CN111517074A - Divide material with partial shipment assembly line - Google Patents

Abstract

The invention discloses a split charging assembly line for distributing materials, which structurally comprises: the invention realizes the matching of the material distributing and distributing roller groove and the conveyor belt to form a polishing sheet roller and a rubber cushion roller upper and lower alignment stack frame for absorbing a part plate frame, establish at axostylus axostyle border formation pointer spacer pad seat and the erection of vibration isolation bearing seat, make the frame mouth limit formation thick material bullet effect of turning of inertia, guarantee the vibration isolation guide branch material of embedding plate rail frame to one side and carry the effect, promote the work efficiency of assembly line partial shipment, also let the whole roll-in of disk body obtain the protection of the cotton limit of angle groove wheel strut parcel, conveniently clean plate rail border dust piece, also promote the frame of plate rail integrity and protect the effect, finished product material integrity and the leakproofness after the whole partial shipment of guarantee, stabilize the pleasing to the eye degree after the article equipment shaping, promote the accurate protection process effect of continuity of assembly line.

Description

Divide material with partial shipment assembly line

Technical Field

The invention relates to a split charging assembly line for distributing materials, and belongs to the field of assembly line processing equipment.

Background

The material is divided to assembly line partial shipment is automatic course of working, concentrates the branch material to the spare part of different masses and shape and deposits, and the convenient equipment letter sorting material in later stage promotes the high efficiency of distinguishing adaptation processing, also avoids the loaded down with trivial details process of later stage letter sorting, obtains assembly line preliminary treatment branch material partial shipment effect in the earlier stage, and the public shortcoming of treating the optimization of prior art has:

on the accessory conveyor belt, the disk frame can generate deceleration friction force, and needs to be divided, extracted and collected, so that the phenomenon that the edge of the disk surface is pressed against and collided in the material dividing groove is caused, the arc edge scratches and rubs the material dividing shell groove, the scraps of the material disk frame generate a gap, the movable gap of a pressing surface is caused by later assembly, the ornamental value of finished product materials is influenced, the conveying and subpackaging of a production line causes the impact of the disk body to interfere other materials in the material dividing groove, the sub-channel of the disk frame is wound to generate inertia collision force, the material is continuously and continuously supplied to impact a shell opening, the impact deformation is easily caused, and the phenomenon of side leakage of the material is caused.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a sub-packaging assembly line for distributing materials, and aims to solve the problems that on a part conveyor belt, a disk frame generates deceleration friction force, the materials are required to be distributed, extracted and collected, so that the edge of a disk surface in a sub-packaging groove is bumped, an arc edge scratches the sub-packaging shell groove, the fragments of the disk frame generate a gap, the movable gap of a pressing surface is caused by later assembly, the ornamental value of finished products is influenced, the disk body is bumped to disturb other materials in the sub-packaging groove due to the transportation and sub-packaging of the assembly line, the sub-channel of the disk frame is wound to generate inertia collision force, the materials are continuously and continuously impacted on a shell opening, the bumping deformation is easily caused, and the side leakage phenomenon of the distributed materials is caused.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a divide material with partial shipment assembly line, its structure includes: base plate, branch material partial shipment roller groove, conveyer belt, switch board, glass clamshell, striker plate, transmission case seat, divide material partial shipment roller groove to be equipped with threely and all nested in the left side of conveyer belt, the base plate is hugged closely under the bottom surface of transmission case seat, transmission case seat is connected with the switch board electricity, glass clamshell nests on the top of transmission case seat, transmission case seat and conveyer belt mechanical connection and be in on same horizontal plane, the striker plate is installed on the top of conveyer belt front end, the switch board is inserted and is inlayed on the top surface of base plate, the glass clamshell is installed in the rear side of striker plate, switch board and transmission case seat mutually perpendicular, divide material partial shipment roller groove and base plate to be parallel to each other, divide material partial shipment roller groove to be equipped with angle sheave strut, vibration isolation bearing seat, vibration isolation slide roller, to propping tension frame, slider deflection frame, Rubber mat roller, pointer separate pad seat, square shell cell body, angle sheave strut and vibration isolation bearing housing lock together, the pointer separates pad seat and vibration isolation bearing housing all installs in the inside left and right sides of square shell cell body and be parallel to each other, polish the piece roller and to propping the tension frame mechanical connection and the axle center collineation, slider deflection frame adopts interference fit with the rubber mat roller, the rubber mat roller with polish piece roller swing joint and be parallel to each other, to propping the tension frame all install in the inside of square shell cell body and be in same vertical face with slider deflection frame, the square shell cell body is equipped with the three and all nests in the left side of conveyer belt.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the angle groove wheel support frame consists of an angle folding plate support frame, a cushion wheel body and a cotton core angle groove cushion, the angle folding plate support frame is inserted and embedded in the front side of the cushion wheel body and is positioned on the same vertical surface, and the cushion wheel body is installed inside the cotton core angle groove cushion.

As a further improvement of the invention, the angle folding plate bracket comprises a spring tube sleeve rod, a convex bag groove, a rubber ball bracket and an angle folding plate, wherein the convex bag groove is nested at the lower left corner of the rubber ball bracket and is positioned on the same inclined plane, the rubber ball bracket is inserted and embedded with the angle folding plate together, and the spring tube sleeve rod is mechanically connected with the angle folding plate.

As a further improvement of the invention, the vibration isolation bearing seat consists of a gradient plate lining seat, a sleeve cap reed pipe and a partition supporting plate, wherein the gradient plate lining seat and the sleeve cap reed pipe are inserted and embedded on the right side of the partition supporting plate and are positioned on the same vertical surface, and the gradient plate lining seat is arranged right below the sleeve cap reed pipe.

As a further improvement of the invention, the gradient board lining seat is composed of a vertical board groove, a bow-shaped pressure rod, a gradient laminated board and a bolt board, wherein the bow-shaped pressure rod is arranged inside the vertical board groove, the bow-shaped pressure rod and the gradient laminated board are buckled together and are positioned on the same vertical surface, and the bolt board is inserted and embedded on the left side of the vertical board groove.

As a further improvement of the invention, the opposite bracing and tensioning frame consists of a sliding wheel disc, an inclined frame short frame rod and a long frame slat, wherein the sliding wheel disc is mechanically connected with the long frame slat through the inclined frame short frame rod and is positioned on the same vertical surface, and the inclined frame short frame rod and the long frame slat are two and are respectively arranged at the left side and the right side of the sliding wheel disc.

As a further improvement of the invention, the sliding pressure wheel disc is composed of a arc supporting spring frame, a wheel disc frame, a wheel pin column block and a nylon tube, wherein the arc supporting spring frame is installed inside the wheel disc frame and is positioned on the same vertical surface, the wheel disc frame and the wheel pin column block are nested into a whole and are positioned on the same vertical surface, and the wheel pin column block and the nylon tube are buckled together and are positioned on the same vertical surface.

As a further improvement of the invention, the slide block deflection frame consists of a counterweight slide block, a pressure winding crank rod and a trapezoidal suspension rod, wherein the counterweight slide block is mechanically connected with the pressure winding crank rod, and the pressure winding crank rod is inserted and embedded under the bottom of the trapezoidal suspension rod and is positioned on the same vertical plane.

As a further improvement of the invention, the counterweight sliding block consists of two cross-shaped support blocks, a transverse cylinder groove, a winch frame and an inclined support bar, the cross-shaped support blocks are respectively nested at the left side and the right side of the transverse cylinder groove, the winch frame and the inclined support bar are welded into a whole and are positioned on the same vertical plane, and the winch frame and the inclined support bar are both arranged inside the transverse cylinder groove.

As a further improvement of the invention, the bevel slat is a combined bevel slat frame structure with a bottom provided with a sloping plate surface and a top provided with an inserted rod with an included angle of forty-five degrees, so that rolling of diagonal round surfaces of a jacking brace in a groove of the sloping plate is facilitated, and anti-collision wrapping operation of the edge of the part tray frame during pressing is facilitated.

As a further improvement of the invention, the gradient laminated plate is a combined plate frame structure with three layers of plates, short column end sliding blocks and gradient distribution, so that the elastic folding operation effect of the top support is conveniently formed on the side edge, and the anti-impact effect of the end wall of the inertia rotary shell is ensured.

As a further improvement of the invention, the wheel pin column block is of a wheel buckle block structure with a rear wheel ring body and a convex pin block inserted, so that the locking diagonal draw bar is convenient to adapt to the roller pressure of up-and-down bouncing, and the opposite-support outward-expanding unloading effect of a wheel core surface is formed.

As a further improvement of the invention, the cross-shaped torsion support block is a combined frame block structure which is provided with counterweight plate blocks at the upper part, the lower part, the left part and the right part and guides a cross frame rod through a central belt wheel, so that a jacking acting force is generated conveniently when counterweight is pressed in a sliding way, the anti-deviation stability of four directions is ensured, and the stability of part plate frame input is improved.

Advantageous effects

The invention relates to a split charging assembly line for distributing materials, which is characterized in that an operator controls a power distribution cabinet by standing on a base plate, so that a distributing split charging roller groove receives a conveyor belt to distribute parts in a glass shell cover and on a transmission machine box seat, a striker plate forms a centralized guiding and containing operation effect on the whole parts, a spring pipe sleeve rod of a cushion bar inserting angle strip plate elastic convex bag groove and a rubber ball support frame are electromagnetically rotated by a cushion body in a cotton core angle groove cushion of an angle strip wheel support frame to lead the cushion bar to be inserted and wound around a spring pipe sleeve rod of the angle strip plate support frame to form cushion protection operation for preventing collision of the angle groove with the rubber ball support frame, the wrapping and brushing effect of the edge of a part plate frame is ensured, a bow-shaped pressure rod in a vertical plate groove is pushed by a gradient plate lining seat of a vibration isolation bearing seat and a cap spring pipe pressing and covering spacer plate to push a gradient laminated plate top supporting pin plate to extend, a left-right interactive spacer effect is formed by aligning a pointer spacer seat with the spacer plate, make the locking of polishing piece roller to propping tension frame's smooth pressure rim plate turn from top to bottom along the short frame pole of sloping frame and long frame slat, thereby let the arc prop spring frame about in the rim plate frame prop round pin piece tractive nylon tube adaptation initiative upset on slider deflection frame and cushion roller top and wind into the driven input operation of the whole clamp roller that pastes of drive, and the cushion protects the polishing of cooperation top surface, promote the finished product quality of spare part, it is high-efficient to make things convenient for the distribution equipment after the later stage divides the material, promote to divide the material part protection maintenance effect with the partial shipment assembly line.

The invention has the following advantages after operation:

the application divides material partial shipment roller slot and conveyer belt to cooperate, divide the material for the square shell cell body through the disk rail part on the conveyer belt, form polishing piece roller and cushion roller through propping stretching frame and slider deflector frame and after the part disk rail is absorbed to the alignment stack from top to bottom, form the erection of pointer at axostylus axostyle border at the frame spacer pad seat and vibration isolation bearing seat, make the frame mouth limit that inertia turned become thick material bounce effect, guarantee the vibration isolation guide branch material of embedding disk rail frame and carry the effect, promote the work efficiency of assembly line partial shipment, also let the whole roll-in of disk body obtain the protection of angle groove wheel strut cotton limit parcel, conveniently clean disk rail border dust piece, also promote the frame of plate limit integrity and protect the effect, guarantee finished product material integrity and the leakproofness after whole partial shipment, stabilize the pleasing to the eye degree after the article equipment shaping, promote the continuity precision protection process effect of assembly line.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural view of a sub-packaging assembly line for distributing materials according to the present invention.

FIG. 2 is a detailed sectional structure diagram of the distributing and subpackaging roller groove, the angle groove wheel support frame, the vibration isolation bearing seat, the opposite support tension frame and the slide block deflection frame.

FIG. 3 is an enlarged cross-sectional view of the bracket of the present invention.

FIG. 4 is an enlarged cross-sectional view of the gradient plate bushing seat according to the present invention.

FIG. 5 is an enlarged cross-sectional view of the sliding wheel disc of the present invention.

FIG. 6 is an enlarged cross-sectional view of the slider in operation according to the present invention.

Description of reference numerals: a base plate-1, a material separating and packaging roller groove-2, a conveyor belt-3, a power distribution cabinet-4, a glass shell cover-5, a material baffle plate-6, a transmission case seat-7, an angle sheave bracket-2A, a vibration isolation bearing seat-2B, a polishing sheet roller-2C, a tension frame-2D, a slide block deflection frame-2E, a rubber cushion roller-2F, a pointer spacer seat-2G, a square case groove body-2H, a folded angle plate bracket-2A 1, a pad wheel body-2A 2, a cotton core angle sheave pad-2A 3, a spring tube sleeve rod-2A 11, a convex capsule groove-2A 12, a rubber ball bracket-2A 13, a folded angle slat-2A 14, a gradient plate bushing seat-2B 1, a sleeve cap spring tube-2B 2, a spacer plate-2B 3, a vertical plate groove-2B 11, The device comprises a bow-shaped compression bar-2B 12, a gradient laminated plate-2B 13, a bolt plate-2B 14, a sliding compression wheel disc-2D 1, an inclined frame short frame bar-2D 2, a long frame strip-2D 3, an arc supporting spring frame-2D 11, a wheel disc frame-2D 12, a wheel pin column block-2D 13, a nylon tube-2D 14, a counterweight sliding block-2E 1, a winding compression crank bar-2E 2, a trapezoidal suspension rod-2E 3, a cross bracing block-2E 11, a transverse cylinder groove-2E 12, a winch frame-2E 13 and an inclined bracing bar-2E 14.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1 to 6, the present invention provides a dispensing assembly line for dispensing materials, which includes: base plate 1, branch material partial shipment roller groove 2, conveyer belt 3, switch board 4, glass clamshell 5, striker plate 6, transmission case seat 7, divide material partial shipment roller groove 2 to be equipped with three and all nested in the left side of conveyer belt 3, base plate 1 hugs closely under the bottom surface of transmission case seat 7, transmission case seat 7 is connected with the switch board 4 electricity, glass clamshell 5 nests on the top of transmission case seat 7, transmission case seat 7 and conveyer belt 3 mechanical connection and be in on same horizontal plane, striker plate 6 is installed on the top of conveyer belt 3 front end, switch board 4 inserts and inlays on the top surface of base plate 1, glass clamshell 5 installs the rear side at striker plate 6, switch board 4 and transmission case seat 7 mutually perpendicular, divide material roller groove 2 and base plate 1 to be parallel to each other, divide material roller groove 2 to be equipped with angle sheave strut 2A, A vibration isolation bearing seat 2B, a polishing sheet roller 2C, a pair stretching frame 2D, a slide block deflection frame 2E, a rubber cushion roller 2F, a pointer spacer seat 2G and a square shell groove body 2H, the angle groove wheel support frame 2A and the vibration isolation bearing seat 2B are buckled together, the pointer spacer seat 2G and the vibration isolation bearing seat 2B are both arranged on the left side and the right side inside the square shell groove body 2H and are parallel to each other, the polishing sheet roller 2C is mechanically connected with the opposite-bracing stretching frame 2D, the axes of the polishing sheet roller and the opposite-bracing stretching frame are collinear, the sliding block deflection frame 2E and the rubber cushion roller 2F adopt interference fit, cushion roller 2F and polishing piece roller 2C swing joint are parallel to each other, prop the inside of tensioning frame 2D and all install in square shell cell body 2H and be in same vertical face with slider deflection frame 2E, square shell cell body 2H is equipped with three and all nests in the left side of conveyer belt 3.

Referring to fig. 2, the angle groove wheel bracket 2A is composed of a folded angle plate bracket 2A1, a pad wheel body 2A2 and a cotton core angle groove pad 2A3, the folded angle plate bracket 2A1 is inserted into the front side of the pad wheel body 2A2 and is on the same vertical plane, the pad wheel body 2A2 is installed inside the cotton core angle groove pad 2A3, the vibration isolation and pressure bearing seat 2B is composed of a gradient plate bushing seat 2B1, a sleeve cap spring tube 2B2 and a spacer plate 2B3, the gradient plate bushing seat 2B1 and the sleeve cap spring tube 2B2 are inserted into the right side of the spacer plate 2B3 and are on the same vertical plane, the gradient plate bushing seat 2B1 is right below the sleeve cap spring tube 2B2, the opposite tension frame 2D is composed of a slide pressing wheel disc 2D1, an inclined frame short frame bar 2D2 and a long frame 3, the slide wheel disc 2D tension frame 2 is connected with the inclined frame 36 3D through a slide wheel disc 2D1 and a long slide wheel disc 2D connecting frame 2, the two short frame rods 2D2 of the inclined frame and the two long frame strip plates 2D3 are arranged and are respectively arranged at the left side and the right side of the sliding pressure wheel disc 2D1, and the cotton core corner groove pad 2A3 is pressed and covered with the separation support plate 2B3 up and down to form the wrapping acting force when the inertia input turning pressure of the part disc frame collides, so that the effect of buffering, vibration isolation and unloading is achieved, and the loss of inertia impact of the disc frame is effectively relieved.

Referring to fig. 3, the bevel plate bracket 2a1 is composed of a spring tube sleeve rod 2a11, a convex bag groove 2a12, a rubber ball bracket 2a13, and a bevel slat 2a14, the convex bag groove 2a12 is nested in the lower left corner of the rubber ball bracket 2a13 and is located on the same inclined plane, the rubber ball bracket 2a13 and the bevel slat 2a14 are inserted and embedded together, the spring tube sleeve rod 2a11 is mechanically connected with the bevel slat 2a14, the bevel slat 2a14 is a combined bevel slat frame structure with a bottom provided with a bevel plate surface and a top provided with a plug rod with an included angle of forty-five degrees, so as to facilitate rolling of diagonal round surfaces in the bevel plate groove and anti-collision wrapping operation of edges when a part tray is pressed in, the spring tube sleeve rod 2a11 presses the rubber ball bracket 2a13 to drive the whole rubber surface to roll, thereby improving the overall protective wrapping force.

Referring to fig. 4, the gradient plate lining seat 2B1 is composed of a vertical plate groove 2B11, a bow-shaped pressure lever 2B12, a gradient laminated plate 2B13 and a latch plate 2B14, the bow-shaped pressure lever 2B12 is installed inside the vertical plate groove 2B11, the bow-shaped pressure lever 2B12 and the gradient laminated plate 2B13 are buckled together and located on the same vertical surface, the latch plate 2B14 is inserted and embedded in the left side of the vertical plate groove 2B11, the gradient laminated plate 2B13 is a three-layer plate combined plate frame structure with short column end sliders in gradient distribution, so that an elastic folding operation effect of a top support is formed on the side, an anti-impact effect of the end wall of the inertial rotating housing is ensured, a transverse bouncing effect is formed by inserting and embedding the gradient laminated plate 2B13 through the bow-shaped pressure lever 2B12, and stability and anti-pressure acting force of the elastic laminated plate sliding lining are ensured.

Referring to fig. 5, the sliding pressure wheel disc 2D1 is composed of an arc supporting spring frame 2D11, a wheel disc frame 2D12, a wheel pin block 2D13, and a nylon tube 2D14, the arc supporting spring frame 2D11 is installed inside the wheel frame 2D12 and is on the same vertical plane, the wheel disc frame 2D12 is nested with the wheel pin block 2D13 in one piece and on the same vertical plane, the wheel stud block 2D13 snaps together with the nylon tube 2D14 and is on the same vertical plane, the wheel pin column block 2D13 is a wheel buckle block structure with a rear wheel ring body and a convex pin block inserted, so that the locking diagonal draw bar is convenient to adapt to the roller pressure of up-and-down bouncing to form a wheel core surface opposite-support outward-expansion unloading effect, carry the nylon tube 2D14 through wheel pin piece 2D13 corner and form the tensile effect of curved arc elasticity bearing's loading pressure, to the sweeping and rolling effect of assembly line part dish support body when the polishing of guarantee whole roll-in effort.

The working process is as follows: a worker regulates and controls a power distribution cabinet 4 by standing on a base plate 1, so that a material distribution and distribution roller groove 2 receives a conveyor belt 3 to distribute parts in a glass shell cover 5 and a transmission case seat 7, a striker plate 6 forms a centralized guiding and containing operation effect on the whole parts, a cushion wheel body 2A2 in a cotton core corner groove cushion 2A3 of a corner wheel bracket 2A electromagnetically rotates to lead around a spring tube sleeve rod 2A11 of a corner plate bracket 2A1 to be inserted with a corner lath 2A14 to flick a convex bag groove 2A12 and a rubber ball bracket 2A13 to form a cushion protection operation for preventing the corner groove from colliding with a supporting plate, the wrapping and sweeping effect of the edge of a part disc frame is ensured, a gradient plate lining seat 2B1 of a vibration isolation bearing seat 2B2 and a cap spring tube 2B3 push a bow-shaped pressure lever 2B12 in a vertical plate groove 2B to push a gradient extension plate 2B 733 to support a pin plate 2B14, and a pointer spacing block 2H 11B is pressed with a square spacer shell 11B 11 to form a contraposition spacer pad type spacer 84, the unloading operation of the inertia rotation pressure of the part disc frame is improved, the sliding pressing wheel disc 2D1 of the polishing sheet roller 2C locking opposite-supporting tension frame 2D is turned up and down along the inclined frame short frame rod 2D2 and the long frame strip plate 2D3, the arc-supporting spring frame 2D11 is enabled to turn left and right in the wheel disc frame 2D12 opposite-supporting wheel pin block 2D13 pulling nylon tube 2D14 on the tops of the slider deflection frame 2E and the rubber pad roller 2F in a matching and active turning mode to wind into the disc frame so as to drive the driven input operation of the whole clamping and pasting roller, the rubber pad protection is matched with top surface polishing, the finished product quality of parts is improved, the distribution and assembly efficiency after later-stage distribution is facilitated, and the distribution part protection and maintenance effect of the distribution assembly line is improved.

Example two:

referring to fig. 1 to 6, the present invention provides a dispensing line for dispensing materials, which is otherwise the same as embodiment 1 except that:

referring to fig. 2, the slider deflecting frame 2E is composed of a counterweight slider 2E1, a winding crank rod 2E2, and a trapezoidal suspension rod 2E3, the counterweight slider 2E1 is mechanically connected to the winding crank rod 2E2, the winding crank rod 2E2 is inserted and embedded under the bottom of the trapezoidal suspension rod 2E3 and is located on the same vertical plane, and the counterweight slider 2E1 laterally displaces the left and right eccentric pressing tray-covering parts around the winding crank rod 2E2, so that the film split-packaging effect of the edge of the tray body is improved, and the maintenance degree of the split material is improved.

Referring to fig. 6, the counterweight sliding block 2E1 is composed of a cross-shaped torsion block 2E11, a transverse cylinder groove 2E12, a winch frame 2E13, and a diagonal brace rod 2E14, the cross-shaped torsion block 2E11 has two parts and is respectively nested on the left and right sides of the transverse cylinder groove 2E12, the winch frame 2E13 and the diagonal brace rod 2E14 are welded together and are located on the same vertical plane, the winch frame 2E13 and the diagonal brace rod 2E14 are both installed inside the transverse cylinder groove 2E12, the cross-shaped torsion block 2E11 is a combined frame block structure with counterweight plates on the upper and lower sides and on the left and right sides and with a central pulley guiding cross frame rod, so as to generate a top bracing force during counterweight sliding, ensure the anti-shift stability in four directions, improve the flatness of the input of the tray parts, and drive the winch frame 2E13 to form a balance moment effect by the counterweight of the cross-shaped torsion block 2E11, the rubber coating effect of the bottom surface of the plate rack is realized.

Materials are input through the friction of the polishing roller in the earlier stage, and the side corners divide the material to divide the groove to form part side wrapping protection effect, the plate rack on the assembly line in the later stage can be rolled in for input to carry out split charging operation, the counterweight slider 2E1 of the slider deflection frame 2E is in left-right sliding fit with the trapezoidal suspender 2E3 in the coiling crank rod 2E2 to overturn up and down, the winch frame 2E13 in the cross-shaped torsion block 2E11 lock catch transverse cylinder groove 2E12 and the bracing strip rod 2E14 form the moment balance sliding force of a trisection point, the deflection force of the whole primer wrapping is improved, the maintenance cushion inclined frame at the edge of the plate rack is also convenient to guide around and convey the packaging, and the whole maintenance operation effect of the rubber cushion is improved.

The invention achieves the aims of applying the matching of the material distributing and distributing roller groove 2 and the conveyor belt 3, distributing the materials into the square shell groove body 2H through the plate rack parts on the conveyor belt 3, forming the polishing sheet roller 2C and the rubber cushion roller 2F by the opposite stretching frame 2D and the slide block deflection frame 2E, and absorbing the part plate rack through the upper and lower opposite superposed frames, forming the erection of the pointer spacer seat 2G and the vibration isolation bearing seat 2B at the edge of the shaft rod, so that the frame edge of the inertial turning forms the thick material bouncing effect, the vibration isolation guide material distributing and conveying effect of the oblique embedding plate rack is ensured, the work efficiency of assembly line split-loading is improved, the protection of the cotton edge package of the angle groove wheel support 2A is obtained by the integral rolling of the plate body, the dust scraps at the edge of the plate rack are conveniently cleaned, the rack protection effect of the integrity of the plate edge is also improved, the integrity and the tightness of the finished product materials after the integral split-loading are, the continuous accurate protection processing effect of the assembly line is promoted, and the problems that on a part conveyor belt, due to the fact that a disc frame can generate deceleration friction force, material needs to be divided, extracted and collected, the disc surface generates edge collision in a material dividing groove, arc edges are cut and rubbed with the material dividing shell groove, fragments of the material disc frame generate gaps, movable gaps of a pressing surface are caused in later assembly, the ornamental value of finished materials is affected, conveying and packaging of the assembly line cause impact of the disc body to interfere other materials in the material dividing groove, sub-channels of the disc frame are wound to generate inertia collision force, impact on a shell opening is continuously and continuously supplied to material dividing, impact deformation is easily caused, and the phenomenon of material dividing and side leakage is caused are solved.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (9)

1. The utility model provides a divide material with partial shipment assembly line, its structure includes: base plate (1), branch material partial shipment roller groove (2), conveyer belt (3), switch board (4), glass clamshell (5), striker plate (6), transmission case seat (7), its characterized in that:

the material distribution and subpackaging roller grooves (2) are three and are all nested on the left side of the conveyor belt (3), the base plate (1) is tightly attached to the bottom surface of the transmission case seat (7), the transmission case seat (7) is electrically connected with the power distribution cabinet (4), the glass shell cover (5) is nested on the top of the transmission case seat (7), the transmission case seat (7) is mechanically connected with the conveyor belt (3), the material blocking plate (6) is installed on the top of the front end of the conveyor belt (3), the power distribution cabinet (4) is embedded on the top surface of the base plate (1), the glass shell cover (5) is installed on the rear side of the material blocking plate (6), the power distribution cabinet (4) is perpendicular to the transmission case seat (7), and the material distribution and subpackaging roller grooves (2) are parallel to the base plate (1);

the material distributing and subpackaging roller groove (2) is provided with an angle groove wheel support frame (2A), an isolation bearing seat (2B), a polishing sheet roller (2C), a pair supporting and tensioning frame (2D), a sliding block deflection frame (2E), a rubber pad roller (2F), a pointer isolation pad seat (2G) and a square shell groove body (2H);

angle sheave strut (2A) and vibration isolation bearing seat (2B) lock are in the same place, pointer separates pad seat (2G) and all installs in the inside left and right sides of square shell cell body (2H) with vibration isolation bearing seat (2B), polish piece roller (2C) and to propping tension frame (2D) mechanical connection, slider deflection frame (2E) cooperatees with cushion roller (2F), cushion roller (2F) and polish piece roller (2C) swing joint, to propping tension frame (2D) and slider deflection frame (2E) all install in the inside of square shell cell body (2H), square shell cell body (2H) are equipped with threely and all nest in the left side of conveyer belt (3).

2. The sub-packaging assembly line for distributing materials according to claim 1, characterized in that: the angle sheave bracket (2A) is composed of a folded angle plate bracket (2A 1), a cushion wheel body (2A 2) and a cotton core angle groove cushion (2A 3), the folded angle plate bracket (2A 1) is inserted and embedded in the front side of the cushion wheel body (2A 2), and the cushion wheel body (2A 2) is installed in the cotton core angle groove cushion (2A 3).

3. The sub-packaging assembly line for distributing materials according to claim 2, characterized in that: the angle plate bracket (2A 1) comprises a spring pipe sleeve rod (2A 11), a convex bag groove (2A 12), a rubber ball bracket (2A 13) and an angle plate (2A 14), wherein the convex bag groove (2A 12) is nested at the lower left corner of the rubber ball bracket (2A 13), the rubber ball bracket (2A 13) and the angle plate (2A 14) are inserted and embedded together, and the spring pipe sleeve rod (2A 11) is mechanically connected with the angle plate (2A 14).

4. The sub-packaging assembly line for distributing materials according to claim 1, characterized in that: the vibration isolation bearing seat (2B) is composed of a gradient plate lining seat (2B 1), a cap spring tube (2B 2) and a separation supporting plate (2B 3), wherein the gradient plate lining seat (2B 1) and the cap spring tube (2B 2) are inserted and embedded on the right side of the separation supporting plate (2B 3), and the gradient plate lining seat (2B 1) is arranged right below the cap spring tube (2B 2).

5. The sub-packaging assembly line for distributing materials according to claim 4, wherein: the gradient plate lining seat (2B 1) is composed of a vertical plate groove (2B 11), a bow-shaped pressure lever (2B 12), a gradient laminated plate (2B 13) and a bolt plate (2B 14), wherein the bow-shaped pressure lever (2B 12) is installed inside the vertical plate groove (2B 11), the bow-shaped pressure lever (2B 12) and the gradient laminated plate (2B 13) are buckled together, and the bolt plate (2B 14) is inserted and embedded in the left side of the vertical plate groove (2B 11).

6. The sub-packaging assembly line for distributing materials according to claim 1, characterized in that: to propping stretch-draw frame (2D) and constitute by spinning disk (2D 1), short frame pole of sloping (2D 2), long frame slat (2D 3), spinning disk (2D 1) are through short frame pole of sloping (2D 2) and long frame slat (2D 3) mechanical connection, short frame pole of sloping (2D 2) and long frame slat (2D 3) are equipped with two and install respectively in the left and right sides of spinning disk (2D 1).

7. The sub-packaging assembly line for distributing materials according to claim 6, wherein: the sliding pressure wheel disc (2D 1) is composed of arc supporting spring frames (2D 11), a wheel disc frame (2D 12), wheel pin column blocks (2D 13) and nylon pipes (2D 14), the arc supporting spring frames (2D 11) are installed inside the wheel disc frame (2D 12), the wheel disc frame (2D 12) and the wheel pin column blocks (2D 13) are nested into a whole, and the wheel pin column blocks (2D 13) are buckled with the nylon pipes (2D 14) together.

8. The sub-packaging assembly line for distributing materials according to claim 1, characterized in that: the slider deflection frame (2E) comprises a counterweight slider (2E 1), a winding and buckling handle rod (2E 2) and a trapezoidal suspension rod (2E 3), the counterweight slider (2E 1) is mechanically connected with the winding and buckling handle rod (2E 2), and the winding and buckling handle rod (2E 2) is inserted and embedded under the bottom of the trapezoidal suspension rod (2E 3).

9. The sub-packaging assembly line for distributing materials according to claim 8, wherein: counter weight slider (2E 1) are twisted by the cross and are propped piece (2E 11), cross section of thick bamboo groove (2E 12), capstan winch frame (2E 13), bracing strip pole (2E 14) and constitute, cross is twisted propping piece (2E 11) and is equipped with two and nests respectively in the left and right sides in cross section of thick bamboo groove (2E 12), capstan winch frame (2E 13) and bracing strip pole (2E 14) weld into an organic whole, capstan winch frame (2E 13) and bracing strip pole (2E 14) all install in the inside in cross section of thick bamboo groove (2E 12).

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