RU170189U1 - Photopolymer sintering device - Google Patents

Abstract

The utility model relates to the field of stereolithographic prototyping. An image forming source, which is made in the form of a liquid crystal matrix, is located and rigidly fixed on the outside of the base of the container with a photopolymer. The inner surface of the container has a release coating. The technical result is an increase in the accuracy and volume of growing the model. 1 ill.

Description

The utility model relates to the field of stereolithographic prototyping, in particular to a method for forming parts by curing a photopolymer through a wave action.

A device for sintering powder is known (patent RU 2141887, IPC B22F 3/105, publ. 11/27/1999), which contains a laser that generates an output beam to a gate controlled by a signal through a wire, a thermal detector for determining the temperature of the powder near the sintering zone, a sintering control circuit , means for transmitting feedback signals from the detector and means for controlling the power of the laser beam.

The disadvantages of the known device are the large dimensions of the connected nodes, the difficulty in manufacturing, as well as the high cost of the design.

Closest to the claimed technical solution is a laser stereolithographic installation (patent RU 2269416, IPC ВС 41/02, publ. 02/10/2006), which contains a tank filled with a liquid photopolymerizing composition (FPK), a platform, a device for vertical movement of the platform, a level sensor FPK , computer control system, thermostat and surface leveling system FPK. The imaging source is a laser, an acousto-optical modulator, located between the laser and the optical system for scanning a laser beam.

However, the design of the stereolithographic installation is complex, there are a large number of moving parts, which does not provide high precision parts. Also, the device is very expensive and difficult to manufacture.

The technical task of the proposed solution is to create a simple design of small size.

The technical result, which is achieved using the proposed solution, is to increase the accuracy and volume of growing the model.

The technical result is achieved in that in a device for curing a photopolymer, including an image forming source and a capacitance for a photopolymer, according to the proposed solution, the image forming source is made in the form of a fixed liquid crystal matrix, under which a light source is located, and the photopolymer capacitance is removable with a release coating and is located above the liquid crystal matrix, while the light source is fixed on the guide axes using drives, set updated with the ability to move along the grid.

The drawing shows a General view of the device.

The device consists of a removable tank 1 with photopolymer 2. The removable tank 1 is located above the liquid crystal matrix 3 (LCD matrix), which is fixed motionless.

The device operates as follows. An image is displayed on the LCD matrix 3, thereby allowing some crystals in the LCD matrix 3 to open, others to remain in a closed state. The light source is fixed on the guide axes with the help of drives installed with the possibility of movement along the coordinate grid. Light of a certain wavelength from the light source, passing through the open crystals of the LCD matrix 3, enters the tank 1 with photopolymer 2, forms the first image layer in the tank 1 with photopolymer. The frozen layer of photopolymer 2 has the form that was displayed on the LCD matrix 1. Next, the following layers are formed, the cycle is repeated until the entire model is built in layers.

Thus, while minimizing the cost of manufacturing equipment, a reduction in the dimensions of the device and an increase in the quality (accuracy) and volume of model growth are achieved.

Claims (1)

A device for curing a photopolymer, including an image forming source and a capacitance for a photopolymer, characterized in that the image forming source is made in the form of a fixed liquid crystal matrix, under which a light source is located, and the photopolymer container is removable with a release coating and is located above the liquid crystal matrix, while the light source is fixed on the guide axes with the help of drives mounted with the possibility of movement along the coordinate etke.

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