CN110668245B - Gluing equipment for hardware - Google Patents

Abstract

The invention relates to the field of hardware, in particular to gluing equipment for hardware. The gluing process of the blank adhesive tape can be realized through the gluing box assembly; the processing and stopping of the device can be controlled by the action of buoyancy between the liquid level feedback assembly and the glue solution; the power adjusting assembly can realize transmission between the adhesive box assembly and the adjusting assembly; the processing rate of the device can be adjusted by adjusting the assembly. The device comprises a viscose box assembly, a liquid level feedback assembly, a power adjusting assembly, a collecting and tensioning assembly, an adjusting assembly, a middle-end connecting rod I and a connecting belt II, wherein when a sliding speed-regulating slider slides to the upper left, the lower left, the upper right and the lower right of an H-shaped sliding groove along the H-shaped sliding groove, meshing transmission of a first speed-changing straight tooth and a second speed-changing straight tooth is respectively realized, meshing transmission of a third speed-changing straight tooth and a fourth speed-changing straight tooth is realized, meshing transmission of a fifth speed-changing straight tooth and a sixth speed-changing straight tooth is realized, and further the processing speed of the device is adjusted.

Description

Gluing equipment for hardware

Technical Field

The invention relates to the field of hardware, in particular to gluing equipment for hardware.

Background

Viscose equipment is a common equipment in the hardware field, but ordinary viscose equipment for hardware can not automatic shutdown processing, and the function is more single simultaneously.

Disclosure of Invention

The invention aims to provide a hardware gluing device, which can realize the gluing process of an empty adhesive tape through a gluing box assembly; the processing and stopping of the device can be controlled by the action of buoyancy between the liquid level feedback assembly and the glue solution; the power adjusting assembly can realize transmission between the adhesive box assembly and the adjusting assembly; the processing rate of the device can be adjusted by adjusting the assembly.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a viscose equipment for five metals, includes viscose case assembly, liquid level feedback assembly, power regulation assembly, collects and the tensioning assembly, adjusts assembly, middle-end connecting rod one, connects belt two, its characterized in that: the viscose case assembly is connected with the liquid level feedback assembly, and the power regulation assembly is connected with the viscose case assembly, collects and is connected with the viscose case assembly with the tensioning assembly, and well end connecting rod one is connected with the viscose case assembly, adjusts the assembly and is connected with the power regulation assembly.

As a further optimization of the technical scheme, the invention relates to glue equipment for hardware, which comprises an upper end cover, a side wall rod I, a side wall rod II, a tensioning threaded rod I, a glue roller I, a driving bevel gear I, an inner sleeve pipe I, an inner push spring I, an inner bearing outer frame I, a middle end sliding plate I, a middle end push spring II, a transmission bevel gear I, a transmission bevel gear shaft I, a glue roller II, a glue boss, a boss push spring I, a side wall rectangular hole, an inner cavity wall and a liquid inlet hole, wherein the liquid inlet hole is connected with the upper end cover, the side wall rod I is connected with the upper end cover, the side wall rod II is connected with the inner cavity wall, the inner sleeve pipe I is connected with the inner cavity wall, the tensioning threaded rod I is connected with the inner sleeve pipe I, the glue roller I is connected with the driving bevel gear I, the driving bevel gear I is connected with the side wall rod II, the glue roller I is connected with the inner sleeve pipe I, the inner pushing spring I is connected with the first tensioning threaded rod, the inner bearing outer frame I is connected with the first glue solution roller, the middle end sliding plate I is connected with the first glue solution roller, the middle end pushing spring I and the middle end pushing spring II are connected with the middle end sliding plate I, the first transmission bevel gear is connected with the first transmission bevel gear shaft, the second glue solution roller is connected with the first transmission bevel gear shaft, the first transmission bevel gear shaft is connected with the inner cavity wall, the upper end cover is connected with the inner cavity wall, the glue solution boss is connected with the second glue solution roller, the first boss pushing spring is connected with the glue solution boss, the glue solution boss is connected with the first glue solution roller, and the side wall rectangular hole is connected with the inner cavity wall.

As a further optimization of the technical scheme, the invention relates to a glue sticking device for hardware, wherein a liquid level feedback assembly comprises a first outer frame, a first driving rod, a first driving push spring, a first driving slide rod, a second driving slide rod, a floating ball fixed rod, a floating ball, an inner rectangular slide hole, a clamping groove, a clamping rod and a clamping rod push spring, the first driving rod is connected with the first frame, the first driving push spring is connected with the first driving rod, the first driving push spring is connected with the first frame, the inner rectangular slide hole is connected with the first frame, the first driving slide rod is connected with the inner rectangular slide hole, the first driving slide rod is connected with the second driving slide rod, the clamping groove is connected with the second driving slide rod, the clamping rod is connected with the floating ball fixed rod, the clamping rod is connected with the clamping groove, the floating ball is connected with the floating ball fixed rod, the first outer frame is connected with an upper end cover, the first driving slide rod is connected with the, the middle end connecting rod I is connected with the driving rod I.

As a further optimization of the technical scheme, the invention relates to a gluing device for hardware, wherein a power adjusting combination body comprises an adjusting bottom plate, a first hinge frame, a second hinge frame, a sliding boss, a third hinge frame, a fourth hinge frame, a fifth hinge frame, a sixth hinge frame, a fifth transmission bevel gear, a sixth transmission bevel gear, a seventh transmission bevel gear and a first transmission belt, wherein the first hinge frame, the second hinge frame, the third hinge frame, the fourth hinge frame, the fifth hinge frame and the sixth hinge frame are all connected with the adjusting bottom plate, the sliding boss is connected with the second hinge frame, the fifth transmission bevel gear is connected with the third hinge frame, the sixth transmission bevel gear is connected with the sliding boss, the sixth transmission bevel gear is connected with the fourth hinge frame, the seventh transmission bevel gear is connected with the fifth hinge frame, the sixth transmission bevel gear is connected with the sixth transmission bevel gear, the first transmission belt is connected with the seventh transmission bevel gear, and the first middle end connecting rod is connected with the sliding boss, the transmission bevel gear is connected with the transmission bevel gear, the transmission bevel gear six is connected with the hinge frame four, the transmission bevel gear seven is connected with the hinge frame five, the transmission bevel gear five is connected with the hinge frame three, and the transmission bevel gear six is connected with the driving bevel gear one.

As a further optimization of the technical scheme, the invention relates to glue equipment for hardware, wherein the collecting and tensioning assembly comprises a first fixed outer frame, a first rectangular slider, a first inner end push spring, a first rolling roller, a second rolling roller, a first fixed plate, a first conical sleeve, a second conical sleeve, a first sleeve spring, a limit thread plate, a second fixed plate, a third rolling roller, a third conical sleeve, a fourth conical sleeve and a second sleeve spring, wherein the first rectangular slider is connected with the first fixed outer frame, the sixth inner end push spring is connected with the first rectangular slider, the first rolling roller is connected with the first fixed outer frame, the first rolling roller is connected with the first rolling roller, the second rolling roller is connected with the first fixed plate, the first conical sleeve is connected with the first fixed plate, the first sleeve spring is connected with the first fixed plate, and the limit thread plate is connected with the first fixed plate, the second fixing plate is connected with the three-phase rolling roller, the third conical sleeve is connected with the second fixing plate, the fourth conical sleeve is connected with the second fixing plate, the second sleeve spring is connected with the second fixing plate, the upper end cover is connected with the first fixing outer frame, the first fixing plate is connected with the upper end cover, and the second fixing plate is connected with the first inner bearing outer frame.

As a further optimization of the technical scheme, the invention relates to a gluing device for hardware, wherein an adjusting assembly comprises an input motor, input straight teeth, transmission straight teeth, a transmission shaft I, a transmission straight tooth II, a transmission bevel tooth A, a transmission bevel tooth B, a transmission bevel gear shaft I, a transmission straight tooth III, a transmission straight tooth IV, a transmission straight tooth V, a transmission straight tooth VI, a transmission straight tooth VII, a transmission straight tooth VIII, a speed regulation frame I, a speed regulation frame II, a driving slider I, a driving slider II, a speed regulation slider, a hinge frame A, a hinge frame B, a hinge base plate, a hinge frame C, a hinge frame D, a hinge frame E, a hinge frame F, a side wall fixed slide frame, a partition plate, an H-shaped chute, an N-shaped frame I, an N-shaped frame II, a slide hole and a transmission shaft II, the input straight teeth are connected with the input motor, the transmission straight teeth are connected with the input straight teeth, the transmission straight teeth are connected with the hinge frame A, the transmission straight teeth are connected with the slide frame A, the transmission teeth, the transmission straight teeth are connected with the slide frame II, the slide frame A, the slide frame B is connected with the slide frame A, the slide frame B, the slide frame A, the slide frame B is connected with the slide frame B, the slide frame B is connected with the slide frame A, the slide frame B is connected with the slide frame B, and the slide frame B, the slide frame B is connected with the slide frame B, and the slide frame B, the slide frame B is connected with the slide frame B, the slide, The hinge rack B is connected with the hinge base plate, the hinge rack C, the hinge rack D, the hinge rack E and the hinge rack F are connected with the hinge base plate, the side wall fixing sliding frame is connected with the hinge base plate, the partition plate is connected with the hinge base plate, the H-shaped sliding chute is connected with the hinge base plate, the transmission shaft I is connected with the hinge rack A and the hinge rack F, the transmission straight tooth I, the transmission straight tooth III, the transmission straight tooth V and the transmission straight tooth VII are connected with the transmission shaft I, the transmission shaft II is connected with the hinge rack B and the hinge rack E, the transmission straight tooth II, the transmission bevel tooth A, the transmission straight tooth IV, the transmission straight tooth VI, the transmission bevel tooth B is connected with the transmission bevel tooth A, the transmission bevel tooth B is connected with the transmission bevel tooth shaft I, the first driving slider is connected with the second transmission shaft, the second speed regulation outer frame is connected with the first driving slider, the sliding hole is connected with the second speed regulation outer frame, the first speed regulation outer frame is connected with the first transmission shaft, the second driving slider is connected with the first speed regulation outer frame, the first N-shaped frame is connected with the first speed regulation outer frame, the second N-shaped frame is connected with the second transmission shaft, the first speed regulation slider is connected with the H-shaped chute, the second speed regulation slider is connected with the first N-shaped frame or the second N-shaped frame, the input motor is connected with the adjusting bottom plate, the hinged bottom plate is connected with the adjusting bottom plate, the first transmission bevel gear shaft is connected with the hinged frame, the second connection belt is connected with the first transmission bevel gear shaft, and the second connection belt is connected with the fifth transmission bevel gear.

As a further optimization of the technical scheme, according to the gluing equipment for the hardware, the first rolling shaft is externally connected with a matched motor A.

The gluing equipment for hardware has the beneficial effects that:

when the sliding speed regulation slider slides to the upper left corner, the lower left corner, the upper right corner and the lower right corner of the H-shaped sliding groove along the H-shaped sliding groove, the first speed change straight tooth is meshed with the second speed change straight tooth for transmission, the third speed change straight tooth is meshed with the fourth speed change straight tooth for transmission, the fifth speed change straight tooth is meshed with the sixth speed change straight tooth for transmission, and the seventh speed change straight tooth is meshed with the eighth speed change straight tooth for transmission, so that the transmission ratio between the first transmission shaft and the second transmission shaft is changed, and the processing speed of the device is adjusted.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first view of the glue tank assembly of the present invention;

FIG. 4 is a second schematic view of the glue tank assembly of the present invention;

FIG. 5 is a third schematic view of the glue tank assembly of the present invention;

FIG. 6 is a fourth schematic view of the glue tank assembly of the present invention;

FIG. 7 is a fifth structural view of the glue tank assembly of the present invention;

FIG. 8 is a first schematic view of the fluid level feedback assembly of the present invention;

FIG. 9 is a second schematic view of the liquid level feedback assembly of the present invention;

FIG. 10 is a third schematic view of the fluid level feedback assembly of the present invention;

FIG. 11 is a first schematic view of the power adjustment assembly of the present invention;

FIG. 12 is a schematic structural view of a power adjustment assembly of the present invention;

FIG. 13 is a third schematic view of the power modulating assembly of the present invention;

FIG. 14 is a first schematic view of the collection and tensioning assembly of the present invention;

FIG. 15 is a second schematic view of the collection and tensioning assembly of the present invention;

FIG. 16 is a first schematic view of the adjusting assembly of the present invention;

FIG. 17 is a second schematic view of the adjusting assembly of the present invention;

FIG. 18 is a third schematic view of the adjusting assembly of the present invention;

FIG. 19 is a fourth schematic view of the adjustment assembly of the present invention;

FIG. 20 is a fifth schematic view of the adjusting assembly of the present invention;

FIG. 21 is a sixth schematic view of the adjustment assembly of the present invention;

FIG. 22 is a sixth schematic view of the glue tank assembly of the present invention;

FIG. 23 is a fourth schematic structural view of the power modulating assembly of the present invention;

fig. 24 is a seventh structural diagram of the adjusting assembly of the present invention.

In the figure: an adhesive box assembly 1; 1-1 of an upper end cover; 1-2 of a side wall rod; 1-3 of a side wall rod II; tensioning the threaded rod 1-4; 1-5 of a glue solution roller I; driving the bevel gear I1-6; 1-7 parts of an inner sleeve I; 1-8 parts of an inner push spring; the inner bearing outer frame is 1-9; 1-10 of a middle sliding plate; a middle end push spring 1-11; a middle end push spring II 1-12; 1-13 of a transmission bevel gear; 1-14 of a transmission bevel gear shaft; 1-15 parts of glue solution roller II; 1-16 of glue liquid boss; 1-17 of boss push spring; side wall rectangular holes 1-18; lumen walls 1-19; 1-20 parts of liquid inlet hole; a liquid level feedback assembly 2; 2-1 of an outer frame; a first driving rod 2-2; driving a push spring I2-3; driving the first sliding rod 2-4; driving a second sliding rod 2-5; 2-6 parts of a floating ball fixing rod; 2-7 of a floating ball; 2-8 parts of inner rectangular slide holes; 2-9 of a clamping groove; 2-10 parts of a clamping rod; 2-11 parts of a clamping rod push spring; a power adjusting assembly 3; adjusting the bottom plate 3-1; 3-2 of a hinge frame I; a second hinge frame 3-3; 3-4 of a sliding boss; 3-5 parts of a hinge frame III; 3-6 parts of a hinged frame; a fifth hinge frame 3-7; six hinge frames 3-8; 3-9 parts of transmission bevel gear; six transmission bevel teeth 3-10; 3-11 parts of transmission helical teeth; six transmission bevel teeth 3-12; 3-13 parts of transmission bevel gear seven; 3-14 parts of a first transmission belt; the collection and tensioning assembly 4; fixing the outer frame I4-1; 4-2 of a rectangular slider; six 4-3 inner end push springs; 4-4 parts of a first rolling roller; a first rolling shaft is 4-5; 4-6 parts of a second rolling roller; a first fixing plate 4-7; 4-8 parts of a conical sleeve; 4-9 parts of a conical sleeve; 4-10 parts of a first sleeve spring; 4-11 parts of a limiting thread plate; a second fixing plate 4-12; rolling roller III 4-13; 4-14 parts of a conical sleeve; 4-15 parts of conical sleeve; 4-16 parts of a sleeve spring; an adjusting assembly 5; inputting a motor 5-1; inputting straight teeth 5-2; 5-3 of transmission straight teeth; 5-4 parts of a first transmission shaft; 5-5 of a first variable speed straight tooth; 5-6 of a second variable speed straight tooth; the transmission bevel gear A5-7; the transmission bevel gear B5-8; 5-9 of a transmission bevel gear shaft; three-10 straight gears for speed change; the fourth speed change straight tooth is 5-11; 5-12 of speed change straight teeth; the speed change straight teeth are six 5-13; 5-14 parts of speed change straight teeth seven; eight 5-15 straight speed-changing teeth; 5-16 parts of a speed-adjusting outer frame I; 5-17 of a speed regulation outer frame II; 5-18 of a driving slider; 5-19 of a driving slider II; 5-20 parts of speed regulation slider; hinge brackets A5-21; hinge brackets B5-22; hinged bottom plates 5-23; hinge brackets C5-24; hinged brackets D5-25; hinge brackets E5-26; hinge brackets F5-27; side wall fixed carriages 5-28; 5-29 parts of partition board; 5-30 parts of an H-shaped chute; 5-31 parts of an N-shaped frame; 5-32 parts of an N-shaped frame II; 5-33 parts of slide holes; a second transmission shaft 5-34; a middle end connecting rod I6; and a second belt 7 is connected.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by welding; fixing by means of thread fixing and the like, and using different fixing modes by combining different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 24, and a hardware gluing device includes a gluing box assembly 1, a liquid level feedback assembly 2, a power adjusting assembly 3, a collecting and tensioning assembly 4, an adjusting assembly 5, a middle end connecting rod one 6, and a connecting belt two 7, and is characterized in that: viscose case assembly 1 is connected with liquid level feedback assembly 2, and power regulation assembly 3 is connected with viscose case assembly 1, collects and is connected with viscose case assembly 1 with tensioning assembly 4, and a middle-end connecting rod 6 is connected with viscose case assembly 1, and regulation assembly 5 is connected with power regulation assembly 3.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 24, and the present embodiment further describes the first embodiment, where the glue tank assembly 1 includes an upper end cover 1-1, a side wall rod 1-2, a side wall rod two 1-3, a tension threaded rod one 1-4, a glue solution roller one 1-5, a driving bevel gear one 1-6, an inner sleeve pipe one 1-7, an inner push spring one 1-8, an inner bearing outer frame one 1-9, a middle end slide plate one 1-10, a middle end push spring one 1-11, a middle end push spring two 1-12, a driving bevel gear one 1-13, a driving bevel gear shaft one 1-14, a glue solution roller two 1-15, a glue solution boss 1-16, a boss push spring one 1-17, a side wall rectangular hole 1-18, an inner cavity wall 1-19, and a liquid inlet hole 1-20, the liquid inlet holes 1-20 are connected with the upper end cover 1-1, the side wall rods 1-2 are connected with the upper end cover 1-1, the side wall rods 1-3 are connected with the inner cavity walls 1-19, the inner sleeve pipes 1-7 are connected with the inner cavity walls 1-19, the tensioning threaded rods 1-4 are connected with the inner sleeve pipes 1-7, the glue solution rollers 1-5 are connected with the driving conical teeth 1-6, the driving conical teeth 1-6 are connected with the side wall rods 1-3, the glue solution rollers 1-5 are connected with the inner sleeve pipes 1-7, the inner push springs 1-8 are connected with the tensioning threaded rods 1-4, the inner bearing outer frames 1-9 are connected with the glue solution rollers 1-5, the middle end sliding plate I1-10 is connected with the glue solution roller I1-5, the middle end push spring I1-11 and the middle end push spring II 1-12 are connected with the middle end sliding plate I1-10, the transmission bevel gear I1-13 is connected with the transmission bevel gear shaft I1-14, the glue solution roller II 1-15 is connected with the transmission bevel gear shaft I1-14, the transmission bevel gear shaft I1-14 is connected with the inner cavity wall 1-19, the upper end cover 1-1 is connected with the inner cavity wall 1-19, the glue solution boss 1-16 is connected with the glue solution roller II 1-15, the boss push spring I1-17 is connected with the glue solution boss 1-16, the glue solution boss 1-16 is connected with the glue solution roller I1-5, and the side wall rectangular hole 1-18 is connected with the inner cavity wall 1-19.

The third concrete implementation mode:

the first embodiment is further described with reference to fig. 1-24, and the first embodiment is further described, in which the liquid level feedback assembly 2 includes an outer frame one 2-1, a driving rod one 2-2, a driving push spring one 2-3, a driving rod one 2-4, a driving rod two 2-5, a floating ball fixing rod 2-6, a floating ball 2-7, an inner rectangular slide hole 2-8, a slot 2-9, a clamping rod 2-10, and a clamping rod push spring 2-11, the driving rod one 2-2 is connected with the frame one 2-1, the driving push spring one 2-3 is connected with the driving rod one 2-2, the driving push spring one 2-3 is connected with the frame one 2-1, the inner rectangular slide hole 2-8 is connected with the frame one 2-1, the driving rod one 2-4 is connected with the inner rectangular slide hole 2-8, the first driving slide bar 2-4 is connected with the second driving slide bar 2-5, the first driving bar 2-2 is connected with the second driving slide bar 2-5, the clamping groove 2-9 is connected with the second driving slide bar 2-5, the clamping bar 2-10 is connected with the floating ball fixed bar 2-6, the clamping bar push spring 2-11 is connected with the floating ball fixed bar 2-6, the clamping bar 2-10 is connected with the clamping groove 2-9, the floating ball 2-7 is connected with the floating ball fixed bar 2-6, the first outer frame 2-1 is connected with the upper end cover 1-1, the first driving slide bar 2-4 is connected with the upper end cover 1-1, and the first middle end connecting bar 6 is connected with the first driving bar 2-2;

with the reduction of glue solution in the inner cavity wall 1-19, the floating ball 2-7 slides downwards, the driving slide bar 2-4 is driven to slide downwards by the floating ball 2-7, the driving slide bar 2-5 is driven to rotate downwards by the driving slide bar 2-4, the driving slide bar 2-5 is driven to rotate in the reverse direction of the driving slide bar 2-2, the sliding boss 3-4 is driven to slide towards two sides by the middle end connecting rod 6, the transmission bevel gear six 3-10 is separated from the transmission bevel gear seven 3-13 and the transmission bevel gear five 3-9, the transmission relation is adopted, the driving bevel gear one 1-6 stops rotating, and the gluing process stops.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 24, and the embodiment further describes the first embodiment, where the power adjustment assembly 3 includes an adjustment bottom plate 3-1, a first hinge bracket 3-2, a second hinge bracket 3-3, a sliding boss 3-4, a third hinge bracket 3-5, a fourth hinge bracket 3-6, a fifth hinge bracket 3-7, a sixth hinge bracket 3-8, a fifth transmission bevel gear 3-9, a sixth transmission bevel gear 3-10, a fifth transmission bevel gear 3-11, a sixth transmission bevel gear 3-12, a seventh transmission bevel gear 3-13, a first transmission belt 3-14, a first hinge bracket 3-2, a second hinge bracket 3-3, a third hinge bracket 3-5, a fourth hinge bracket 3-6, a fifth hinge bracket 3-7, and a sixth hinge bracket 3-8, all connected to the adjustment bottom plate 3-1, the sliding lug boss 3-4 is connected with the second hinge frame 3-3, the transmission bevel gear five 3-9 is connected with the third hinge frame 3-5, the transmission bevel gear six 3-10 is connected with the sliding lug boss 3-4, the transmission bevel gear six 3-12 is connected with the fourth hinge frame 3-6, the transmission bevel gear seven 3-13 is connected with the fifth hinge frame 3-7, the transmission bevel gear 3-11 is connected with the transmission bevel gear six 3-12, the transmission belt one 3-14 is connected with the transmission bevel gear seven 3-13, the middle end connecting rod one 6 is connected with the sliding lug boss 3-4, the transmission bevel gear 3-11 is connected with the transmission bevel gear 3-11, the transmission bevel gear six 3-12 is connected with the fourth hinge frame 3-6, the transmission bevel gear seven 3-13 is connected with the fifth hinge frame 3-7, the fifth transmission bevel gear 3-9 is connected with the third hinge frame 3-5, and the sixth transmission bevel gear 3-12 is connected with the first driving bevel gear 1-6.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-24, and the embodiment further describes the first embodiment, wherein the collecting and tensioning assembly 4 comprises a first fixed outer frame 4-1, a first rectangular slider 4-2, a sixth inner end pushing spring 4-3, a first rolling roller 4-4, a first rolling shaft 4-5, a second rolling roller 4-6, a first fixed plate 4-7, a first tapered sleeve 4-8, a second tapered sleeve 4-9, a first sleeve spring 4-10, a limiting threaded plate 4-11, a second fixed plate 4-12, a third rolling roller 4-13, a third tapered sleeve 4-14, a fourth tapered sleeve 4-15 and a second sleeve spring 4-16, the first rectangular slider 4-2 is connected with the first fixed outer frame 4-1, and the sixth inner end pushing spring 4-3 is connected with the first rectangular slider 4-2, the roller I4-5 is connected with the fixed outer frame I4-1, the roller I4-4 is connected with the roller I4-5, the roller II 4-6 is connected with the fixed plate I4-7, the tapered sleeve I4-8 is connected with the fixed plate I4-7, the tapered sleeve II 4-9 is connected with the fixed plate I4-7, the sleeve spring I4-10 is connected with the fixed plate I4-7, the limiting thread plate 4-11 is connected with the fixed plate I4-7, the fixed plate II 4-12 is connected with the roller III 4-13, the tapered sleeve III 4-14 is connected with the fixed plate II 4-12, the tapered sleeve IV 4-15 is connected with the fixed plate II 4-12, the sleeve spring II 4-16 is connected with the fixed plate II 4-12, the upper end cover 1-1 is connected with the fixed outer frame I4-1, the fixed plate I4-7 is connected with the upper end cover 1-1, and the fixed plate II 4-12 is connected with the inner bearing outer frame I1-9.

The sixth specific implementation mode:

the first embodiment is further described with reference to fig. 1-24, and the adjusting assembly 5 includes an input motor 5-1, input straight teeth 5-2, transmission straight teeth 5-3, a transmission shaft I5-4, a transmission straight teeth I5-5, a transmission straight teeth II 5-6, transmission bevel teeth A5-7, transmission bevel teeth B5-8, a transmission bevel teeth shaft I5-9, a transmission straight teeth III 5-10, a transmission straight teeth IV 5-11, a transmission straight teeth V5-12, a transmission straight teeth VI 5-13, a transmission straight teeth VII-14, a transmission straight teeth VIII 5-15, a speed regulation outer frame I5-16, a speed regulation outer frame II 5-17, a driving slider I5-18, a driving slider II 5-19, and a speed regulation slider 5-20, Hinged frame A5-21, hinged frame B5-22, hinged bottom plate 5-23, hinged frame C5-24, hinged frame D5-25, hinged frame E5-26, hinged frame F5-27, side wall fixed carriage 5-28, partition plate 5-29, H-shaped chute 5-30, N-shaped frame I5-31, N-shaped frame II 5-32, slide hole 5-33, transmission shaft II 5-34, input straight tooth 5-2 is connected with input motor 5-1, transmission straight tooth 5-3 is connected with input straight tooth 5-2, transmission straight tooth 5-3 is connected with transmission shaft I5-4, hinged frame A5-21 and hinged frame B5-22 are connected with hinged bottom plate 5-23, hinged frame C5-24, hinged frame D5-25, hinged frame E5-26 and hinged frame F5-27 are connected with hinged bottom plate 5-23, side wall fixed sliding carriages 5-28 are connected with hinged bottom plates 5-23, partition plates 5-29 are connected with hinged bottom plates 5-23, H-shaped chutes 5-30 are connected with hinged bottom plates 5-23, transmission shafts 5-4 are connected with hinged frames A5-21 and hinged frames F5-27, transmission shafts 5-5, transmission straight teeth three 5-10, transmission straight teeth five 5-12, transmission straight teeth seven 5-14 are connected with transmission shafts 5-4, transmission shafts two 5-24 are connected with hinged frames B5-22 and hinged frames E5-26, transmission straight teeth two 5-6, transmission conical teeth A5-7, transmission straight teeth four 5-11, transmission straight teeth six 5-13, transmission straight teeth eight 5-15 are connected with transmission shafts two 5-34, transmission straight teeth one 5-5 is connected with transmission straight teeth two 5-6, the three 5-10 parts of the three speed-changing straight teeth are connected with the four 5-11 parts of the four speed-changing straight teeth, the five 5-12 parts of the five speed-changing straight teeth are connected with the six 5-13 parts of the six speed-changing straight teeth, the seven 5-14 parts of the seven speed-changing straight teeth are connected with the eight 5-15 parts of the eight speed-changing straight teeth, the B5-8 parts of the transmission bevel teeth are connected with the A5-7 parts of the transmission bevel teeth, the B5-8 parts of the transmission bevel teeth are connected with the first 5-9 parts of the transmission bevel teeth shaft, the first 5-18 parts of the driving slider are connected with the second 5-34 parts of the transmission shaft, the second 5-17 parts of the speed-adjusting outer frame are connected with the first 5-18 parts of the driving slider, the 5-33 parts of the sliding hole are connected with the second 5-17 parts of the speed-adjusting outer frame, the first 5-16 parts of the speed-adjusting outer frame are connected with the first 5-4 parts of the transmission shaft, the second 5-19 parts of the driving slider are connected with the first 5-16 parts of the speed adjusting outer frame, the N-31 parts of the speed adjusting outer frame are connected with the first 5-4 parts of the first part of the speed adjusting frame, the N-shaped frame II 5-32 is connected with the transmission shaft II 5-34, the speed regulation slider 5-20 is connected with the H-shaped chute 5-30, the speed regulation slider 5-20 is connected with the N-shaped frame I5-31 or the N-shaped frame II 5-32, the input motor 5-1 is connected with the adjusting bottom plate 3-1, the hinged bottom plate 5-23 is connected with the adjusting bottom plate 3-1, the transmission bevel gear shaft I5-9 is connected with the hinged frame I3-2, the connection belt II 7 is connected with the transmission bevel gear shaft I5-9, and the connection belt II 7 is connected with the transmission bevel gear V3-9;

the speed regulating slider 5-20 can be manually slid according to the processing speed of the device adjusted according to actual conditions and can slide along the H-shaped sliding groove 5-30, when the sliding speed regulation slider 5-20 slides to the four corners of the upper left, the lower left, the upper right and the lower right of the H-shaped sliding chute 5-30 along the H-shaped sliding chute 5-30, respectively enabling the first 5-5 of the speed change straight teeth to be in meshing transmission with the second 5-6 of the speed change straight teeth, the third 5-10 of the speed change straight teeth to be in meshing transmission with the fourth 5-11 of the speed change straight teeth, the fifth 5-12 of the speed change straight teeth to be in meshing transmission with the sixth 5-13 of the speed change straight teeth, the seventh 5-14 of the speed change straight teeth to be in meshing transmission with the eighth 5-15 of the speed change straight teeth, and the transmission ratio between the transmission shaft I5-4 and the transmission shaft II 5-34 is changed, so that the processing speed of the device is adjusted.

The seventh embodiment:

the embodiment is described below with reference to fig. 1 to 24, and the embodiment further describes the first embodiment, in which the rollers 4 to 5 are externally connected with a matching motor a.

The invention relates to a hardware gluing device, which has the working principle that: when the glue storage device is used, glue needing to be used is poured into the inner cavity wall 1-19 through the liquid inlet holes 1-20, the floating ball 2-7 pushes the driving slide bar I2-4 to slide upwards along the inner rectangular slide hole 2-8 under the action of buoyancy along with accumulation of the glue in the inner cavity wall 1-19, the driving slide bar I2-4 pushes the driving slide bar II 2-5 to swing upwards, when the driving slide bar II 2-5 rotates to a balance position with the driving bar I2-2, the driving slide bar II 2-5 is pushed to continuously turn upwards under the action of elastic force of the driving push spring I2-3, the driving slide bar I2-5 drives the driving bar I2-2 to rotate anticlockwise, the middle connecting bar I6 drives the sliding boss 3-4 to drive the hinge frame II 3-3 to slide inwards, the transmission bevel gear six 3-10 is driven by the sliding boss 3-4 to transmit on the transmission bevel gear five 3-9 and the transmission bevel gear seven 3-13, the input motor 5-1 is started simultaneously, the input straight gear 5-2 is driven to rotate by the input motor 5-1, the transmission shaft I5-4 is driven to rotate by the input straight gear 5-2, the speed regulation slider 5-20 is slid along the H-shaped chute 5-30 simultaneously, the speed regulation outer frame I5-16 is driven to slide by the speed regulation slider 5-20, the transmission slider II 5-19 is driven to slide along the transmission shaft I5-4 by the speed regulation outer frame I5-16, the transmission is carried out between the speed change straight gear I5-5 and the transmission shaft I5-4 simultaneously, and the meshing transmission is carried out between the speed change straight gear I5-5 and the speed change straight gear II 5-6, drives the second transmission shaft 5-34 to rotate, further drives the first transmission bevel gear A5-7 to rotate, further drives the second transmission bevel gear B5-8 to rotate, further drives the first transmission bevel gear shaft 5-9 to rotate through the second transmission bevel gear B5-8, further drives the second connecting belt 7 to move through the first transmission bevel gear shaft 5-9, further drives the fifth transmission bevel gear 3-9 to rotate, drives the seventh transmission bevel gear 3-13 to rotate through the sixth transmission bevel gear 3-10, further drives the first transmission belt 3-14 to rotate, further drives the sixth transmission bevel gear 3-12 to rotate, further drives the fifth transmission bevel gear 3-11 to rotate, drives the first transmission bevel gear 3-12 to rotate the first transmission bevel gear 1-6, further drives the first glue roller 1-5 to rotate, and the first glue roller outer frame 1-5 to move, via the inner bearing one 1-9, and drives the glue in the inner cavity wall 1-19 The glue solution on the first glue solution roller 1-5 is bonded to the second glue solution roller 1-15 through the friction rotation between the first glue solution roller 1-5 and the second glue solution roller 1-15, when the first glue solution roller 1-5 is bonded to the second glue solution roller 1-15, the boss 1-16 of the glue solution moves towards the inner end along the second glue solution roller 1-15, the boss push spring 1-17 is compressed, the boss push spring 1-17 prevents the boss 1-16 of the glue solution from sliding along the second glue solution roller 1-15, and the friction force when the boss 1-5 of the glue solution roller is bonded to the second glue solution roller 1-15 is increased, so that the glue solution is conveniently and better transferred; one end of an empty rubber roller is connected between a first conical sleeve 4-8 and a second conical sleeve 4-9, the other end of the empty rubber roller is placed between a second fixing plate 4-12 and a third conical sleeve 4-14, a matched motor A connected with the first roller 4-5 is started at the same time, the first roller 4-5 is driven to rotate, the first roller 4-4 is driven to rotate, the empty rubber belt is driven to rotate through the friction force between the first roller 4-4 and the second roller 4-6, the smearing of the glue on the empty rubber belt is completed through the friction between the empty rubber belt and a second glue roller 1-15, when the first roller 4-4 and the second roller 4-6 are extruded, the first roller 4-4 is pushed by an inner end push spring six 4-3 to push the first roller 4-4 elastic force, and the friction force between the first roller 4-4 and the second roller 4-6 is increased, thereby preventing the empty adhesive tape between the first rolling roller 4-4 and the second rolling roller 4-6 from slipping; along with the decrease of the glue solution in the inner cavity wall 1-19, the floating ball 2-7 slides downwards, the first driving slide bar 2-4 is driven to slide downwards by the floating ball 2-7, the second driving slide bar 2-5 is driven to rotate downwards by the first driving slide bar 2-4, the first driving slide bar 2-2 is driven to rotate reversely by the second driving slide bar 2-5, the middle connecting rod I6 drives the sliding lug boss 3-4 to slide towards two sides, so that the transmission bevel gear VI 3-10 is separated from the transmission bevel gear VII 3-13 and the transmission bevel gear V3-9, the first driving bevel gear 1-6 stops rotating through the transmission relation, so that the gluing process stops until glue solution is added into the inner cavity wall 1-19 from the liquid inlet hole 1-20, and the automatic processing process is realized; the speed regulating slider 5-20 can be manually slid according to the processing speed of the device adjusted according to actual conditions and can slide along the H-shaped sliding groove 5-30, when the sliding speed regulation slider 5-20 slides to the four corners of the upper left, the lower left, the upper right and the lower right of the H-shaped sliding chute 5-30 along the H-shaped sliding chute 5-30, respectively enabling the first 5-5 of the speed change straight teeth to be in meshing transmission with the second 5-6 of the speed change straight teeth, the third 5-10 of the speed change straight teeth to be in meshing transmission with the fourth 5-11 of the speed change straight teeth, the fifth 5-12 of the speed change straight teeth to be in meshing transmission with the sixth 5-13 of the speed change straight teeth, the seventh 5-14 of the speed change straight teeth to be in meshing transmission with the eighth 5-15 of the speed change straight teeth, and the transmission ratio between the transmission shaft I5-4 and the transmission shaft II 5-34 is changed, so that the processing speed of the device is adjusted.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations can be made by those skilled in the art within the spirit and scope of the present invention; modifying; and the addition or the replacement also belongs to the protection scope of the invention.

Claims (2)

1. The utility model provides a viscose equipment for five metals, includes viscose case assembly (1), liquid level feedback assembly (2), power regulation assembly (3), collects and tensioning assembly (4), adjusts assembly (5), middle-end connecting rod (6), connects belt two (7), its characterized in that: the glue box assembly (1) comprises an upper end cover (1-1), a side wall rod I (1-2), a side wall rod II (1-3), a tensioning threaded rod I (1-4), a glue solution roller I (1-5), a driving bevel gear I (1-6), an inner sleeve I (1-7), an inner push spring I (1-8), an inner bearing outer frame I (1-9), a middle end sliding plate I (1-10), a middle end push spring I (1-11), a middle end push spring II (1-12), a transmission bevel gear I (1-13), a transmission bevel gear shaft I (1-14), a glue solution roller II (1-15), a glue solution boss (1-16), a boss push spring I (1-17), side wall rectangular holes (1-18), inner cavity walls (1-19) and a liquid inlet hole (1-20), the liquid inlet hole (1-20) is connected with the upper end cover (1-1), the side wall rod I (1-2) is connected with the upper end cover (1-1), the side wall rod II (1-3) is connected with the inner cavity wall (1-19), the inner sleeve tube I (1-7) is connected with the inner cavity wall (1-19), the tensioning threaded rod I (1-4) is connected with the inner sleeve tube I (1-7), the glue solution roller I (1-5) is connected with the driving conical tooth I (1-6), the driving conical tooth I (1-6) is connected with the side wall rod II (1-3), the glue solution roller I (1-5) is connected with the inner sleeve tube I (1-7), the inner push spring I (1-8) is connected with the tensioning threaded rod I (1-4), the inner bearing outer frame I (1-9) is connected with the glue solution roller I (1-5), the middle end sliding plate I (1-10) is connected with the glue solution roller I (1-5), the middle end push spring I (1-11) and the middle end push spring II (1-12) are connected with the middle end sliding plate I (1-10), the transmission bevel gear I (1-13) is connected with the transmission bevel gear shaft I (1-14), the glue solution roller II (1-15) is connected with the transmission bevel gear shaft I (1-14), the transmission bevel gear shaft I (1-14) is connected with the inner cavity wall (1-19), the upper end cover (1-1) is connected with the inner cavity wall (1-19), the lug boss (1-16) is connected with the glue solution roller II (1-15), the lug boss push spring I (1-17) is connected with the glue solution lug boss (1-16), the glue boss (1-16) is connected with the glue roller I (1-5), and the side wall rectangular hole (1-18) is connected with the inner cavity wall (1-19);

the liquid level feedback assembly (2) comprises an outer frame I (2-1), a driving rod I (2-2), a driving push spring I (2-3), a driving slide rod I (2-4), a driving slide rod II (2-5), a floating ball fixing rod (2-6), a floating ball (2-7), an inner rectangular slide hole (2-8), a clamping groove (2-9), a clamping rod (2-10) and a clamping rod push spring (2-11), wherein the driving rod I (2-2) is connected with the frame I (2-1), the driving push spring I (2-3) is connected with the driving rod I (2-2), the driving push spring I (2-3) is connected with the frame I (2-1), the inner rectangular slide hole (2-8) is connected with the frame I (2-1), the driving slide rod I (2-4) is connected with the inner rectangular slide hole (2-8), the driving slide bar I (2-4) is connected with the driving slide bar II (2-5), the driving bar I (2-2) is connected with the driving slide bar II (2-5), the clamping groove (2-9) is connected with the driving slide bar II (2-5), the clamping bar (2-10) is connected with the floating ball fixing bar (2-6), the clamping bar pushing spring (2-11) is connected with the floating ball fixing bar (2-6), the clamping bar (2-10) is connected with the clamping groove (2-9), the floating ball (2-7) is connected with the floating ball fixing bar (2-6), the outer frame I (2-1) is connected with the upper end cover (1-1), the driving slide bar I (2-4) is connected with the upper end cover (1-1), and the middle end connecting bar I (6) is connected with the driving bar I (2-2);

the power adjusting assembly (3) comprises an adjusting bottom plate (3-1), a first hinge frame (3-2), a second hinge frame (3-3), a sliding boss (3-4), a third hinge frame (3-5), a fourth hinge frame (3-6), a fifth hinge frame (3-7), a sixth hinge frame (3-8), a fifth transmission bevel gear (3-9), a sixth transmission bevel gear (3-10), a transmission bevel gear (3-11), a sixth transmission bevel gear (3-12), a seventh transmission bevel gear (3-13), a first transmission belt (3-14), a first hinge frame (3-2), a second hinge frame (3-3), a third hinge frame (3-5), a fourth hinge frame (3-6), a fifth hinge frame (3-7) and a sixth hinge frame (3-8) which are all connected with the adjusting bottom plate (3-1), the sliding lug boss (3-4) is connected with the second hinged frame (3-3), the fifth transmission bevel gear (3-9) is connected with the third hinged frame (3-5), the sixth transmission bevel gear (3-10) is connected with the sliding lug boss (3-4), the sixth transmission bevel gear (3-12) is connected with the fourth hinged frame (3-6), the seventh transmission bevel gear (3-13) is connected with the fifth hinged frame (3-7), the oblique transmission gear (3-11) is connected with the sixth transmission bevel gear (3-12), the first transmission belt (3-14) is connected with the seventh transmission bevel gear (3-13), the first middle connecting rod (6) is connected with the sliding lug boss (3-4), the oblique transmission gear (3-11) is connected with the oblique transmission gear (3-11), six (3-12) transmission bevel teeth are connected with four (3-6) hinge frames, seven (3-13) transmission bevel teeth are connected with five (3-7) hinge frames, five (3-9) transmission bevel teeth are connected with three (3-5) hinge frames, and six (3-12) transmission bevel teeth are connected with one (1-6) driving bevel teeth;

the collecting and tensioning assembly (4) comprises a fixed outer frame I (4-1), a rectangular slider I (4-2), an inner end push spring VI (4-3), a rolling roller I (4-4), a rolling shaft I (4-5), a rolling roller II (4-6), a fixed plate I (4-7), a tapered sleeve I (4-8), a tapered sleeve II (4-9), a sleeve spring I (4-10), a limiting thread plate I (4-11), a fixed plate II (4-12), a rolling roller III (4-13), a tapered sleeve III (4-14), a tapered sleeve IV (4-15) and a sleeve spring II (4-16), wherein the rectangular slider I (4-2) is connected with the fixed outer frame I (4-1), and the inner end push spring VI (4-3) is connected with the rectangular slider I (4-2), the roller I (4-5) is connected with the fixed outer frame I (4-1), the roller I (4-4) is connected with the roller I (4-5), the roller II (4-6) is connected with the fixed plate I (4-7), the tapered sleeve I (4-8) is connected with the fixed plate I (4-7), the tapered sleeve II (4-9) is connected with the fixed plate I (4-7), the sleeve spring I (4-10) is connected with the fixed plate I (4-7), the limiting thread plate (4-11) is connected with the fixed plate I (4-7), the fixed plate II (4-12) is connected with the roller III (4-13), the tapered sleeve III (4-14) is connected with the fixed plate II (4-12), the tapered sleeve IV (4-15) is connected with the fixed plate II (4-12), a second sleeve spring (4-16) is connected with a second fixing plate (4-12), an upper end cover (1-1) is connected with a first fixing outer frame (4-1), a first fixing plate (4-7) is connected with the upper end cover (1-1), and the second fixing plate (4-12) is connected with a first inner bearing outer frame (1-9);

the adjusting assembly (5) comprises an input motor (5-1), input straight teeth (5-2), transmission straight teeth (5-3), a transmission shaft I (5-4), a speed change straight tooth I (5-5), a speed change straight tooth II (5-6), transmission bevel teeth A (5-7), transmission bevel teeth B (5-8), a transmission bevel gear shaft I (5-9), a speed change straight tooth III (5-10), a speed change straight tooth IV (5-11), a speed change straight tooth V (5-12), a speed change straight tooth VI (5-13), a speed change straight tooth VII (5-14), a speed change straight tooth VIII (5-15), a speed regulation outer frame I (5-16), a speed regulation outer frame II (5-17), a driving slider I (5-18), a driving slider II (5-19), a speed regulation slider (5-20), A hinged frame A (5-21), a hinged frame B (5-22), a hinged base plate (5-23), a hinged frame C (5-24), a hinged frame D (5-25), a hinged frame E (5-26), a hinged frame F (5-27), a side wall fixed sliding frame (5-28), a clapboard (5-29), an H-shaped sliding groove (5-30), an N-shaped frame I (5-31), an N-shaped frame II (5-32), a sliding hole (5-33) and a transmission shaft II (5-34), wherein an input straight tooth (5-2) is connected with an input motor (5-1), a transmission straight tooth (5-3) is connected with the input straight tooth (5-2), the transmission straight tooth (5-3) is connected with a transmission shaft I (5-4), the hinged frame A (5-21) and the hinged frame B (5-22) are connected with the hinged base plate (5-23), a hinged frame C (5-24), a hinged frame D (5-25), a hinged frame E (5-26), a hinged frame F (5-27) are connected with a hinged base plate (5-23), a side wall fixing sliding frame (5-28) is connected with the hinged base plate (5-23), a clapboard (5-29) is connected with the hinged base plate (5-23), an H-shaped sliding chute (5-30) is connected with the hinged base plate (5-23), a transmission shaft I (5-4) is connected with the hinged frame A (5-21) and the hinged frame F (5-27), a speed change straight tooth I (5-5), a speed change straight tooth III (5-10), a speed change straight tooth V (5-12), a speed change straight tooth VII (5-14) are connected with the transmission shaft I (5-4), the transmission shaft II (5-24) is connected with the hinged frame B (5-22), A hinged frame E (5-26) is connected, a second speed change straight tooth (5-6), a transmission bevel tooth A (5-7), a fourth speed change straight tooth (5-11), a sixth speed change straight tooth (5-13), an eighth speed change straight tooth (5-15) are connected with a second transmission shaft (5-34), a first speed change straight tooth (5-5) is connected with the second speed change straight tooth (5-6), a third speed change straight tooth (5-10) is connected with the fourth speed change straight tooth (5-11), a fifth speed change straight tooth (5-12) is connected with the sixth speed change straight tooth (5-13), a seventh speed change straight tooth (5-14) is connected with the eighth speed change straight tooth (5-15), a transmission bevel tooth B (5-8) is connected with the transmission bevel tooth A (5-7), and a transmission bevel tooth B (5-8) is connected with the first transmission bevel tooth shaft (5-9), the driving slider I (5-18) is connected with the driving slider I (5-34), the speed regulation outer frame II (5-17) is connected with the driving slider I (5-18), the sliding hole (5-33) is connected with the speed regulation outer frame II (5-17), the speed regulation outer frame I (5-16) is connected with the driving shaft I (5-4), the driving slider II (5-19) is connected with the speed regulation outer frame I (5-16), the driving slider II (5-19) is connected with the driving shaft I (5-4), the N-shaped frame I (5-31) is connected with the speed regulation outer frame I (5-16), the N-shaped frame II (5-32) is connected with the driving shaft II (5-34), the speed regulation slider (5-20) is connected with the H-shaped sliding groove (5-30), the speed regulation slider (5-20) is connected with the N-shaped frame I (5-31) or the N-32), an input motor (5-1) is connected with an adjusting bottom plate (3-1), a hinged bottom plate (5-23) is connected with the adjusting bottom plate (3-1), a transmission bevel gear shaft I (5-9) is connected with a hinged frame I (3-2), a connecting belt II (7) is connected with the transmission bevel gear shaft I (5-9), and the connecting belt II (7) is connected with a transmission bevel gear V (3-9);

viscose box assembly (1) is connected with liquid level feedback assembly (2), and power regulation assembly (3) are connected with viscose box assembly (1), collect and the tensioning assembly (4) is connected with viscose box assembly (1), and well end connecting rod (6) are connected with viscose box assembly (1), and regulation assembly (5) are connected with power regulation assembly (3).

2. The gluing equipment for hardware as claimed in claim 1, wherein: the first rolling shaft (4-5) is externally connected with a matched motor A.

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