CN114673434B - Manufacturing equipment for glass embedded wooden door - Google Patents

Abstract

The invention relates to the technical field of wooden door production, in particular to manufacturing equipment for embedding glass into a wooden door, which replaces manual work for embedding glass into the wooden door, reduces labor intensity and has high working efficiency; including platform, activity centre gripping frame, positioning mechanism, the slip table, two pressure equipment mechanisms, two portal, the square frame, two actuating mechanism, the roll-over plate and upset stop gear, activity centre gripping frame movable mounting is at the right part of platform, slip table slidable mounting is on the platform, pressure equipment mechanism installs on the slip table, two portal are located the front and back both ends of platform respectively, square frame slidable mounting is on the crossbeam of two portal, the slip table passes through actuating mechanism and is connected with the platform transmission, the square frame passes through actuating mechanism and is connected with two portal transmissions, the roll-over plate rotates the middle part of installing at the square frame, another pressure equipment mechanism installs at the roll-over plate middle part, roll-over stop gear installs on the outer wall of square frame, roll-over stop gear and roll-over plate transmission spacing are connected.

Description

Manufacturing equipment for glass embedded wooden door

Technical Field

The invention relates to the technical field of wooden door production, in particular to manufacturing equipment for embedding glass into a wooden door.

Background

In order to improve the aesthetic property and the functionality of timber, can inlay glass on the timber, the timber of glass is inlayed now mainly has two kinds of styles, one is offered from the top of timber and is stretched into the deep glass groove in timber middle part, insert glass in the glass groove from timber top, the glass groove of reuse shrouding with the timber is sealed, glass window has been offered to the middle part of second kind timber, place glass in the glass window of timber, inlay the front and back surface at the glass window of timber with metal or ligneous decoration sealing strip, metal or ligneous decoration sealing strip is with glass fastening on the timber, the second kind timber is because simple in processing technology, glass inlays position and form nimble changeable, more pleasing to the eye, so widely adopted, just because second kind glass inlays position and form nimble changeable, the equipment of present glass embedding timber can not nimble adjustment setting, so still use artificial mosaic glass now, cause intensity of labour height, work efficiency is low.

Disclosure of Invention

In order to solve the technical problems, the invention provides the manufacturing equipment for embedding the glass into the wooden door, which replaces manual glass embedding operation of the wooden door, reduces labor intensity and has high working efficiency.

The invention relates to manufacturing equipment for embedding glass into a wooden door, which comprises a platform, a movable clamping frame, a positioning mechanism, a sliding table, two press-mounting mechanisms, two door frames, a square frame, two driving mechanisms, a turnover plate and a turnover limiting mechanism, wherein the platform is arranged on a foundation through supporting legs; the size of the movable clamping frame is adjusted and locked according to the specification of the wooden door, the middle lines of the left and right directions and the up and down directions are marked on the glass window of the wooden door, the wooden door is pressed on the movable clamping frame, a plurality of positioning mechanisms are used for positioning and clamping the wooden door, a lower decorative sealing strip is clamped on a pressing mechanism on a sliding table, the glass is arranged in the lower decorative sealing strip, an upper decorative sealing strip is clamped on the pressing mechanism on a turnover plate, the turnover limiting mechanism is operated to turn over and limit and lock the turnover plate, the pressing mechanism on the turnover plate and the upper decorative sealing strip are vertically downward together, the position of the movable clamping frame on the upper end face of a platform is adjusted, the middle line of the left and right directions of the glass window on the wooden door is aligned with the middle line of the left and right directions of an avoidance port in the middle part of the platform, the positions of the movable clamping frame are locked, two driving mechanisms are started, one driving mechanism drives the square frame to move to the upper part of the wooden door glass window along the two door frames, the central line of the press-mounting mechanism on the turnover plate in the front-back direction is aligned with the central line of the wooden door glass window in the up-down direction, the other driving mechanism drives the sliding table to move to the lower part of the wooden door glass window along the upper end face of the platform, the press-mounting mechanism on the sliding table is aligned with the press-mounting mechanism on the turnover plate, the two press-mounting mechanisms are operated to extend to press the lower decorative sealing strip and the glass into the glass window of the wooden door from the lower part, the upper decorative sealing strip is simultaneously pressed into the glass window of the wooden door from the upper part, the two decorative sealing strips are tightly contacted with the front surface and the rear surface of the wooden door, the glass is tightly embedded in the glass window of the wooden door, the equipment automatically records the moving distance of the sliding table and the square frame and the extending amount of the two press-mounting mechanisms, resets the sliding table and the square frame, the wooden door is taken down from the movable clamping frame, the next wooden door is clamped on the movable clamping frame, corresponding decorative sealing strips and glass are clamped, next glass embedding work is automatically carried out on the equipment, the work of embedding the glass into the wooden door with flexible and changeable positions and forms can be replaced manually, the labor intensity is reduced, and the working efficiency is improved.

Preferably, the movable clamping frame further comprises four longitudinal sliding rails, two longitudinal sliding carriages, two brackets, two telescopic pipes and four width limiting plates, wherein the four longitudinal sliding rails are arranged on the upper end face of the platform in a front-back direction in parallel, the four longitudinal sliding rails are symmetrically arranged along the middle line of the platform in the front-back direction and the middle line of the platform in the left-right direction respectively, the two ends of the two longitudinal sliding carriages are respectively connected with the four longitudinal sliding rails in a sliding manner through a plurality of sliding blocks, the two longitudinal sliding carriages are symmetrically arranged in parallel along the left-right middle line of the platform, the two longitudinal sliding carriages are respectively provided with the sliding rails, the two brackets are respectively arranged on the sliding rails of the two longitudinal sliding carriages in a sliding manner through the sliding blocks, the two brackets are respectively positioned above the two longitudinal sliding carriages, the upper end faces of the two brackets are respectively provided with buffer cushion bars, the two ends of the two brackets are respectively connected through the telescopic pipes, the four width limiting plates are respectively symmetrically arranged at the left end and right end faces of the two brackets, the four width limiting plates are respectively arranged on the left end faces and right end faces of the two brackets, and the four width limiting plates are respectively arranged at the upper middle parts of the four brackets respectively; according to the height of timber, adjust the relative position of two vertical balladeur train on four brackets and lock the locking bolt on two flexible pipes, the relative position of four limit width boards on two brackets and lock the locking bolt on four limit width boards according to the width of timber, a plurality of positioning mechanism can be with the timber quick clamping location, adjust the position of two vertical balladeur trains again along four vertical slide rails, make the left and right direction central line of glass window on the timber align with the left and right central line of dodging mouthful on the platform and lock two vertical balladeur trains on four vertical slide rails, adjust the position of two brackets along two vertical balladeur trains, make the glass window of timber move to the position of convenient mosaic glass about and lock two brackets, adjust once and can fix a position to whole batch of timber, improve work efficiency.

Preferably, the positioning mechanism further comprises a corner plate and two mounting frames, the corner plate is provided with a horizontal pressing plate and a vertical leaning plate, the pressing plate is vertically connected with the leaning plate, the pressing plate of the corner plate faces the inner sides of the brackets and the width limiting plates, the outer walls of the two sides of the lower part of the leaning plate of the corner plate are rotationally connected with the upper ends of the two mounting frames, the lower ends of the two mounting frames are arranged on the outer walls of the middle parts of the two brackets or the outer ends of the four width limiting plates, and when the pressing plate of the corner plate is in a horizontal state, the upper end faces of the pressing plate are flush with the upper end faces of the buffer strips on the two brackets; the surface with the timber is pressed on the clamp plate of a plurality of scute, presses the timber downwards, and the timber is pressed the scute and is rotated, and when the surface of timber and the buffer strip contact of two brackets, the clamp plate of a plurality of scuts is the horizontality to the backup plate of a plurality of scuts is vertical state to four limit pressing of backup plate with the timber of a plurality of scuts realize timber quick positioning clamping, need not extra unblock convenient operation and take down the timber, improve the work efficiency of equipment.

Preferably, the device further comprises two sliding table sliding rails and two beam sliding rails, wherein the two sliding table sliding rails are arranged on two sides of an avoidance port on the upper end face of the platform in parallel along the left-right direction of the platform, the sliding table is slidably arranged on the two sliding table sliding rails through a plurality of sliding blocks, the two beam sliding rails are respectively arranged on the upper end faces of the beams of the two portal frames, the two beam sliding rails are respectively arranged in parallel along the beams of the two portal frames, and the front end and the rear end of the square frame are respectively slidably arranged on the two beam sliding rails through a plurality of sliding blocks; the sliding table slides along two sliding table slide rails through a plurality of sliding blocks, the square frame slides along two beam slide rails through a plurality of sliding blocks, the moving linearity and smoothness of the sliding table and the square frame are improved, and the running stability of equipment is improved.

Preferably, the press-mounting mechanism further comprises a cylinder, a press-mounting plate, a plurality of press-mounting columns, a plurality of movable pins and a laser head, wherein the fixed end of the cylinder is mounted in the middle of the sliding table or the middle of the turnover plate, the press-mounting plate is mounted on the moving end of the cylinder, a plurality of sliding grooves are formed in the press-mounting plate, threaded pipes are arranged at the lower ends of the plurality of press-mounting columns, buffer blocks are arranged at the upper ends of the plurality of press-mounting columns, the threaded pipes of the plurality of press-mounting columns are respectively and slidably mounted in the plurality of sliding grooves on the press-mounting plate, the plurality of nuts fasten the threaded pipes of the plurality of press-mounting columns in the sliding grooves of the press-mounting plate, the buffer blocks of the plurality of press-mounting columns are positioned on the upper end face of the press-mounting plate, buffer pads are respectively arranged at the upper ends of the plurality of movable pins, springs are respectively and slidably mounted in the threaded pipes of the plurality of press-mounting columns, the lower ends of the springs of the movable pins are respectively and are respectively connected with the bottoms of the threaded pipes of the press-mounting columns, and the upper ends of the buffer blocks of the press-mounting columns are respectively and the upper ends of the buffer blocks are respectively; the positions of a plurality of press-fit columns in a plurality of sliding grooves on a press-fit plate are adjusted according to the size specification of a decorative sealing strip, nuts are locked, two laser heads are opened, the decorative sealing strip is clamped between a plurality of movable pins, so that buffer blocks of the plurality of press-fit columns are contacted with the surfaces of the decorative sealing strip, a turnover limiting mechanism is operated to turn over the turnover plate, at the moment, the laser heads on the turnover plate vertically face downwards, laser rays vertically aligned with middle lines of left and right directions of avoidance openings of a platform are emitted by the laser heads, the positions of the wooden doors are adjusted to align the middle lines of left and right directions of glass windows of the wooden doors with the laser rays, the wooden door adjusting time is shortened, the wooden door positioning precision is improved, one laser ray perpendicular to the laser rays is emitted by the laser heads, the driving mechanism drives the square to move along two cross beam sliding rails, the other laser ray is aligned with the central line of the upper and lower directions of the glass window of the wooden door, the other driving mechanism drives the sliding table to move along the sliding table sliding rails so as to enable the two laser heads to be aligned up and down, the quick positioning of the decorative sealing strip and the glass window of the wooden door is realized, when the two air cylinders stretch to push the two pressing plates to move to press the decorative sealing strip and the glass, the upper end buffer cushions of the movable pins are contacted with the surface of the wooden door, the two air cylinders continue to stretch, the springs of the movable pins are compressed at the moment, the movable pins are contracted into the threaded pipes of the pressing columns, meanwhile, the buffer blocks of the pressing columns press the upper and lower decorative sealing strip and the glass into the glass window of the wooden door, the two air cylinders are contracted, the turnover limiting mechanism drives the turnover plate to turn over, the sliding table and the square frame are reset under the driving of the two driving mechanisms, and the glass is inlaid by the artificial glass, and the working efficiency is improved.

Preferably, the driving mechanism further comprises four racks, two gear motors and four gears, the four racks are respectively arranged on the upper end face of the platform and the upper end face of the cross beam of the two portal frames, the two racks are respectively adjacent and parallel to the two sliding table sliding rails, the other two racks are respectively adjacent and parallel to the two cross beam sliding rails, the two gear motors are respectively arranged on the side wall of the sliding table and the side wall of the square frame, the two gear motors are respectively provided with two-way output shafts, two ends of the two-way output shafts of the two gear motors are respectively connected with the sliding table and the square frame through bearing seats, gears are concentrically arranged on the two-way output shafts of the two gear motors, and the four gears are respectively meshed with the four racks; the two gear motors drive the four gears to rotate through the double output shafts, the four gears which rotate are meshed on the four racks to move, the double-end output shafts of the two gear motors drive the sliding table and the square frame to move through the bearing seat, and the equipment records the moving distance, so that the next time of automatic rapid glass positioning is realized, and the working efficiency is improved.

Preferably, the turnover limiting mechanism further comprises a turnover motor and two telescopic bolts, the turnover motor is arranged on the outer wall of the square frame, two limiting pin holes are symmetrically arranged on the left and right outer side walls of the turnover plate along the rotating shaft of the turnover plate, an output shaft of the turnover motor is concentrically connected with one end of the rotating shaft of the turnover plate, fixed ends of the two telescopic bolts are respectively arranged on the left and right outer walls of the square frame, and the telescopic bolts of the two telescopic bolts respectively penetrate through the left and right side walls of the square frame and are inserted into one limiting pin hole on the left and right side walls of the turnover plate; after the upper decorative sealing strip is clamped on a plurality of movable pins on the turnover plate, the pins of the two telescopic pins are contracted and separated from the limit pin holes of the turnover plate, the turnover limiting mechanism drives the turnover plate to turn over the sliding rail of the sliding table by 0 degrees, the pins of the two telescopic pins are extended, the pins of the two telescopic pins are respectively inserted into the other two limit pin holes of the turnover plate, positioning is realized, and the running stability of equipment is improved.

Compared with the prior art, the invention has the beneficial effects that: the size of the movable clamping frame is adjusted and locked according to the specification of the wooden door, the middle lines of the left and right directions and the up and down directions are marked on the glass window of the wooden door, the wooden door is pressed on the movable clamping frame, a plurality of positioning mechanisms are used for positioning and clamping the wooden door, a lower decorative sealing strip is clamped on a pressing mechanism on a sliding table, the glass is arranged in the lower decorative sealing strip, an upper decorative sealing strip is clamped on the pressing mechanism on a turnover plate, the turnover limiting mechanism is operated to turn over and limit and lock the turnover plate, the pressing mechanism on the turnover plate and the upper decorative sealing strip are vertically downward together, the position of the movable clamping frame on the upper end face of a platform is adjusted, the middle line of the left and right directions of the glass window on the wooden door is aligned with the middle line of the left and right directions of an avoidance port in the middle part of the platform, the positions of the movable clamping frame are locked, two driving mechanisms are started, one driving mechanism drives the square frame to move to the upper part of the wooden door glass window along the two door frames, the central line of the press-mounting mechanism on the turnover plate in the front-back direction is aligned with the central line of the wooden door glass window in the up-down direction, the other driving mechanism drives the sliding table to move to the lower part of the wooden door glass window along the upper end face of the platform, the press-mounting mechanism on the sliding table is aligned with the press-mounting mechanism on the turnover plate, the two press-mounting mechanisms are operated to extend to press the lower decorative sealing strip and the glass into the glass window of the wooden door from the lower part, the upper decorative sealing strip is simultaneously pressed into the glass window of the wooden door from the upper part, the two decorative sealing strips are tightly contacted with the front surface and the rear surface of the wooden door, the glass is tightly embedded in the glass window of the wooden door, the equipment automatically records the moving distance of the sliding table and the square frame and the extending amount of the two press-mounting mechanisms, resets the sliding table and the square frame, the wooden door is taken down from the movable clamping frame, the next wooden door is clamped on the movable clamping frame, corresponding decorative sealing strips and glass are clamped, next glass embedding work is automatically carried out on the equipment, the work of embedding the glass into the wooden door with flexible and changeable positions and forms can be replaced manually, the labor intensity is reduced, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the front view of the present invention;

FIG. 3 is a schematic view of the structure of the movable clamping frame and the positioning mechanism;

FIG. 4 is a schematic view of the structure of the platform, skid, and press-fit mechanism;

FIG. 5 is a schematic view of the press-fit mechanism, the frame, the drive mechanism, the roll-over plate, and the roll-over limiting mechanism;

the reference numerals in the drawings: 1. a platform; 2. a movable clamping frame; 3. a positioning mechanism; 4. a sliding table; 5. a press-fitting mechanism; 6. a door frame; 7. a block; 8. a driving mechanism; 9. a turnover plate; 10. a turnover limiting mechanism; 11. a longitudinal slide rail; 12. a longitudinal carriage; 13. a bracket; 14. a telescopic tube; 15. a width limiting plate; 16. a corner plate; 17. a mounting frame; 18. a sliding table sliding rail; 19. a cross beam slide rail; 20. a cylinder; 21. pressing the plate; 22. press-fitting the column; 23. a movable pin; 24. a laser head; 25. a rack; 26. a speed reducing motor; 27. a gear; 28. a turnover motor; 29. and (5) a telescopic bolt.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. This invention may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Example 1

The manufacturing equipment for embedding glass into wooden doors comprises a platform 1, a movable clamping frame 2, a positioning mechanism 3, a sliding table 4, two press-mounting mechanisms 5, two door frames 6, a square frame 7, two driving mechanisms 8, a turnover plate 9 and a turnover limiting mechanism 10, wherein the platform 1 is mounted on a foundation through supporting legs, the movable clamping frame 2 is movably mounted on the right part of the upper end face of the platform 1, a plurality of positioning mechanisms 3 are arranged at four corners and edges of the movable clamping frame 2, the sliding table 4 is slidably mounted in the middle part of the upper end face of the platform 1, the press-mounting mechanisms 5 are mounted on the sliding table 4, the platform 1 is provided with a avoiding opening of the press-mounting mechanisms 5, the two door frames 6 are respectively positioned at the front end and the rear end of the platform 1, the middle part of the two door frames 6 is provided with a cross beam, the left end and the right end of the cross beam of the two door frames 6 are respectively provided with an upright post, the two ends of the square frame 7 are respectively slidably mounted on the cross beams of the two door frames 6, the sliding table 4 is in transmission connection with the platform 1 through the driving mechanisms 8, the two door frames 7 are connected with the two driving mechanisms 9 through the driving mechanisms 6 and the middle part of the turnover limiting mechanism 9, the two door frames are connected with the middle part of the side walls 9 through the two side walls 9 and the turnover limiting mechanism 10, the middle part is connected with the middle part of the turnover mechanism 9 through the side walls of the turnover limiting mechanism 10; the size of the movable clamping frame 2 is adjusted and locked according to the specification of the wooden door, the middle lines in the left-right and up-down directions are marked on the glass window of the wooden door, the wooden door is pressed on the movable clamping frame 2, a plurality of positioning mechanisms 3 are used for positioning and clamping the wooden door, a lower decorative sealing strip is clamped on a pressing mechanism 5 on a sliding table 4, the glass is arranged in the lower decorative sealing strip, an upper decorative sealing strip is clamped on the pressing mechanism 5 on a turnover plate 9, a turnover limiting mechanism 10 is operated to turn over and limit and lock the turnover plate 9, the pressing mechanism 5 on the turnover plate 9 and the upper decorative sealing strip are vertically downward, the position of the movable clamping frame 2 on the upper end face of a platform 1 is adjusted, the middle line in the left-right direction of the glass window on the wooden door is aligned with the middle line in the left-right direction of a dodge port in the middle of the platform 1, the position of the movable clamping frame 2 is locked, two driving mechanisms 8 are started, one driving mechanism 8 drives the square frame 7 to move to the upper part of the wooden door glass window along the two portal frames 6, the central line of the press fitting mechanism 5 on the turnover plate 9 in the front-back direction is aligned with the central line of the wooden door glass window in the up-down direction, the other driving mechanism 8 drives the sliding table 4 to move to the lower part of the wooden door glass window along the upper end face of the platform 1, the press fitting mechanism 5 on the sliding table 4 is aligned with the press fitting mechanism 5 on the turnover plate 9, the two press fitting mechanisms 5 are operated to extend to press the lower decorative sealing strips and the glass into the glass window of the wooden door from the lower part, the upper decorative sealing is simultaneously pressed into the glass window of the wooden door from the upper part, the two decorative sealing strips are tightly contacted with the front surface and the rear surface of the wooden door, the glass is tightly embedded in the glass window of the wooden door, the moving distance of the sliding table 4 and the square frame 7 and the extending amount of the two press fitting mechanisms 5 are automatically recorded, reset slip table 4 and square frame 7, take off timber from movable clamping frame 2, with next timber clamping on movable clamping frame 2 to corresponding decoration sealing strip and glass of clamping, the equipment is automatic to carry out next glass and inlay work, can replace the manual work to inlay the nimble changeable timber of position and form and inlay the work of glass, reduces intensity of labour, improves work efficiency.

Example 2

The manufacturing equipment for embedding glass into wooden doors comprises a platform 1, a movable clamping frame 2, a positioning mechanism 3, a sliding table 4, two press-mounting mechanisms 5, two door frames 6, a square frame 7, two driving mechanisms 8, a turnover plate 9 and a turnover limiting mechanism 10, wherein the platform 1 is mounted on a foundation through supporting legs, the movable clamping frame 2 is movably mounted on the right part of the upper end face of the platform 1, a plurality of positioning mechanisms 3 are arranged at four corners and edges of the movable clamping frame 2, the sliding table 4 is slidably mounted in the middle part of the upper end face of the platform 1, the press-mounting mechanisms 5 are mounted on the sliding table 4, the platform 1 is provided with a avoiding opening of the press-mounting mechanisms 5, the two door frames 6 are respectively positioned at the front end and the rear end of the platform 1, the middle part of the two door frames 6 is provided with a cross beam, the left end and the right end of the cross beam of the two door frames 6 are respectively provided with an upright post, the two ends of the square frame 7 are respectively slidably mounted on the cross beams of the two door frames 6, the sliding table 4 is in transmission connection with the platform 1 through the driving mechanisms 8, the two door frames 7 are connected with the two driving mechanisms 9 through the driving mechanisms 6 and the middle part of the turnover limiting mechanism 9, the two door frames are connected with the middle part of the side walls 9 through the two side walls 9 and the turnover limiting mechanism 10, the middle part is connected with the middle part of the turnover mechanism 9 through the side walls of the turnover limiting mechanism 10; the movable clamping frame 2 further comprises four longitudinal sliding rails 11, two longitudinal sliding carriages 12, two brackets 13, two telescopic pipes 14 and four width limiting plates 15, wherein the four longitudinal sliding rails 11 are arranged on the upper end face of the platform 1 in a front-back direction in parallel, the four longitudinal sliding rails 11 are symmetrically arranged along the middle line of the platform 1 in the front-back direction and the middle line of the platform in the left-right direction respectively, two ends of the two longitudinal sliding carriages 12 are respectively connected with the four longitudinal sliding rails 11 in a sliding manner through a plurality of sliding blocks, the two longitudinal sliding carriages 12 are symmetrically arranged in parallel along the left-right middle line of the platform 1, the two longitudinal sliding carriages 12 are respectively provided with sliding rails, the two brackets 13 are respectively arranged on the sliding rails of the two longitudinal sliding carriages 12 in a plurality of sliding manner through the sliding blocks, the two brackets 13 are respectively positioned above the two longitudinal sliding carriages 12, buffer cushion strips are respectively arranged on the upper end faces of the two brackets 13, two ends of the two brackets 13 are respectively connected through the telescopic pipes 14, the four width limiting plates 15 are respectively and symmetrically arranged at the left end and right end faces of the upper end faces of the two brackets 13 respectively, the four width limiting plates 15 are respectively provided with four width limiting bolts 15, and the four width limiting mechanisms are respectively arranged on the two middle parts of the two positioning mechanisms 13 and are respectively arranged on the two middle parts of the two positioning mechanisms 13 respectively, and the two positioning mechanisms are respectively and the two positioning structures are respectively and 15 and are respectively arranged; the positioning mechanism 3 further comprises a corner plate 16 and two mounting frames 17, the corner plate 16 is provided with a horizontal pressing plate and a vertical leaning plate, the pressing plate and the leaning plate are vertically connected, the pressing plate of the corner plate 16 faces the inner sides of the brackets 13 and the width limiting plates 15, the outer walls of the two sides of the lower part of the leaning plate of the corner plate 16 are rotationally connected with the upper ends of the two mounting frames 17, the lower ends of the two mounting frames 17 are arranged on the outer walls of the middle parts of the two brackets 13 or the outer ends of the four width limiting plates 15, and when the pressing plate of the corner plate 16 is in a horizontal state, the upper end faces of the pressing plate are level with the upper end faces of buffer strips on the two brackets 13; the press mounting mechanism 5 further comprises an air cylinder 20, a press mounting plate 21, a plurality of press mounting columns 22, a plurality of movable pins 23 and a laser head 24, wherein the fixed end of the air cylinder 20 is mounted in the middle of the sliding table 4 or the middle of the turnover plate 9, the press mounting plate 21 is mounted on the moving end of the air cylinder 20, a plurality of sliding grooves are formed in the press mounting plate 21, threaded pipes are arranged at the lower ends of the plurality of press mounting columns 22, buffer blocks are arranged at the upper ends of the plurality of press mounting columns 22, the threaded pipes of the plurality of press mounting columns 22 are respectively and slidably mounted in the plurality of sliding grooves on the press mounting plate 21, a plurality of nuts fasten the threaded pipes of the plurality of press mounting columns 22 in the sliding grooves of the press mounting plate 21, the buffer blocks of the plurality of press mounting columns 22 are positioned on the upper end face of the press mounting plate 21, a buffer cushion is arranged at the upper ends of the plurality of movable pins 23, the lower ends of the plurality of movable pins 23 are respectively and slidably mounted in the threaded pipes of the plurality of press mounting columns 22, the lower ends of the springs of the movable pins 23 are respectively and the lower ends of the plurality of the threaded pipes of press mounting columns 22 are respectively and slidably mounted in the threaded pipes of the press mounting columns 22, and the upper end faces of the press mounting columns 24 are respectively and slidably mounted on the upper end faces of the press mounting plates 21; according to the height of the wooden door, the relative positions of the two longitudinal sliding racks 12 on the four brackets 13 are adjusted and the locking bolts on the two telescopic pipes 14 are locked, the relative positions of the four width limiting plates 15 on the two brackets 13 are adjusted according to the width of the wooden door and the locking bolts on the four width limiting plates 15 are locked, the surface of the wooden door is pressed on the pressing plates of the plurality of angle plates 16, the wooden door is pressed downwards, the wooden door pressing angle plates 16 rotate, when the surface of the wooden door is contacted with the buffer strips of the two brackets 13, the pressing plates of the plurality of angle plates 16 are in a horizontal state, the backup plates of the plurality of angle plates 16 are in a vertical state, the four edges of the wooden door are limited and pressed by the backup plates of the plurality of angle plates 16, the wooden door is rapidly positioned and clamped, the wooden door can be conveniently taken down without additional unlocking operation, the wooden door of the whole batch can be positioned by one-time adjustment, the positions of the plurality of press-fit columns 22 in the plurality of sliding grooves on the press plates 21 are adjusted according to the size specification of the decorative sealing strips, opening two laser heads 24, clamping decorative sealing strips between a plurality of movable pins 23, enabling buffer blocks of a plurality of press-fit columns 22 to be in contact with the surfaces of the decorative sealing strips, operating a turnover limiting mechanism 10 to turn over a turnover plate 9, enabling the laser heads 24 on the turnover plate 9 to vertically downwards, enabling the laser heads 24 to emit laser rays which are aligned with the middle lines of the left-right directions of a dodging port of a platform 1 in an up-down parallel mode, adjusting the positions of two longitudinal sliding frames 12 along four longitudinal sliding rails 11 again, enabling the middle lines of the left-right directions of glass windows on the wooden door to be aligned with the laser rays, locking the two longitudinal sliding frames 12 on the four longitudinal sliding rails 11, adjusting the positions of two brackets 13 along the two longitudinal sliding frames 12, enabling the glass windows of the wooden door to move left-right to be convenient for embedding glass and locking the two brackets 13, the whole batch of wooden doors can be positioned by once adjustment, meanwhile, the laser head 24 also emits another laser ray vertical to the laser rays, the driving mechanism 8 drives the square frame 7 to move along the two beam sliding rails 19, the other laser ray is aligned with the central line of the upper and lower directions of the glass window of the wooden doors, the other driving mechanism 8 drives the sliding table 4 to move along the two sliding table sliding rails 18, the two laser heads 24 are aligned up and down, the quick positioning of decorative sealing strips and glass and the glass window of the wooden doors is realized, the two air cylinders 20 stretch to push the two pressing plates 21 to move to press the decorative sealing strips and the glass, the upper end buffer cushions of the movable pins 23 are contacted with the surface of the wooden doors, the two air cylinders 20 continue to stretch, at the moment, the springs of the movable pins 23 are compressed, the movable pins 23 shrink into the threaded pipes of the press-mounting columns 22, the buffer blocks of the press-mounting columns 22 press the upper and lower decorative sealing strips and the glass into the glass window of the wooden doors, the two air cylinders 20 shrink, the turnover limiting mechanism 10 drives the turnover plate 9 to turn, and the two sliding table 4 and the square frame 7 to drive the sliding table 8 to reset, and replace manual driving to complete the manual driving and the glass mosaic.

Example 3

The manufacturing equipment for embedding glass into wooden doors comprises a platform 1, a movable clamping frame 2, a positioning mechanism 3, a sliding table 4, two press-mounting mechanisms 5, two door frames 6, a square frame 7, two driving mechanisms 8, a turnover plate 9 and a turnover limiting mechanism 10, wherein the platform 1 is mounted on a foundation through supporting legs, the movable clamping frame 2 is movably mounted on the right part of the upper end face of the platform 1, a plurality of positioning mechanisms 3 are arranged at four corners and edges of the movable clamping frame 2, the sliding table 4 is slidably mounted in the middle part of the upper end face of the platform 1, the press-mounting mechanisms 5 are mounted on the sliding table 4, the platform 1 is provided with a avoiding opening of the press-mounting mechanisms 5, the two door frames 6 are respectively positioned at the front end and the rear end of the platform 1, the middle part of the two door frames 6 is provided with a cross beam, the left end and the right end of the cross beam of the two door frames 6 are respectively provided with an upright post, the two ends of the square frame 7 are respectively slidably mounted on the cross beams of the two door frames 6, the sliding table 4 is in transmission connection with the platform 1 through the driving mechanisms 8, the two door frames 7 are connected with the two driving mechanisms 9 through the driving mechanisms 6 and the middle part of the turnover limiting mechanism 9, the two door frames are connected with the middle part of the side walls 9 through the two side walls 9 and the turnover limiting mechanism 10, the middle part is connected with the middle part of the turnover mechanism 9 through the side walls of the turnover limiting mechanism 10; the two sliding table slide rails 18 are arranged on two sides of the avoidance port of the upper end face of the platform 1 in parallel along the left-right direction of the platform 1, the sliding table 4 is slidably arranged on the two sliding table slide rails 18 through a plurality of sliding blocks, the two sliding beam slide rails 19 are respectively arranged on the upper end faces of the beams of the two door frames 6, the two sliding beam slide rails 19 are respectively arranged in parallel along the beams of the two door frames 6, and the front end and the rear end of the frame 7 are respectively slidably arranged on the two sliding beam slide rails 19 through a plurality of sliding blocks; the driving mechanism 8 further comprises four racks 25, two gear motors 26 and four gears 27, the four racks 25 are respectively arranged on the upper end face of the platform 1 and the upper end face of the cross beam of the two portal frames 6, the two racks 25 are respectively adjacent and parallel to the two sliding table slide rails 18, the other two racks 25 are respectively adjacent and parallel to the two cross beam slide rails 19, the two gear motors 26 are respectively arranged on the side wall of the sliding table 4 and the side wall of the square frame 7, the two gear motors 26 are respectively provided with two-way output shafts, two ends of the two-way output shafts of the two gear motors 26 are respectively connected with the sliding table 4 and the square frame 7 through bearing seats, the gears 27 are concentrically arranged on the two-way output shafts of the two gear motors 26, and the four gears 27 are respectively meshed with the four racks 25; the turnover limiting mechanism 10 further comprises a turnover motor 28 and two telescopic bolts 29, wherein the turnover motor 28 is arranged on the outer wall of the square frame 7, two limiting pin holes are symmetrically formed in the left and right outer side walls of the turnover plate 9 along the rotating shaft of the turnover plate 9, an output shaft of the turnover motor 28 is concentrically connected with one end of the rotating shaft of the turnover plate 9, fixed ends of the two telescopic bolts 29 are respectively arranged on the left and right outer walls of the square frame 7, and the telescopic bolts of the two telescopic bolts 29 respectively penetrate through the left and right side walls of the square frame 7 and are inserted into one limiting pin hole in the left and right side walls of the turnover plate 9; after the upper decorative sealing strip is clamped on the movable pins 23 on the turnover plate 9, the pin contraction of the two telescopic pins 29 is separated from the limit pin holes of the turnover plate 9, the turnover limiting mechanism 10 drives the turnover plate 9 to turn over the sliding rail of the sliding table by 180 degrees, the pins of the two telescopic pins 29 are extended, the pins of the two telescopic pins 29 are respectively inserted into the other two limit pin holes of the turnover plate 9, positioning is realized, the two gear motors 26 drive the four gears 27 to rotate through the double output shafts, the rotating four gears 27 are meshed and move on the four racks 25, the double output shafts of the two gear motors 26 drive the sliding table 4 to slide along the two sliding table sliding rails 18 through a plurality of sliding blocks and the square frame 7 to slide along the two sliding rail sliding rails 19 through a plurality of sliding blocks, and the equipment records the moving distance, so that the next time is automatically used for quick glass positioning, and the working efficiency of the equipment is improved.

As shown in fig. 1 to 5, the manufacturing apparatus for a glass-encased wooden door of the present invention, when in operation, firstly adjusts the positions of two longitudinal carriages 12, two width-limiting plates 15 and locks according to the specifications of the wooden door, simultaneously locks two telescopic tubes 14, marks the middle lines in the left-right and up-down directions on the glass window of the wooden door, presses the wooden door on the buffer strips of two brackets 13, positions and clamps the wooden door by the backup plates of a plurality of corner plates 16, then clamps the lower decorative sealing strip between a plurality of movable pins 23 positioned on a sliding table 4, installs the glass in the lower decorative sealing strip, clamps the upper decorative sealing strip between a plurality of movable pins 23 positioned on a turnover plate 9, opens two laser heads 24, the laser heads 24 emit vertical cross rays, operates a turnover motor 28 to turn over the turnover plate 9, and the two telescopic bolts 29 limit-lock the turnover plate 9, the decorative sealing strips on the turnover plate 9 are vertically downward, the positions of the two longitudinal sliding frames 12 are adjusted, the middle line of the left and right directions of the glass window on the wooden door is aligned with the rays of the left and right directions sent by the laser heads 24, the positions of the two longitudinal sliding frames 12 are locked, then two gear motors 26 are started, the square frame 7 is moved to the upper side of the wooden door glass window along the two beam sliding rails 19, the middle line of the front and rear directions sent by the laser heads 24 on the turnover plate 9 is aligned with the middle line of the upper and lower directions of the wooden door glass window, the other gear motor 26 drives the sliding table 4 to move to the lower side of the wooden door glass window along the two sliding table sliding rails 18 through two gears 27, the laser heads 24 on the sliding table 4 are aligned with the laser heads 24 on the turnover plate 9, the two air cylinders 20 are operated to extend to press the lower decorative sealing strips and glass into the glass window of the wooden door from the lower side, simultaneously, the upper decoration seals are pressed into the glass window of the wooden door from the upper part, the two decoration seals are tightly contacted with the front surface and the rear surface of the wooden door, glass is fastened and embedded in the glass window of the wooden door, the equipment automatically records the moving distance of the sliding table 4 and the square frame 7 and the elongation of the two air cylinders 20, resets the sliding table 4 and the square frame 7, takes down the wooden door from the plurality of angle plates 16, finally clamps the next wooden door on the two brackets 13, clamps corresponding decoration sealing strips and glass, and the equipment automatically performs next glass embedding work.

The main functions realized by the invention are as follows: replace the manual work to carry out timber and inlay glass's work, reduce intensity of labour, work efficiency is high.

The installation mode, the connection mode or the setting mode of the manufacturing equipment for the glass embedded wooden door are common mechanical modes, and the manufacturing equipment can be implemented as long as the beneficial effects of the manufacturing equipment can be achieved; the platform 1, the sliding block, the longitudinal sliding rail 11, the telescopic pipe 14, the rack 25, the gear motor 26, the gear 27, the laser head 24, the overturning motor 28, the telescopic bolt 29 and the air cylinder 20 of the manufacturing equipment for the glass embedded wooden door are purchased in the market, and a person skilled in the art only needs to install and operate according to the attached using instruction without creative labor of the person skilled in the art.

All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims (5)

1. The manufacturing equipment for embedding the glass into the wooden door is characterized by comprising a platform (1), a movable clamping frame (2), a positioning mechanism (3), a sliding table (4), two press mounting mechanisms (5), two door frames (6), a square frame (7), two driving mechanisms (8), a turnover plate (9) and a turnover limiting mechanism (10), wherein the platform (1) is arranged on a foundation through supporting legs, the movable clamping frame (2) is movably arranged on the right part of the upper end face of the platform (1), a plurality of positioning mechanisms (3) are arranged at four corners and edges of the movable clamping frame (2), the sliding table (4) is slidably arranged in the middle of the upper end face of the platform (1), the press mounting mechanisms (5) are arranged on the sliding table (4), the platform (1) is provided with avoidance openings of the press mounting mechanisms (5), the two door frames (6) are respectively arranged at the front end and the rear end of the platform (1), the middle parts of the two door frames (6) are respectively provided with cross beams, the left end and the right end and the left end and the right end of each cross beam of the two door frames (6) are respectively provided with stand columns, the two posts (6) are respectively arranged at the left end and right end faces of the two door frames (6) and the two end frames (6) are respectively arranged at the upper end faces of the platform (4) and are respectively and are connected with the two end faces of the two door frames (6 respectively, the frame (7) is in transmission connection with the two door frames (6) through the driving mechanism (8), the turnover plate (9) is rotatably installed at the middle part of the frame (7) through a rotating shaft, the rotating shaft of the turnover plate (9) is aligned with the middle line of the avoidance port of the platform (1) in the left-right direction, the other pressing mechanism (5) is installed at the middle part of the turnover plate (9), the turnover limiting mechanism (10) is installed on the outer wall of the frame (7), the turnover limiting mechanism (10) is in transmission connection with the rotating shaft of the turnover plate (9), the turnover limiting mechanism (10) is in limiting connection with the side wall of the turnover plate (9), the turnover limiting mechanism further comprises two sliding table sliding rails (18) and two cross beam sliding rails (19), two slip table slide rails (18) are arranged on two sides of an avoidance port of the upper end face of the platform (1) in parallel along the left-right direction of the platform (1), a slip table (4) is slidably arranged on the two slip table slide rails (18) through a plurality of sliding blocks, two cross beam slide rails (19) are respectively arranged on the upper end faces of cross beams of two portal frames (6), the two cross beam slide rails (19) are respectively arranged in parallel along the cross beams of the two portal frames (6), the front end and the rear end of a square frame (7) are slidably arranged on the two cross beam slide rails (19) through a plurality of sliding blocks, a press-fit mechanism (5) further comprises a cylinder (20), a press-fit plate (21), a plurality of press-fit columns (22), the movable pin (23) and the laser head (24) are arranged at the fixed end of the air cylinder (20), the middle part of the sliding table (4) or the middle part of the overturning plate (9), the movable end of the air cylinder (20) is provided with a press plate (21), the press plate (21) is provided with a plurality of sliding grooves, the lower ends of the press mounting columns (22) are provided with threaded pipes, the upper ends of the press mounting columns (22) are provided with buffer blocks, the threaded pipes of the press mounting columns (22) are respectively and slidably arranged in the sliding grooves on the press plate (21), the threaded pipes of the press mounting columns (22) are fastened in the sliding grooves of the press plate (21) by the nuts, the buffer blocks of the press mounting columns (22) are positioned on the upper end face of the press plate (21), the upper ends of the press mounting columns (23) are respectively provided with springs, the lower ends of the press mounting columns (23) are respectively connected with the threaded pipes of the press mounting columns (22), and the upper ends of the press mounting columns (22) are respectively and the upper ends of the press mounting columns (24) of the press mounting columns are respectively;

when the movable clamping frame (2) is adjusted in size and locked according to the specification of the wooden door, the middle lines of the left and right directions and the up and down directions are marked on the glass window of the wooden door, the wooden door is pressed and assembled on the movable clamping frame (2), a plurality of positioning mechanisms (3) are used for positioning and clamping the wooden door, the lower decorative sealing strip is clamped on the pressing mechanism (5) on the sliding table (4), the glass is assembled in the lower decorative sealing strip, the upper decorative sealing strip is clamped on the pressing mechanism (5) on the turnover plate (9), the turnover limiting mechanism (10) is operated to turn over and limit and lock the turnover plate (9), the pressing mechanism (5) on the turnover plate (9) is vertically downwards along with the upper decorative sealing strip, the positions of the movable clamping frame (2) on the upper end face of the platform (1) are adjusted, the middle lines of the glass window on the wooden door in the left and right directions are aligned with the middle lines of the avoidance opening in the middle of the platform (1), the two driving mechanisms (8) are started, one driving mechanism (8) drives the turnover plate (7) to drive the two driving mechanisms (6) to move along the middle lines of the sliding table (1) in the front of the upper side of the window (4) of the wooden door, the window moves along the middle lines of the upper side of the window (6) and the window (4) in the direction of the upper side of the window (4) is aligned with the middle lines of the upper middle line of the glass window (6), and the press-fitting mechanism (5) on the sliding table (4) is aligned with the press-fitting mechanism (5) on the overturning plate (9), the two press-fitting mechanisms (5) are operated to extend to press the lower decorative sealing strip and the glass into the glass window of the wooden door from the lower part, and simultaneously press the upper decorative sealing into the glass window of the wooden door from the upper part, so that the two decorative sealing strips are tightly contacted with the front surface and the rear surface of the wooden door, and the glass is fastened and inlaid in the glass window of the wooden door.

2. The manufacturing equipment for embedding glass into a wooden door according to claim 1, wherein the movable clamping frame (2) further comprises four longitudinal sliding rails (11), two longitudinal sliding carriages (12), two brackets (13), two telescopic pipes (14) and four width limiting plates (15), wherein the four longitudinal sliding rails (11) are arranged on the upper end face of the platform (1) in a front-back direction in parallel, the four longitudinal sliding rails (11) are symmetrically arranged along the central line of the platform (1) in the front-back direction and the central line of the platform in the left-right direction, two ends of the two longitudinal sliding carriages (12) are respectively connected with the four longitudinal sliding rails (11) in a sliding manner through a plurality of sliding blocks, the two longitudinal sliding carriages (12) are symmetrically arranged in parallel along the left-right central line of the platform (1), the two longitudinal sliding carriages (12) are respectively provided with sliding rails, the two brackets (13) are respectively arranged on the sliding rails of the two longitudinal sliding carriages (12) in a sliding manner through sliding blocks, the two brackets (13) are respectively positioned above the two longitudinal sliding rails (12), the upper end faces of the two brackets (13) are respectively provided with two width limiting plates (14) respectively, the two brackets (13) are respectively provided with two width limiting plates (14) are respectively arranged on the two end faces of the two brackets (13) in a sliding manner, the plurality of positioning mechanisms (3) are respectively arranged on the four width limiting plates (15) and the middle parts of the two brackets (13).

3. A manufacturing apparatus for a glass-embedded wooden door as claimed in claim 2, characterized in that the positioning mechanism (3) further comprises a corner plate (16) and two mounting frames (17), the corner plate (16) is provided with a horizontal pressing plate and a vertical leaning plate, the pressing plate and the leaning plate are vertically connected, the pressing plate of the corner plate (16) faces the inner sides of the brackets (13) and the width limiting plates (15), the outer walls of the two sides of the lower part of the leaning plate of the corner plate (16) are rotatably connected with the upper ends of the two mounting frames (17), the lower ends of the two mounting frames (17) are mounted on the outer walls of the middle parts of the two brackets (13) or the outer ends of the four width limiting plates (15), and when the pressing plate of the corner plate (16) is in a horizontal state, the upper end faces of the pressing plate are flush with the upper end faces of the buffer strips on the two brackets (13).

4. The manufacturing equipment for the glass-embedded wooden door according to claim 1, wherein the driving mechanism (8) further comprises four racks (25), two gear motors (26) and four gears (27), the four racks (25) are respectively installed on the upper end face of the platform (1) and the upper end face of the cross beam of the two door frames (6), the two racks (25) are respectively adjacent and parallel to the two sliding table sliding rails (18), the other two racks (25) are respectively adjacent and parallel to the two cross beam sliding rails (19), the two gear motors (26) are respectively installed on the side wall of the sliding table (4) and the side wall of the box (7), the two gear motors (26) are respectively provided with two-way output shafts, two ends of the two-way output shafts of the two gear motors (26) are respectively connected with the sliding table (4) and the box (7) through bearing seats, the gears (27) are respectively concentrically installed on the two-way output shafts of the two gear motors (26), and the four gears (27) are respectively meshed with the four racks (25).

5. The manufacturing equipment for the glass-embedded wooden door according to claim 1, wherein the turnover limiting mechanism (10) further comprises a turnover motor (28) and two telescopic bolts (29), the turnover motor (28) is installed on the outer wall of the square frame (7), two limiting pin holes are symmetrically formed in the left and right outer side walls of the turnover plate (9) along the rotating shaft of the turnover plate (9), an output shaft of the turnover motor (28) is concentrically connected with one end of the rotating shaft of the turnover plate (9), fixed ends of the two telescopic bolts (29) are installed on the left and right outer walls of the square frame (7) respectively, and the telescopic bolts of the two telescopic bolts (29) penetrate through the left and right side walls of the square frame (7) respectively and are inserted into one limiting pin hole in the left and right side walls of the turnover plate (9).