APPLIED CONSTRUCTIVE HEAD LAYOUT FOR STRUCTURAL GLAZING SYSTEM

Abstract

Refers to the present invention, a device (1) that will be fabricated with appropriate material, with several dimensions, to be adapted to a computerized numeric platform, for the structural glazing process, which is a technique of fixing the glass and the frame, through application of the high adhesion double-sided tape between them, the structure remains hidden on the inner side, in two basic steps, one being application and cutting of the high adhesion double-sided tape over the glass sheet, and the other is (applying) correct pressure on them, for the purpose of replacing the current manual process.

Claims

1) APPLIED CONSTRUCTIVE HEAD LAYOUT FOR STRUCTURAL GLAZING SYSTEM constituted for being a device (1) that will be fabricated with appropriate material, in several dimensions, to be adapted to a computerized numeric control platform, for structural glazing process, with the purpose of replacing the manual process that is currently being used and it is characterized by having an upper part, a lower part and an internal part, constituted by the following parts: centralizing flange washer (2); Cylinder fixing base (3); bronze bushing of the main neck of the head (4); cylinder body (5); core shaft of the head (6), cylinder shaft (7); upper polypropylene roller shaft 34 (8); lower polypropylene roller shaft 35 (9); rubber roller shaft 33 (10) smooth traction roller shaft 38 (11); traction roller shaft 37 (12); tape roll holder shaft (13); step motor gear (14); gear of the smooth traction roller shaft 38 (15); gear of the rubber traction roller shaft 33 and smooth traction roller gear 38 (16); air gripper 1 (17); air gripper 2 (18); centralizing flange of the tape roll (19); tape guide 1 (20); tape guide 2 (21); tape guide 3 (22); cutting blade of the cylinder shaft tip (23); side 1 (24); side 2 (25); step motor (26); main neck of the head (27); limiting pin of the tape guide 3 (28); air system part 1 (29); air system part 2 (30); air system part 3 (31); side bearing 1 and 2 (32); rubber roller (33); upper polypropylene roller (34); lower polypropylene roller (35); roll guide (36); traction roller (37); smooth traction roller (38); tape stand 1 side 1 (39); tape stand 1 side 2 (40); lower pipe bracket of the core shaft of the head (41); upper pipe bracket 1 of the core shaft of the head (42); step motor stand 1 (43); step motor stand 2 (44); cylinder lid (45); step motor protection lid (46) and transmission for the conveyor belt with 49 teeth (47);

2) APPLIED CONSTRUCTIVE HEAD LAYOUT FOR STRUCTURAL GLAZING SYSTEM according to the claim 1) the upper part is characterized by comprising of the upper polypropylene roller shaft 34 (8); tape roll holder shaft (13); step motor gear (14); centralizing flange of the tape roll (19); step motor (26); upper polypropylene roller (34); tape stand 1 side 1 (39); tape stand 1 side 2 (40); upper pipe bracket 1 of the core shaft of the head (42) and step motor protection lid (46);

3) APPLIED CONSTRUCTIVE HEAD LAYOUT FOR STRUCTURAL GLAZING SYSTEM according to the claim 1) the lower part is characterized by comprising of the centralizing flange washer (2); Cylinder fixing base (3); cylinder body (5); cylinder shaft (7); lower polypropylene roller shaft 34 (9); rubber roller shaft 33 (10); smooth traction roller shaft 38 (11); gear of the smooth traction roller shaft 38 (15); gear of the rubber traction roller shaft 33 and smooth traction roller gear 38 (16); tape guide 1 (20); tape guide 2 (21); tape guide 3 (22); cutting blade of the cylinder shaft tip (23); side 1 (24); side 2 (25); limiting pin of the tape guide 3 (27); rubber roller (33); lower polypropylene roller (35); smooth traction roller (38); lower pipe bracket of the core shaft of the head (41); cylinder lid (45); smooth traction roller shaft 37 (12); side bearing 1 and 2 (32); roll guide (36) and traction roller (37);

4) APPLIED CONSTRUCTIVE HEAD LAYOUT FOR STRUCTURAL GLAZING SYSTEM according to the claim 1) the core part is characterized by comprising of bronze bushing of the main neck of the head (4); head of the core shaft (6); air gripper 1 (17); air gripper 2 (18); main neck of the head (27); air system part 2 (30) step motor stand 1 (43); step motor stand 2 (44); transmission for the conveyor belt with 49 teeth (47); air system part 1 (29) and air system part 3 (31).

5) APPLIED CONSTRUCTIVE HEAD LAYOUT FOR STRUCTURAL GLAZING SYSTEM according to the claim 1 characterized by initiating the operation of the first stage of the device (1), every time by the operator, through the numeric command with coordinates x, y and z inserted in the computerized platform, insert the high adhesion double-sided tape between the tape roller of the centralizing flanges (19), position the rubber roller (33) leaning against a surface, it is then automatically pushed and mechanically moves through the traction roller gears (37) and (38) pulling the adhesive tape that is going to be fixed, which is determined by the operator himself, there the pneumatic cylinder (5) cuts the tape, using the cutting blade of the cylinder shaft tip (23) and the rubber roller (33) is pushed further to position the tape for the next one to be fixed, then the entire device lifts up and is ready to be positioned again and start the whole process

6) APPLIED CONSTRUCTIVE HEAD LAYOUT FOR STRUCTURAL GLAZING SYSTEM according to the specification 1 characterized by initiating the operation of the second stage of the device (1), every time by the operator, through the numeric command with coordinates x, y and z inserted in the computerized platform, without the high adhesion tape, the device itself (1) will press both parts that have been bonded by the tape, fixing them permanently, running only through the specific path determined by the coordinates

Description

[0012] The operation of the first stage of the device (1), this invention object, is started every time by the operator, using the numeric command, with x, y and z coordinates, inserted on the computerized platform, inserts the high adhesion double-sized tape between the tape roller of the centralizing flanges (19), position the rubber roller (33) leaning against a surface, it is, then automatically pushed and mechanically moves through the traction roller gears (37) and (38) pulling the adhesive tape that is going to be fixed, which is determined by the operator himself, then the pneumatic cylinder (5) cuts the tape, using the cutting blade of the cylinder shaft tip (23) and the rubber roller (33) is then pushed further to position the tape for the next one to be fixed, then the entire device lifts up and is ready to be positioned again and start the whole process.

[0013] The operation of the second stage of the device (1), this invention object, is started every time by the operator, using the numeric command with x, y and z coordinates inserted in the computerized platform, this time without the high adhesion tape, the said device (1) will press both parts that have been bonded by the tape, fixing them permanently, running only through the specific path determined by the coordinates

[0014] Based on researches done, we described and illustrated the device (1) and we conclude that it has technical, constructive and functional features of originality and novelty, which are not found in the technical industry, fitting in the criteria that define an Invention Patent, therefore being a new practical and efficient solution for the structural glazing process.