CN-117583199-B - Automatic gluing equipment and method for glass

CN117583199BCN 117583199 BCN117583199 BCN 117583199BCN-117583199-B

Abstract

The invention belongs to the technical field of gluing, and particularly relates to automatic gluing equipment and a gluing method for glass. The automatic gluing equipment for the glass comprises a supporting component, a moving component, an air pump component, a gluing component and a preheating mechanism, wherein the air pump component is arranged at one end of the moving component, the preheating mechanism comprises a preheating body and four preheating components, each preheating component comprises a plurality of preheating structures and a glue outlet preheating structure, and each preheating structure and the glue outlet preheating structure respectively comprise a fixed rod, a stretching piece and a circular friction plate. The movable component is used for moving to the position of gluing, the air pump component is used for extruding glue and blowing towards the preheating body in the preheating mechanism, the gluing component is used for gluing objects, the preheating structure of the preheating mechanism and the glue outlet preheating structure are used for heating the glue in the gluing component, and the friction plate is used for rubbing the wall surface of the preheating body, so that the temperature of the gluing component is increased and the temperature of the glue is increased.

Inventors

LIN SEN
YIN PAN
XIANG ZHIMING
CHEN YINGFA

Assignees

广东天新工程玻璃有限公司

Dates

Publication Date: 20260505
Application Date: 20231128

Claims (10)

1. The utility model provides an automatic rubber coating equipment of glass, a serial communication port, including supporting component (10), moving component (20), air pump subassembly (30), rubber coating subassembly (40) and preheating mechanism (50), moving component (20) are installed in the top one end of supporting component (10), air pump subassembly (30) are installed in the one end of moving component (20), rubber coating subassembly (40) are installed on the lateral wall of moving component (20), preheating mechanism (50) are installed in the inside of rubber coating subassembly (40), preheating mechanism (50) include preheating body (51) and four preheating component (52), preheating body (51) are installed in the inside of rubber coating subassembly (40), four preheating component (52) are all installed in the inside of preheating body (51), each preheating component (52) include a plurality of preheating structure (53) and play gluey preheating structure (54), a plurality of preheating structure (53) and play gluey preheating structure (54) are all installed in the inside of preheating body (51), and play gluey preheating structure (54) are located the below of a plurality of preheating structure (53), each preheating structure (53) and play gluey structure (54) include that fixed friction plate (55) are all installed in the inside of fixed friction plate (55), the upper end of the stretching piece (56) is fixedly connected with the bottom of the fixing rod (55), the top of the friction plate (57) is fixedly connected with the lower end of the stretching piece (56), the friction plate (57) is in sliding contact with the inside of the preheating body (51), a plurality of air outlet holes (570) are formed in the top of the friction plate (57), and each air outlet hole (570) penetrates through the upper end face and the lower end face of the friction plate (57); Through the air pump assembly towards the inside blowing of the preheating body, the air flow blown out by the air pump assembly enters the preheating body to form a pushing air flow F1, when the pushing air flow F1 is pushed against the friction plate, one part of air flow is piled up between the friction plate and the air pump assembly, the other part of air flow enters the next preheating structure through the air outlet hole, the speed of the air flow flowing into the next preheating structure through the air outlet hole is smaller than that of the air flow blown out by the air pump assembly, the pushing air flow F1 piled up between the friction plate and the air pump assembly is increased, the pushing air flow F1 can push against the friction plate to move downwards, the friction plate can downwards rub the wall surface of the preheating body, heat is generated, and the generated heat is used for heating glue in the gluing assembly.
2. The automatic glass gluing device according to claim 1, wherein the supporting component (10) comprises a supporting piece (11) and a clamp piece (12), the clamp piece (12) is fixedly arranged at the top of the supporting piece (11), the clamp piece (12) is electrically connected with the supporting piece (11), the supporting piece (11) comprises a supporting body (13), an operating disc (14), an emergency stop button (15) and a first switch (16), the operating disc (14) is fixedly inserted into the end part of the supporting body (13), the emergency stop button (15) is arranged at one end of the side wall of the operating disc (14), and the first switch (16) is arranged at the other end of the side wall of the operating disc (14).
3. The automatic glass coating equipment according to claim 2, wherein the clamp member (12) comprises a first slide rail (17), a clamp (18) and glass (19), the first slide rail (17) is fixedly arranged at the top of the supporting body (13), the clamp (18) is slidably arranged at the top of the first slide rail (17), and the clamp (18) is electrically connected with the supporting member (11).
4. The automatic glass gluing device according to claim 3, wherein the moving assembly (20) comprises a 冂 -shaped moving support rod (21), a moving part (22) and a demonstrator (23), the moving support rod (21) is fixedly arranged at the top of one end of the support body (13) far away from the operating panel (14), the moving part (22) is arranged on the side wall of the moving support rod (21), and the demonstrator (23) is arranged at the end of one end of the moving support rod (21).
5. The automatic glass coating equipment according to claim 4, wherein the moving member (22) comprises a second sliding rail (24), a sliding block (25), an inverted L-shaped moving block (26) and a moving belt (27), the second sliding rail (24) is fixedly arranged on the side wall of one side of the moving bracket rod (21), the sliding block (25) is slidably arranged in the second sliding rail (24), the side wall of the lower end of the moving block (26) is fixedly connected with the sliding block (25), the moving belt (27) is arranged on the side wall of the other side of the moving bracket rod (21), and the moving belt (27) is fixedly connected with the upper end of the moving block (26).
6. The automatic glass gluing device according to claim 5, wherein the air pump assembly (30) comprises a control member (31) and an air pump member (32), the control member (31) is fixedly installed at the end part of the other end of the movable support rod (21), the air pump member (32) moves the side wall of the support rod (21), and the air pump member (32) is electrically connected with the control member (31).
7. The automatic glass coating equipment according to claim 6, wherein the control member (31) comprises a control body (33), a pressure dial plate (34), a pressure adjusting knob (35) and a pressure switch power supply (36), wherein the control body (33) is fixedly arranged at one end of the movable bracket rod (21), the pressure dial plate (34) is fixedly arranged at the upper end of the side wall of the control body (33), the pressure adjusting knob (35) is arranged at the middle part of the side wall of the control body (33), and the pressure switch power supply (36) is arranged at the lower end of the side wall of the control body (33).
8. The automatic glass gluing device according to claim 7, wherein the gluing assembly (40) comprises a fixing piece (41), a glue barrel (42) and a glue outlet pipe (43), the fixing piece (41) is fixedly arranged on the side wall of the moving block (26), the glue barrel (42) is inserted into the fixing piece (41), glue is contained in the glue barrel (42), the glue outlet pipe (43) is arranged at the bottom of the glue barrel (42), the preheating body (51) is arranged in the glue barrel (42), and the top of the glue barrel (42) is connected with the air pump (32) through an air pipe.
9. The automatic glass coating apparatus according to claim 8, wherein the tension member (56) comprises a memory alloy (560) and a tension spring (561), an upper end of the memory alloy (560) is fixedly connected to a bottom of the fixing rod (55), an upper end of the tension spring (561) is fixedly connected to a lower end of the memory alloy (560), and a lower end of the tension spring (561) is fixedly connected to the friction plate (57).
10. An automatic glass coating method, characterized in that an automatic glass coating apparatus as claimed in claim 9 is used, said coating method comprising the steps of: The method comprises the steps of S1, clamping glass (19) on a clamp (18), adjusting the pressure of a control piece (31), starting a first switch (16) of a support piece (11), enabling the clamp (18) to clamp the glass (19) and move towards the lower side of a movable bracket rod (21), enabling a movable belt (27) to drive a movable block (26) and a sliding block (25) to move towards one side of the clamp (18), and enabling a gluing assembly (40) to move downwards to glue the glass (19) when the gluing assembly (40) reaches the upper side of the glass (19); Step S2, when the rubber outlet pipe (43) moves towards the glass (19), the air pump (32) presses towards the inside of the rubber barrel (42), glue in the rubber barrel (42) is extruded to flow out of the rubber barrel (43), when the air pump (32) presses towards the inside of the rubber barrel (42), the air pump (32) can also blow towards the inside of the preheating body (51), air flow blown out by the air pump (32) enters the preheating body (51) to form a pushing air flow F1, when the pushing air flow F1 pushes against the friction plate (57), a part of air flow is accumulated between the friction plate (57) and the air pump (32) to push against the friction plate (57) to move downwards, the friction plate (57) is stretched by the stretching spring, so that the friction plate (57) can rub the wall surface of the preheating body (51) downwards, heat is further generated, the generated heat is used for heating the glue in the rubber barrel (42), the other part of the air flow enters the preheating body (51) to form a pushing air flow F1, when the pushing air flow F1 pushes against the friction plate (57), and the friction plate (53) generates heat on the wall surface of the preheating body (53) to heat the glue in the preheating body (53); Step S3, after glue is coated on glass (19), the glue coating assembly (40) moves upwards, the control piece (31) is closed, the air pump (32) stops pressing, the glue returns to the glue barrel (42), meanwhile, the air pump (32) stops blowing air to the preheating body (51), the pushing air flow F1 finally flows out of the air outlet hole (570) of the glue outlet preheating structure (54), the tension spring (561) is restored, the friction plate (57) rubs the wall surface of the preheating body (51) upwards, so that the wall surface of the preheating body (51) generates heat, the generated heat is used for heating the glue in the glue barrel (42), and after the next glue coating position is moved, the control piece (31) of the air pump assembly (30) is started and is always damaged until the glue coating is finished; Step S4, after the glue coating assembly (40) coats the glue for a period of time, the temperature of the wall surface of the preheating body (51) rises, the temperature of glue in the glue barrel (42) rises, the memory alloy (560) of the glue outlet preheating structure (54) is heated and contracted, the friction plate (57) rubs the position of the preheating body (51) to be higher, and meanwhile, the pushing airflow F1 flowing out of the air outlet hole (570) of the glue outlet preheating structure (54) can also blow away dust adhered on the glass (19).

Description

Automatic gluing equipment and method for glass Technical Field The invention relates to the technical field of gluing, in particular to automatic gluing equipment and a gluing method for glass. Background The automatic glass gluing equipment is a machine specially used for coating glue or adhesive on the surface of glass, and generally consists of a gluing machine, a conveying system and a control system, and is widely applied to the fields of glass manufacturing, building industry, automobile industry and the like. The automatic glass gluing equipment in the current stage cannot automatically improve the viscosity of glue when being started, and cannot remove dust of a gluing object. Disclosure of Invention Based on this, it is necessary to provide an automatic glass gluing device and a gluing method, so as to solve at least one of the above technical problems. The utility model provides an automatic rubber coating equipment of glass, including supporting component, moving component, air pump assembly, rubber coating subassembly and preheating mechanism, moving component installs in the top one end of supporting component, air pump assembly installs in the one end of moving component, rubber coating subassembly installs on moving component's lateral wall, preheating mechanism installs in the inside of rubber coating subassembly, preheating mechanism includes preheating body and four preheating components, the inside in the rubber coating subassembly is installed to the preheating body, four preheating components all install in the inside of preheating body, every preheating component includes a plurality of preheating structure and play gluey preheating structure, a plurality of preheating structure and play gluey preheating structure all install in the inside of preheating body, and play gluey preheating structure is located a plurality of preheating structure's below, every preheating structure and play gluey preheating structure all include the dead lever, tensile piece and circular shape friction plate, dead lever fixed mounting is in the inside of preheating body, the upper end and the bottom fixed link to each other of dead lever of friction plate, the top and the lower extreme fixed link to each other of tensile piece, and the friction plate slidingly support in the inside of preheating body, a plurality of ventholes have been seted up at the top of friction plate, the upper and lower terminal surface of every venthole runs through the friction plate. The movable component is used for moving to the position of gluing, the air pump component is used for extruding glue and blowing towards the preheating body in the preheating mechanism, the gluing component is used for gluing objects, the preheating structure of the preheating mechanism and the glue outlet preheating structure are used for heating the glue in the gluing component, and the friction plate is used for rubbing the wall surface of the preheating body, so that the temperature of the gluing component is increased and the temperature of the glue is increased. Preferably, the support assembly comprises a support member and a clamp member, the clamp member is fixedly arranged at the top of the support member, the clamp member is electrically connected with the support member, the support member comprises a support body, an operating panel, an emergency stop button and a first switch, the operating panel is fixedly inserted into the end of the support body, the emergency stop button is arranged at one end of the side wall of the operating panel, and the first switch is arranged at the other end of the side wall of the operating panel. Preferably, the clamp piece comprises a first slide rail, a clamp and glass, wherein the first slide rail is fixedly arranged at the top of the supporting body, the clamp is slidably arranged at the top of the first slide rail, and the clamp is electrically connected with the supporting piece. Preferably, the movable assembly comprises 冂 -shaped movable bracket rods, movable pieces and a demonstrator, wherein the movable bracket rods are fixedly arranged at the top of one end of the supporting body, which is far away from the operating panel, the movable pieces are arranged on the side walls of the movable bracket rods, and the demonstrator is arranged at the end part of one end of each movable bracket rod. Preferably, the moving member comprises a second sliding rail, a sliding block, an inverted L-shaped moving block and a moving belt, wherein the second sliding rail is fixedly arranged on the side wall of one side of the moving support rod, the sliding block is slidably arranged in the second sliding rail, the side wall of the lower end of the moving block is fixedly connected with the sliding block, the moving belt is arranged on the side wall of the other side of the moving support rod, and the moving belt is fixedly connected with the upper end of the moving block. Preferably, the air pump component comprise