DE202015105827U1 - The improved construction of a thermal laminating machine - Google Patents

Abstract

The characteristic feature of the improved construction of a thermal laminating machine is that it comprises a left support frame 3. At the top of the right side of the left support frame 3 is provided with a cyliner-shaped heating tube 1. Under the heating tube 1 a Lamierwelle 4 is provided, under which in turn a paper guide 5 is provided. On the right side of the heating tube 1, the Lamierwelle 4 and the paper guide 5, a right supporting frame 2 is provided. At the top of the right support frame 2, a rod for preventing the jam 6 is provided. Symmetrically to the right side of the right support frame 2, a gear 7 is provided. On the surface of the right side of the gear 7, a nagative Polfederplatte 8 is provided. In the gear 7, a positive pole spring plate 9 is provided. On the right side of the negative pole spring plate 8, a negative spring 10 is provided. On the right side of the positive pole spring plate 9, a positive pole spring 11 is provided. On the right side of the gear 7, a spring cap 12 is provided.

Description

The improved construction of a thermal laminating machine

Technical area

The present novelty is a laminating machine, particularly the improved construction of a thermal laminating machine.

The state of the art

The positive pole spring plate and the negative pole spring plate in the conventional laminating machine are made of flat stainless steel. Generally, they are in a long square shape and they are mounted in the hole of the laminator thermal lamination shaft. The hole of the thermal lamination shaft is made of either iron or aluminum. The iron lamination shaft has a round hole in which the long square-shaped heater is mounted. No complete contact between the heating surfaces and the inner wall of the round hole can be made, so that the rapidity of the heating effect and the uniformity of the heat transfer are not sufficient, whereby the effect of lamination can not be even. The lamination shaft made of aluminum differs in two different ways. One of them has a round hole with the same effect as with an iron lamination wave. Furthermore, the strength of the aluminum lamination shaft is insufficient. To increase the thickness, the diameter of the laminating shaft must be increased. But the heat transfer slows down as the diameter of the lamination shaft increases. To supply the necessary heat sufficiently, more energy must be consumed, which increases the cost. In another type of laminating aluminum shaft, the hole is long square, in which the long square-shaped heater can be directly attached. But with this lamination wave, the distance between the heat source and the surface of the thermal lamination wave is uneven, so the lamination effect may not be ideal either. To achieve a better lamination effect, more heat has to be generated, which also consumes more energy, which also causes higher costs. Furthermore, the positive and negative pole spring plate must be soldered with power wire so that they can be supplied with power. This work process also requires additional costs and labor.

The object of the invention

 To overcome the shortcomings of the conventional art, the improved construction of the thermal laminating machine is provided.

The present novelty is carried out by the following technique:
The present novelty includes a left support frame. At the top of the right side of the left support frame is provided with a heating tube. Under the heating tube a Lamierwelle is provided, under which in turn a paper guide is provided. On the right side of the heating tube, the Lamierwelle and the paper guide a right support frame is provided. Upper on the right support frame, a rod is provided to prevent the jam. Symmetrically to the right side of the right support frame, a gear is provided. On the surface of the right side of the gear a nagative Polfederplatte is provided. In the gear a positive pole spring plate is provided. On the right side of the negative pole spring plate, a negative pole spring is provided. On the right side of the positive pole spring plate, a positive pole spring is provided. On the right side of the gear a spring cap is provided.

In the preferred embodiment of the present invention, the positive and negative pole spring plates are in the form of a semicircle and made of aluminum wire.

In the preferred embodiment of the present invention, the heating tube is cylindrical.

In the preferred embodiment of the present invention, the paper guide is connected to each of the left and right support frames and fixed thereto by means of the screws.

 In the preferred embodiment of the present invention, the thermal lamination shaft is made of iron.

In comparison with the conventional technique, the present novelty has the following advantages and favorable effects:
The conventional flat positive and negative pole spring plate made of stainless steel are replaced by semicircular positive and negative pole spring plate made of aluminum wires in the present novelty. The heating tube is cylindrical, so that the heat transfer can rather be more uniform (the heat loss is smaller, whereby the energy can be saved), with a thinner iron Lamierwelle can be used directly. The diameter of the Lamierwelle is smaller, the cost of the raw material is cheaper. The construction is simpler and more efficient, while the handling is easier, safer and more reliable.

Brief description of the drawings

1 is the schematic representation of the construction of the present novelty.

2 is the schematic exploded view of the construction of the present novelty.

Ways to carry out the invention

1 is the schematic representation of the construction of the present novelty.

The present novelty includes a left support frame 3 , At the top of the right side of the left support frame 3 is with a cyliner heating tube 1 intended. Under the heating tube 1 is a Lamier shaft made of iron 4 provided under the turn a paper guide 5 is provided. At the right side of the heating tube 1 , the Lamierwelle 4 and the paper guide 5 is a right support frame 2 intended. The paper guide 5 is each with left and right support frame 3 . 2 connected and fastened with the help of screws. At the top of the right support frame 2 is a pole to prevent congestion 6 intended. Symmetrical to the right side of the right support frame 2 is a gear 7 intended. On the surface of the right side of the gear 7 is a nagative pole spring plate 8th intended. In the gear 7 is a positive pole spring plate 9 intended. The positive and negative pole spring plate 9 . 8th are semi-circular and made of aluminum wire. At the right side of the negative pole spring plate 8th is a negative pole spring 10 intended. At the right side of the positive pole spring plate 9 is a positive pole spring 11 intended. At the right side of the gear 7 is a spring cap 12 intended.

In the concrete application, the cylindrical heater of the lamination machine is fixed by clamping two semicircular aluminum material (instead of the conventional flat electric pole plate) and then wound and enclosed with high-insulation film. The heat source of the heater is cylindrical. The heater is plugged into the iron thermal lamination shaft, which is also cylindrical, so that the heater and the thermal lamination shaft can fit together properly and well. The thermal lamination wave 4 is mounted between the two support racks. At the same time, the paper guide 5 attached and fastened with screws. The respective gear 7 the negative pole spring plate 8th and the positive pole spring plate 9 is on each of the two thermal lamination 4 appropriate. The negative pole spring plate 8th and the positive pole spring plate 9 and the two aluminum electrical pole plates each completely attach to the negative pole spring 10 and positive pole spring 11 and each with the gear 7 connected so that the negative pole spring plate 8th and the positive pole spring plate 9 have complete contact. Turns the thermal lamination shaft 4 , can the gear 7 , the negative pole spring plate 8th and the positive pole spring plate 9 to be taken for turning. The negative pole spring 10 and the positive pole spring 11 have static contact with the pole spring plate. However, they conduct the current to the pole spring plate by rubbing. The spring cap is fastened by means of the screws, whereby the negative pole spring 10 and the positive pole spring 11 are also completely attached.

Claims (5)

The characteristic feature of the improved construction of a thermal laminating machine is that it is a left support frame 3 includes. At the top of the right side of the left support frame 3 is with a cyliner heating tube 1 intended. Under the heating tube 1 is a Lamier wave 4 provided under the turn a paper guide 5 is provided. At the right side of the heating tube 1 , the Lamierwelle 4 and the paper guide 5 is a right support frame 2 intended. At the top of the right support frame 2 is a pole to prevent congestion 6 intended. Symmetrical to the right side of the right support frame 2 is a gear 7 intended. On the surface of the right side of the gear 7 is a nagative pole spring plate 8th intended. In the gear 7 is a positive pole spring plate 9 intended. At the right side of the negative pole spring plate 8th is a negative spring 10 intended. At the right side of the positive pole spring plate 9 is a positive pole spring 11 intended. At the right side of the gear 7 is a spring cap 12 intended. The characteristic feature of the improved construction of a thermal laminating machine according to claim 1 is characterized in that the positive and negative pole spring plate 9 . 8th semi-circular and made of aluminum wire. The characteristic feature of the improved construction of a thermal laminating machine according to claim 1 is characterized in that the heating tube 1 is cylindrical. The characteristic feature of the improved construction of a thermal laminating machine according to claim 1 is characterized in that the paper guide 5 using the screws each with the left support frame 3 and right support frame 2 connected and attached to it. The characteristic feature of the improved construction of a thermal laminating machine according to claim 1 is characterized in that the thermal laminating shaft 4 made of iron.

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