CN107385181A - A kind of energy-saving door leaf high frequency assembling device - Google Patents

Abstract

The present invention proposes a kind of energy-saving door leaf high frequency assembling device, including supporting mechanism and top-pressure mechanism, top-pressure mechanism includes upper left briquetting, upper right briquetting, lower-left briquetting, bottom right briquetting, left side briquetting and right side briquetting, the left end of upper left briquetting is bent downwards, its right end is bent to the right, withstand the upper left corner of door leaf, the right end of upper right briquetting is bent downwards, its left end is bent to the left, withstand the upper right corner of door leaf, the left end of lower-left briquetting is bent upward, its right end is bent to the right, withstand the lower left corner of door leaf, the right end of bottom right briquetting is bent upward, its left end is bent to the left, withstand the lower right corner of door leaf, left side extension of the left side briquetting along door leaf, withstand on the left of door leaf, right edge extension of the right side briquetting along door leaf, withstand on the right side of door leaf；Applicator is respectively equipped with upper left briquetting, upper right briquetting, lower-left briquetting, bottom right briquetting, left side briquetting and right side briquetting, door leaf corner and both sides are heated.

Description

A kind of energy-saving door leaf high frequency assembling device

Technical field

The present invention relates to door leaf production equipment, more particularly to a kind of energy-saving door leaf high frequency assembling device.

Background technology

Conventional door leaf assembling equipment needs heating electrode being moved to hot spot progress to be added after door leaf is completed Heat, or door leaf is moved entirely into heating zone, procedure of processing is more, and process time is longer, and wastes the energy, unfavorable In the efficiency of lifting door leaf assembly working.Therefore, it is necessary to structure optimization is carried out to this door leaf assembling equipment, it is above-mentioned to overcome Defect.

The content of the invention

It is an object of the invention to provide a kind of energy-saving door leaf high frequency assembling device, to reduce number of assembling steps, lifting assembling Efficiency, reduce energy resource consumption.

The present invention is that technical scheme is used by solving its technical problem：

A kind of energy-saving door leaf high frequency assembling device, including supporting mechanism and top-pressure mechanism, top-pressure mechanism are installed on support In mechanism, support act is carried out to top-pressure mechanism by supporting mechanism, top pressure is carried out to door leaf edge by top-pressure mechanism, wherein：

Top-pressure mechanism includes upper left briquetting, upper right briquetting, lower-left briquetting, bottom right briquetting, left side briquetting and right side briquetting, The left end of upper left briquetting is bent downwards, and its right end is bent to the right, withstands the upper left corner of door leaf, the right-hand member of upper right briquetting Head is bent downwards, and its left end is bent to the left, withstands the upper right corner of door leaf, and the left end of lower-left briquetting is bent upward, Its right end is bent to the right, withstands the lower left corner of door leaf, and the right end of bottom right briquetting is bent upward, and its left end is to the left Bending, the lower right corner of door leaf is withstood, left side extension of the left side briquetting along door leaf, is withstood on the left of door leaf, right side briquetting is along door leaf Right edge extension, withstand on the right side of door leaf；

Height is respectively equipped with upper left briquetting, upper right briquetting, lower-left briquetting, bottom right briquetting, left side briquetting and right side briquetting Frequency heating electrode, is heated to door leaf corner and both sides respectively.

Top-pressure mechanism also includes upper left leading screw, upper right leading screw, lower-left leading screw, bottom right leading screw, left side leading screw and right side silk Thick stick, upper left leading screw, upper right leading screw, lower-left leading screw, bottom right leading screw, left side leading screw and right side leading screw are installed on branch by connector On support mechanism, upper left leading screw, lower-left leading screw and left side leading screw are located on the left of door leaf, upper right leading screw, bottom right leading screw and right side Leading screw is located on the right side of door leaf, and upper left briquetting is adapted to upper left leading screw, drives upper left briquetting to move up and down by upper left leading screw, upper right pressure Block is adapted to upper right leading screw, drives upper right briquetting to move up and down by upper right leading screw, lower-left briquetting is adapted to lower-left leading screw, by lower-left Leading screw drives lower-left briquetting to move up and down, and bottom right briquetting is adapted to bottom right leading screw, is driven by bottom right leading screw and is moved down on the briquetting of bottom right Dynamic, left side briquetting is adapted to left side leading screw, drives left side briquetting to move left and right by left side leading screw, right side briquetting is fitted with right side leading screw Match somebody with somebody, drive right side briquetting to move left and right by right side leading screw.

Top-pressure mechanism also includes upper left motor, upper right motor, lower-left motor, bottom right motor, a left side Side motor and right side drive motors, upper left motor, upper right motor, lower-left motor, bottom right driving electricity Machine, left side drive motor and right side drive motors are fixed on supporting mechanism, line shaft and the upper left silk of upper left motor Thick stick is connected, and drives the operating of upper left leading screw by upper left motor, the line shaft of upper right motor is connected with upper right leading screw, by the right side Upper motor drives the operating of upper right leading screw, and the line shaft of lower-left motor is connected with lower-left leading screw, by lower-left motor The operating of lower-left leading screw is driven, the line shaft of bottom right motor is connected with bottom right leading screw, and bottom right silk is driven by bottom right motor Thick stick operates, and the line shaft of left side drive motor is connected with left side leading screw, drives left side leading screw to operate by left side drive motor, right side The line shaft of motor is connected with right side leading screw, drives right side leading screw to operate by right side drive motors.

Supporting mechanism includes upper beam column, lower beam column, left beam column and right beam column, and upper beam column is parallel to each other with lower beam column, left Beam column is parallel to each other with right beam column, upper beam column, lower beam column, left beam column and the end to end formation framework of right beam column, upper left driving Motor is fixed on beam column left end, and upper left leading screw extends downwardly along left beam column, and upper right motor is fixed on beam column right-hand member, right Upper leading screw extends downwardly along right beam column, and lower-left motor is fixed on lower beam column left end, and lower-left leading screw upwardly extends along left beam column, Bottom right motor is fixed on lower beam column right-hand member, and bottom right leading screw upwardly extends along right beam column, and left side drive motor is fixed on Zuo Liang In the middle part of bar, left side leading screw extends to the right along upper beam column and lower beam column, and right side drive motors are fixed in the middle part of right beam column, right side leading screw Extend to the left along upper beam column and lower beam column.

The advantage of the invention is that：

The door leaf assembling device uses upper left briquetting, upper right briquetting, lower-left briquetting, bottom right briquetting, left side briquetting and the right side Side pressing block respectively against door leaf corner and the left and right sides, and upper left briquetting, upper right briquetting, lower-left briquetting, bottom right briquetting, Applicator is set respectively in left side briquetting and right side briquetting, respectively to door leaf corner and two while sizing is pressurizeed Side is heated, and is shaped and is completed with one step of heating, and mechanical driving part uses ball screw arrangement, and transmission moment of torsion is big, positioning accurate Degree is high, and coefficient of friction is small, operates steadily reliable, is advantageous to lift operating efficiency, reduces procedure of processing, saves the energy.

Brief description of the drawings

Fig. 1 is the structural representation of door leaf high frequency assembling device proposed by the present invention.

Embodiment

In order that the technical means, the inventive features, the objects and the advantages of the present invention are easy to understand, tie below Diagram and specific embodiment are closed, the present invention is expanded on further.

As shown in figure 1, energy-saving door leaf high frequency assembling device proposed by the present invention includes supporting mechanism and top-pressure mechanism, top Press mechanism is installed on supporting mechanism, and support act is carried out to top-pressure mechanism by supporting mechanism, and door leaf edge is carried out by top-pressure mechanism Top pressure, top-pressure mechanism include upper left briquetting 1, upper right briquetting 2, lower-left briquetting 3, bottom right briquetting 4, left side briquetting 5 and right side pressure Block 6, the left end of upper left briquetting are bent downwards, and its right end is bent to the right, withstand the upper left corner of door leaf, upper right briquetting Right end is bent downwards, and its left end is bent to the left, withstands the upper right corner of door leaf, and the left end of lower-left briquetting is curved upward Folding, its right end bent to the right, withstands the lower left corner of door leaf, and the right end of bottom right briquetting is bent upward, its left end to Left is bent, and is withstood the lower right corner of door leaf, left side extension of the left side briquetting along door leaf, is withstood on the left of door leaf, right side briquetting edge The right edge extension of door leaf, withstands on the right side of door leaf；Upper left briquetting, upper right briquetting, lower-left briquetting, bottom right briquetting, left side briquetting with And applicator is respectively equipped with the briquetting of right side, door leaf corner and both sides are heated respectively.Top-pressure mechanism also includes Upper left leading screw 7, upper right leading screw 8, lower-left leading screw 9, bottom right leading screw 10, left side leading screw 11 and right side leading screw 12, upper left leading screw, the right side Upper leading screw, lower-left leading screw, bottom right leading screw, left side leading screw and right side leading screw are installed on supporting mechanism by connector, upper left Leading screw, lower-left leading screw and left side leading screw are located on the left of door leaf, and upper right leading screw, bottom right leading screw and right side leading screw are located at the door leaf right side Side, upper left briquetting are adapted to upper left leading screw, drive upper left briquetting to move up and down by upper left leading screw, upper right briquetting is fitted with upper right leading screw Match somebody with somebody, drive upper right briquetting to move up and down by upper right leading screw, lower-left briquetting is adapted to lower-left leading screw, and lower-left pressure is driven by lower-left leading screw Block is moved up and down, and bottom right briquetting is adapted to bottom right leading screw, drives bottom right briquetting to move up and down by bottom right leading screw, left side briquetting and a left side Lateral filament thick stick is adapted to, and drives left side briquetting to move left and right by left side leading screw, right side briquetting is adapted to right side leading screw, by right side leading screw band Dynamic right side briquetting moves left and right.Top-pressure mechanism also includes upper left motor 13, upper right motor 14, lower-left motor 15th, bottom right motor 16, left side drive motor 17 and right side drive motors 18, upper left motor, upper right motor, Lower-left motor, bottom right motor, left side drive motor and right side drive motors are fixed on supporting mechanism, and upper left is driven The line shaft of dynamic motor is connected with upper left leading screw, drives the operating of upper left leading screw by upper left motor, upper right motor moves Power axle is connected with upper right leading screw, and the operating of upper right leading screw, the line shaft of lower-left motor and lower-left are driven by upper right motor Leading screw is connected, and the operating of lower-left leading screw is driven by lower-left motor, and the line shaft of bottom right motor is connected with bottom right leading screw, by Bottom right motor drives the operating of bottom right leading screw, and the line shaft of left side drive motor is connected with left side leading screw, and electricity is driven by left side Machine drives left side leading screw operating, and the line shaft of right side drive motors is connected with right side leading screw, and right side is driven by right side drive motors Leading screw operates.Supporting mechanism includes upper beam column 19, lower beam column 20, left beam column 21 and right beam column 22, upper beam column and lower beam column phase Mutually parallel, left beam column is parallel to each other with right beam column, upper beam column, lower beam column, left beam column and the end to end formation framework of right beam column, Upper left motor is fixed on beam column left end, and upper left leading screw extends downwardly along left beam column, and upper right motor is fixed on upper beam Bar right-hand member, upper right leading screw extend downwardly along right beam column, and lower-left motor is fixed on lower beam column left end, and lower-left leading screw is along left beam column Upwardly extend, bottom right motor is fixed on lower beam column right-hand member, and bottom right leading screw upwardly extends along right beam column, and left side drive motor is solid In the middle part of left beam column, left side leading screw extends to the right along upper beam column and lower beam column, and right side drive motors are fixed in the middle part of right beam column, Right side leading screw extends to the left along upper beam column and lower beam column.The door leaf assembling device is using upper left briquetting, upper right briquetting, lower-left pressure Block, bottom right briquetting, left side briquetting and right side briquetting respectively against door leaf corner and the left and right sides, and upper left briquetting, Applicator is set respectively in upper right briquetting, lower-left briquetting, bottom right briquetting, left side briquetting and right side briquetting, pressurizeed Door leaf corner and both sides are heated respectively while sizing, shapes and is completed with one step of heating, mechanical driving part is using rolling Ballscrew structure, transmission moment of torsion is big, and positioning precision is high, and coefficient of friction is small, operates steadily reliable, is advantageous to lift operating efficiency, Procedure of processing is reduced, saves the energy.

Embodiment of above only technical concepts and features to illustrate the invention, its object is to allow those skilled in the art Member understands present disclosure and is carried out, and it is not intended to limit the scope of the present invention, all according to spirit of the invention The equivalent change or modification that essence is done, it should all cover within the scope of the present invention.

Claims (4)

1. a kind of energy-saving door leaf high frequency assembling device, including supporting mechanism and top-pressure mechanism, top-pressure mechanism are installed on support machine On structure, support act is carried out to top-pressure mechanism by supporting mechanism, top pressure is carried out to door leaf edge by top-pressure mechanism, it is characterised in that：

Top-pressure mechanism includes upper left briquetting, upper right briquetting, lower-left briquetting, bottom right briquetting, left side briquetting and right side briquetting, upper left The left end of briquetting is bent downwards, and its right end is bent to the right, withstands the upper left corner of door leaf, the right end of upper right briquetting to Lower section is bent, and its left end is bent to the left, withstands the upper right corner of door leaf, and the left end of lower-left briquetting is bent upward, and it is right Termination is bent to the right, withstands the lower left corner of door leaf, and the right end of bottom right briquetting is bent upward, and its left end is curved to the left Folding, the lower right corner of door leaf is withstood, left side extension of the left side briquetting along door leaf, is withstood on the left of door leaf, right side briquetting is along door leaf Right edge extends, and withstands on the right side of door leaf；

High frequency is respectively equipped with upper left briquetting, upper right briquetting, lower-left briquetting, bottom right briquetting, left side briquetting and right side briquetting to add Thermode, door leaf corner and both sides are heated respectively.

A kind of 2. energy-saving door leaf high frequency assembling device according to claim 1, it is characterised in that：

Top-pressure mechanism also includes upper left leading screw, upper right leading screw, lower-left leading screw, bottom right leading screw, left side leading screw and right side leading screw, left Upper leading screw, upper right leading screw, lower-left leading screw, bottom right leading screw, left side leading screw and right side leading screw are installed on support machine by connector On structure, upper left leading screw, lower-left leading screw and left side leading screw are located on the left of door leaf, upper right leading screw, bottom right leading screw and right side leading screw On the right side of the door leaf, upper left briquetting be adapted to upper left leading screw, is moved up and down by upper left leading screw drive upper left briquetting, upper right briquetting and Upper right leading screw is adapted to, and drives upper right briquetting to move up and down by upper right leading screw, lower-left briquetting is adapted to lower-left leading screw, by lower-left leading screw Lower-left briquetting is driven to move up and down, bottom right briquetting is adapted to bottom right leading screw, drives bottom right briquetting to move up and down by bottom right leading screw, left Side pressing block is adapted to left side leading screw, drives left side briquetting to move left and right by left side leading screw, and right side briquetting is adapted to right side leading screw, by Right side leading screw drives right side briquetting to move left and right.

A kind of 3. energy-saving door leaf high frequency assembling device according to claim 2, it is characterised in that：

Top-pressure mechanism also includes upper left motor, upper right motor, lower-left motor, bottom right motor, left side drive Dynamic motor and right side drive motors, upper left motor, upper right motor, lower-left motor, bottom right motor, a left side Side motor and right side drive motors are fixed on supporting mechanism, line shaft and the upper left leading screw phase of upper left motor Even, leading screw operating in upper left is driven by upper left motor, the line shaft of upper right motor is connected with upper right leading screw, driven by upper right Dynamic motor driven upper right leading screw operating, the line shaft of lower-left motor are connected with lower-left leading screw, driven by lower-left motor Lower-left leading screw operating, the line shaft of bottom right motor are connected with bottom right leading screw, and bottom right leading screw fortune is driven by bottom right motor Turn, the line shaft of left side drive motor is connected with left side leading screw, drives left side leading screw to operate by left side drive motor, right side driving The line shaft of motor is connected with right side leading screw, drives right side leading screw to operate by right side drive motors.

A kind of 4. energy-saving door leaf high frequency assembling device according to claim 3, it is characterised in that：

Supporting mechanism includes upper beam column, lower beam column, left beam column and right beam column, and upper beam column is parallel to each other with lower beam column, left beam column It is parallel to each other with right beam column, upper beam column, lower beam column, left beam column and the end to end formation framework of right beam column, upper left motor Beam column left end is fixed on, upper left leading screw extends downwardly along left beam column, and upper right motor is fixed on beam column right-hand member, upper right silk Thick stick extends downwardly along right beam column, and lower-left motor is fixed on lower beam column left end, and lower-left leading screw upwardly extends along left beam column, bottom right Motor is fixed on lower beam column right-hand member, and bottom right leading screw is upwardly extended along right beam column, and left side drive motor is fixed in left beam column Portion, left side leading screw extend to the right along upper beam column and lower beam column, and right side drive motors are fixed in the middle part of right beam column, and right side leading screw is along upper Beam column and lower beam column extend to the left.