CN109250202B - Categorised material equipment that connects of tubular product for municipal works - Google Patents

Abstract

The invention discloses a classified material receiving device for a pipe for municipal engineering, which comprises a supporting plate a and a supporting plate b, wherein a fixed block is welded on the left side surface of the supporting plate a, a fixed cylinder is fixedly installed on the upper surface of the fixed block, a sliding sleeve is clamped on the upper surface of the fixed cylinder, a fixed rod is sleeved on the inner wall of the sliding sleeve, a handle is welded at the top end of the fixed rod, and the bottom end of the fixed rod is fixedly connected with the upper surface of a limiting plate; through setting up driving motor, the drive wheel, the conveyer belt, the stock guide, the feed opening and connect the workbin, make after processing tubular product, driving motor drives the drive wheel and rotates, and then drives the conveyer belt and rotate, thereby can transport tubular product on the conveyer belt to the stock guide on, the guide effect of the stock guide that sets up through the slope, make tubular product that the pipe diameter is little fall down from the feed opening earlier, enter into and connect the workbin to collect, thereby realized placing the classification of the different tubular products of pipe diameter.

Description

Categorised material equipment that connects of tubular product for municipal works

Technical Field

The invention belongs to the technical field of pipe processing, and particularly relates to a classified material receiving device for pipes for municipal engineering.

Background

The pipe is a necessary material for building engineering and is widely used in building and municipal engineering projects. The common pipe materials comprise a water supply pipe, a drain pipe, a gas pipe, a heating pipe, an electric wire conduit, a rain water pipe and the like, and with the development of science and technology, the pipe materials used in home decoration also experience the development process of common cast iron pipes, cement pipes, reinforced concrete pipes, galvanized steel pipes, plastic pipes and aluminum-plastic composite pipes, and the pipe materials can be processed into pipe materials with different specifications, namely different thicknesses and pipe diameters in the processing process.

Original tubular product all directly place tubular product in the collecting box after processing and collect, can not classify the tubular product of different thickness pipe diameters and deposit, also can not adjust the size of material receiving device material loading and unloading mouth according to actual processing needs, also can not adjust the width of material receiving device stock guide according to the in-process that uses, can not solve tubular product in addition and locate the problem of being stuck at the material unloading mouth. The portable collecting box of workman usually when transporting the tubular product that is processed wastes time and energy, and is inefficient, the transport of being not convenient for.

Disclosure of Invention

The invention aims to provide a classified material receiving device for pipes for municipal engineering, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a categorised material equipment that connects of tubular product for municipal works, includes backup pad a and backup pad b, its characterized in that: the upper surface of the supporting plate a is welded with supporting blocks, the upper surfaces of the supporting blocks are respectively fixedly connected with the bottom ends of the four supporting rods, and the four support rods are symmetrically arranged on the upper surface of the support block in pairs, and the opposite side surfaces of the two support rods are respectively clamped with a bearing a, and the two bearings a are sleeved on the outer surfaces of the rotating shafts a, the outer surfaces of the two rotating shafts a are fixedly connected with driving wheels, and the two transmission wheels are in transmission connection through a transmission belt, one end of the back surface of one rotating shaft a is fixedly connected with an output shaft of a driving motor, the driving motor is electrically connected with an external power supply, the driving motor is fixedly arranged on the upper surface of the supporting block, the upper surface of the supporting block and the upper surface of the supporting plate b are respectively fixedly connected with the lower surface of the material guide plate, a feed opening is formed in the material guide plate, and the material guide plate is obliquely arranged from left to right downwards.

Preferably, the support block is a wedge block.

Preferably, rubber bumps are attached to the outer surface of the conveyor belt.

Preferably, the rubber bumps are uniformly distributed on the outer surface of the conveyor belt.

Preferably, the upper surface of the conveyor belt and the upper surface of the material guide plate are on the same plane.

Preferably, the feed openings are at least two.

Preferably, the width of the feed opening on the guide plate increases from left to right in sequence.

Preferably, a blanking plate is welded on the right side surface of the guide plate.

Preferably, the number of the material receiving boxes is at least three.

Preferably, the number of the material receiving boxes is one more than that of the material discharging openings.

Preferably, the material receiving box is respectively positioned below the feed opening and the feed plate.

Preferably, the baffle plates are welded on two sides of the upper surface of the material guide plate.

The invention can also be said to be a municipal engineering pipe classifying and receiving device, wherein one opposite side surfaces of the supporting plate a and the supporting plate b are respectively and fixedly connected with two sides of the placing plate a, the placing plate b is welded on one side of the supporting plate b far away from the placing plate a, and receiving boxes are arranged on the upper surfaces of the placing plate a and the placing plate b.

The invention can also be said to be a tube processing and classifying device for building engineering, wherein a fixed block is welded on the side surface of the supporting plate a, a fixed cylinder is fixedly installed on the upper surface of the fixed block, a sliding sleeve is clamped on the upper surface of the fixed cylinder, a fixed rod is sleeved on the inner wall of the sliding sleeve, a handle is welded on the top end of the fixed rod, the bottom end of the fixed rod is fixedly connected with the upper surface of a limiting plate, grooves a are respectively formed in two sides of the limiting plate, springs are respectively fixedly installed on the inner walls of the two grooves a, the opposite ends of the two springs are respectively fixedly connected with one side surface opposite to the two connecting plates, one side surface opposite to the two connecting plates is respectively fixedly connected with one side surface opposite to the two pressing blocks, the two pressing blocks respectively penetrate through holes to extend out.

Preferably, the number of the through holes is double, and the number of the through holes is at least one.

The invention can also be said to be a pipe processing and classifying device for municipal engineering, wherein the upper surface and the lower surface of the inner side wall of the groove a are symmetrically provided with sliding chutes a, the inner walls of the two sliding chutes a are both connected with sliding blocks a in a sliding manner, and one side surface opposite to the two sliding blocks a is respectively and fixedly connected with the upper surface and the lower surface of the connecting plate.

Preferably, two universal wheels are fixedly mounted on the lower surfaces of the supporting plate a and the supporting plate b respectively.

Preferably, a groove b is formed in the material guide plate on one side of the feed opening, and a movable plate is arranged inside the groove b.

The invention can also be said to be a pipe diameter classified placing and receiving device for building engineering, wherein one side of the movable plate is fixedly connected with a sliding block b, the sliding block b is in sliding connection with a sliding chute b, and the sliding chute b is arranged on a material guide plate at one side of the groove b.

The invention can also be said to be a pipe diameter classified placement material receiving device for municipal engineering, wherein a notch is formed in one side of the material guide plate, the movable plate penetrates through the notch to extend out of the material guide plate and is welded with a connecting block, a bearing b is clamped in one side of the connecting block, a rotating shaft b is sleeved on the inner wall of the bearing b and is fixedly connected with a threaded column, a rotating handle is welded at one end of the threaded column, a threaded cap is connected to the outer surface of the threaded column in a threaded manner, the threaded cap penetrates through a baffle and is clamped with the baffle, and the baffle is welded on the side face of the material guide plate.

The invention can also be said to be a pipe processing and classifying device suitable for building engineering, wherein the partition plates on the two sides of the material guide plate are connected with supporting frames, the inner side of the top of each supporting frame is connected with a connecting plate, one side of each connecting plate, which is close to the discharge opening, is connected with one side of each blocking plate, which is close to the discharge opening, through a hinge, and the supporting frame is positioned on the left side of the discharge opening, which is close to the conveying belt.

Preferably, the support frame is door frame-shaped.

Preferably, the distance from one side of the blocking plate close to the feed opening is smaller than the pipe diameter of the pipe.

The invention can also be said to be a pipe processing and classifying device suitable for municipal engineering, and the distance between the bottom surface of the stop plate and the upper surface of the guide plate is smaller than the pipe diameter of the pipe.

Preferably, the surface of the barrier plate is provided with a buffer layer.

Preferably, the blocking plate is retractable.

The invention can also be said to be an efficient tube classifying and receiving device for building engineering, wherein the partition plates on the two sides of the material guide plate are respectively provided with a chute c, the chutes c are connected with the slide blocks c in a sliding manner, the top surfaces of the two slide blocks c are respectively connected with the frame bottom of the support frame, the inner side of the top of the support frame is connected with a connecting plate, one side of the connecting plate close to the feed opening is connected with one side of the blocking plate close to the feed opening through a hinge, the partition plates on the two sides of the material guide plate are respectively and symmetrically connected with vertical plates, the vertical plates are positioned on the left side of the feed opening close to the conveyor belt, the side surfaces of the vertical.

Preferably, a sensor is arranged on the partition plate corresponding to the feed opening.

The invention can also be said to be high-efficiency municipal engineering pipe classifying and receiving equipment, the guide plate comprises a fixed plate, a folding plate a, a folding plate b and a sliding plate, the fixed plate and the folding plate a are connected through hinges, the folding plate a and the folding plate b are connected through hinges, the folding plate b and the sliding plate are connected through hinges, the blanking opening comprises a through opening a, a through opening b and a through opening c, the through opening a is arranged on the inner side of the fixed plate, the through opening b is arranged on the inner side of the sliding plate, the through opening c is positioned between the through opening a and the through opening b, the through opening c separates the folding plate a and the folding plate b, the through opening a, the through opening b and the through opening c are communicated, the top of the supporting block and the top of the supporting plate b are respectively provided with openings, the folded folding plate a and the folding plate b respectively pass through the two openings, the, the lower surface of the sliding plate is connected with a sliding block d, sliding grooves d are formed in the supporting block and the supporting plate b respectively, the sliding block d is connected with the sliding grooves d in a sliding mode, the upper surface of the supporting block and the upper surface of the supporting plate b are connected with a vertical block respectively, one side of the vertical block is connected with an electric telescopic rod b, the output end of the electric telescopic rod b is connected with the sliding plate, the upper surface of the outer side of the fixed plate and the upper surface of the outer side of the sliding plate are connected with the lower surface of the partition plate respectively, and.

Preferably, the number of the telescopic pieces is two, and the two telescopic pieces are respectively and symmetrically arranged at two ends of the top of the support frame.

Preferably, when the folding plate a and the folding plate b are overlapped, a pad plate may be interposed between the fixed plate and the sliding plate.

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

(1) according to the pipe conveying device, the driving motor, the driving wheel, the conveying belt, the material guide plate, the feed opening and the material receiving box are arranged, so that after a pipe is processed, the driving wheel is driven by the driving motor to rotate, the conveying belt is driven to rotate, the pipe on the conveying belt can be conveyed onto the material guide plate, the pipe with a small pipe diameter firstly falls from the feed opening under the guiding action of the obliquely arranged material guide plate and enters the material receiving box to be collected, and therefore classified placement of the pipes with different pipe diameters is achieved;

(2) according to the invention, the fixing barrel, the fixing rod, the handle, the spring, the pressing block and the connecting plate are arranged, so that a worker can press the pressing block according to the height of the worker, the pressing block extrudes the spring through the connecting plate, the pressing block is further separated from the through hole, then the worker can pull the fixing rod up and down to drive the handle to move up and down to adjust the height of the handle, and the pressing block is clamped into the through hole again by utilizing the elasticity of the spring after the adjustment is finished, so that the height of the handle can be adjusted, the use of workers with different heights is met, and convenience is brought;

(3) according to the invention, through the arrangement of the threaded column, the threaded cap, the connecting block and the movable plate, a worker can rotate the rotating handle to enable the threaded column to rotate, and further drive the movable plate to move left and right through the connecting block, so that the movable plate can move left and right to adjust the width of the feeding hole, and further flexible adjustment can be carried out according to the actual pipe diameter requirement of pipe processing, and further the work efficiency of classified placement of pipes is improved;

(4) by arranging the handle and the universal wheels, a worker can push the classified pipes to move to the next working point through the handle and the universal wheels, so that convenience is brought to the work of the worker, the worker does not need to carry the pipes by hand, and time and labor are saved;

(5) by arranging the support frame, the connecting plate, the hinge and the blocking plate, the pipe can collide against the blocking plate when rolling from the material guide plate, and the blocking plate can apply resistance to the rolling pipe, so that the rolling pipe is temporarily stopped, and the rolling pipe can be straightened;

(6) according to the invention, the vertical plate, the electric telescopic rod, the sliding block c, the sliding chute c and the sensor are arranged, the sensor senses that the pipe is clamped at the feed opening, the electric telescopic rod a is started, the electric telescopic rod a extends and pushes the sliding block c, the sliding block c drives the supporting plate, the connecting plate and the blocking plate to move towards the feed opening, and the blocking plate can give a pushing force to the pipe clamped at the feed opening in the moving process, so that the pipe clamped at the feed opening continuously rolls on the guide plate;

(7) according to the invention, the fixed plate, the folding plate a, the folding plate b, the sliding plate, the telescopic piece, the vertical block, the electric telescopic rod b, the sliding block d and the sliding chute d are arranged, and the width of the material guide plate and the length of the blanking opening can be changed by folding or stretching the folding plate a and the folding plate b according to the length of the tube to be classified. The arrangement can reduce the probability that the pipe rolls askew and is clamped at the feed opening in the rolling process.

Drawings

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

FIG. 2 is a schematic top view of a support block according to an embodiment of the present invention;

FIG. 3 is a schematic partial structure diagram according to a first embodiment of the present invention;

FIG. 4 is a schematic left-view cross-sectional structural diagram of a fixing cylinder according to a second embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the structure at A in FIG. 4;

fig. 6 is a schematic top view of a material guide plate according to a third embodiment of the present invention;

FIG. 7 is a schematic partial structure diagram according to a fourth embodiment of the present invention;

FIG. 8 is a schematic partial structure diagram according to a fifth embodiment of the present invention;

FIG. 9 is a schematic partial structure diagram according to a sixth embodiment of the present invention;

FIG. 10 is a schematic diagram illustrating partial effects of a sixth embodiment of the present invention;

in the figure: 1. a support plate a; 2. a support plate b; 3. a fixed block; 4. a fixed cylinder; 5. a sliding sleeve; 6. fixing the rod; 7. a handle; 8. a limiting plate; 9. a groove a; 10. a spring; 11. a connecting plate; 12. briquetting; 13. a through hole; 14. a support block; 15. a support bar; 16. a rotating shaft a; 17. a drive motor; 18. a driving wheel; 19. a conveyor belt; 20. a rubber bump; 21. a material guide plate; 22. a feeding port; 23. a groove b; 24. a movable plate; 25. a notch; 26. connecting blocks; 27. a rotating shaft b; 28. a threaded post; 29. a threaded cap; 30. a baffle plate; 31. a blanking plate; 32. placing the plate a; 33. placing the plate b; 34. a material receiving box; 35. a partition plate; 36. a universal wheel; 37. a bearing a; 38. a bearing b; 39. a slide block a; 40. a chute a; 41. a slide block b; 42. a chute b; 43. a handle is rotated; 44. a support frame; 45. a connector tile; 46. a hinge; 47. a blocking plate; 48. a vertical plate; 49. an electric telescopic rod a; 50. a slide block c; 51. a chute c; 52. a fixing plate; 53. folding the plate a; 54. folding the plate b; 55. a sliding plate; 56. a telescoping member; 57. erecting a block; 58. an electric telescopic rod b; 59. a slider d; 60. a chute d; 61. opening the gap; 62. a through opening a; 63. a through hole b; 64. a through opening c; 65. a sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3 in the first embodiment, a classified material receiving device for municipal engineering pipes comprises a support plate a1 and a support plate b2, and is characterized in that: the upper surface of the supporting plate a1 is welded with a supporting block 14, the upper surface of the supporting block 14 is fixedly connected with the bottom ends of four supporting rods 15, the four supporting rods 15 are arranged on the upper surface of the supporting block 14 in a pairwise symmetrical manner, one side surface of each of two supporting rods 15 is connected with a bearing a37 in a clamping manner, two bearings a37 are sleeved on the outer surface of a rotating shaft a16, driving wheels 18 are fixedly connected with the outer surfaces of the two rotating shafts a16, the two driving wheels 18 are connected with each other in a transmission manner through a conveying belt 19, one end of the back surface of one rotating shaft a16 is fixedly connected with an output shaft of a driving motor 17, the driving motor 17 is electrically connected with an external power supply, the driving motor 17 is fixedly installed on the upper surface of the supporting block 14, the upper surface of the supporting block 14 and the upper surface of the supporting plate b2 are fixedly connected with, the material guide plate 21 is obliquely arranged downwards from left to right. The support block 14 is a wedge block. The outer surface of the conveyor belt 19 is attached with rubber bumps 20. The rubber bumps 20 are evenly distributed on the outer surface of the conveyor belt 19. The upper surface of the conveyor belt 19 and the upper surface of the material guide plate 21 are on the same plane. At least two feed openings 22 are provided. The width of the feed opening 22 on the guide plate 21 increases from left to right. A blanking plate 31 is welded on the right side surface of the material guide plate 21. There are at least three receiving boxes 34. The number of the material receiving boxes 34 is one more than that of the material discharging openings 22. The material receiving box 34 is respectively positioned below the feed opening 22 and the feed plate 31. The baffle plates 35 are welded on both sides of the upper surface of the material guide plate 21. One side faces opposite to the supporting plate a1 and the supporting plate b2 are fixedly connected with two sides of the placing plate a32 respectively, one side of the supporting plate b2 far away from the placing plate a32 is welded with a placing plate b33, and the upper surfaces of the placing plate a32 and the placing plate b33 are provided with material receiving boxes 34.

In this embodiment, the model of driving motor 17 is Y28024-750, and through setting up driving motor 17, the workman controls driving motor 17 and starts, and then drives pivot a16 and rotates, under the effect of two drive wheels 18 to can drive conveyer belt 19 and rotate, thereby can place the tubular product that has processed on conveyer belt 19, transport to the stock guide 21 through conveyer belt 19 and go on categorizing. Through set up rubber bump 20 on the surface of conveyer belt 19 to avoid circular tubular product to drop when placing on conveyer belt 19, thereby can guarantee that tubular product can accurately enter into stock guide 21 under the drive of conveyer belt 19 on, through setting up stock guide 21 slope, make tubular product can be under self action of gravity landing, feed opening 22 increases in proper order from left to right simultaneously and can be fine classify tubular product, make the tubular product that the pipe diameter is little fall from left feed opening 22. The tube falling through the feed opening 22 can be directly fed into the receiving box 34 for storage. The arrangement of the partition plate 35 can prevent the pipe from separating from the material guide plate 21 in the sliding process.

Embodiment two referring to fig. 1, 4 and 5, the fixing block 3 is welded to the side of the supporting plate a1, the upper surface of the fixed block 3 is fixedly provided with a fixed cylinder 4, the upper surface of the fixed cylinder 4 is clamped with a sliding sleeve 5, and the inner wall of the sliding sleeve 5 is sleeved with a fixed rod 6, the top end of the fixed rod 6 is welded with a handle 7, the bottom end of the fixed rod 6 is fixedly connected with the upper surface of the limit plate 8, both sides of the limit plate 8 are provided with grooves a9, and the inner walls of the two grooves a9 are fixedly provided with springs 10, and the opposite ends of the two springs 10 are respectively fixedly connected with the opposite side surfaces of the two connecting plates 11, and one side surface of the two connecting plates 11 opposite to each other is respectively fixedly connected with one side surface of the two pressing blocks 12 opposite to each other, and the two pressing blocks 12 respectively penetrate through the through holes 13 to extend out of the fixed cylinder 4, and the through holes 13 are symmetrically formed in the cylinder side of the fixed cylinder 4. The number of the through holes 13 is double, and at least 6 through holes 13 are provided. The upper surface and the lower surface of recess a9 inside wall have seted up spout a40 symmetrically, and the equal sliding connection of inner wall of two spout a40 has slider a39, and the relative side of two sliders a39 respectively with the upper surface and the lower surface fixed connection of connecting plate 11. Two universal wheels 36 are fixedly arranged on the lower surfaces of the supporting plate a1 and the supporting plate b2 respectively.

In this embodiment, all set up slider a39 through upper surface and lower surface at connecting plate 11, make when the workman presses briquetting 12, briquetting 12 makes spring 10 shrink through connecting plate 11 extrusion spring 10, and then make connecting plate 11 slide in spout a40 through slider a, thereby it is more stable when making briquetting 12 remove, spout a can carry on spacingly to connecting plate 11 simultaneously, thereby avoid connecting plate 11 to drive briquetting 12 and break away from through-hole 13 under spring 10's elastic action, through-hole 13 through setting up the setting of a plurality of symmetry, thereby make the workman can adjust briquetting 12 in the through-hole 13 of difference according to self height, thereby can adjust the height of handle 7, bring the convenience for workman's work. Through setting up sliding sleeve 5 for dead lever 6 is difficult for rocking and more stable when reciprocating in sliding sleeve 5. By arranging the universal wheel 36 and the handle 7, a worker can push the handle 7 through the universal wheel 36, and then move the pipe to a proper place for operation.

Referring to fig. 6, in the third embodiment, a groove b23 is formed on the material guiding plate 21 at one side of the feeding opening 22, and a movable plate 24 is disposed inside the groove b 23. One side of the movable plate 24 is fixedly connected with the sliding block b41, the sliding block b41 is slidably connected with the sliding chute b42, and the sliding chute b42 is arranged on the material guide plate 21 on one side of the groove b 23. Breach 25 is seted up to one side of stock guide 21, fly leaf 24 passes breach 25 and extends stock guide 21, and the welding has connecting block 26, one side joint of connecting block 26 has bearing b38, and the inner wall of bearing b38 has cup jointed pivot b27, pivot b27 and screw thread post 28 fixed connection, the one end welding of screw thread post 28 has turning handle 43, the surface threaded connection of screw thread post 28 has screw cap 29, screw cap 29 passes baffle 30 and with baffle 30 joint, the welding of baffle 30 is in the side of stock guide 21.

In this embodiment, through setting up slider b41 and spout b42, make people rotate the twist and drive the rotation of screw thread post 28, and then when driving movable plate 24 and remove about through connecting block 26, make movable plate 24 remove about through slider b41 in spout b42, slider b carries on spacingly to movable plate 24, it can not rotate and more stable to make movable plate 24 remove about, through setting up movable plate 24, make the workman can control movable plate 24 according to the needs of tubular product processing pipe diameter, and then adjust the width of feed opening 22, thereby make its suitability higher.

Referring to fig. 7, support frames 44 are connected to the partition plates 35 on two sides of the material guiding plate 21, a connecting plate 45 is connected to the inner side of the top of the support frame 44, one side of the connecting plate 45 near the discharging opening 22 is connected to one side of a blocking plate 47 near the discharging opening 22 through a hinge 46, and the support frame 44 is located on the left side of the discharging opening 22 near the conveyor belt 19. The support frame 44 is shaped like a door frame. The distance from one side of the blocking plate 47 close to the feed opening 22 is smaller than the pipe diameter of the pipe. The distance between the bottom surface of the stop plate 47 and the upper surface of the material guide plate 21 is smaller than the pipe diameter of the pipe. The surface of the barrier plate 47 is provided with a buffer layer. The blocking plate 47 is retractable.

In this embodiment, the blocking plate 47 is used to prevent the tube from being tilted during rolling and being stuck at the feeding opening 22. The pipe material can collide the blocking plate 47 when rolling from the material guide plate 21, the blocking plate 47 can apply resistance to the rolling pipe material, so that the rolling pipe material is temporarily stopped, at the moment, the rolled pipe material is straightened, because the connecting plate 45 connected with the inner side of the top of the supporting frame 44 is connected with the blocking plate 47 through the hinge 46, the pipe material can obliquely swing towards the rolling direction of the pipe material due to the continuous downward pushing force of the pipe material, and the pipe material which is straightened can pass through the blocking plate 47 to continuously roll on the material guide plate 21. Due to the short distance between the blocking plate 47 and the feed opening 22, the tube will roll straight into the feed opening 22.

In an embodiment, referring to fig. 8, sliding grooves c51 are respectively formed in partition plates 35 on two sides of the material guiding plate 21, the sliding grooves c51 are slidably connected to sliding blocks c50, top surfaces of two sliding blocks c50 are respectively connected to the bottom of a supporting frame 44, an inner side of the top of the supporting frame 44 is connected to a connecting plate 45, one side of the connecting plate 45 near the feeding opening 22 is connected to one side of a blocking plate 47 near the feeding opening 22 through a hinge 46, vertical plates 48 are respectively and symmetrically connected to the partition plates 35 on two sides of the material guiding plate 21, the vertical plate 48 is located on the left side of the feeding opening 22 near the conveyor belt 19, a49 is connected to a side of the vertical plate 48, and an output end of an electric telescopic rod a49 is. And a sensor 65 is arranged on the partition plate 35 corresponding to the feed opening 22.

In this embodiment, the blocking plate 47 not only prevents the tube from being tilted during rolling and thus being stuck at the feeding opening 22, but also allows the tube stuck at the feeding opening 22 to fall into the feeding opening 22 or to continue rolling on the material guiding plate 21 through the feeding opening 22. When the sensor 65 senses that the pipe is clamped at the feed opening 22, the electric telescopic rod a49 is started, the electric telescopic rod a49 extends and pushes the sliding block c50, the sliding block c50 drives the supporting frame 44, the connecting plate 45 and the blocking plate 47 to move towards the feed opening 22, the blocking plate 47 can give a pushing force to the pipe clamped at the feed opening 22 in the moving process, and the pipe clamped at the feed opening 22 continues to roll on the material guide plate 21. Since the side of the connecting plate 45 adjacent to the feed opening 22 is connected to the side of the blocking plate 47 adjacent to the feed opening 22 via the hinge 46, the blocking plate 47 swings in the direction toward the lower material plate 31, but cannot swing in the opposite direction.

Sixth embodiment referring to fig. 9 and 10, the material guiding plate 21 includes a fixed plate 52, a folding plate a53, a folding plate b54, and a sliding plate 55, the fixed plate 52 and the folding plate a53 are connected by hinges, the folding plate a53 and the folding plate b54 are connected by hinges, the folding plate b54 and the sliding plate 55 are connected by hinges, the lower opening 22 includes an opening a62, an opening b63, and an opening c64, the fixed plate 52 has an opening a62 on the inner side, the sliding plate 55 has an opening b63 on the inner side, the opening c64 is located between the opening a62 and the opening b63, the opening c64 blocks the folding plate a53 and the folding plate b54, the opening a62, the opening b63 and the opening c64 are through, the top of the supporting block 14 and the top of the supporting plate b2 have cutouts 61 respectively, the folded folding plate a53 and the folding plate b54 respectively pass through the two cutouts 61, the upper surface of the supporting block 14 and the upper surface of the supporting plate b2 are respectively connected to, the lower surface of the sliding plate 55 is connected with a sliding block d59, sliding grooves d60 are respectively arranged on the supporting block 14 and the supporting plate b2, the sliding block d59 is connected with the sliding groove d60 in a sliding mode, the upper surface of the supporting block 14 and the upper surface of the supporting plate b2 are respectively connected with an upright block 57, one side of the upright block 57 is connected with an electric telescopic rod b58, the output end of the electric telescopic rod b58 is connected with the sliding plate 55, the upper surface of the outer side of the fixed plate 52 and the upper surface of the outer side of the sliding plate 55 are respectively connected with the lower surface of the partition plate 35, and the top. The two telescopic members 56 are symmetrically arranged at two ends of the top of the supporting frame 44. When the folding plate a53 and the folding plate b54 are overlapped, a pad plate can be interposed between the fixed plate 52 and the slide plate 55.

In this embodiment, the fixed plate 52, the folding plate a53, the folding plate b54, and the sliding plate 55 are connected together by hinges, and the folding plate a53 and the folding plate b54 can be folded or stretched to change the width of the material guiding plate 21 and the length of the blanking opening 22 according to the length of the tube materials to be classified. This arrangement reduces the possibility of the pipe rolling off and the pipe jamming at the feed opening 22 during rolling. When the length of the tube to be classified is less than the sum of the widths of the fixed plate 52 and the sliding plate 55, the electric telescopic rod b58 is started, the electric telescopic rod b58 extends to push the sliding plate 55 to slide towards the direction of the fixed plate 52, and the sliding plate 55 slides while pressing the folding plate a53 and the folding plate b54, so that the folding plate a53 and the folding plate b54 are folded downwards until the folding plate a53 and the folding plate b54 are completely overlapped. And the top of the support frame 44 is provided with the telescoping member 56 which is shortened. This shortens the width of the guide plate 21 and the length of the feed opening 22. When the folding plate a53 and the folding plate b54 are overlapped, a pad plate can be interposed between the fixed plate 52 and the slide plate 55. The shim plate serves to fill the gap between the fixed plate 52 and the sliding plate 55. When the length of the tube to be classified is greater than the sum of the widths of the fixed plate 52 and the sliding plate 55, the electric telescopic rod b58 is started, the electric telescopic rod b58 retracts to pull the sliding plate 55 to slide in the opposite direction of the fixed plate 52, the sliding plate 55 slides to pull up the folding plate a53 and the folding plate b54, and the folding plate a53 and the folding plate b54 are unfolded upwards until the folding plate a53 and the folding plate b54 are in the same plane. And the top extension 56 of the support frame 44 is extended. This increases the width of the guide plate 21 and the length of the feed opening 22. The two telescopic members 56 are symmetrically arranged at two ends of the top of the supporting frame 44. This arrangement ensures that the blocking plate 47 is always positioned above the middle of the guide plate 21.

The working principle and the using process of the invention are as follows: after the pipe cutting machine is installed, firstly, a worker presses a pressing block 12 according to the height of the worker, the pressing block 12 extrudes a spring 10 through a connecting plate 11, the pressing block 12 is further separated from a through hole 13, then, a fixing rod 6 is pulled upwards or downwards, a handle 7 is further driven to move up and down, the pressing block 12 is loosened after being adjusted to the proper height, the pressing block 12 is clamped into the through hole 13 under the elastic action of the spring 10, the height of the handle 7 is fixed, then, the pipe cutting machine is moved to a pipe processing position through the handle 7 and a universal wheel 36, a material receiving box 34 is placed on a placing plate a32 and a placing plate b33 opposite to a discharging hole 22, the worker starts a driving motor 17, a processed pipe is placed on a conveying belt 19, the conveying belt 19 is rotated under the driving of the driving motor 17, the pipe is further driven to move to the right to a material guide plate 21, the pipe rolls downwards from, the blocking plate 47 can apply resistance to the rolling pipe, so that the rolling pipe is stopped temporarily, the rolling pipe is straightened, the blocking plate 47 can obliquely swing towards the rolling direction of the pipe due to the continuous downward pushing force of the pipe, and the straightening pipe can pass through the blocking plate 47 to continuously roll on the material guide plate 21. When the pipe passes through the first feed opening 22, the pipe with the pipe diameter smaller than the width of the first feed opening 22 falls down from the first feed opening 22 and falls into the material receiving box 34 below, and the pipe with the pipe diameter larger than the width of the first feed opening 22 continuously rolls downwards. When passing through the second feeding opening 22, the tube with the tube diameter smaller than the width of the second feeding opening 22 will fall down from the second feeding opening 22 and into the material receiving box 34 below, and the tube with the tube diameter larger than the width of the second feeding opening 22 will continue to roll downward, and so on. The pipe diameter of the pipe which is larger than the width of all the feed openings 22 can directly fall into the material receiving box 34 below the feed plate 31 through the feed plate 31. Thereby can classify and deposit the tubular product that the pipe diameter thickness is different. If a pipe is clamped at the feed opening 22, the electric telescopic rod a49 can be started, the electric telescopic rod a49 extends and pushes the sliding block c50, the sliding block c50 drives the supporting frame 44, the connecting plate 45 and the blocking plate 47 to move towards the feed opening 22, and the blocking plate 47 can give a pushing force to the pipe clamped at the feed opening 22 in the moving process, so that the pipe clamped at the feed opening 22 continuously rolls on the material guide plate 21. Meanwhile, a worker can rotate the rotating handle according to the pipe processing diameter, so that the rotating handle drives the threaded column 28 to rotate, the movable plate 24 is driven to move left and right through the connecting block 26, the position of the movable plate 24 can be adjusted to adjust the width of the feed opening 22, the pipe can be adjusted to a proper position according to the actual processing requirement of the pipe, and the pipe can be stored in a classified mode. Meanwhile, workers can change the width of the material guide plate 21 and the length of the feed opening 22 according to the length of the pipes to be classified. When the length of the tube to be classified is less than the sum of the widths of the fixed plate 52 and the sliding plate 55, the electric telescopic rod b58 is started, the electric telescopic rod b58 extends to push the sliding plate 55 to slide towards the direction of the fixed plate 52, and the sliding plate 55 slides while pressing the folding plate a53 and the folding plate b54, so that the folding plate a53 and the folding plate b54 are folded downwards until the folding plate a53 and the folding plate b54 are completely overlapped. And the top of the support frame 44 is provided with the telescoping member 56 which is shortened. This shortens the width of the guide plate 21 and the length of the feed opening 22. When the folding plate a53 and the folding plate b54 are overlapped, a pad plate can be interposed between the fixed plate 52 and the slide plate 55. The shim plate serves to fill the gap between the fixed plate 52 and the sliding plate 55. When the length of the tube to be classified is greater than the sum of the widths of the fixed plate 52 and the sliding plate 55, the electric telescopic rod b58 is started, the electric telescopic rod b58 retracts to pull the sliding plate 55 to slide in the opposite direction of the fixed plate 52, the sliding plate 55 slides to pull up the folding plate a53 and the folding plate b54, and the folding plate a53 and the folding plate b54 are unfolded upwards until the folding plate a53 and the folding plate b54 are in the same plane. And the top extension 56 of the support frame 44 is extended. This increases the width of the guide plate 21 and the length of the feed opening 22.

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

Claims (3)

1. The utility model provides a categorised material equipment that connects of tubular product for municipal works, includes backup pad a (1) and backup pad b (2), its characterized in that: the supporting block (14) is welded on the upper surface of the supporting plate a (1), the upper surface of the supporting block (14) is fixedly connected with the bottom ends of the four supporting rods (15) respectively, the four supporting rods (15) are arranged on the upper surface of the supporting block (14) in pairwise symmetry, bearings a (37) are clamped on one side surface of each supporting rod (15) opposite to each other, the two bearings a (37) are sleeved on the outer surface of the rotating shaft a (16), driving wheels (18) are fixedly connected to the outer surfaces of the two rotating shafts a (16), the two driving wheels (18) are in transmission connection through a conveying belt (19), one end of the back surface of one rotating shaft a (16) is fixedly connected with an output shaft of a driving motor (17), the driving motor (17) is electrically connected with an external power supply, the driving motor (17) is fixedly installed on the upper surface of the supporting block (14), the upper surfaces of the supporting block (14) and the supporting plate b (2) are fixedly connected with the upper The lower surfaces of the material guide plates (21) are fixedly connected, a feed opening (22) is formed in each material guide plate (21), and the material guide plates (21) are obliquely arranged downwards from left to right; partition plates (35) are welded on two sides of the upper surface of the material guide plate (21);

the side welding of backup pad a (1) has fixed block (3), the last fixed surface of fixed block (3) installs solid fixed cylinder (4), the last fixed surface joint of solid fixed cylinder (4) has sliding sleeve (5), and the inner wall of sliding sleeve (5) has cup jointed dead lever (6), the top welding of dead lever (6) has handle (7), the bottom of dead lever (6) and the last fixed surface of limiting plate (8) are connected, recess a (9) have all been seted up to the both sides of limiting plate (8), and the inner wall of two recess a (9) all fixed mounting have spring (10), and the one end that two springs (10) carried on the back mutually is respectively with two connecting plate (11) relative side fixed connection, and two connecting plate (11) carried on the back a side with each other respectively with two briquetting (12) relative side fixed connection, and two briquetting (12) pass through-hole (13) respectively and extend solid fixed cylinder (4), the through holes (13) are symmetrically formed in the cylinder side of the fixed cylinder (4);

a groove b (23) is formed in the material guide plate (21) on one side of the feed opening (22), and a movable plate (24) is arranged inside the groove b (23); one side of the movable plate (24) is fixedly connected with the sliding block b (41), the sliding block b (41) is in sliding connection with the sliding chute b (42), and the sliding chute b (42) is arranged on the material guide plate (21) on one side of the groove b (23); a notch (25) is formed in one side of the material guide plate (21), the movable plate (24) penetrates through the notch (25) and extends out of the material guide plate (21), a connecting block (26) is welded to the movable plate, a bearing b (38) is clamped to one side of the connecting block (26), a rotating shaft b (27) is sleeved on the inner wall of the bearing b (38), the rotating shaft b (27) is fixedly connected with a threaded column (28), a rotating handle (43) is welded to one end of the threaded column (28), a threaded cap (29) is connected to the outer surface of the threaded column (28) in a threaded mode, the threaded cap (29) penetrates through the baffle plate (30) and is clamped to the baffle plate (30), and the baffle plate (30) is welded to the side face of the material guide;

the automatic feeding device is characterized in that sliding chutes c (51) are respectively arranged on the partition plates (35) on the two sides of the material guide plate (21), the sliding chutes c (51) are slidably connected with the sliding blocks c (50), the top surfaces of the two sliding blocks c (50) are respectively connected with the bottom of the support frame (44), the inner side of the top of the support frame (44) is connected with a connecting plate (45), one side, close to the discharging opening (22), of the connecting plate (45) is connected with one side, close to the discharging opening (22), of the blocking plate (47) through a hinge (46), vertical plates (48) are respectively and symmetrically connected with the partition plates (35) on the two sides of the material guide plate (21), the vertical plates (48) are located on the left side, close to the discharging opening (22) of the conveyor belt (19), the side surfaces of the vertical plates (48) are connected with electric telescopic rods a;

the material guide plate (21) comprises a fixed plate (52), a folding plate a (53), a folding plate b (54) and a sliding plate (55), the fixed plate (52) is connected with the folding plate a (53) through a hinge, the folding plate a (53) is connected with the folding plate b (54) through a hinge, the folding plate b (54) is connected with the sliding plate (55) through a hinge, the feed opening (22) comprises a through opening a (62), a through opening b (63) and a through opening c (64), the inner side of the fixed plate (52) is provided with the through opening a (62), the inner side of the sliding plate (55) is provided with the through opening b (63), the through opening c (64) is positioned between the through opening a (62) and the through opening b (63), the through opening c (64) separates the folding plate a (53) and the folding plate b (54), the through opening a (62), the through opening b (63) and the through opening c (64) are communicated, the top of the supporting block (14) and, the folded folding plate a (53) and the folded folding plate b (54) respectively penetrate through two openings (61), the upper surface of the supporting block (14) and the upper surface of the supporting plate b (2) are respectively and fixedly connected with the lower surface of the fixing plate (52), the lower surface of the sliding plate (55) is connected with a sliding block d (59), sliding grooves d (60) are respectively arranged on the supporting block (14) and the supporting plate b (2), the sliding block d (59) is in sliding connection with the sliding grooves d (60), the upper surface of the supporting block (14) and the upper surface of the supporting plate b (2) are respectively connected with a vertical block (57), one side of the vertical block (57) is connected with an electric telescopic rod b (58), the output end of the electric telescopic rod b (58) is connected with the sliding plate (55), the upper surface of the outer side of the fixing plate (52) and the upper surface of the outer side of the sliding plate (55, the top of the supporting frame (44) is provided with an expansion piece (56).

2. The classified material receiving equipment for the municipal engineering pipes according to claim 1, characterized in that: the supporting block (14) is a wedge-shaped block.

3. The classified material receiving equipment for the municipal engineering pipes according to claim 1, characterized in that: the outer surface of the conveyor belt (19) is connected with rubber bumps (20).

Images