CN212711976U - Winding mechanism for producing and processing high-heat-insulation energy-saving explosion-proof membrane - Google Patents

Abstract

The utility model discloses a winding mechanism for producing and processing a high-heat-insulation energy-saving explosion-proof membrane, which comprises a winding table and baffles arranged on two sides of the winding table, wherein the lower surface of each baffle is fixedly welded on the upper surface of the winding table, two groups of guide roller mounting grooves, one group of smoothing roller shaft mounting grooves and one group of winding rotating shaft mounting grooves are formed in the plate body of each baffle, a first guide roller and a second guide roller are respectively arranged in the two groups of guide roller mounting grooves, a winding rotating shaft is arranged in each winding rotating shaft mounting groove, a motor support is fixedly welded on the side edge of the winding table, a motor A and a motor B are fixedly arranged on each motor support, and a rotor of the motor B is connected with; through setting up the roller of smoothing out, smooth out through its rotation to the die body surface of thermal-insulated membrane, then carry out the rolling work at the epaxial rolling cylinder of utilizing its rear rolling to roll, avoid thermal-insulated membrane surface folding phenomenon to avoid folding to be in the extrusion of rolling process and produce the crease.

Description

Winding mechanism for producing and processing high-heat-insulation energy-saving explosion-proof membrane

Technical Field

The utility model particularly relates to a winding mechanism of high thermal-insulated energy-conserving rupture membrane production and processing usefulness.

Background

By applying the novel IRI coating, the IR which cannot be reversed is reduced to enter the other side of the glass through absorption; the most advanced process achievement has the advantages that the energy-saving heat-insulation film is heat-insulation, energy-saving, safe, ultraviolet-resistant, anti-glare, capable of improving the building appearance and improving the indoor space aesthetic feeling, the energy-saving heat-insulation film blocks more than 50% of solar radiation heat in summer, prevents indoor heat from being dissipated and outflowing in winter, is warm in winter and cool in summer, and enables consumers to save high electric charge brought by air conditioner or heating power consumption, and the winding device is a device for winding the film body of the heat-insulation energy-saving explosion-proof film in the production process.

But do not have the device of smoothing out of special setting on traditional thermal-insulated membrane coiling mechanism to lead to appearing the membrane body at the roll membrane in-process and overlapping, thereby producing the crease, and thermal-insulated membrane pastes on the glass window usually, the planarization of its outward appearance is very important, and the crease of production just can influence the quality of product, for this reason the utility model aims to provide the winding mechanism of high thermal-insulated energy-conserving rupture of membranes production and processing usefulness, with the problem that provides in solving above-mentioned background art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's weak point, provide the winding mechanism of high thermal-insulated energy-conserving rupture membrane production and processing usefulness to reach the emergence that thermal-insulated membrane rolling in-process membrane body overlaps and produces the crease phenomenon.

In order to achieve the above object, the utility model provides a following technical scheme: a winding mechanism for producing and processing a high-heat-insulation energy-saving explosion-proof membrane comprises a winding table and baffle plates arranged on two sides of the winding table, wherein the winding table is a rectangular platform, supporting legs are arranged below the winding table, the supporting legs are provided with four parts, the baffle plates are a flat plate, the lower surface of a plate body of the winding table is fixedly welded on the upper surface of the winding table, two groups of guide roller mounting grooves, one group of smoothing roller shaft mounting grooves and one group of winding rotating shaft mounting grooves are formed in the plate body of the winding table, a first guide roller and a second guide roller are respectively mounted in the two groups of guide roller mounting grooves, a winding rotating shaft is mounted in the winding rotating shaft mounting grooves, a motor support is fixedly welded on the side edge of the winding table, a motor A and a motor B are fixedly mounted on the motor support, the motor A and the motor B are speed reducing, and a winding rotary shaft is provided with a winding roller, a clamping block is arranged on the winding rotary shaft, and the inner wall of the winding roller is provided with a clamping groove.

Preferably, the sizes and the models of the roll shafts of the first guide roll and the second guide roll are identical, and the two roll shafts are positioned in the same horizontal plane.

Preferably, smooth out the flat roller installation trench on the baffle and be located the second deflector roll directly over, rotate in its notch and install smooth out the flat roller, leave the gap before the lower extreme of smooth out the flat roller and the upper end of second deflector roll.

Preferably, one end of the smoothing roll shaft is connected with a rotor of the motor A through a transmission belt, a layer of wool cloth is glued on the surface of the shaft body, and the thickness of the wool cloth is matched with the size of a gap between the smoothing roll shaft and the second guide roller.

Preferably, the rotation direction of the contact surface of the smoothing roller shaft and the heat insulation film is opposite to the movement direction of the heat insulation film body.

Preferably, the rear of first deflector roll is provided with electron meter rice ware, electron meter rice ware is fixed on the baffle, and fixed welding has the crossbeam on the baffle of electron meter rice ware rear side, and the lower surface mounting of crossbeam has the laser cutting tool bit.

Compared with the prior art, the beneficial effects of the utility model are that:

1. by arranging the smoothing roll shaft, the surface of the die body of the heat insulation film is smoothed by the rotation of the smoothing roll shaft, and then the winding roll on the winding rotating shaft at the rear part of the smoothing roll shaft is used for winding, so that the surface of the heat insulation film is prevented from being folded, and the folding mark is prevented from being generated in the extrusion process of the folding position;

2. the surface of the smoothing roll shaft is connected with the wool cloth in an adhering mode, the wool cloth is not prone to generating static electricity, the thermal insulation film is prevented from being damaged due to the fact that the wool cloth is rubbed against the thermal insulation film relatively in the smoothing process, the fabric body is soft, and the phenomenon that the product quality is affected due to the fact that the wool cloth scratches the surface of the film body can be effectively avoided.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the heat insulation film of the present invention;

fig. 3 is a front view of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic view of the rolling shaft structure of the present invention;

figure 6 is the structure schematic diagram of the rolling roller of the utility model.

In the figure: the winding machine comprises a winding table 1, a baffle 2, a supporting leg 3, a first guide roller 4, a second guide roller 5, a smoothing roller shaft 6, a winding rotating shaft 7, a winding roller 8, a fixture block 9, a clamping groove 10, a motor support 11, a motor A12, a motor B13, an electronic meter counter 14, a cross beam 15 and a heat insulation film 16.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a winding mechanism for producing and processing a high-heat-insulation energy-saving explosion-proof membrane comprises a winding table 1 and baffle plates 2 arranged at two sides of the winding table 1, wherein the winding table 1 is a rectangular platform, supporting legs are arranged below the winding table, the number of the supporting legs is four, the baffle plates 2 are a flat plate, the lower surface of the plate body is fixedly welded on the upper surface of the winding table 1, two groups of guide roller mounting grooves, one group of smoothing roller shaft mounting grooves and one group of winding rotating shaft mounting grooves are formed in the plate body, a first guide roller 4 and a second guide roller 5 are respectively mounted in the two groups of guide roller mounting grooves, a winding rotating shaft 7 is mounted in the winding rotating shaft mounting groove, a motor support 11 is fixedly welded on the side edge of the winding table 1, an A motor 12 and a B motor 13 are fixedly mounted on the motor support 11, the A motor and the B motor are speed reducing motors, and the, and a winding rotary shaft 7 is provided with a winding roller 8, a clamping block 9 is arranged on the winding rotary shaft 7, and the inner wall of the winding roller 8 is provided with a clamping groove 10.

Furthermore, the sizes and the models of the roll shafts of the first guide roll 4 and the second guide roll 5 are identical, and the roll shafts are positioned in the same horizontal plane;

further, a smoothing roller mounting groove on the baffle 2 is positioned right above the second guide roller 5, a smoothing roller 6 is rotatably mounted in a notch of the baffle, a gap is reserved between the lower end of the smoothing roller 6 and the upper end of the second guide roller 5, the smoothing roller 6 is arranged, the surface of a die body of the heat insulation film 16 is smoothed through rotation of the smoothing roller 6, and then the winding roller 8 on a winding rotating shaft 7 behind the smoothing roller is used for winding, so that the surface of the heat insulation film 16 is prevented from being folded, and the folded part is prevented from being extruded in the winding process to generate creases;

furthermore, one end of the smoothing roller shaft 6 is connected with a rotor of the motor A12 through a transmission belt, a layer of wool cloth is glued on the surface of the shaft body, the thickness of the wool cloth is matched with the size of a gap between the smoothing roller shaft 6 and the second guide roller 5, the wool cloth is glued on the surface of the smoothing roller shaft 6, static electricity is not easily generated by the wool cloth, the thermal insulation film 16 is prevented from being damaged due to static electricity generated by relative friction with the thermal insulation film in the smoothing process, and the fabric body is soft, so that the influence on the quality of a product due to scratching of the surface of the film body can be effectively avoided;

furthermore, the rotating direction of the contact surface of the smoothing roller shaft 6 and the heat insulation film 16 is opposite to the moving direction of the film body of the heat insulation film 16, and the rotating direction of the contact surface of the smoothing roller shaft 6 and the heat insulation film 16 is opposite to the moving direction of the film body of the heat insulation film 16, so that the smoothing effect is enhanced;

furthermore, an electronic meter counter 14 is arranged behind the first guide roller 4, the electronic meter counter 14 is fixed on the baffle 2, a cross beam 15 is fixedly welded on the baffle on the rear side of the electronic meter counter 14, a laser cutting tool bit is installed on the lower surface of the cross beam 15, the length of the heat insulation film 16 is measured through the electronic meter counter 14, when the length is enough, the laser cutting tool bit is started to cut the heat insulation film so as to ensure the length of a product, and the laser cutting tool bit can improve the flatness of a cut;

the working principle is as follows: when in actual use, a worker firstly fixes the end part of the heat insulation film 16 on the winding roller 8, then the motor A12 and the motor B13 are started by switching on the power supply, the motor A12 drives the smoothing roller shaft 6 to smooth the surface of the heat insulation film, the surface of the smoothing roll shaft 6 is glued with a layer of wool cloth, the wool cloth is not easy to generate static electricity, the damage to the heat insulation film 16 caused by the static electricity generated by the relative friction with the heat insulation film in the smoothing process is avoided, the cloth body is soft, the influence on the quality of the product caused by scratching the surface of the film body can be effectively avoided, then the flattened heat insulation film 16 is wound on the winding roller 8 by driving the winding rotating shaft 7 through the motor B13, and carry out the measurement of thermal-insulated membrane 16 length through electron meter rice ware 14, when length is enough, the rethread starts laser cutting tool head and cuts thermal-insulated membrane can.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Winding mechanism of high thermal-insulated energy-conserving rupture membrane production and processing usefulness, including rolling platform (1) and baffle (2) of setting in rolling platform (1) both sides, its characterized in that: the winding table (1) is a rectangular platform, supporting legs (3) are arranged below the winding table, the supporting legs (3) are provided with four parts, the baffle (2) is a flat plate, the lower surface of the plate body is fixedly welded on the upper surface of the winding table (1), two groups of guide roller mounting grooves, one group of smoothing roller shaft mounting grooves and one group of winding rotating shaft mounting grooves are formed in the plate body, a first guide roller (4) and a second guide roller (5) are respectively mounted in the two groups of guide roller mounting grooves, a winding rotating shaft (7) is mounted in the winding rotating shaft mounting groove, a motor support (11) is fixedly welded on the side edge of the winding table (1), an A motor (12) and a B motor (13) are fixedly mounted on the motor support (11), the A motor and the B motor are speed reducing motors, and the rotor of the B motor (13) is connected with the shaft body of the winding rotating shaft (7, and a winding rotary shaft (7) is provided with a winding roller (8), the winding rotary shaft (7) is provided with a clamping block (9), and the inner wall of the winding roller (8) is provided with a clamping groove (10).

2. The winding mechanism for producing and processing the high-heat-insulation energy-saving explosion-proof membrane as claimed in claim 1, is characterized in that: the sizes and the models of the roll shafts of the first guide roll (4) and the second guide roll (5) are identical, and the two roll shafts are positioned in the same horizontal plane.

3. The winding mechanism for producing and processing the high-heat-insulation energy-saving explosion-proof membrane as claimed in claim 1, is characterized in that: smooth out roller mounting groove on baffle (2) is located second deflector roll (5) directly over, rotates in its notch and installs smooth out roller (6), leave the gap before the lower extreme of smooth out roller (6) and the upper end of second deflector roll (5).

4. The winding mechanism for producing and processing the high-heat-insulation energy-saving explosion-proof membrane as claimed in claim 3, wherein: one end of the smoothing roll shaft (6) is connected with a rotor of the motor A (12) through a transmission belt, the surface of the shaft body is glued with a layer of wool cloth, and the thickness of the wool cloth is matched with the size of a gap between the smoothing roll shaft (6) and the second guide roll (5).

5. The winding mechanism for producing and processing the high-heat-insulation energy-saving explosion-proof membrane as claimed in claim 3, wherein: the rotation direction of the contact surface of the smoothing roller shaft (6) and the heat insulation film (16) is opposite to the movement direction of the film body of the heat insulation film (16).

6. The winding mechanism for producing and processing the high-heat-insulation energy-saving explosion-proof membrane as claimed in claim 1, is characterized in that: the rear of first deflector roll (4) is provided with electron meter rice ware (14), electron meter rice ware (14) are fixed on baffle (2), and fixed welding has crossbeam (15) on the baffle of electron meter rice ware (14) rear side, and the lower surface mounting of crossbeam (15) has the laser cutting tool bit.

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