality of heating panel 2 reciprocating oscillations. The utility model discloses movable rod 4 that sets up is connected with driving motor 24 through the connecting piece, make driving motor 24 rotate and just can drive 4 reciprocating motion of movable rod, 4 reciprocating motion of movable rod drive a plurality of heating panels 2 along its pin joint reciprocating swing with installation pole 3, 2 reciprocating swing of heating panel are that the air produces the convection current, dispel the heat to the film 14 of conduction between first guide roll 1 and the second guide roll 13, non-applied power radiator unit's setting just can carry out the heat dissipation to film 14 without the external power source, it is more energy-conserving. The utility model discloses the non-additional power radiator unit who sets up is in film 14 below.

For the cooperation installation of making things convenient for heating panel 2 and two installation poles 3, the utility model discloses the heating panel 2 that sets up is rectangular shaped plate, and the position that is close to its length side wall on the heating panel 2 is equipped with the axis of rotation 25 that runs through its length direction setting, and axis of rotation 25 erects to be connected with two installation poles 3 rotations between two installation poles 3, wherein axis of rotation 25 and heating panel 2 rigid couplings. The connection mode that adopts axis of rotation 25 with heating panel 2 and two installation poles 3 is convenient and fast more, for the dismantlement of convenient heating panel 2 and installation pole 3, as shown in fig. 8, both ends at axis of rotation 25 are provided with inside sunken mounting groove 254, the interpolation of mounting groove 254 is equipped with locating lever 255, be equipped with spring 251 between locating lever 255 and the mounting groove 254 tank bottom, spring 251 one end is connected with locating lever 255, the spring 251 other end is connected with globular sliding block 252, globular sliding block 252 sets up in the annular chute 253 of seting up in the mounting groove 254 tank bottom. Each mounting rod 3 is provided with a sliding groove 32 which is opened along the length of the other mounting rod 3 at the opposite side of the other mounting rod 3, and the bottom of the sliding groove 32 is uniformly provided with mounting through holes 31. To facilitate the installation of the heat dissipation plate 2 and the installation rods 3, as shown in fig. 9, the positioning protrusions 257 are disposed on the positioning rods 255, the positioning grooves 256 are disposed on the rotation shafts 25, when the fitting relationship between the positioning protrusions 257 and the positioning grooves 256 is as shown in (a) of fig. 9, the springs 251 are in a compressed state, the ends of the two positioning rods 255 on each rotation shaft 25 are respectively clamped in the two sliding grooves 32 to slide therein, when the rotation shaft 25 slides to the preset installation through holes 31, the positioning rods 255 are rotated to make the fitting relationship between the positioning protrusions 257 and the positioning grooves 256 as shown in (b) of fig. 9, so that the positioning rods 255 can enter the corresponding installation through holes 31, and the heat dissipation plate 2 and the two installation rods 3 are hinged. As shown in fig. 3, the lower end of the heat dissipation plate 2 is hinged to the two mounting rods 3 to increase the swing angle of the heat dissipation plate 2, so as to accelerate the air flow.

For making things convenient for being connected of movable rod 4 and polylith heating panel 2, also make things convenient for movable rod 4, a plurality of heating panel 2 and installation pole 3's demountable installation, the utility model discloses a movable rod 4 sets up at polylith heating panel 2 same short lateral wall position, and every heating panel 2 all is connected with movable rod 4 through the activity bolt.

Because the utility model discloses set up two installation poles 3 that set up side by side, for convenient two installation poles 3 and base 8 be connected fixedly, the mounting includes the H shape support 5 of two vertical settings, support 5 lower extreme and base 8 rigid couplings, two installation poles 3 are connected with two vertical sections of support 5 respectively.

For increasing the radiating effect of non-additional power radiator unit to film 14, the utility model discloses set up the parallel first guide roll 1 of installation pole 3 sets up with 13 connecting wires of second guide roll. As shown in fig. 3, the mounting rod 3 is obliquely arranged and the inclined lower end is connected with the vertical section of the bracket 5.

The utility model discloses the power drive of the non-plus power radiator unit who sets up is the driving motor 24 of coiling mechanism from the area to the energy-conservation of inflation film manufacturing process is fallen and is made an uproar, is connected for movable rod 4 and driving motor 24 for being convenient for, the utility model discloses the connecting piece has been set up, the connecting piece is including fixing the first belt pulley 12 on driving motor 24's output shaft 11, first belt pulley 12 is connected with second belt pulley 7 through the belt, and second belt pulley 7 is through the coaxial rotating disc 9 that is equipped with of connecting axle 26, and rotating disc 9 eccentric position articulates there is dwang 6, and dwang 6 is articulated with movable rod 4, and connecting axle 26 passes through fixed block 10 and is connected with base 8, and connecting axle 26 rotates with fixed block 10 to be.

Drive motor 24 work drives its output shaft 11 and rotates, output shaft 11 rotates and drives the rotation of the coaxial first belt pulley 12 that sets up, first belt pulley 12 rotates and drives second belt pulley 7 and rotate, second belt pulley 7 rotates and drives the rotating disc 9 of coaxial setting and rotate, rotating disc 9 rotates and drives dwang 6 and remove, dwang 6 removes and drives movable rod 4 reciprocating motion, movable rod 4 reciprocating motion drives polylith heating panel 2 along its pin joint reciprocating motion with installation pole 3, heating panel 2 reciprocating motion drives the air flow of film 14 below and dispels the heat to film 14.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (6)

1. The utility model provides an energy-saving inflation film manufacturing machine, includes first guide roll and the coiling mechanism who uses with first guide roll cooperation, the coiling mechanism includes the second guide roll that sets up on base and the base and through driving motor drive pivoted rolling axle, its characterized in that: a non-external power heat dissipation assembly is arranged between the first guide roller and the second guide roller;

non-plus power radiator unit includes two installation poles that set up side by side, and two installation poles pass through mounting and base rigid coupling, wherein are equipped with a plurality of parallel arrangement's heating panel between two installation poles, and every heating panel all sets up with two mounting panels are articulated, and the polylith heating panel is connected through the movable rod with installation pole parallel arrangement, and the movable rod all articulates with every heating panel, the movable rod passes through the connecting piece and is connected with driving motor, and driving motor rotates and drives movable rod reciprocating motion and make a plurality of heating panels reciprocating swing.

2. The energy-saving film blowing machine of claim 1, characterized in that: the heating panel is rectangular shaped plate, and the position that is close to its long lateral wall on the heating panel is equipped with the axis of rotation that runs through its length direction and set up, and the axis of rotation erects to be connected with two installation poles are rotated between two installation poles.

3. The energy-saving film blowing machine according to claim 2, characterized in that: the movable rod sets up the same short lateral wall position at the polylith heating panel, and every heating panel all is connected with the movable rod through movable bolt.

4. The energy-saving film blowing machine according to claim 3, characterized in that: the fixing piece comprises two vertically arranged H-shaped supports, the lower ends of the supports are fixedly connected with the base, and the two mounting rods are respectively connected with the two vertical sections of the supports.

5. The energy-saving film blowing machine of claim 4, characterized in that: the installation rod is parallel to the connecting line of the first guide roller and the second guide roller.

6. The energy-saving film blowing machine according to any one of claims 1 to 5, characterized in that: the connecting piece is including setting up the first belt pulley on driving motor's output shaft, first belt pulley is connected with the second belt pulley through the belt, and the second belt pulley passes through the coaxial rotating disc that is equipped with of connecting axle, and rotating disc eccentric position articulates there is the dwang, and the dwang is articulated with the movable rod, and the connecting axle passes through fixed block and pedestal connection, and the connecting axle rotates with the fixed block to be connected.

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