CN113928776B - Material transportation drum-type conveying equipment - Google Patents

Abstract

The invention discloses a material transportation roller type conveying device which comprises a bearing plate and a printer, wherein two first supporting plates with inclined top surfaces are fixedly connected to the bearing plate, a plurality of groups of roller shafts are fixedly connected to opposite surfaces of the two first supporting plates in a rotating mode, the roller shafts are linearly arrayed along the inclined top surfaces of the first supporting plates, rollers for conveying materials are fixedly connected to arc-shaped outlines of the roller shafts, a motor frame and a first rotating rod are fixedly connected to the bearing plate, a motor is fixedly connected to the motor frame, a rotating shaft is fixedly connected to the output end of the motor, a first disc wheel and a non-complete gear are fixedly connected to the arc-shaped outlines of the rotating shaft, and a limiting rod is fixedly connected to one end of the first rotating rod, which is far away from the bearing plate. According to the invention, the pushing mechanism is arranged, so that the materials are transported sequentially in the transportation process, the materials cannot collide, and the effect of bringing great convenience to subsequent processing is achieved.

Description

Material transportation drum-type conveying equipment

Technical Field

The invention relates to the technical field of conveying equipment, in particular to material conveying roller type conveying equipment.

Background

The roller conveying line is suitable for conveying various kinds of cargoes such as boxes, bags, trays and the like, and bulk materials, small articles or irregular articles are required to be placed on the trays or conveyed in the turnover boxes. The material conveying system can convey materials with large weight of a single piece or bear large impact load, the roller lines are easy to connect and filter, a complex logistics conveying system can be formed by a plurality of roller lines and other conveyors or special machines, and the material conveying system can fulfill various process requirements and has the characteristics of large conveying capacity, high speed, light and fast operation and capability of realizing collinear split conveying of multiple varieties.

At present, most of roller type conveying equipment is used for directly placing materials on the roller type conveying equipment for conveying materials at the same time, but the materials are likely to be damaged during conveying due to mutual extrusion collision among the materials in the conveying process, and the materials are not utilized for processing during conveying, so that the roller type conveying equipment for conveying the materials is required to solve the problems.

Disclosure of Invention

The invention aims to provide a material conveying roller type conveying device, which has the advantages that materials are conveyed sequentially in the conveying process, so that the materials cannot collide, and the problem that the materials are possibly damaged in the conveying process due to mutual extrusion collision among the materials in the conveying process is solved.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a material transportation drum-type conveying equipment, includes bearing plate and printer, two first backup pads that fixedly connected with top surface is the inclined plane on the bearing plate, two fixed axle rotation is connected with multiunit drum shaft on the opposite face of first backup pad, multiunit drum shaft all forms along the inclined plane linear array of first backup pad, every group all fixedly connected with is used for carrying the cylinder of material on the arc profile of drum shaft, fixedly connected with motor frame and first dwang on the bearing plate, fixedly connected with motor in the motor frame, the output fixedly connected with axis of rotation of motor, fixedly connected with first dish wheel and incomplete gear on the arc profile of axis of rotation, fixedly connected with gag lever post on the one end that the bearing plate was kept away from to first dwang, be close to incomplete gear's one end fixedly connected with and with not the complete gear complex lug on the gag lever post, be equipped with intermittent type promotes the pushing mechanism of material on the bearing plate.

Preferably, the pushing mechanism comprises a supporting rod and a second rotating rod which are fixedly connected on the bearing plate, one end, close to the limiting rod, of the supporting rod is fixedly connected with a first spring, one end, far away from the supporting rod, of the first spring is fixedly connected with the limiting rod, a first disc and a second disc are fixedly connected on the arc-shaped outline of the second rotating rod, clamping grooves matched with the limiting rod are formed in the first disc, and four pushing rods used for pushing materials are fixedly connected on the second disc.

Preferably, the bearing plate is provided with a sliding mechanism for printing production date for materials, the sliding mechanism comprises a third rotating rod and a rectangular rod which are fixedly connected to the bearing plate, a second disc wheel is fixedly connected to the third rotating rod, the second disc wheel is connected with the first disc wheel through a belt, the upper surface of the second disc wheel is coaxially and fixedly connected with a sleeve, the inner wall of the sleeve is axially and slidingly connected with a first sliding rod, the inner wall of the sleeve is fixedly connected with a sliding block, the first sliding rod is provided with a U-shaped groove, the sliding block is in sliding connection with the U-shaped groove, the upper surface of the first sliding rod is fixedly connected with a connecting plate, the lower surface of the connecting plate is fixedly connected with a printer for printing production date for materials, and the connecting plate and the first sliding rod are both provided with rectangular grooves and are in limiting sliding connection with the rectangular rod through the rectangular grooves.

Preferably, be equipped with the blowing mechanism that is used for weather printing typeface fast on the second disc, the blowing mechanism is including air pump module and blast pipe, set up standing groove and through standing groove and air pump module and blast pipe fixed connection on the second disc, four set up the standing groove on the push rod and through standing groove and four blast pipe fixed connection, the air pump module is including four air pumps and respectively with four blast pipe fixed intercommunication, the upper surface fixedly connected with of second disc and four air pump respectively electric connection's four pressure-sensitive switch, fixedly connected with connecting rod on the connecting plate, the connecting rod cooperatees with the pressure-sensitive switch that is close to cylinder one end, the blast pipe that is close to cylinder one end is just to the printer.

Preferably, the bearing plate is provided with a clamping mechanism for clamping materials, the clamping mechanism comprises a first piston cylinder fixedly connected to the bearing plate, a first sealing plug is axially and slidably connected to the inner wall of the first piston cylinder, a second sliding rod penetrating through the first piston cylinder is fixedly connected to the first sealing plug, one end, far away from the first sealing plug, of the second sliding rod is fixedly connected with a connecting plate, a gas pipe is fixedly communicated to the first piston cylinder, a second piston cylinder and a third piston cylinder are fixedly connected to the upper surface of each first supporting plate, and each second piston cylinder and each third piston cylinder are fixedly communicated with the first piston cylinder through the gas pipe.

Preferably, the clamping mechanism further comprises a second sealing plug and a third sealing plug which are respectively and axially connected to the inner walls of the second piston cylinder and the third piston cylinder in a sliding mode, a third sliding rod penetrating through the second piston cylinder is fixedly connected to the second sealing plug, a fourth sliding rod penetrating through the third piston cylinder is fixedly connected to the third sealing plug, abutting blocks are fixedly connected to the third sliding rod and the fourth sliding rod, second springs are sleeved on the third sliding rod and the fourth sliding rod, two ends of the second springs on the third sliding rod are respectively and fixedly connected with the second sealing plug and the second piston cylinder, and two ends of the second springs on the fourth sliding rod are respectively and fixedly connected with the third sealing plug and the third piston cylinder.

Preferably, be equipped with on the bearing plate and be used for the automatic orderly sign indicating number material mechanism of material, sign indicating number material mechanism is including two second backup pads of fixed connection on the bearing plate, every the spout has all been seted up in the second backup pad and is used for loading the tray of material through the spacing sliding connection of spout, every equal fixedly connected with telescopic link on the fourth slide bar, every all set up the spout in the second backup pad and through the spacing sliding connection of spout and telescopic link, every all set up in the second backup pad with telescopic link matched with multiunit spacing hole, one side fixedly connected with that the second backup pad is close to the bearing plate is used for reminding workman that the material is full.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the pushing mechanism is arranged, so that the materials are transported sequentially in the transportation process, the materials cannot collide, and the effect of bringing great convenience to subsequent processing is achieved.

2. According to the invention, the sliding mechanism is arranged, so that the effect that the printer automatically prints the production date on the transported materials, the labor is reduced, and the missing printing is avoided is achieved.

3. According to the invention, by arranging the blowing mechanism, the production date fonts just printed are dried, and the effects of scratching the production date printed in transportation, blurring and affecting materials are avoided.

4. According to the invention, the clamping mechanism is arranged to clamp the material immediately before the printing production date, the position of the material is fixed in the center, so that the material cannot deviate during the printing production date, the material to be slid to the tray is clamped, the position of the material is fixed in the center, the positions of the materials are identical when the materials slide to the tray, and the effect that the materials on the tray are orderly stacked is achieved.

5. According to the invention, by arranging the stacking mechanism, the effect that the material is orderly stacked and cannot be damaged when the material slides to the tray and the distance between the material and the tray is kept at all times.

Drawings

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

FIG. 2 is a schematic diagram of a pushing mechanism according to the present invention;

FIG. 3 is a schematic view of the blowing mechanism of the present invention;

FIG. 4 is a schematic diagram of a sliding mechanism according to the present invention;

FIG. 5 is a second schematic structural view of the sliding mechanism of the present invention;

FIG. 6 is a schematic view of the clamping mechanism of the present invention;

FIG. 7 is a schematic cross-sectional view of the clamping mechanism of the present invention;

FIG. 8 is a schematic diagram of the material stacking mechanism of the present invention;

fig. 9 is a schematic structural cross-section of the stacking mechanism of the present invention.

In the figure: 1. a bearing plate; 11. a second rotating lever; 111. a first disc; 112. a second disc; 113. a push rod; 12. a support rod; 121. a first spring; 13. a first rotating lever; 131. a limit rod; 132. a bump; 14. a third rotating lever; 141. a second disc wheel; 142. a sleeve; 143. a slide block; 144. a first slide bar; 145. a U-shaped groove; 15. a rectangular bar; 2. a motor; 21. a motor frame; 22. a rotating shaft; 23. a first disc wheel; 24. a belt; 25. a non-full gear; 3. a first support plate; 4. a roller; 41. a drum shaft; 5. a printer; 51. a connecting plate; 52. a connecting rod; 6. a first piston cylinder; 61. a first sealing plug; 62. a second slide bar; 63. a gas pipe; 64. a second piston cylinder; 641. a second sealing plug; 642. a third slide bar; 643. abutting blocks; 644. a second spring; 65. a third piston cylinder; 651. a third sealing plug; 652. a fourth slide bar; 66. a telescopic rod; 7. a second support plate; 71. a limiting hole; 72. a tray; 8. a pressure sensitive switch; 9. an air pump module; 91. and an exhaust pipe.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The invention provides a technical scheme that: the utility model provides a material transportation drum-type conveying equipment, including bearing plate 1 and printer 5, fixedly connected with top surface is two first backup pad 3 of inclined plane on the bearing plate 1, fixed axis rotation is connected with multiunit drum shaft 41 on the opposite face of two first backup pads 3, multiunit drum shaft 41 all forms along the linear array of inclined plane of first backup pad 3, all fixedly connected with is used for carrying cylinder 4 of material on the arc profile of every group drum shaft 41, fixedly connected with motor frame 21 and first dwang 13 on the bearing plate 1, fixedly connected with motor 2 on the motor frame 21, fixedly connected with axis of rotation 22 in the output of motor 2, fixedly connected with first dish wheel 23 and incomplete gear 25 on the arc profile of axis of rotation 22, fixedly connected with gag lever post 131 on the one end that is close to incomplete gear 25 on the gag lever post 131, be equipped with intermittent type pushing mechanism who promotes the material on the bearing plate 1. The pushing mechanism comprises a supporting rod 12 and a second rotating rod 11 which are fixedly connected to the bearing plate 1, one end, close to a limiting rod 131, of the supporting rod 12 is fixedly connected with a first spring 121, one end, far away from the supporting rod 12, of the first spring 121 is fixedly connected with the limiting rod 131, a first disc 111 and a second disc 112 are fixedly connected to the arc-shaped outline of the second rotating rod 11, clamping grooves matched with the limiting rod 131 are formed in the first disc 111, and four pushing rods 113 used for pushing materials are fixedly connected to the second disc 112.

Referring to fig. 1 and 2, the effect of supporting the whole equipment is achieved by arranging the bearing plate 1, the effect of supporting the plurality of groups of roller shafts 41 is achieved by arranging the first supporting plate 3, the effect of transporting materials is achieved by arranging the plurality of groups of roller shafts 41 so that the plurality of groups of rollers 4 can rotate, the effect of supporting the motor 2 is achieved by arranging the motor frame 21, the rotation of the rotation shaft 22 is achieved by arranging the motor 2, namely the rotation of the first disc wheel 23 and the incomplete gear 25, when the incomplete gear 25 abuts against the protruding block 132 on the limiting rod 131, the incomplete gear 25 continues to rotate, the protruding block 132 drives the limiting rod 131 to rotate in the direction away from the first disc 111 by taking the first rotating rod 13 as the axis, so that the limiting rod 131 is separated from the clamping groove on the first disc 111, and because the plurality of groups of roller shafts 41 are formed by linear array along the inclined top surface of the first supporting plate 3, so that the materials on the multiple groups of rollers 4 generate a sliding force in an inclined direction, and at the moment, the limiting rod 131 is separated from the clamping groove on the first disc 111, so that the materials push the pushing rod 113 close to the rollers 4, the second disc 112 and the second rotating rod 11 rotate, the first disc 111 rotates, the materials also smoothly slide down to a station, when the incomplete gear 25 is abutted against the convex block 132 on the limiting rod 131, the limiting rod 131 is reset due to the tension of the first spring 121, the limiting rod 131 is matched with the clamping groove on the first disc 111 after the first disc 111 rotates 90 degrees, the second disc 112 and the pushing rod 113 also stop rotating, and at the moment, the pushing rod 113 close to one side of the rollers 4 has the effect of stopping continuous transportation of the materials, so that intermittent transportation of the materials is ensured that the materials cannot be violently impacted and transported in sequence, bringing great convenience to subsequent processing.

Further, the bearing plate 1 is provided with a sliding mechanism for printing production date for materials, the sliding mechanism comprises a third rotating rod 14 and a rectangular rod 15 which are fixedly connected to the bearing plate 1, a second disc wheel 141 is fixedly connected to the third rotating rod 14, the second disc wheel 141 is connected with the first disc wheel 23 through a belt 24, a barrel sleeve 142 is coaxially and fixedly connected to the upper surface of the second disc wheel 141, a first sliding rod 144 is axially and slidingly connected to the inner wall of the barrel sleeve 142, a sliding block 143 is fixedly connected to the inner wall of the barrel sleeve 142, a U-shaped groove 145 is formed in the first sliding rod 144, the sliding block 143 is slidingly connected with the U-shaped groove 145, a connecting plate 51 is fixedly connected to the upper surface of the first sliding rod 144, a rectangular groove is formed in the lower surface of the connecting plate 51 and fixedly connected with a printer 5 for printing production date for materials, and the limiting sliding connection of the rectangular rod 15 is formed in the connecting plate 51 and the first sliding rod 144.

Referring to fig. 4 and 5, when the second disc wheel 141 is set to rotate the first disc wheel 23, the second disc wheel 141 is driven by the belt 24 to rotate simultaneously, so that the third rotating rod 14 and the sleeve 142 rotate, the sliding block 143 rotates, the sliding block 143 is slidably connected with the U-shaped groove 145, the U-shaped groove 145 is in a sine shape connected end to end, when the sliding block 143 rotates, the first sliding rod 144 slides reciprocally along the sleeve 142, and the rectangular grooves are formed on the connecting plate 51 and the first sliding rod 144 and are in limited sliding connection with the rectangular rod 15, so that the first sliding rod 144 can only slide reciprocally up and down, when the first sliding rod 144 slides, the connecting plate 51 slides along with the first sliding rod 144, so that when the first sliding rod 144 slides to the bottommost part, the printer 5 on the connecting plate 51 prints materials, the printer 5 can avoid time and labor consuming and the problem of manually operating the machine, and the problem of missing printing can be avoided, wherein the printer 5 can adopt a 51 type flat-plate printer, and the printer 5 is a detailed technology because the printer 5 is not described in the prior art.

Further, be equipped with the blowing mechanism that is used for weather printing typeface fast on the second disc 112, the blowing mechanism is including air pump module 9 and blast pipe 91, set up the standing groove on the second disc 112 and through standing groove and air pump module 9 and blast pipe 91 fixed connection, set up the standing groove on four push rods 113 and through standing groove and four blast pipe 91 fixed connection, air pump module 9 is including four air pumps and respectively with four blast pipe 91 fixed intercommunication, the upper surface fixedly connected with of second disc 112 and four pressure-sensitive switch 8 of four air pumps respectively electric connection, fixedly connected with connecting rod 52 on the connecting plate 51, connecting rod 52 cooperatees with the pressure-sensitive switch 8 that is close to cylinder 4 one end, blast pipe 91 that is close to cylinder 4 one end is just to printer 5.

Referring to fig. 3 and 4, when the connecting plate 51 is fixedly connected with the connecting rod 52 and the connecting plate 51 slides up and down in a reciprocating manner, the connecting rod 52 slides up and down synchronously, when the first sliding rod 144 slides to the bottommost part, the printer 5 on the connecting plate 51 prints materials, at this time, the connecting rod 52 is matched with the pressure-sensitive switch 8 close to one end of the roller 4, so that the air pump module 9 discharges air to the exhaust pipe 91 close to one end of the roller 4, and the exhaust pipe 91 close to one end of the roller 4 is opposite to the printer 5, so that the air is blown on the printer 5 and the materials just after printing, and further, the production date fonts just after printing are dried, the materials are prevented from touching in the transportation process, and the production date after printing is rubbed, blurred, and the effect of the materials is affected.

Further, be equipped with the clamping mechanism who is used for pressing from both sides tight material on the bearing plate 1, clamping mechanism is including the first piston cylinder 6 of fixed connection on bearing plate 1, axial sliding connection has first sealing plug 61 on the inner wall of first piston cylinder 6, fixedly connected with runs through the second slide bar 62 of first piston cylinder 6 on the first sealing plug 61, the one end that second slide bar 62 kept away from first sealing plug 61 and connecting plate 51 fixed connection, fixedly connected with gas-supply pipe 63 on the first piston cylinder 6, the upper surface of every first backup pad 3 all fixedly connected with second piston cylinder 64 and third piston cylinder 65, every second piston cylinder 64 and third piston cylinder 65 all pass through gas-supply pipe 63 and first piston cylinder 6 fixed communication, clamping mechanism still includes second sealing plug 641 and third sealing plug 651 on the inner wall of second piston cylinder 64 and third piston cylinder 65 respectively axial sliding connection, fixedly connected with the third slide bar 642 that runs through third piston cylinder 65 on the second sealing plug 641, fixedly connected with fourth slide bar 652 on the third 651, fixedly connected with fourth slide bar 644 on the third support plate 6, the third slide bar 652 and the third piston rod 652, both ends of third piston rod 644 are connected with the third piston rod 644 on the third piston rod 652 and the third piston rod 652, both ends of the third piston rod 652 are fixedly connected with the fourth piston rod 644.

Referring to fig. 6 and 7, when the second sliding rod 62 is set to slide up and down reciprocally along the connecting plate 51, the second sliding rod 62 slides up and down reciprocally along the inner wall of the first piston cylinder 6 synchronously, when the connecting plate 51 slides down to print the material, at this time, the first sealing plug 61 slides down along the first piston cylinder 6, so that the gas in the first piston cylinder 6 sends the gas into the second piston cylinder 64 and the third piston cylinder 65 respectively through the gas pipe 63, the second sealing plug 641 and the third sealing plug 651 are pushed to slide along the second piston cylinder 64 and the third piston cylinder 65 respectively, so that the third sliding rod 642 and the fourth sliding rod 652 drive the abutting blocks 643 to slide along the corresponding material directions respectively, the material to be immediately printed on the production date is clamped by the two groups of third sliding rods 642 and the abutting blocks 643, the position of the material is fixed in the center, the effect that the deviation does not occur when the material is printed on the production date is printed is achieved, the two groups of fourth sliding rods 652 and the abutting blocks 643 are arranged to clamp the material at the same position as the center, and the material is further fixed on the tray 72 when the tray is positioned on the tray 72.

Example two

The first embodiment is basically the same, and further, be equipped with on the bearing plate 1 and be used for the automatic orderly sign indicating number material mechanism of sign indicating number material, sign indicating number material mechanism is including two second backup pad 7 of fixed connection on the bearing plate 1, the spout has all been seted up on every second backup pad 7 and is used for loading the tray 72 of material through the spacing sliding connection of spout, all fixedly connected with telescopic link 66 on every fourth slide bar 652, the spout has all been seted up on every second backup pad 7 and is passed through the spacing sliding connection of spout and telescopic link 66, all seted up on every second backup pad 7 with telescopic link 66 matched with multiunit spacing hole 71, one side fixedly connected with that second backup pad 7 is close to the bearing plate 1 is used for reminding the workman that the material is full.

Referring to fig. 8 and 9, the effect that the tray 72 can slide is achieved by arranging two second support plates 7, when the fourth sliding rod 652 slides towards the abutting block 643, the telescopic rod 66 slides synchronously along the sliding groove formed in the second support plate 7 until the telescopic rod 66 slides out of the limiting hole 71, at this time, the tray 72 slides downwards along the sliding groove formed in the second support plate 7, then when the fourth sliding rod 652 slides towards the third sealing plug 651, the telescopic rod 66 slides synchronously towards the third sealing plug 651, then the telescopic rod 66 is inserted into the next limiting hole 71, then the material slides to the tray 72, and further the effect that when the material slides towards the tray 72, the distance between the material and the material to be slid onto the tray 72 is always kept by one material, so that the material slides to the tray 72 in order without damage is achieved.

Working principle: this a material transportation drum-type conveying equipment, during the use, the starter motor 2, axis of rotation 22 rotates and is first disc 23 and incomplete gear 25 rotate promptly, when the lug 132 on incomplete gear 25 and the gag lever post 131 offsets, incomplete gear 25 continues to rotate, the lug 132 drives gag lever post 131 and takes place to rotate to keeping away from first disc 111 direction with first dwang 13 as the axle center, thereby gag lever post 131 breaks away from the draw-in groove on first disc 111, because multiunit drum shaft 41 all forms along the helical surface linear array of first backup pad 3, make the material on multiunit cylinder 4 receive self gravity influence to produce and slide to the incline direction, and at this moment gag lever post 131 breaks away from the draw-in groove on first disc 111, thereby the push rod 113 that the material promotes and is close to cylinder 4, make second disc 112 and second dwang 11 rotate, thereby first disc 111 takes place to rotate, the material also smoothly slides down a station simultaneously, after the lug 132 on incomplete gear 25 and the gag lever post 131 offsets and is accomplished, because the pulling force of first spring 121 makes gag lever post 131 reset, make first disc 111 rotate 90 degrees, thereby the material stop the effect has been realized in order that the carrier wave is carried out to the second disc 111, the material stop is carried out in order, the same time, the material transport effect has been realized, and the material transport is stopped in the order is very big to the drum 113 that the carrier is carried out, and is stopped to the material is carried out in the order to the time.

The printer 5 may be a 51-type flat-bed printer, because the printer 5 is the prior art, when the first disc wheel 23 rotates, the second disc wheel 141 rotates simultaneously through the belt 24, so that the third rotating rod 14 and the sleeve 142 rotate, and the sliding block 143 rotates, because the sliding block 143 is slidably connected with the U-shaped groove 145, the U-shaped groove 145 is in a sine shape connected end to end, when the sliding block 143 rotates, the first sliding rod 144 slides reciprocally along the sleeve 142, and because the connecting plate 51 and the first sliding rod 144 are both provided with rectangular grooves and are in limiting sliding connection with the rectangular rod 15 through the rectangular grooves, the effect that the first sliding rod 144 can only slide reciprocally up and down and can not rotate is achieved, when the first sliding rod 144 slides, the connecting plate 51 slides along with the first sliding rod 144, so that when the first sliding rod 144 slides to the bottommost part, the printer 5 on the connecting plate 51 prints materials, the effects of time and labor are wasted, and missing printing situations are avoided.

When the connecting plate 51 slides up and down in a reciprocating manner, the connecting rod 52 slides up and down synchronously, when the first sliding rod 144 slides to the bottommost part, the printer 5 on the connecting plate 51 prints materials, at the moment, the connecting rod 52 is matched with the pressure-sensitive switch 8 close to one end of the roller 4, so that the air pump close to one end of the roller 4 discharges air from the exhaust pipe 91 close to one end of the roller 4, and the exhaust pipe 91 close to one end of the roller 4 is opposite to the printer 5, so that the air is blown on the printer 5 and the materials just printed, and further the production date fonts just printed are dried, the materials are prevented from touching in the transportation process, and the production date after the printing is rubbed, blurred and the effect of the materials is affected.

When the connecting plate 51 slides up and down reciprocally, the second sliding rod 62 slides up and down reciprocally synchronously, so that the first sealing plug 61 slides up and down reciprocally along the inner wall of the first piston cylinder 6, when the connecting plate 51 slides down and prints the material, at this time, the first sealing plug 61 slides down along the first piston cylinder 6, so that the gas in the first piston cylinder 6 sends the gas into the second piston cylinder 64 and the third piston cylinder 65 respectively through the gas pipe 63, the second sealing plug 641 and the third sealing plug 651 are pushed to slide along the second piston cylinder 64 and the third piston cylinder 65 respectively, the third sliding rod 642 and the fourth sliding rod 652 drive the abutting blocks 643 to slide along the corresponding material directions respectively, the material immediately about to be printed on the production date is clamped through the two groups of third sliding rods 642 and the abutting blocks 643, the position of the material is fixed in the center, the material can not deviate during the printing on the production date, the material sliding to the tray 72 is clamped through the two groups of fourth sliding rods 652 and the abutting blocks 643, and the position of the material is fixed in the center of the material clamping position of the tray 72, and the material is tidy and the material is positioned on the tray 72.

When the fourth sliding rod 652 slides towards the propping block 643, the telescopic rod 66 slides synchronously along the sliding groove formed in the second supporting plate 7 until the telescopic rod 66 slides out of the limiting hole 71, at this time, the tray 72 slides downwards along the sliding groove formed in the second supporting plate 7, then when the fourth sliding rod 652 slides towards the third sealing plug 651, the telescopic rod 66 slides synchronously towards the third sealing plug 651, then the telescopic rod 66 is inserted into the next limiting hole 71, and then the material slides to the tray 72, so that the distance between the material and the material to be slid to the tray 72 is always kept at a distance when the material slides to the tray 72, the material slides to the tray 72 in order without damage, and then when the tray 72 is fast to the bottom, the alarm sounds to remind a worker of taking the full material.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a material transportation drum-type conveying equipment, includes bearing plate (1) and printer (5), its characterized in that: two first supporting plates (3) with inclined top surfaces are fixedly connected to a bearing plate (1), a plurality of groups of roller shafts (41) are fixedly connected to opposite surfaces of the first supporting plates (3) in a rotating mode, the roller shafts (41) are formed by linear arrays along the inclined top surfaces of the first supporting plates (3), each group of roller shafts (41) are fixedly connected with a roller (4) for conveying materials on the arc-shaped outline of each roller shaft, a motor frame (21) and a first rotating rod (13) are fixedly connected to the bearing plate (1), a motor (2) is fixedly connected to the motor frame (21), a rotating shaft (22) is fixedly connected to the output end of the motor (2), a first disc wheel (23) and a non-complete gear (25) are fixedly connected to the arc-shaped outline of the rotating shaft (22), a limiting rod (131) is fixedly connected to one end, close to the non-complete gear (25), of each limiting rod (131) is fixedly connected to the non-complete gear (25), and a pushing mechanism (132) is arranged on the bearing plate (1);

the pushing mechanism comprises a supporting rod (12) and a second rotating rod (11) which are fixedly connected to a bearing plate (1), a first spring (121) is fixedly connected to one end, close to a limiting rod (131), of the supporting rod (12), one end, far away from the supporting rod (12), of the first spring (121) is fixedly connected with the limiting rod (131), a first disc (111) and a second disc (112) are fixedly connected to the arc-shaped outline of the second rotating rod (11), clamping grooves matched with the limiting rod (131) are formed in the first disc (111), and four pushing rods (113) used for pushing materials are fixedly connected to the second disc (112);

the automatic printing device is characterized in that a sliding mechanism for printing production dates for materials is arranged on the bearing plate (1), the sliding mechanism comprises a third rotating rod (14) and a rectangular rod (15) which are fixedly connected to the bearing plate (1), a second disc wheel (141) is fixedly connected to the third rotating rod (14), the second disc wheel (141) is connected with a first disc wheel (23) through a belt (24), a cylinder sleeve (142) is coaxially and fixedly connected to the upper surface of the second disc wheel (141), a first sliding rod (144) is axially and slidingly connected to the inner wall of the cylinder sleeve (142), a sliding block (143) is fixedly connected to the inner wall of the cylinder sleeve (142), a U-shaped groove (145) is formed in the first sliding rod (144), the sliding block (143) is slidingly connected with the U-shaped groove (145), a connecting plate (51) is fixedly connected to the upper surface of the first sliding rod (144), the lower surface of the connecting plate (51) is fixedly connected with a printer (5) for printing production dates for materials, and the first sliding rod (144) is connected with the rectangular rod (15) through the rectangular groove;

be equipped with the blowing mechanism that is used for weather printing typeface fast on second disc (112), blowing mechanism is including air pump module (9) and blast pipe (91), set up standing groove and through standing groove and air pump module (9) and blast pipe (91) fixed connection on second disc (112), four set up standing groove and through standing groove and four blast pipe (91) fixed connection on push rod (113), air pump module (9) including four air pumps and respectively with four blast pipe (91) fixed communication, the upper surface fixedly connected with of second disc (112) is with four pressure-sensitive switch (8) of four air pump respectively electric connection, fixedly connected with connecting rod (52) on connecting plate (51), connecting rod (52) cooperate with pressure-sensitive switch (8) near cylinder (4) one end, blast pipe (91) near cylinder (4) one end just to printer (5).

2. A material transport roller conveyor apparatus as in claim 1 wherein: be equipped with the clamping mechanism who is used for pressing from both sides tight material on bearing plate (1), clamping mechanism is including first piston cylinder (6) of fixed connection on bearing plate (1), axial sliding connection has first sealing plug (61) on the inner wall of first piston cylinder (6), fixedly connected with runs through second slide bar (62) of first piston cylinder (6) on first sealing plug (61), the one end and connecting plate (51) fixed connection of first sealing plug (61) are kept away from to second slide bar (62), fixedly connected with gas-supply pipe (63) on first piston cylinder (6), every the equal fixedly connected with second piston cylinder (64) of upper surface of first backup pad (3) and third piston cylinder (65), every second piston cylinder (64) and third piston cylinder (65) are all through gas-supply pipe (63) and first piston cylinder (6) fixed connection.

3. A material transport roller conveyor apparatus as in claim 2 wherein: the clamping mechanism further comprises a second sealing plug (641) and a third sealing plug (651) which are respectively and axially connected to the inner walls of the second piston cylinder (64) and the third piston cylinder (65) in a sliding mode, a third sliding rod (642) penetrating through the second piston cylinder (64) is fixedly connected to the second sealing plug (641), a fourth sliding rod (652) penetrating through the third piston cylinder (65) is fixedly connected to the third sealing plug (651), a supporting block (643) is fixedly connected to each of the third sliding rod (642) and the fourth sliding rod (652), a second spring (644) is sleeved on each of the third sliding rod (642) and the fourth sliding rod (652), two ends of the second spring (644) are fixedly connected with the second sealing plug (641) and the second piston cylinder (64) respectively, and two ends of the second spring (644) on the fourth sliding rod (652) are fixedly connected with the third sealing plug (651) and the third piston cylinder (65) respectively.

4. A material transport roller conveyor apparatus as in claim 3 wherein: be equipped with on the bearing plate (1) and be used for the automatic orderly sign indicating number material mechanism of sign indicating number of material, sign indicating number material mechanism is including two second backup pad (7) of fixed connection on the bearing plate (1), every spout has all been seted up on second backup pad (7) and is used for carrying tray (72) of material through the spacing sliding connection of spout, every all fixedly connected with telescopic link (66) on fourth slide bar (652), every spout has all been seted up on second backup pad (7) and through the spacing sliding connection of spout and telescopic link (66), every all seted up on second backup pad (7) with telescopic link (66) matched with multiunit spacing hole (71), one side fixedly connected with that second backup pad (7) are close to bearing plate (1) is used for reminding workman's material to be full siren.