CN111573153B - Glass can conveyor - Google Patents

Abstract

The invention discloses a glass can conveying device, which structurally comprises: the invention realizes the matching of the transmission belt and the wheel seat of the pressure-bearing frame, the glass cans are supported on the conveying belt to roll along the downward moving of the rack wheel of the side supporting plate, the output arc end surface of the rack wheel of the single side supporting plate of the wheel guide transverse groove chamber forms the rolling supporting plate sealing operation, so that the glass scraps and dust are blocked outside the rack, when the winding pressure gap is expanded, the overlapping cover can be fully pressed by the brush supporting rubber plates, the reserved gap between the later-stage continuous glass can and the former-stage glass can is ensured, and prop brush offset plate and can overturn the top and skid sluggish glass can, promote transmission intermittent type nature and supply efficiency even, avoid skidding and pile up the glass can, reduce the hidden danger of can stack collision in batches at the later stage, promote efficient filling preliminary treatment and supply conveying effect even, ensure the casing mass density of glass can.

Description

Glass can conveyor

Technical Field

The invention discloses a glass can conveying device, and belongs to the field of conveying machinery.

Background

Glass can processing is that the filling mill encapsulates the streamlined operation to the glass container that liquid adaptation is commonly used, and glass can's earlier stage feed is carried and the filling later stage is carried and be the state of lying the body and standing vertically two kinds of differences of body, makes things convenient for the high-efficient volume production operation of flow direction of packaging line, and the public shortcoming of treating the optimization of prior art has:

can be because the upset ejection of compact of terminal arc area roller bar in the transmission process of glass can, make the tangent rolling friction in glass can arc limit cause the phenomenon of skidding, let accumulational glass can clearance of skidding fill a certain amount of batch stack ejection of compact and sink pressure, lead to the rigidity expansion on glass can surface to produce crackle, and the roller seam of skidding can remain glass piece sediment and hinge into the transmission frame, cause the laceration in running roller and organism bearing area, cause the condition that the rate of tension is slack and collapses for the chain belt transmission, thereby change roller bar dragging efficiency and frame linkage, disturb the progress of whole transport operation.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a glass can conveying device, which aims to solve the problems that in the conveying process of glass cans, due to the overturning and discharging of a roller rod of a terminal arc belt, the arc edges of the glass cans are tangent and roll and rub to cause a slipping phenomenon, a certain amount of stacked and discharged materials are filled in gaps among the stacked and slipped glass cans, so that the rigid expansion of the surfaces of the glass cans generates cracks, and the slipping roller rod gaps can leave glass fragment residues and hinge into a transmission rack, so that the bearing belts of a roller and a machine body are scratched, and the tension of the chain belt transmission is loosened, so that the dragging efficiency of the roller rod and the linkage of the rack are changed, and the progress of the whole conveying operation is disturbed.

In order to achieve the purpose, the invention is realized by the following technical scheme: a glass can conveying device structurally comprises: the conveying mechanism comprises a conveying groove frame, a conveying belt, a pressure-bearing frame wheel seat, side enclosing plates, a low lining plate, a bearing flange seat and a shaft-driven motor, wherein the pressure-bearing frame wheel seat is tightly attached to the bottom of the conveying belt and is positioned on the same horizontal plane, the conveying belt is arranged in the conveying groove frame, the conveying groove frame and the side enclosing plates are tightly attached together and are positioned on the same vertical plane, the bearing flange seat is mechanically connected with the shaft-driven motor, the axes of the bearing flange seat and the shaft-driven motor are collinear, the shaft-driven motor is arranged on the top surface of the low lining plate and are parallel to each other, the low lining plate is inserted and embedded in the lower right corner of the side enclosing plates and are perpendicular to each other, the pressure-bearing frame wheel seat is mechanically connected with the bearing flange seat, the pressure-bearing frame wheel seat is provided with a supporting plate frame wheel, a blocking arc plate, a spring-pressing transverse pushing frame, a gradient lining plate strip, a pair-supporting hinge pressing wheel, a wheel guide transverse groove chamber, a base lining groove and a radiating fin plate, the supporting plate wheel is arranged on the left side of the blocking arc plate, the plate supporting machine frame wheel and the opposite supporting hinged pressing wheel are respectively nested on the left side and the right side of the inner portion of the wheel guide transverse groove chamber and are located on the same horizontal plane, the material blocking arc plate and the elastic transverse pushing frame are buckled together and are located on the same vertical plane, the elastic transverse pushing frame is movably connected with the gradient lining plate belt, the radiating fin plate is inserted and nested on the top of the base lining groove and is located on the same horizontal plane, the base lining groove is nested under the bottom of the wheel guide transverse groove chamber and is communicated with the wheel guide transverse groove chamber, and the wheel guide transverse groove chamber is tightly attached to the bottom of the conveying belt and is located on the same horizontal plane.

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

as a further improvement of the invention, the plate supporting machine frame wheel consists of a supporting and brushing rubber plate, a folding rod spring frame, a traction wheel disc and a ball frame rod wheel seat, wherein the supporting and brushing rubber plate is nested on the top of the folding rod spring frame, the folding rod spring frame is inserted and embedded in the traction wheel disc and is positioned on the same vertical surface, and the traction wheel disc is mechanically connected with the ball frame rod wheel seat and the axle center is collinear.

As a further improvement of the invention, the spreading and brushing rubber plate consists of a bottom spreading spring wire plate, a glue pushing top plate, an arc spreading lining plate and a dog-ear column block, wherein the bottom spreading spring wire plate is mechanically connected with the glue pushing top plate and is positioned on the same vertical surface, the glue pushing top plate and the arc spreading lining plate are in clearance fit and are positioned on the same arc surface, and the arc spreading lining plate and the dog-ear column block are buckled together.

As a further improvement of the invention, the elastic transverse pushing frame comprises a buckling groove block, an inclined strut bar, a colliding ball cylinder seat, a clamping plate supporting frame and a transverse pushing screw rod, wherein the inclined strut bar and the colliding ball cylinder seat are in interference fit, the buckling groove block is installed on the left side of the colliding ball cylinder seat and is positioned on the same vertical surface, the colliding ball cylinder seat is nested on the left side of the transverse pushing screw rod and is positioned on the same horizontal line, and the clamping plate supporting frame and the transverse pushing screw rod are in interference fit and are positioned on the same vertical surface.

As a further improvement of the invention, the colliding ball cylinder seat is composed of a trapezoidal pin block, an arc tube pair support frame, a ball cylinder groove and a fan brush wheel plate, wherein the arc tube pair support frame and the fan brush wheel plate are buckled together and are positioned on the same vertical plane, the fan brush wheel plate and the ball cylinder groove are mechanically connected and have collinear axes, and the trapezoidal pin block is inserted and embedded on the left side of the ball cylinder groove and is communicated with each other.

As a further improvement of the invention, the oppositely-supporting hinged pressing wheel consists of a double-ball-rod support, three-leaf wheel discs, a bottom-supporting strip plate and a three-ball-roller frame block, wherein the double-ball-rod support is mechanically connected with the three-leaf wheel discs, the axes of the double-ball-rod support and the three-leaf wheel discs are collinear, the three-leaf wheel discs are nested on the tops of the bottom-supporting strip plate and are positioned on the same vertical surface, and the bottom-supporting strip plate and the three-ball-roller frame block are in interference fit.

As a further improvement of the invention, the double-ball-bar support consists of an isolation support wheel, a double-ball-bar body, a ball bar support and a rubber clamping plate, wherein the isolation support wheel is nested on the top of the double-ball-bar body, the axle centers of the isolation support wheel and the double-ball-bar body are collinear, the double-ball-bar body and the ball bar support are buckled together and are positioned on the same vertical plane, and the ball bar support and the rubber clamping plate are nested together and are intersected with each other.

As a further improvement of the invention, the tripod block consists of a prismatic plate ball groove, a short shaft rod, an arc tube groove and a folding rod reinforcing rib, wherein the prismatic plate ball groove is mechanically connected with the short shaft rod and is positioned on the same vertical surface, and the arc tube groove and the folding rod reinforcing rib are inserted and embedded in the prismatic plate ball groove.

As a further improvement of the invention, the glue pushing top plate is of a plate frame structure with a wide and thick top and a support rod at the lower left corner, so that the effect of pressing, pasting, protecting and downward conveying can be conveniently formed by pressing and pasting double glue faces on the side faces of the glass can by matching the rubber layer face with the gel pad.

As a further improvement of the invention, the arc tube opposite support frame is a composite frame rod structure with a left side provided with a convex arc bent tube and a brush plate support frame inserted from top to bottom, so that a right side pressure accumulation and left side impact springing effect is formed conveniently during rotation and jacking, and the shock insulation effect of impurities wound in the transverse opposite impact springing is ensured.

As a further improvement of the invention, the double-ball rod body is of a double-ball cap rod part structure with a fan plate torsion wheel at the bottom and a solid ball rod at the top, so that the uniform pressing effect of the brace can be conveniently obtained when the rotating rod part is hinged up and down, and the fan brush at the bottom can swing, regulate and control the lifting angle distance to perform speed reduction friction operation.

As a further improvement of the invention, the prismatic plate spherical groove is of a composite plate groove structure with three trapezoidal narrow plates with edges in the spherical groove, so that the rolling effect of uniform rotation of three included angles is conveniently formed when the wheel plate is hinged and pressed, the transmission linkage of the chain belt is improved, and the interference of the tension force is avoided.

Advantageous effects

The invention relates to a glass can conveying device, wherein a worker supports side coamings and a low lining plate frame flange seat on a pressure-bearing frame wheel seat through a conveying belt at the top of a conveying groove frame to rotate, a power source of a shaft-driven motor is used for winding a support plate frame wheel and a counter-bracing hinged pressing wheel in a driving wheel transverse groove chamber to rotate, a radiating fin plate plug-in base plate groove is used for forming a frame radiating effect under the bottoms of a spring transverse pushing frame and a gradient liner plate, then a buckling groove block of the spring transverse pushing frame is used for occluding a material blocking arc plate to align and stretch a transverse pushing screw rod of a collision ball cylinder seat, so that an inclined strut bar rod and a clamping plate strut form a vertically-clamped and stable supporting operation, a traction arc tube and a fan brush wheel plate are subjected to pressure accumulation rotary impact through a trapezoid column pin block plug-in a ball cylinder groove to push a wheel disc and a ball frame rod wheel seat to rotate, a folding rod spring frame is used for driving a bottom bracing brush rubber wire plate and a rubber pushing plate to alternatively lift in a arc bracing lining plate, under dog-ear post piece about spacing, guarantee top rubber coating accepts glass can transmission terminal and transfers the safeguard effect, improves glass can conveyor at the tail end to the meticulous protection on glass surface, guarantee product quality's security and qualification rate, promote the smooth degree of feed of flow direction of packaging line.

The invention has the following advantages after operation:

application transmission band and pressure-bearing frame wheel seat cooperate, accept limit vaulting pole trigger frame wheel on the transmission band through the glass can and roll along transferring, let the wheel draw the unilateral vaulting pole frame wheel output arc terminal surface shape of horizontal groove room and form the roll and press the sealed operation of fagging, make glass piece and dust separate the fender outside the frame, and prop the clearance around pressing and can fully pass through to prop brush plywood and fold the lid when big, guarantee later stage even supplies glass can and preceding stage glass can reserve the clearance, and prop the brush plywood and can overturn and push away the top and skid sluggish glass can, promote transmission intermittent type nature and supply efficiency even, avoid skidding and pile up the glass can, reduce the hidden danger of later stage can stack collision, promote efficient filling preliminary treatment even supplies the conveying effect, ensure the casing mass density of glass can.

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 glass can conveying apparatus according to the present invention.

FIG. 2 is a detailed schematic side sectional view of a pressure-bearing frame wheel seat, a plate-supporting machine frame wheel, an elastic transverse pushing frame and a butt-supporting hinged pressing wheel of the invention.

FIG. 3 is a schematic side sectional view of the supporting and brushing rubber plate according to the present invention.

FIG. 4 is a schematic structural diagram of a cross-sectional side view of the knocking ball cylinder base in an operating state according to the present invention.

FIG. 5 is an enlarged side sectional view of the double-stick stand according to the present invention in an operating state.

FIG. 6 is a schematic side sectional enlarged view of the three-ball roll stand block of the present invention in working condition.

Description of reference numerals: conveying groove frame-1, conveying belt-2, pressure-bearing frame wheel seat-3, side coaming-4, low lining plate-5, bearing flange seat-6, shaft motor-7, bracing plate frame wheel-3A, material-blocking arc plate-3B, elastic transverse pushing frame-3C, gradient lining plate belt-3D, oppositely-bracing and hinging pressure wheel-3E, wheel guide transverse groove chamber-3F, base seat lining groove-3G, heat-radiating fin plate-3H, bracing and brushing rubber plate-3A 1, folding rod spring frame-3A 2, traction wheel disc-3A 3, ball frame rod wheel seat-3A 4, bottom bracing spring wire plate-3A 11, rubber pushing top plate-3A 12, arc bracing lining plate-3A 13, folding angle column block-3A 14, buckle groove block-3C 1, inclined bracing strip rod-3C 2, oppositely-colliding ball cylinder seat-3C 3, The device comprises a splint support frame-3C 4, a transverse push screw rod-3C 5, a trapezoidal pin block-3C 31, a cambered pipe pair support frame-3C 32, a ball cylinder groove-3C 33, a fan brush wheel plate-3C 34, a double-ball rod bracket-3E 1, a three-ball plate wheel disc-3E 2, a bottom brace plate-3E 3, a three-ball roller bracket block-3E 4, a vibration isolation support seat wheel-3E 11, a double-ball rod body-3E 12, a ball rod support seat-3E 13, a rubber splint-3E 14, a prismatic plate ball groove-3E 41, a short shaft rod-3E 42, a cambered pipe groove-3E 43 and a folding rod reinforcing rib-3E 44.

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 glass can conveying apparatus, which comprises: the conveying device comprises a conveying trough frame 1, a conveying belt 2, a pressure-bearing rack wheel seat 3, a side wall plate 4, a low lining plate 5, a bearing flange seat 6 and a shaft-driven motor 7, wherein the pressure-bearing rack wheel seat 3 is tightly attached to the bottom of the conveying belt 2 and is positioned on the same horizontal plane, the conveying belt 2 is installed inside the conveying trough frame 1, the conveying trough frame 1 and the side wall plate 4 are tightly attached together and are positioned on the same vertical plane, the bearing flange seat 6 is mechanically connected with the shaft-driven motor 7, the axes of the bearing flange seat and the shaft-driven motor 7 are collinear, the shaft-driven motor 7 is installed on the top surface of the low lining plate 5 and is parallel to each other, the low lining plate 5 is inserted and embedded in the lower right corner of the side wall plate 4 and is perpendicular to each other, the pressure-bearing rack wheel seat 3 is mechanically connected with the bearing flange seat 6, and the pressure-bearing rack wheel seat 3 is provided with a plate supporting rack wheel 3A, a material blocking arc plate 3B, a spring-pressing transverse pushing frame 3C, a gradient lining 3D, a pair supporting hinge pressing wheel 3E, The heat dissipation device comprises a wheel guide transverse groove chamber 3F, a base lining groove 3G and a heat dissipation fin plate 3H, wherein a plate supporting machine frame wheel 3A is installed on the left side of a material blocking arc plate 3B, the plate supporting machine frame wheel 3A and a butt-bracing hinge pressing wheel 3E are respectively nested on the left side and the right side inside the wheel guide transverse groove chamber 3F and are located on the same horizontal plane, the material blocking arc plate 3B and a spring pressing transverse pushing frame 3C are buckled together and are located on the same vertical plane, the spring pressing transverse pushing frame 3C is movably connected with a gradient lining plate belt 3D, the heat dissipation fin plate 3H is inserted and embedded in the top of the base lining groove 3G and is located on the same horizontal plane, the base lining groove 3G is nested under the bottom of the wheel guide transverse groove chamber 3F and is communicated with each other, and the wheel guide transverse groove chamber 3F is tightly attached to the bottom of a conveying belt 2 and is located on the same horizontal plane.

Referring to fig. 2, the trigger frame wheel 3A is composed of a brush rubber plate 3A1, a folding bar spring frame 3A2, a traction wheel disc 3A3 and a ball frame bar wheel seat 3A4, the brush rubber plate 3A1 is nested on the top of the folding bar spring frame 3A2, the folding bar spring frame 3A2 is inserted inside the traction wheel disc 3A3 and is on the same vertical plane, the traction wheel disc 3A3 is mechanically connected with the ball frame bar wheel seat 3A4 and is coaxially aligned, the spring transverse pushing frame 3C is composed of a snap groove block 3C1, an inclined strut bar 3C2, a ball colliding cylinder seat 3C3, a clamp plate bracket 3C4 and a transverse pushing wire 3C5, the inclined strut bar 3C2 is in interference fit with the ball colliding cylinder seat 3C3, the snap groove block 3C1 is mounted on the ball colliding cylinder seat 3C3 and is on the same left side of the ball pushing cylinder seat 3C and is on the same horizontal pushing wire 67 3 6 and is on the same horizontal pushing wire 673C 5, the clamping plate support frame 3C4 and the transverse wire pushing rod 3C5 are in interference fit and are positioned on the same vertical surface, and the transverse wire pushing rod 3C5 pushes the folding rod spring frame 3A2 to rotate and bear pressure to form a wrapping and bearing effect of the glass can which is placed on one side, so that the slow glass can is prevented from being placed on the conveying table.

Referring to fig. 3, the supporting and brushing rubber plate 3a1 is composed of a bottom supporting spring wire plate 3a11, a rubber pushing top plate 3a12, an arc supporting lining plate 3a13 and a dog-ear column block 3a14, the bottom supporting spring wire plate 3a11 and the rubber pushing top plate 3a12 are mechanically connected and located on the same vertical plane, the rubber pushing top plate 3a12 and the arc supporting lining plate 3a13 are in clearance fit and located on the same arc surface, the arc supporting lining plate 3a13 and the dog-ear column block 3a14 are buckled together, the rubber pushing top plate 3a12 is a plate frame structure with a supporting rod on the top and the left lower corner, a rubber layer is matched with a gel pad to form a double-rubber-faced pressing and sticking protection conveying effect on the side surface of the glass can, and the bottom supporting spring wire plate 3a11 and the rubber pushing top plate 3a12 are alternately overlapped and driven up and down to form a protection receiving effect of turning plate wrapping and rotating and pushing the glass can.

Referring to fig. 4, the pair of striking ball cylinder seats 3C3 is composed of a trapezoidal pin block 3C31, an arc tube pair supporting frame 3C32, a ball cylinder groove 3C33, a fan brush wheel plate 3C34, the arc tube pair brackets 3C32 and the fan brush wheel plate 3C34 are buckled together and are positioned on the same vertical plane, the fan brush wheel plate 3C34 is mechanically connected with the ball cylinder groove 3C33 and the axes are collinear, the trapezoidal pin block 3C31 is inserted and embedded at the left side of the ball cylinder groove 3C33 and mutually communicated, the arc tube opposite supporting frame 3C32 is a composite frame rod structure with a left side provided with a convex arc bent tube and a brush plate supporting frame inserted from top to bottom, so that a right side pressure accumulation and left side impact springing effect is formed when the arc tube opposite supporting frame is rotated and pressed conveniently, the shock insulation effect of transverse opposite impact springing and impurities winding is ensured, the arc tube pair supporting frame 3C32 and the fan brush wheel plate 3C34 rotate to form a spacer boosting effect of right shrinkage force storage and left bouncing impact wheel bodies, and the intermittent continuous supply stability of glass cans which are transferred and received by unilateral transmission is guaranteed.

The working process is as follows: a worker supports a side coaming 4 and a low lining plate 5 on a wheel seat 3 of a pressure-bearing frame through a transmission belt 2 at the top of a transmission groove frame 1 to erect a bearing flange seat 6 for rotation, a power source of a shaft-driven motor 7 is wound to drive a bracing plate frame wheel 3A and a counter-bracing hinged pinch roller 3E in a wheel transverse groove chamber 3F to perform rotation motion, a radiating fin plate 3H is inserted into a base lining groove 3G to form a frame radiating effect under the bottom of a spring transverse pushing frame 3C and a gradient lining plate 3D, then a material blocking arc plate 3B is aligned to a ball striking cylinder seat 3C3 to stretch a transverse pushing screw rod 3C5 through a buckling groove block 3C1 of the spring transverse pushing frame 3C, an inclined bracing bar 3C2 and a clamping plate 3C4 form a supporting operation of up-and down clamping stability, and a ball cylinder groove 3C33 is inserted through a trapezoidal column pin block 3C31 to enable an arc tube pair supporting frame 3C32 and a fan plate 3C2 to press a rotary brush plate 3C2 to impact a traction wheel 3A 82923 and push a ball storage wheel seat 3A and a rotary frame 493, let dog-ear spring frame 3A2 drive the end that props brush plywood 3A1 prop spring wire board 3A11 and push away gluey roof 3A12 and prop the lifting in turn in arc props welt 3A13, under dog-ear post piece 3A14 controls spacingly, guarantee top rubber coating accepts glass can transmission terminal and transfers the protective effect, improve glass can conveyor at the meticulous protection of tail end to glass surface, guarantee product quality's security and qualification rate, promote the smooth degree of feed of flow direction of packaging line.

Example two:

referring to fig. 1 to 6, the present invention provides a glass can feeding apparatus, which is otherwise the same as embodiment 1 except that:

referring to fig. 2, the oppositely-supporting hinged pressing wheel 3E is composed of a double-ball-bar support 3E1, a three-sector wheel disc 3E2, a bottom-supporting lath 3E3 and a three-ball-roller-frame block 3E4, the double-ball-bar support 3E1 is mechanically connected with the three-sector wheel disc 3E2, the axes of the three-sector wheel disc and the three-ball-roller-frame block are collinear, the three-sector wheel disc 3E2 is nested on the top of the bottom-supporting lath 3E3 and is located on the same vertical plane, the bottom-supporting lath 3E3 and the three-ball-roller-frame block 3E4 are in interference fit, and the double-ball-bar support 3E1 is rotatably supported on the top to be matched with the bottom of the three-ball-roller-frame block 3E4 for rolling, so that the winding-pressing conveying belts and the hinging-pressing and tensioning force of the integral upper and lower frames can be adjusted, and the conveying flatness of the integral glass can be conveniently adapted.

Referring to fig. 5, the double ball bar support 3E1 is composed of a vibration isolation wheel 3E11, a double ball bar body 3E12, a ball bar support 3E13, and a rubber clamping plate 3E14, the vibration isolation seat wheel 3E11 is nested on the top of the double ball rod body 3E12 and the axes are collinear, the double ball body 3E12 is snapped together with the ball support 3E13 and is on the same vertical plane, the ball bar support 3E13 and the rubber splint 3E14 are inserted and embedded together and cross each other, the double-ball rod body 3E12 is a double-ball cap rod part structure with a fan plate torsion wheel at the bottom and a solid ball rod at the top, so that the uniform pressing effect of the brace can be conveniently obtained when the rotating rod piece is hinged up and down, and the fan brush at the bottom can swing, regulate and control the lifting angle distance to perform the speed reduction friction operation, the double-ball-bar body 3E12 is pressed with the ball bar support 3E13 through the break angle, the fine adjustment limiting effect of tail end angle distance lifting and pressing is formed, and the tension uniformity of the whole machine frame spacer transmission chain belt is guaranteed.

Referring to fig. 6, the three-ball roller frame block 3E4 is composed of a prismatic plate ball groove 3E41, a short shaft rod 3E42, an arc tube groove 3E43, and a folding rod reinforcing rib 3E44, the prismatic plate ball groove 3E41 and the short shaft rod 3E42 are mechanically connected and located on the same vertical plane, the arc tube groove 3E43 and the folding rod reinforcing rib 3E44 are both inserted and embedded inside the prismatic plate ball groove 3E41, the prismatic plate ball groove 3E41 is a composite plate groove structure with three trapezoidal narrow plates with edges in the ball groove, so that a rolling effect of uniform rotation of three included angles is formed when the wheel plates are hinged, the transmission linkage of the chain belt is improved, the tension force is prevented from being disturbed, the prismatic plate ball groove 3E41 drives the folding rod reinforcing rib 3E44 to rigidly hinge the belt surface of the bottom winding wrinkles, the rolling and smoothing roller surface is convenient, and the autonomous adjustment effect of the conveyance of the loading and smoothing material matching with the rod is improved.

The wheel driving plate is driven to rotate by the pressure of the early-stage rod support, so that the gap between the roller wheel of the conveyor belt and the slot opening can be sealed by the side radian top support, the winding of broken glass slag is avoided, and the operation of protecting and cracking the supporting plate wrapped glass cans is convenient, the operation of continuously supporting the glass cans by lifting the double-ball rod bracket 3E1 of the oppositely supporting hinged pressing wheel 3E to rotate in the three-leaf plate wheel disc 3E2 is realized, the vibration isolation supporting seat wheel 3E11 is matched with the double-ball rod body 3E12 to be bent and supported by the ball rod support 3E13, the rubber clamping plate 3E14 is clamped inside the frame to prevent skidding, and then, the three-ball roller frame block 3E4 at the bottom end of the bottom bracing batten 3E3 rotates, so that the crease conveyor belt wound and recycled at the bottom is driven to rotate around the short shaft rod 3E42 through the prismatic plate ball groove 3E41 to drive the arc pipe groove 3E43 and the folding rod reinforcing rib 3E44 to form a rolling operation of leveling and carding, and the frame maintenance operation of conveying the glass cans is improved.

The invention achieves the aim of applying the transmission belt 2 to be matched with the pressure-bearing frame wheel seat 3, and leading the single side supporting plate frame wheel 3A of the wheel guide transverse groove chamber 3F to form the rolling supporting plate sealing operation through the fact that the glass cans bear the side supporting plate frame wheel 3A on the transmission belt 2 to roll downwards, so that the glass scraps and dust are blocked outside the frame, and when the rolling gap is enlarged, the rolling supporting plate 3A1 can be fully overlapped, the reserved gap between the later-stage continuous supply glass cans and the former-stage glass cans is ensured, the rolling supporting plate 3A1 can turn over the glass cans with slow top slip, the transmission intermittence and the continuous supply efficiency are improved, the glass cans are prevented from slipping and accumulating, the hidden danger of overlapping collision of the later-stage cans is reduced, the batch pre-filling and continuous supply conveying effect with high efficiency is improved, the shell quality density of the glass cans is ensured, and the problem that the end arc belt roller rods can turn over and discharge in the conveying process of the glass cans is solved, the arc-edge tangent rolling friction of the glass can causes a slipping phenomenon, a certain amount of batch stacked discharging sinking pressure is filled in a gap of the piled slipping glass can, so that cracks are generated due to rigid expansion of the surface of the glass can, and glass fragment slag can be remained in a slipping roller rod gap to hinge into a transmission rack, so that the roller wheel and a machine body bearing belt are scratched, the tension is loosened for chain belt transmission, the dragging efficiency and the rack linkage are changed, and the progress of the whole conveying operation is interfered.

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 (3)

1. A glass can conveying device structurally comprises: conveying trough frame (1), transmission band (2), pressure-bearing frame wheel seat (3), side bounding wall (4), low welt (5), bearing flange seat (6), axle driving motor (7), its characterized in that:

the bearing frame wheel seat (3) is tightly attached to the bottom of the transmission belt (2), the transmission belt (2) is installed inside the transmission groove frame (1), the transmission groove frame (1) is tightly attached to the side enclosing plate (4), the bearing flange seat (6) is mechanically connected with the shaft motor (7), the shaft motor (7) is installed on the top surface of the low lining plate (5), the low lining plate (5) is inserted and embedded into the lower right corner of the side enclosing plate (4), and the bearing frame wheel seat (3) is mechanically connected with the bearing flange seat (6);

the pressure-bearing machine frame wheel seat (3) is provided with a plate supporting machine frame wheel (3A), a material blocking arc plate (3B), an elastic transverse pushing frame (3C), a gradient liner plate band (3D), a butt-bracing hinge pressing wheel (3E), a wheel guide transverse groove chamber (3F), a base seat liner groove (3G) and a radiating fin plate (3H);

the plate supporting machine is characterized in that a plate supporting machine frame wheel (3A) is installed on the left side of a material blocking arc plate (3B), the plate supporting machine frame wheel (3A) and a pair supporting hinged pressing wheel (3E) are respectively embedded on the left side and the right side inside a wheel guide transverse groove chamber (3F), the material blocking arc plate (3B) and a spring pressing transverse pushing frame (3C) are buckled together, the spring pressing transverse pushing frame (3C) is movably connected with a gradient liner plate strip (3D), a radiating fin plate (3H) is inserted and embedded on the top of a base liner groove (3G), the base liner groove (3G) is embedded under the bottom of the wheel guide transverse groove chamber (3F), and the wheel guide transverse groove chamber (3F) is tightly attached to the bottom of a conveying belt (2);

the plate supporting machine frame wheel (3A) consists of a supporting and brushing rubber plate (3A1), a folding rod spring frame (3A2), a traction wheel disc (3A3) and a ball frame rod wheel seat (3A4), wherein the supporting and brushing rubber plate (3A1) is nested on the top of the folding rod spring frame (3A2), the folding rod spring frame (3A2) is inserted and nested inside the traction wheel disc (3A3), and the traction wheel disc (3A3) is mechanically connected with the ball frame rod wheel seat (3A 4);

the supporting brush rubber plate (3A1) consists of a bottom supporting spring wire plate (3A11), a glue pushing top plate (3A12), an arc supporting lining plate (3A13) and a dog-ear column block (3A14), wherein the bottom supporting spring wire plate (3A11) is mechanically connected with the glue pushing top plate (3A12), the glue pushing top plate (3A12) is matched with the arc supporting lining plate (3A13), and the arc supporting lining plate (3A13) is buckled with the dog-ear column block (3A14) together;

the transverse pushing frame (3C) is pressed in an elastic mode and consists of a clamping groove block (3C1), an inclined strut bar (3C2), a colliding ball cylinder seat (3C3), a clamping plate support frame (3C4) and a transverse pushing screw rod (3C5), the inclined strut bar (3C2) is matched with the colliding ball cylinder seat (3C3), the clamping groove block (3C1) is installed on the left side of the colliding ball cylinder seat (3C3), the colliding ball cylinder seat (3C3) is nested on the left side of the transverse pushing screw rod (3C5), and the clamping plate support frame (3C4) is matched with the transverse pushing screw rod (3C 5);

the butt-collision ball cylinder seat (3C3) consists of a trapezoidal pin block (3C31), an arc tube butt-support frame (3C32), a ball cylinder groove (3C33) and a fan brush wheel plate (3C34), wherein the arc tube butt-support frame (3C32) and the fan brush wheel plate (3C34) are buckled together, the fan brush wheel plate (3C34) is mechanically connected with the ball cylinder groove (3C33), and the trapezoidal pin block (3C31) is inserted and embedded in the left side of the ball cylinder groove (3C 33);

the oppositely-supporting hinged pressing wheel (3E) is composed of a double-ball-bar support (3E1), a three-leaf wheel disc (3E2), a bottom supporting strip plate (3E3) and a three-ball roller frame block (3E4), the double-ball-bar support (3E1) is mechanically connected with the three-leaf wheel disc (3E2), the three-leaf wheel disc (3E2) is nested on the top of the bottom supporting strip plate (3E3), and the bottom supporting strip plate (3E3) is matched with the three-ball roller frame block (3E 4).

2. The apparatus for conveying a glass can as set forth in claim 1, wherein: the double-ball-bar support (3E1) consists of an isolation support wheel (3E11), a double-ball-bar body (3E12), a ball-bar support (3E13) and a rubber clamping plate (3E14), wherein the isolation support wheel (3E11) is nested on the top of the double-ball-bar body (3E12), the double-ball-bar body (3E12) is buckled with the ball-bar support (3E13), and the ball-bar support (3E13) is embedded with the rubber clamping plate (3E 14).

3. The apparatus for conveying a glass can as set forth in claim 1, wherein: the three-ball roll frame block (3E4) is composed of a prismatic plate ball groove (3E41), a short shaft rod (3E42), an arc tube groove (3E43) and a folding rod reinforcing rib (3E44), the prismatic plate ball groove (3E41) is mechanically connected with the short shaft rod (3E42), and the arc tube groove (3E43) and the folding rod reinforcing rib (3E44) are inserted into the prismatic plate ball groove (3E 41).

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