CN215401810U - Keel longitudinal conveyor - Google Patents

Abstract

The utility model discloses a keel longitudinal conveyor which comprises a support frame, wherein a first conveying device is arranged at the center of the support frame, at least one pair of second conveying devices are symmetrically arranged on the left side and the right side of the first conveying device, pre-stacking mechanisms are arranged on the left sides or the right sides of the first conveying device and the second conveying device, each pre-stacking mechanism comprises a turnover mechanism and a first material blocking mechanism, a second material blocking mechanism is fixedly arranged on the outer side of the output end of each second conveying device, and a material pushing mechanism is arranged on the inner side of each second material blocking mechanism. According to the utility model, two keels can be folded into a small bundle in the process of keel conveying, the use of manpower is reduced, the production efficiency is improved, the turnover mechanism, the first material blocking mechanism and the material pushing mechanism are respectively and slidably arranged on the rack guide rail through the sliding blocks, the positions of the keels can be conveniently adjusted according to different types of keels, the adjustment is simple and convenient, and the application range is wide.

Description

Keel longitudinal conveyor

Technical Field

The utility model relates to the technical field of keel transmission, in particular to a longitudinal keel conveyor.

Background

The keel is a building material for supporting a modeling and fixing structure. The method is widely applied to hotels and terminal buildings. Passenger stations, theaters, markets, factories, office buildings, old building transformation, indoor decoration arrangement, ceilings and other places. The keel is a framework and a base material for decoration, and is very popular in use.

After the keels are processed, the same specifications of the keels need to be packaged and stored, a plurality of keels need to be stacked together to form a small bundle before leaving a factory, then a plurality of small bundles of keels are stacked into a stack, the stacked keels need to be bundled manually or by a winding machine, in the prior art, the keels are stacked into the small bundle, then the process of stacking the small bundles of keels into the stack is generally operated manually, the efficiency is low, the labor intensity is high, in the stacking process of the U-shaped keels, a worker firstly buckles the two U-shaped keels together up and down to stack the small bundle, and then one small keel bundle is arranged on the keel stack, so that the manual labor occupation and the low efficiency are achieved, and the longitudinal keel conveyor is provided for reducing the manual labor use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a longitudinal keel conveyor, which can automatically fold keels into small bundles in the transmission process, so that the keels can accurately and orderly enter the next station, and the problems in the background art are solved.

In order to achieve the purpose, the utility model provides the following technical scheme:

a keel longitudinal conveyor comprises a support frame, wherein a first conveying device is arranged at the center of the support frame, at least one pair of second conveying devices are symmetrically arranged on the left side and the right side of the first conveying device, the first conveying device and the second conveying device are arranged in parallel, driving wheels of the first conveying device and the second conveying device are respectively and rotatably arranged at two ends of a rack, and the rack is fixed on the support frame through a connecting block;

the length direction of fossil fragments is perpendicular to the length direction of the first conveyor of length direction, and it is placed on first conveyor and second conveyor, first conveyor and second conveyor's left side or right side are provided with stacking mechanism in advance, stacking mechanism includes tilting mechanism and a first stock stop in advance, stacking mechanism's front side still is provided with a first stock stop in advance, the outside of second conveyor's output is fixed and is provided with a second stock stop, and its inside is provided with a pushing equipment.

Preferably, at least one pair of third conveying devices is further arranged outside the second conveying device, and the third conveying devices are arranged in parallel with the second conveying device.

Preferably, equidistance sets up between first conveyor, second conveyor and the third conveyor, through shaft coupling and connecting axle fixed connection between the installation axle of first conveyor, second conveyor and third conveyor's action wheel, the connecting axle passes through shaft coupling and driving motor's motor shaft fixed connection.

Preferably, tilting mechanism includes upset head, first cylinder and first mounting panel, the upset head is the triangular prism, and it is fixed in the piston rod upper end of first cylinder, first cylinder is fixed and is served at one of first mounting panel, the first mounting panel other end passes through slider slidable mounting on the frame guide rail, be provided with the locking bolt through the screw thread on the first mounting panel, the frame guide rail is fixed in the frame, and its length direction parallels with fossil fragments traffic direction.

Preferably, first stock stop includes first fender stub bar, second cylinder and second mounting panel, first fender stub bar is the cylinder, and it fixes the piston rod upper end at the second cylinder, the second cylinder is fixed on one end of second mounting panel, the second mounting panel other end passes through slider slidable mounting on the frame guide rail, be provided with the locking bolt through the screw thread on the second mounting panel, the frame guide rail is fixed in the frame, and its length direction parallels with fossil fragments traffic direction.

Preferably, the device is further provided with a sensor assembly, three groups of sensor assemblies are arranged on one side, away from the first stop mechanism, of the first conveying device, two groups of sensor assemblies are opposite to the two first stop mechanisms respectively, and the other group of sensor assemblies is opposite to the second stop mechanism.

Preferably, the second material blocking mechanism comprises a second material blocking head and a third cylinder, wherein the second material blocking head is an L-shaped block and is fixedly installed at the upper end of the third cylinder.

Preferably, pushing equipment includes pushing head, fourth cylinder, third mounting panel, fifth cylinder and fourth mounting panel, pushing head fixed mounting is in the upper end of fourth cylinder, the right-hand member at the third mounting panel is fixed to the fourth cylinder, the front end of third mounting panel and the piston rod fixed connection of fifth cylinder, the right-hand member at the fourth mounting panel is fixed to the fifth cylinder, slider slidable mounting is passed through on the frame guide rail in the left end of third mounting panel and fourth mounting panel, be provided with the locking bolt through the screw thread on the fourth mounting panel, the frame guide rail is fixed in the frame, and its length direction parallels with fossil fragments traffic direction.

Preferably, the sensor assembly includes at least one photosensor slidably mounted in a sensor-mounting slot.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the pre-stacking mechanism is arranged on the first conveying device and the second conveying device, the pre-stacking mechanism comprises the turnover mechanism and the first material blocking mechanism, the two keels are firstly blocked by the first material blocking head, then the first air cylinder is started to control the turnover head to ascend, the keels on the rear side are turned over, the two keels are buckled together and stacked into a small bundle, and then the small bundle of keels are pushed to the next station by the second material blocking mechanism and the material pushing mechanism.

2. The turnover mechanism, the first material blocking mechanism and the material pushing mechanism are respectively arranged on the guide rail of the frame in a sliding mode through the sliding block, so that the positions of the turnover mechanism, the first material blocking mechanism and the material pushing mechanism can be conveniently adjusted according to keels of different types, the positions of the turnover mechanism, the first material blocking mechanism and the material pushing mechanism are fixed through the locking bolts, and the adjustment is simple and convenient.

Drawings

FIG. 1 is a perspective view of an angle of the present invention;

FIG. 2 is a perspective view of another embodiment of the present invention;

FIG. 3 is a schematic top view of the overall structure of the present invention;

FIG. 4 is a schematic view of the left side of the first conveying device according to the present invention;

FIG. 5 is a right side view of the first conveyor of the present invention;

FIG. 6 is a schematic view of the left side of the second conveying device according to the present invention;

fig. 7 is a right side schematic view of a second conveying device of the present invention.

In the figure: 1 support frame, 11 driving motors, 12 first conveyor, 13 second conveyor, 14 third conveyor, 15 connecting shafts, 16 connecting blocks, 17 frames, 2 frame guide rails, 21 locking bolts, 3 keels, 4 turnover mechanisms, 41 turnover heads, 42 first cylinders, 43 first mounting plates, 5 first material blocking mechanisms, 51 first material blocking heads, 52 second cylinders, 53 second mounting plates, 6 sensor assemblies, 61 photoelectric sensors, 62 sensor mounting grooves, 7 second material blocking mechanisms, 71 second material blocking heads, 72 third cylinders, 8 material pushing mechanisms, 81 material pushing heads, 82 fourth cylinders, 83 third mounting plates, 84 fifth cylinders and 85 fourth mounting plates.

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. 1-7, the present invention provides a technical solution:

a keel longitudinal conveyor comprises a support frame 1, wherein a first conveying device 12 is arranged at the center of the support frame 1, at least one pair of second conveying devices 13 are symmetrically arranged on the left side and the right side of the first conveying device 12, the first conveying device 12 and the second conveying devices 13 are arranged in parallel, driving wheels of the first conveying device 12 and the second conveying devices 13 are respectively and rotatably arranged at two ends of a rack 17, and the rack 17 is fixed on the support frame 1 through a connecting block 16;

the length direction of the keel 3 is perpendicular to the length direction of the first conveying device 12 and is placed on the first conveying device 12 and the second conveying device 13, the pre-stacking mechanism is arranged on the left side or the right side of the first conveying device 12 and the second conveying device 13 and comprises a turnover mechanism 4 and a first material blocking mechanism 5, the first material blocking mechanism 5 is further arranged on the front side of the pre-stacking mechanism, a second material blocking mechanism 7 is fixedly arranged on the outer side of the output end of the second conveying device 13, and a material pushing mechanism 8 is arranged on the inner side of the second material blocking mechanism.

At least one pair of third conveying devices 14 is further arranged on the outer side of the second conveying device 13, and the third conveying devices 14 are arranged in parallel with the second conveying device 13.

The first conveying device 12, the second conveying device 13 and the third conveying device 14 are arranged at equal intervals, mounting shafts of driving wheels of the first conveying device 12, the second conveying device 13 and the third conveying device 14 are fixedly connected with the connecting shaft 15 through couplers, and the connecting shaft 15 is fixedly connected with a motor shaft of the driving motor 11 through the couplers.

Tilting mechanism 4 includes upset head 41, first cylinder 42 and first mounting panel 43, and upset head 41 is the triangular prism, and it is fixed in the piston rod upper end of first cylinder 42, and first cylinder 42 is fixed and is served at one of first mounting panel 43, and the slider slidable mounting is passed through on frame guide rail 2 to the first mounting panel 43 other end, is provided with locking bolt 21 through the screw thread on the first mounting panel 43, and frame guide rail 2 is fixed on frame 17, and its length direction parallels with fossil fragments 3 traffic direction.

First stock stop 5 includes first fender stub bar 51, second cylinder 52 and second mounting panel 53, first fender stub bar 51 is the cylinder, and it is fixed in the piston rod upper end of second cylinder 52, and second cylinder 52 is fixed in one of second mounting panel 53 and is served, and the second mounting panel 53 other end passes through slider slidable mounting on frame guide rail 2, is provided with locking bolt 21 through the screw thread on the second mounting panel 53, and frame guide rail 2 fixes on frame 17, and its length direction is parallel with fossil fragments 3 traffic direction.

The second material blocking mechanism 7 comprises a second material blocking head 71 and a third cylinder 72, wherein the second material blocking head 71 is an L-shaped block and is fixedly installed at the upper end of the third cylinder 72.

The pushing mechanism 8 comprises a pushing head 81, a fourth cylinder 82, a third mounting plate 83, a fifth cylinder 84 and a fourth mounting plate 85, the pushing head 81 is fixedly mounted at the upper end of the fourth cylinder 82, the fourth cylinder 82 is fixed at the right end of the third mounting plate 83, the front end of the third mounting plate 83 is fixedly connected with a piston rod of the fifth cylinder 84, the fifth cylinder 84 is fixed at the right end of the fourth mounting plate 85, the left ends of the third mounting plate 83 and the fourth mounting plate 85 are slidably mounted on the rack guide rail 2 through a sliding block, a locking bolt 21 is arranged on the fourth mounting plate 85 through threads, the rack guide rail 2 is fixed on the rack 17, and the length direction of the rack guide rail 2 is parallel to the running direction of the keel 3.

The turnover mechanism 4, the first material blocking mechanism 5 and the material pushing mechanism 8 are respectively arranged on the rack guide rail 2 in a sliding mode through the sliding blocks, the positions of the turnover mechanism 4, the first material blocking mechanism 5 and the material pushing mechanism 8 are convenient to adjust according to keels 3 of different models, the positions of the turnover mechanism 4, the first material blocking mechanism 5 and the material pushing mechanism 8 are fixed through the locking bolts 21, and the adjustment is simple and convenient.

Still be provided with sensor assembly 6 on the vertical conveyer of fossil fragments, sensor assembly 6 is provided with three groups on first conveyor 12 keeps away from first stock stop 5 one side, and wherein two sets of are relative with two first stock stop 5 positions respectively, and another group is relative with second stock stop 7 positions. The sensor assembly 6 includes at least one photosensor 61, the photosensor 61 being slidably mounted in a sensor mounting slot 62.

As shown in fig. 4 and 5, in the present embodiment, two photoelectric sensors 61 are disposed in the sensor assembly 6 opposite to the first stop mechanism 5 of the pre-stacking mechanism; the sensor assembly 6 opposite to the first material blocking mechanism 5 on the front side of the pre-stacking mechanism is internally provided with three photoelectric sensors 61, the first material blocking mechanism 5 on the front side of the pre-stacking mechanism and the three photoelectric sensors 61 are used for detecting the keel 3 above the keel conveying device 1 and controlling the transmission speed of the keel conveying device 1, and the first material blocking mechanism 5 is independent of the pre-stacking mechanism to work; the two photoelectric sensors 61 are arranged in the sensor assembly 6 which is arranged at the output end of the first conveying device 12 and is opposite to the second material blocking mechanism 7 in position, the number of the photoelectric sensors 61 is the same as the number of columns of the keels 3 which need to be stacked, two columns of the stacking structure are arranged in the embodiment so that the two photoelectric sensors 61 are arranged, and the like, three photoelectric sensors 61 can be arranged in three columns of the stacking structure, four photoelectric sensors 61 can be arranged in four columns of the stacking structure, five photoelectric sensors 61 can be arranged in five columns of the stacking structure according to the processing requirement, and the photoelectric sensors are not listed in the specification one by one.

The working principle of the utility model is as follows:

the keel 3 is placed on the first conveying device 12, the second conveying device 13 and the third conveying device 14 for forward conveying, the second air cylinder 52 of the first material blocking mechanism 5 of the pre-stacking mechanism controls the first material blocking head 51 to extend out, when two keels 3 are blocked by the first material blocking head 51, the first air cylinder 42 of the overturning mechanism 4 in the pre-stacking mechanism is started, the overturning head 41 is controlled to overturn the keel 3 at the rear side, the two keels 3 are buckled together to form a small bundle, the second air cylinder 52 controls the first material blocking head 51 to contract, the small bundle is continuously transmitted forwards, when two small bundles are blocked by the second blocking head 71 of the second blocking mechanism 7, the third air cylinder 72 controls the second blocking head 71 to shrink, the two small bundles are transmitted to the transmission end point of the keel conveying device 1, at the moment, the fourth air cylinder 82 controls the material pushing head 81 to move upwards, the fifth cylinder 84 is then activated, pushing the fourth cylinder 82 and the pusher head 81 to push the two bales to the next station.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a fossil fragments longitudinal conveyor, includes support frame (1), its characterized in that: a first conveying device (12) is arranged at the center of the support frame (1), at least one pair of second conveying devices (13) is symmetrically arranged on the left side and the right side of the first conveying device (12), the first conveying device (12) and the second conveying device (13) are arranged in parallel, driving wheels of the first conveying device (12) and the second conveying device (13) are respectively and rotatably arranged at two ends of a rack (17), and the rack (17) is fixed on the support frame (1) through a connecting block (16);

the length direction of fossil fragments (3) is perpendicular to the length direction of first conveyor (12), and it is placed on first conveyor (12) and second conveyor (13), the left side or the right side of first conveyor (12) and second conveyor (13) are provided with the mechanism of piling in advance, the mechanism of piling in advance includes tilting mechanism (4) and a first stock stop (5), the front side of the mechanism of piling in advance still is provided with a first stock stop (5), the outside of the output of second conveyor (13) is fixed and is provided with a second stock stop (7), and its inboard is provided with one pushing equipment (8).

2. The keel longitudinal conveyor of claim 1, wherein: at least one pair of third conveying devices (14) is further arranged on the outer side of the second conveying device (13), and the third conveying devices (14) are arranged in parallel with the second conveying device (13).

3. A keel longitudinal conveyor according to claim 2, wherein: equidistant setting between first conveyor (12), second conveyor (13) and third conveyor (14), through shaft coupling and connecting axle (15) fixed connection between the installation axle of first conveyor (12), second conveyor (13) and third conveyor (14)'s action wheel, connecting axle (15) are through the motor shaft fixed connection of shaft coupling and driving motor (11).

4. The keel longitudinal conveyor of claim 1, wherein: tilting mechanism (4) are including upset head (41), first cylinder (42) and first mounting panel (43), upset head (41) are the triangular prism, and it is fixed in the piston rod upper end of first cylinder (42), one of first mounting panel (43) is fixed in first cylinder (42) is served, the slider slidable mounting is passed through on frame guide rail (2) to first mounting panel (43) other end, be provided with locking bolt (21) through the screw thread on first mounting panel (43), frame guide rail (2) are fixed in frame (17), and its length direction parallels with fossil fragments (3) traffic direction.

5. The keel longitudinal conveyor of claim 1, wherein: first stock stop (5) are including first fender stub bar (51), second cylinder (52) and second mounting panel (53), first fender stub bar (51) are the cylinder, and it is fixed in the piston rod upper end of second cylinder (52), second cylinder (52) are fixed in one of second mounting panel (53) and are served, slider slidable mounting is passed through on frame guide rail (2) to second mounting panel (53) other end, be provided with locking bolt (21) through the screw thread on second mounting panel (53), frame guide rail (2) are fixed in frame (17), and its length direction parallels with fossil fragments (3) traffic direction.

6. The keel longitudinal conveyor of claim 1, wherein: the automatic material conveying device is characterized in that a sensor assembly (6) is further arranged, three groups of sensor assemblies (6) are arranged on one side, away from the first material blocking mechanisms (5), of the first conveying device (12), wherein the two groups of sensor assemblies are opposite to the two first material blocking mechanisms (5) in position, and the other group of sensor assemblies are opposite to the second material blocking mechanisms (7) in position.

7. The keel longitudinal conveyor of claim 1, wherein: the second material blocking mechanism (7) comprises a second material blocking head (71) and a third air cylinder (72), wherein the second material blocking head (71) is an L-shaped block which is fixedly arranged at the upper end of the third air cylinder (72).

8. The keel longitudinal conveyor of claim 1, wherein: the material pushing mechanism (8) comprises a material pushing head (81), a fourth cylinder (82), a third mounting plate (83), a fifth cylinder (84) and a fourth mounting plate (85), the material pushing head (81) is fixedly arranged at the upper end of a fourth cylinder (82), the fourth cylinder (82) is fixed at the right end of a third mounting plate (83), the front end of the third mounting plate (83) is fixedly connected with a piston rod of a fifth cylinder (84), the fifth cylinder (84) is fixed at the right end of the fourth mounting plate (85), the left ends of the third mounting plate (83) and the fourth mounting plate (85) are slidably mounted on the rack guide rail (2) through a sliding block, a locking bolt (21) is arranged on the fourth mounting plate (85) through threads, the rack guide rail (2) is fixed on the rack (17), and the length direction of the rack guide rail is parallel to the running direction of the keel (3).

9. The keel longitudinal conveyor of claim 6, wherein: the sensor assembly (6) comprises at least one photoelectric sensor (61), and the photoelectric sensor (61) is slidably mounted in a sensor mounting groove (62).

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