CN107985665B - Full-automatic continuous steel bar split-flow packing device and packing method thereof - Google Patents

Abstract

The invention discloses a full-automatic continuous steel bar split-flow packing device and a packing method thereof, wherein the full-automatic continuous steel bar split-flow packing device consists of a steel bar shearing machine, a steel bar auxiliary split-flow plate, a steel bar split-flow device and a steel bar packing device; the full-automatic continuous steel bar split-flow packing device and the packing method thereof can realize full-automatic continuous steel bar packing without stopping, improve the working efficiency, reduce the manpower input, have high automation degree and realize full-automatic bundling of small bundles of linear wires on a wire rolling production line; the auxiliary steel bars of the auxiliary steel bar dividing plate are cut by the steel bar cutting machine and then continuously run to the steel bar dividing device; each steel bar is placed on a corresponding placing plate by the steel bar splitting device; the arranged steel bar packing device realizes the process from small packing to large packing of the steel bars; the large bag making support is arranged, so that production and transportation can be performed without stopping after one large bag is made; the diversion sloping plate avoids the jumping of the steel bars in the steel bar diversion device.

Description

Full-automatic continuous steel bar split-flow packing device and packing method thereof

Technical Field

The invention relates to the technical field of reinforcement manufacturing, in particular to a full-automatic continuous reinforcement shunt packing device and a packing method thereof.

Background

The steel bars are steel materials for reinforced concrete and prestressed reinforced concrete, and the cross section of the steel bars is round, and sometimes square with round corners; the steel bar is widely used for various building structures, in particular to large, heavy, light thin-wall and high-rise building structures, the steel bar mainly bears tensile stress in concrete, and the deformed steel bar has larger bonding capacity with the concrete due to the action of the ribs, so that the steel bar can better bear the action of external force.

The steel bar is generally processed through the following procedures: straightening the steel bars, dephosphorizing the steel bars, rough rolling the steel bars, finish rolling the steel bars, heat treating the steel bars, cutting the steel bars, and packing the steel bars; most of the existing steel bar packing machines cannot continuously work, after a packet of steel bars is packed, the machine needs to be stopped to transport the packed steel bars away, so that the working efficiency is low, and the number of required workers is relatively large.

Disclosure of Invention

The invention aims to solve the problem that the existing steel bar packing machine cannot continuously pack without stopping, and provides a full-automatic continuous steel bar shunting packing device and a packing method thereof.

The invention adopts the following technical scheme to realize the aim of the invention: a full-automatic continuous steel bar split-flow packing device consists of a steel bar shearing machine 1, a steel bar auxiliary split-flow plate 2, a steel bar split-flow device 3 and a steel bar packing device 4; the reinforcing steel bar auxiliary component flow plate 2 is connected and installed between the reinforcing steel bar shearing machine 1 and the reinforcing steel bar flow dividing device 3, and the reinforcing steel bar flow dividing device 3 is positioned at the left side of the reinforcing steel bar shearing machine 1; the steel bar packing device 4 is arranged at the lower part of the front side of the steel bar diversion device 3 in parallel.

The steel bar shearing machine 1 is provided with a steel bar inlet 1-1, a steel bar shearing cutter 1-2 and a steel bar outlet 1-3; the steel bar inlet 1-1 and the steel bar outlet 1-3 are oppositely arranged at the left side and the right side of the steel bar shearing machine 1; the bar shearing cutter 1-2 is arranged at the middle position of the bar shearing machine 1.

The steel bar auxiliary flow dividing plate 2 is provided with a limiting straight plate 2-1, an auxiliary steel bar conveying plate 2-2, a steel bar inlet end 2-3 and a steel bar outlet end 2-4; the limiting straight plate 2-1 is arranged at the rear side edge of the reinforcing steel bar auxiliary flow dividing plate 2 and is an upright straight plate; the auxiliary steel bar conveying plate 2-2 is arranged at the front side edge of the steel bar auxiliary flow dividing plate 2, the auxiliary steel bar conveying plate 2-2 is an inclined plate relative to the limit straight plate 2-1, so that the width of the steel bar inlet end 2-3 is smaller than that of the steel bar outlet end 2-4, a U-shaped groove 2-2-1 is arranged on the auxiliary steel bar conveying plate 2-2, and the opening of the U-shaped groove 2-2-1 is opposite to the limit straight plate 2-1; when in installation, the steel bar inlet end 2-3 is flush with the bottommost part of the steel bar outlet 1-3.

The steel bar shunt device 3 consists of a shunt roller 3-1, a shunt inclined plate 3-2, a shunt device rack 3-3, a shunt device speed regulating motor rack 3-4 and a shunt device speed regulating motor 3-5; the split rolling wheels 3-1 and the split sloping plates 3-2 are uniformly arranged on the split device frame 3-3, and the split sloping plates 3-2 are arranged between two adjacent split rolling wheels 3-1; the speed regulating motor frame 3-4 of the shunt device is arranged at the front parts of the left side and the right side of the shunt device frame 3-3; the speed regulating motor 3-5 of the shunt device is arranged on the frame 3-4 of the speed regulating motor of the shunt device.

The diverting roller 3-1 consists of a roller gear 3-1-1, a roller chain 3-1-2 and a diverting plate 3-1-3; the splitter plate 3-1-3 consists of a splitter plate mounting plate 3-1-3-1 and a reinforcing steel bar splitter support plate 3-1-3-2; the steel bar diversion supporting plate 3-1-3-2 is arranged in the middle of the top of the roller chain 3-1-2 and the diversion plate mounting plate 3-1-3-1, and the opening of the steel bar diversion supporting plate 3-1-3-2 is upward; two roller gears 3-1-1 on the same side; the plurality of splitter plates 3-1-3 are uniformly arranged on the inner sides of the two opposite roller chains 3-1-2 through splitter plate mounting plates 3-1-3-1; the steel bar diversion supporting plate 3-1-3-2 is provided with a steel bar second placing part 3-1-3-2-1 and a steel bar first placing part 3-1-3-2-2, and the steel bar second placing part 3-1-3-2-1 and the steel bar first placing part 3-1-3-2-2 are of V-shaped structures; the second placing part 3-1-3-2-1 of the reinforcing steel bar is arranged at the upper part of the right side of the reinforcing steel bar diversion supporting plate 3-1-3-2, and the first placing part 3-1-3-2-2 of the reinforcing steel bar is arranged at the bottom of the reinforcing steel bar diversion supporting plate 3-1-3-2.

The shunt device frame 3-3 consists of a shunt device frame main body 3-3-1, a reinforcing steel bar auxiliary shunt plate mounting plate 3-3-2, a shunt inclined plate mounting plate 3-3, a roller shaft 3-3-4 and a bearing seat 3-3-5; the two right split-flow inclined plate mounting columns 3-3-3-1 and the two left split-flow inclined plate mounting columns 3-3-3-2 are arranged on the split-flow inclined plate mounting plate 3-3-3, the two right split-flow inclined plate mounting columns 3-3-3-1 are arranged on the right sides of the two left split-flow inclined plate mounting columns 3-3-3-2, the height of the right split-flow inclined plate mounting columns 3-3-3-1 is lower than that of the left split-flow inclined plate mounting columns 3-3-3-2, the top surfaces of the two right split-flow inclined plate mounting columns 3-3-3-1 and the top surfaces of the two left split-flow inclined plate mounting columns 3-3-3-2 are inclined surfaces, and the inclination angles of the two right split-flow inclined plate mounting columns are consistent with those of the split-flow inclined plates 3-2; the reinforcing steel bar auxiliary splitter plate mounting plate 3-3-2 is arranged in the middle of the right side of the splitter frame main body 3-3-1; the shunt inclined plate mounting plate 3-3-3 is arranged at the upper part of the shunt device rack main body 3-3-1; the roller shaft 3-3-4 is arranged on the bearing seat 3-3-5; the bearing blocks 3-3-5 are installed at the upper parts of the front and rear sides of the shunt device frame body 3-3-1.

The shunt inclined plate 3-2 is arranged between two adjacent shunt rollers 3-1, the right side of the shunt inclined plate 3-2 is lower than the bottommost part of the first steel bar placing part 3-1-3-2 on the right side steel bar shunt supporting plate 3-1-3-2 of the shunt inclined plate 3-2, the left side of the shunt inclined plate 3-2 is higher than the bottommost part of the first steel bar placing part 3-1-3-2 on the left side steel bar shunt supporting plate 3-1-3-2 of the shunt inclined plate 3-2, and the center of the shunt inclined plate 3-2 is flush with the bottommost part of the first steel bar placing part 3-1-3-2-2.

The steel bar packing device 4 consists of a first packing support 4-1, a second packing support 4-2, a small packing device 4-3, a large packing device 4-4 and a large packing support 4-5; the first packing support 4-1 and the second packing support 4-2 are respectively arranged on two adjacent parallel lines side by side, and an installation line where the first packing support 4-1 is positioned at the rear part of the installation line where the second packing support 4-2 is positioned; the small bag forming device 4-3 consists of a first bag forming support 4-1, a second packing support 4-2 and a small bag forming linkage device 4-3-1, wherein the small bag forming linkage device 4-3-1 is arranged on one side of the first bag forming support 4-1 and one side of the second packing support 4-2, and the small bag forming device 4-3 is arranged on two parallel adjacent parallel lines which are arranged side by side and are respectively arranged on the first bag forming support 4-1 and the second packing support 4-2; the big bag making device 4-4 consists of a big bag making linkage device 4-4-1 and a big bag making bracket 4-5, wherein the big bag making linkage device 4-4-1 is arranged at one side of the big bag making bracket 4-5; the bale breaking bracket 4-5 is arranged at the front part of the first bale breaking bracket 4-1 and the second bale breaking bracket 4-2 and is on the same installation line with the bale breaking device 4-4.

The first packing support 4-1 and the second packing support 4-2 are composed of a support rod 4-1-1 and a small packing steel bar placing opening 4-1-2; the small packet steel bar opening 4-1-2 is arranged at the top of the supporting rod 4-1-1, and the small packet steel bar opening 4-1-2 is of a V-shaped structure and faces upwards.

The packet driving device 4-3-1 consists of a packet driving device gear 4-3-1-1, a packet driving device chain 4-3-1-2, a packet driving device speed regulating motor 4-3-1-3, a packet driving device rack 4-3-1-4, a packet driving device gear mounting seat 4-3-1-5, a packet driving device driving plate 4-3-1-6 and a packet driving device connecting rod 4-3-1-7; the speed regulating motor 4-3-1-3 of the packet driving device and the gear mounting seat 4-3-1-5 of the packet driving device are arranged at the top of the frame 4-3-1-4 of the packet driving device; the small packet driving device gear 4-3-1-1 is arranged on the small packet driving device gear mounting seat 4-3-1-5 through a gear shaft and is positioned at the left side of the small packet driving device gear mounting seat 4-3-1-5; the packet driving device chain 4-3-1-2 is respectively connected with two packet driving device gears 4-3-1-1 and the packet driving device gear 4-3-1-1 and the packet driving device speed regulating motor 4-3-1-3; the packet driving linkage plate 4-3-1-6 is arranged on the right side of the packet driving linkage gear mounting seat 4-3-1-5 through the packet driving linkage connecting rod 4-3-1-7.

Two gear shaft mounting holes 4-3-1-5-1 of the small packet linkage device are arranged at the upper part of the gear mounting seat 4-3-1-5 of the small packet linkage device; the gear shaft mounting holes 4-3-1-5-1 of the two small bag punching linkage devices are positioned on the same horizontal line.

The small bag beating linkage plate 4-3-1-6 is provided with a small bag beating linkage plate first opening 4-3-1-6-1, a small bag beating linkage plate second opening 4-3-1-6-2 and a small bag beating linkage connecting mounting block 4-3-1-6-3; the first opening 4-3-1-6-1 of the packet driving linkage plate and the second opening 4-3-1-6-2 of the packet driving linkage plate are arranged at the top of the packet driving linkage plate 4-3-1-6; the two small bag driving device connecting mounting blocks 4-3-1-6-3 are arranged at the lower part of the left side of the small bag driving device driving plate 4-3-1-6, and the two small bag driving device connecting mounting blocks 4-3-1-6-3 are positioned on the same horizontal line.

The connecting rod 4-3-1-7 of the small bag linkage device is provided with a small bag linkage device gear shaft adapting hole 4-3-1-7-1 and a small bag linkage device connecting mounting block mounting hole 4-3-1-7-2; the gear shaft adapting hole 4-3-1-7-1 of the small packet driving device is arranged at the upper part of the connecting rod 4-3-1-7 of the small packet driving device; the connecting and mounting holes 4-3-1-7-2 of the packet linkage device are arranged at the lower part of the connecting rod 4-3-1-7 of the packet linkage device.

The big-bag driving device 4-4-1 consists of a big-bag driving device gear mounting seat 4-4-1-1, a big-bag driving device driving plate 4-4-1-2, a big-bag driving device connecting rod 4-4-1-3, a big-bag driving device rack 4-4-1-4, a big-bag driving device speed regulating motor 4-4-1-5, a big-bag driving device chain 4-4-1-6 and a big-bag driving device gear 4-4-1-7; the speed regulating motor 4-4-1-5 of the big bag linkage device and the gear mounting seat 4-4-1-1 of the big bag linkage device are arranged at the top of the frame 4-4-1-4 of the big bag linkage device; the big bag driving device gear 4-4-1-7 is arranged on the big bag driving device gear mounting seat 4-4-1-1 through a gear shaft and is positioned at the left side of the big bag driving device gear mounting seat 4-4-1-1; the big-packet driving device chain 4-4-1-6 is respectively connected with two big-packet driving device gears 4-4-1-7, the big-packet driving device gears 4-4-1-7 and the big-packet driving device speed regulating motor 4-4-1-5; the big bag linkage device linkage plate 4-4-1-2 is arranged at the left side of the big bag linkage device gear mounting seat 4-4-1-1 through the big bag linkage device connecting rod 4-4-1-3.

The big bag opening linkage plate 4-4-1-2 is provided with a big bag opening linkage plate first opening 4-4-1-2-1, a big bag opening linkage plate second opening 4-4-1-2-2, a big bag opening slide rail 4-4-1-2-3 and a big bag opening linkage plate connecting rod connecting installation block 4-4-1-2-4; the first opening 4-4-1-2-1 of the big bag opening linkage plate and the second opening 4-4-1-2-2 of the big bag opening linkage plate are arranged at the top of the big bag opening linkage plate 4-4-1-2, and the first opening 4-4-1-2-1 of the big bag opening linkage plate is arranged at the right side of the second opening 4-4-1-2-2 of the big bag opening linkage plate; the opening slide rail 4-4-1-2-3 of the big bag linkage device is arranged on the right side of the first opening 4-4-1-2-1 of the big bag linkage device linkage plate and on the left side of the second opening 4-4-1-2-2 of the big bag linkage device linkage plate, the top of the opening slide rail 4-4-1-2-3 of the big bag linkage device linkage plate is a tip, and the opening slide rail extends downwards smoothly into the first opening 4-4-1-2-1 of the big bag linkage device linkage plate and the second opening 4-4-1-2-2 of the big bag linkage device linkage plate; the connecting rod connecting installation blocks 4-4-1-2-4 of the two large bag driving device connecting plates are arranged at the lower part of the left side of the large bag driving device connecting plates 4-4-1-2, and the connecting installation blocks 4-4-1-2-4 of the two large bag driving device connecting plates are positioned on the same horizontal line.

Two gear shaft mounting holes 4-4-1-1-1 of the large-package linkage device are formed in the gear mounting seat 4-4-1-1 of the large-package linkage device; the two gear shaft mounting holes 4-4-1-1-1 of the big-packet driving device are arranged at the upper part of the gear mounting seat 4-4-1-1 of the big-packet driving device, and the two gear shaft mounting holes 4-4-1-1-1 of the big-packet driving device are positioned on the same horizontal line.

The connecting rod 4-4-1-3 of the big bag driving device is provided with a gear shaft adapting hole 4-4-1-3-1 of the big bag driving device and a mounting block mounting hole 4-4-1-3-2 of a connecting plate of the big bag driving device; the gear shaft adapting hole 4-4-1-3-1 of the big-packet linkage device is arranged at the upper part of the connecting rod 4-4-1-3 of the big-packet linkage device, and the mounting hole 4-4-1-3-2 of the connecting plate connecting installation block of the big-packet linkage device is arranged at the lower part of the connecting rod 4-4-1-3 of the big-packet linkage device.

The big bag beating linkage device connecting rod 4-4-1-3 is longer than the small bag beating linkage device connecting rod 4-3-1-7.

The large bag opening bracket 4-5 is provided with a large bag opening bracket sliding rail 4-5-1, a large bag opening bracket first opening 4-5-2, a large bag opening bracket second opening 4-5-3 and a large bag opening bracket transitional arc chute 4-5-4; the first opening 4-5-2 of the big bag support and the second opening 4-5-3 of the big bag support are arranged at the top of the big bag support 4-5, and the first opening 4-5-2 of the big bag support is arranged at the left side of the second opening 4-5-3 of the big bag support; the bale breaking support sliding rail 4-5-1 is arranged at the left side of the bale breaking support first opening 4-5-2, the top of the bale breaking support sliding rail 4-5-1 is a tip, and the bale breaking support sliding rail extends downwards smoothly into the bale breaking support first opening 4-5-2; the big bag opening bracket transition arc chute 4-5-4 is arranged between the big bag opening bracket first opening 4-5-2 and the big bag opening bracket second opening 4-5-3, and the big bag opening bracket transition arc chute 4-5-4 is respectively and smoothly connected with the right side of the big bag opening bracket first opening 4-5-2 and the left side of the big bag opening bracket second opening 4-5-3.

The packing method of the full-automatic continuous steel bar shunt packing device provided by the invention comprises the following steps: the reinforcing steel bar is penetrated out from the reinforcing steel bar outlet 1-3 to extend to the reinforcing steel bar splitting device 3 through the reinforcing steel bar auxiliary splitting plate 2 after entering the reinforcing steel bar shearing machine 1 from the reinforcing steel bar inlet 1-1, when the reinforcing steel bar reaches the required length, the reinforcing steel bar shearing knife 1-2 shears the reinforcing steel bar, most of the reinforcing steel bar is positioned in the reinforcing steel bar splitting device 3, and the reinforcing steel bar is positioned on the reinforcing steel bar auxiliary splitting plate 2, at the moment, the splitting roller 3-1 is started, the reinforcing steel bar slowly and completely enters the reinforcing steel bar first placing part 3-1-3-2-2 of the splitting plate 3-1-3 on the reinforcing steel bar splitting device 3 through the interaction with the auxiliary reinforcing steel bar conveying plate 2-2, along with the continuous rolling of the diversion roller 3-1, the steel bars slowly move to the second placement part 3-1-3-2-1 of the steel bars at the edge of the diversion plate 3-1-3, along with the continuous rolling of the diversion roller 3-1, the steel bars slide onto the packet-punching steel bar placement opening 4-1-2 on the first packet-punching support 4-1, when the steel bars gathered to the packet-punching steel bar placement opening 4-1-2 reach a certain quantity, the packet-punching linkage device 4-3-1 is started, and the packet-punching linkage device speed regulating motor 4-3-1-3 sequentially passes through the packet-punching linkage device chain 4-3-1-2, the packet-punching linkage device gear 4-3-1-1, the small-pack opening linkage device connecting rod 4-3-1-7 drives the small-pack opening linkage device connecting plate 4-3-1-6 to move the reinforcing steel bars gathered to the small-pack opening 4-1-2 to the second packing support 4-2, the reinforcing steel bars originally positioned on the second packing support 4-2 are moved into the first opening 4-5-2 of the large-pack opening support 4-5 through the small-pack opening linkage device connecting plate 4-3-1-6, when the reinforcing steel bars in the first opening 4-5-2 of the large-pack opening support reach a specified number, the large-pack opening linkage device 4-4-1 is started, the speed regulating motor 4-4-1-5 of the large-pack opening linkage device sequentially passes through the large-pack opening linkage device chain 4-4-1-6, the large-pack opening linkage device gear 4-4-1-7, the large-pack opening linkage device connecting rod 4-4-1-3 drives the large-pack opening linkage device connecting plate 4-4-1-2 to move the reinforcing steel bars gathered to the first opening 4-5 of the large-pack opening support, and then the reinforcing steel bars can be conveniently and continuously transported in the second opening 4-5 of the large-pack opening support 4-5 after the reinforcing steel bars reach the specified number, and the large-pack opening 4-5 can be conveniently carried out in the large-pack opening 4-5.

By adopting the technical scheme, the full-automatic continuous steel bar split-flow packing device and the packing method thereof can realize full-automatic continuous steel bar packing without stopping, improve the working efficiency, reduce the manpower input and realize full-automatic bundling of small bundles of linear wires on a wire rolling production line; the auxiliary steel bars of the auxiliary steel bar dividing plate are cut by the steel bar cutting machine and then continuously run to the steel bar dividing device; each steel bar is placed on a corresponding placing plate by the steel bar splitting device; the arranged steel bar packing device realizes the process from small packing to large packing of the steel bars; the large bag making support is arranged, so that production and transportation can be performed without stopping after one large bag is made; the diversion sloping plate avoids the jumping of the steel bars in the steel bar diversion device.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the mark 1 of the present invention.

Fig. 3 is a schematic structural view of the mark 2 of the present invention.

Fig. 4 is a schematic structural view of the mark 3 of the present invention.

FIG. 5 is a schematic diagram of the structure of the mark 3-1 of the present invention.

FIG. 6 is a schematic diagram of the structure of the marks 3-1-3 of the present invention.

FIG. 7 is a schematic diagram of the structure of the mark 3-3 of the present invention.

Fig. 8 is a schematic view of the structure of the mark 4 of the present invention.

FIG. 9 is a schematic diagram of the structures of the marks 4-1, 4-2, 4-3 of the present invention.

FIG. 10 is a schematic diagram of the structure of the mark 4-3-1 of the present invention.

FIG. 11 is a schematic diagram of the structures of the markers 4-3-1-5, 4-3-1-6 of the present invention.

FIG. 12 is a schematic diagram of the structure of the marks 4-3-1-7 of the present invention.

FIG. 13 is a schematic diagram of the structure of the mark 4-4 of the present invention.

FIG. 14 is a schematic diagram of the structure of the marker 4-4-1 of the present invention.

FIG. 15 is a schematic diagram of the structures of the markers 4-4-1-1, 4-4-1-2 of the present invention.

FIG. 16 is a schematic diagram of the structure of the mark 4-4-1-3 of the present invention.

FIG. 17 is a schematic diagram of the structure of the marks 4-5 of the present invention.

Reference numerals: the steel bar shearing machine 1, the steel bar auxiliary splitter 2, the steel bar splitting device 3, the steel bar packing device 4, the steel bar inlet 1-1, the steel bar shearing cutter 1-2, the steel bar outlet 1-3, the limit straight plate 2-1, the auxiliary steel bar conveying plate 2-2, the U-shaped groove 2-2-1, the steel bar inlet end 2-3, the steel bar outlet end 2-4, the splitting roller 3-1, the splitting inclined plate 3-2, the splitting device frame 3-3, the splitting device speed regulating motor frame 3-4, the splitting device speed regulating motor 3-5, the roller gear 3-1-1, the roller chain 3-1-2, the splitting plate 3-1-3-1, the splitting plate mounting plate 3-1-3-1, The steel bar splitting support plate 3-1-3-2, the steel bar second placing part 3-1-3-2-1, the steel bar first placing part 3-1-3-2-2, the frame main body 3-3-1 of the device, the steel bar auxiliary splitting plate mounting plate 3-3-2, the splitting sloping plate mounting plate 3-3-4, the roller shaft 3-3-4, the bearing seat 3-3-5, the splitting sloping plate right mounting column 3-3-3-1, the splitting sloping plate left mounting column 3-3-2, the first packing bracket 4-1, the second packing bracket 4-2, the small packing device 4-3, the large packing device 4-4, the large packing bracket 4-5, the support rod 4-1-1, the small packing steel bar placing opening 4-1-2, the device comprises a packet linkage device 4-3-1, a packet linkage device gear 4-3-1-1, a packet linkage device chain 4-3-1-2, a packet linkage device speed regulating motor 4-3-1-3, a packet linkage device frame 4-3-1-4, a packet linkage device gear mounting seat 4-3-1-5, a packet linkage device linkage plate 4-3-1-6, a packet linkage device connecting rod 4-3-1-7, a packet linkage device gear shaft mounting hole 4-3-1-5-1, a packet linkage device linkage plate first opening 4-3-1-6-1, a packet linkage device linkage plate second opening 4-3-1-6-2, The packet linkage device is connected with the mounting block 4-3-1-6-3, the gear shaft adapting hole 4-3-1-7-1 of the packet linkage device, the packet linkage device is connected with the mounting block mounting hole 4-3-1-7-2, the packet linkage device 4-4-1, the packet linkage device gear mounting seat 4-4-1-1, the packet linkage device linkage plate 4-4-1-2, the packet linkage device connecting rod 4-4-1-3, the packet linkage device rack 4-4-1-4, the packet linkage device speed regulating motor 4-4-1-5, the packet linkage device chain 4-4-1-6, the packet linkage device gear 4-4-1-7, The first opening 4-4-1-2-1 of the big bag linkage device linkage plate, the second opening 4-4-1-2-2 of the big bag linkage device linkage plate, the opening slide rail 4-4-1-2-3 of the big bag linkage device linkage plate, the connecting rod of the big bag linkage device linkage plate is connected with the mounting block 4-4-1-2-4, the gear shaft mounting hole 4-4-1-1-1 of the big bag linkage device, the gear shaft adapting hole 4-4-1-3-1 of the big bag linkage device, the mounting block mounting hole 4-4-1-3-2 of the big bag linkage plate, the big bag bracket slide rail 4-5-1, the first opening 4-5-2 of the big bag bracket, opening the second opening 4-5-3 of the big bag bracket and opening the transitional arc chute 4-5-4 of the big bag bracket.

Detailed Description

The present invention will be described in detail below with reference to the drawings and examples thereof, but the scope of the present invention is not limited to the examples.

The steel bar shearing machine 1 of the invention is that: the main components of the steel bar split-flow packing device; the steel bar inlet 1-1, the steel bar shearing knife 1-2 and the steel bar outlet 1-3 are arranged on the steel bar shearing knife; the function is to facilitate cutting off the required steel bars; the structure is shown in figure 2; the design position is shown as 1 in figure 1.

The steel bar inlet 1-1 of the invention refers to: a round hole arranged on the right side of the steel bar shearing machine 1; the function is to facilitate the steel bar to enter the steel bar shearing machine 1; the design position is shown as 1-1 in figure 1.

The steel bar shearing cutter 1-2 of the invention is: the shearing knife is arranged in the middle of the steel bar shearing machine 1; the function is to facilitate cutting off the steel bars; the design position is shown as 1-2 in figure 1.

The steel bar outlet 1-3 refers to: a round hole arranged at the left side of the steel bar shearing machine 1; the function is to facilitate the steel bar to enter the steel bar auxiliary splitter plate 2; the design positions are shown as 1-3 in figure 1.

The reinforcing steel bar auxiliary flow dividing plate 2 of the invention is as follows: the main components of the steel bar split-flow packing device; and a limiting straight plate 2-1, an auxiliary steel bar conveying plate 2-2, a steel bar inlet end 2-3 and a steel bar outlet end 2-4 are arranged on the steel bar conveying plate; the function of the steel bar diversion device is that the steel bars are mutually matched with the steel bar diversion device 3 so that the steel bars all enter the steel bar diversion device 3; the structure is shown in figure 3; the design position is shown as 2 in figure 1.

The limiting straight plate 2-1 disclosed by the invention refers to: the vertical plate is arranged at the rear side of the reinforcing steel bar auxiliary flow distribution plate 2; the function of the device is to limit the position of the reinforcing steel bars on the reinforcing steel bar auxiliary splitter plate 2; the design position is shown as 2-1 in figure 3.

The auxiliary steel bar conveying plate 2-2 refers to: the U-shaped plate is arranged at the front side of the reinforcing steel bar auxiliary flow distribution plate 2; and a U-shaped groove 2-2-1 is arranged on the upper part; the function is to limit the movement of the reinforcing steel bar only along the direction of the reinforcing steel bar diversion device 3; the design position is shown as 2-2 in figure 3.

The U-shaped groove 2-2-1 refers to: a groove arranged on the auxiliary steel bar conveying plate 2-2; the function is to limit the movement of the reinforcing steel bar only along the direction of the reinforcing steel bar diversion device 3; the design position is shown as 2-2-1 in figure 3.

The inlet end 2-3 of the steel bar refers to: the right narrow end of the reinforcing steel bar auxiliary flow dividing plate 2; the function is to facilitate the steel bar to enter the steel bar auxiliary splitter plate 2; the design position is shown as 2-3 in figure 3.

The steel bar outlet ends 2-4 refer to: the left wide end of the reinforcing steel bar auxiliary flow distribution plate 2; the function is to facilitate the whole steel bar to enter the steel bar diversion device 3; the design positions are shown as 2-4 in figure 3.

The steel bar diversion device 3 of the invention is as follows: the main components of the steel bar split-flow packing device; the device consists of a shunt roller 3-1, a shunt sloping plate 3-2, a shunt device frame 3-3, a shunt device speed regulating motor frame 3-4 and a shunt device speed regulating motor 3-5; the function is to realize the diversion of the reinforcing steel bars so as to facilitate the subsequent packing; the structure is shown in figure 4; the design position is shown as 3 in figure 1.

The diversion roller 3-1 of the invention refers to: the components of the steel bar diversion device 3; it consists of a roller gear 3-1-1, a roller chain 3-1-2 and a splitter plate 3-1-3; the function is to convey the reinforcing steel bars to the reinforcing steel bar packing device 4; the structure is shown in figure 5; the design position is shown as 3-1 in figure 4.

The roller gear 3-1-1 of the invention refers to: the component parts of the shunt roller 3-1; the function is to drive the roller chain 3-1-2 to rotate by rotation; the design position is shown as 3-1-1 in figure 5.

The roller chain 3-1-2 of the invention refers to: the component parts of the shunt roller 3-1; the function is to drive the splitter plate 3-1-3 to rotate; the design position is shown as 3-1-2 in figure 5.

The splitter plate 3-1-3 refers to: the component parts of the shunt roller 3-1; the device consists of a splitter plate mounting plate 3-1-3-1 and a reinforcing steel bar splitter support plate 3-1-3-2; the function is to facilitate the placement and smooth transition of the reinforcing steel bars to the reinforcing steel bar packing device 4; the structure is shown in figure 6; the design position is shown as 3-1-3 in figure 5.

The splitter plate mounting plate 3-1-3-1 refers to: the component parts of the splitter plate 3-1-3; the function is to facilitate the installation of the splitter plates 3-1-3; the design position is shown as 3-1-3-1 in figure 6.

The steel bar diversion supporting plate 3-1-3-2 provided by the invention refers to: the component parts of the splitter plate 3-1-3; the steel bar first placing part 3-1-3-2-2 is arranged on the steel bar second placing part 3-1-3-2-1; the function is to facilitate the placement and transition of the steel bars; the design position is shown as 3-1-3-2 in figure 6.

The second placing part 3-1-3-2-1 of the reinforcing steel bar refers to: the V-shaped structure is arranged at the upper part of the right side of the steel bar diversion supporting plate 3-1-3-2; the function of the device is to facilitate the conversion placement of the reinforcing steel bars before the reinforcing steel bars enter the reinforcing steel bar packing device 4 from the reinforcing steel bar splitting device 3; the design position is shown as 3-1-3-2-1 in figure 6.

The first placing part 3-1-3-2-2 of the reinforcing steel bar refers to: the V-shaped structure is arranged at the bottom of the steel bar diversion supporting plate 3-1-3-2; the function is to facilitate the stable placement of the reinforcing steel bars after entering the reinforcing steel bar diversion device 3; the design position is shown as 3-1-3-2-2 in figure 6.

The split-flow inclined plate 3-2 of the invention refers to: the components of the steel bar diversion device 3; the function is that the steel bars can not jump in the splitter plates 3-1-3; the design position is shown as 3-2 in figure 4.

The splitter frame 3-3 of the present invention refers to: the components of the steel bar diversion device 3; the device consists of a shunt device frame main body 3-3-1, a reinforcing steel bar auxiliary shunt plate mounting plate 3-3-2, a shunt inclined plate mounting plate 3-3, a roller shaft 3-3-4 and a bearing seat 3-3-5; the function is to facilitate the installation of other components; the structure is shown in figure 7; the design position is shown as 3-3 in figure 4.

The split device rack main body 3-3-1 of the invention means: the components of the splitter housing 3-3; the device has the function of facilitating the installation of the reinforcing steel bar auxiliary splitter plate installing plate 3-3-2, the splitter plate installing plate 3-3, the roller shaft 3-3-4 and the bearing seat 3-3-5; the design position is shown as 3-3-1 in figure 7.

The reinforcing steel bar auxiliary splitter plate mounting plate 3-3-2 provided by the invention refers to: the components of the splitter housing 3-3; the function is to facilitate the installation of the reinforcing steel bar auxiliary flow dividing plate 2; the design position is shown as 3-3-2 in figure 7.

The split-flow inclined plate mounting plate 3-3-3 refers to: the components of the splitter housing 3-3; and a right installation column 3-3-3-1 of the split-flow inclined plate and a left installation column 3-3-3-2 of the split-flow inclined plate are arranged on the split-flow inclined plate; the function is to facilitate the installation of the split-flow sloping plate 3-2; the design position is shown as 3-3-3 in figure 7.

The right installation column 3-3-3-1 of the split-flow inclined plate refers to: the mounting column is arranged on the split-flow inclined plate mounting plate 3-3-3; the function is to facilitate the installation of the split-flow sloping plate 3-2; the design position is shown as 3-3-3-1 in figure 7.

The left mounting column 3-3-3-2 of the split-flow inclined plate refers to: the mounting column is arranged on the split-flow inclined plate mounting plate 3-3-3; the function is to facilitate the installation of the split-flow sloping plate 3-2; the design position is shown as 3-3-3-2 in figure 7.

The roller shaft 3-3-4 refers to: the components of the splitter housing 3-3; the function is to drive the roller gear 3-1-1 to rotate; the design position is shown as 3-3-4 in figure 7.

The bearing seat 3-3-5 of the invention refers to: the components of the splitter housing 3-3; the roller shaft 3-3-4 is convenient to install; the design position is shown as 3-3-5 in figure 7.

The speed regulation motor frame 3-4 of the shunt device of the invention is: the components of the steel bar diversion device 3; the function is to facilitate the installation of the speed regulating motor 3-5 of the shunt device; the design position is shown as 3-4 in figure 4.

The speed regulating motor 3-5 of the shunt device of the invention is as follows: the components of the steel bar diversion device 3; the function is to drive the roller shaft 3-3-4 to rotate; the design position is shown as 3-5 in figure 4.

The steel bar packing device 4 of the invention is as follows: the main components of the steel bar split-flow packing device; the device consists of a first packing support 4-1, a second packing support 4-2, a small packing device 4-3, a large packing device 4-4 and a large packing support 4-5; the continuous packing of the steel bars is realized; the structure is shown in figure 8; the design position is shown as 4 in figure 1.

The first packing support 4-1 of the present invention means: the components of the steel bar packing device 4; it consists of a supporting rod 4-1-1 and a small packet steel bar placing opening 4-1-2; the function is to facilitate the stable placement of the reinforcing steel bars when the reinforcing steel bars are gathered into small bags for the first time; the structure is shown in figure 9; the design position is shown as 4-1 in figure 8.

The support rod 4-1-1 of the invention refers to: the components of the first packing support 4-1; the function of the bag is as a supporting part of the first bag-packing bracket 4-1; the design position is shown as 4-1-1 in figure 9.

The opening 4-1-2 for placing the small packet of steel bars is as follows: the components of the first packing support 4-1; the function is to facilitate the placement of the reinforcing steel bars; the design position is shown as 4-1-2 in figure 9.

The second packing support 4-2 of the present invention means: the components of the steel bar packing device 4; it consists of a supporting rod 4-1-1 and a small packet steel bar placing opening 4-1-2; the relay station is used as a relay station before large package; the structure is shown in figure 9; the design position is shown as 4-2 in figure 8.

The small packing device 4-3 of the invention refers to: the components of the steel bar packing device 4; the packing machine consists of a first packing support 4-1, a second packing support 4-2 and a small packing linkage device 4-3-1; the function is that the first packing of the reinforcing steel bars is convenient; the structure is shown in figure 9; the design position is shown as 4-3 in figure 8.

The packet linkage device 4-3-1 of the invention means that: the components of the small bag packing device 4-3; the device consists of a packet driving gear 4-3-1-1, a packet driving device chain 4-3-1-2, a packet driving device speed regulating motor 4-3-1-3, a packet driving device rack 4-3-1-4, a packet driving device gear mounting seat 4-3-1-5, a packet driving device driving plate 4-3-1-6 and a packet driving device connecting rod 4-3-1-7; the function of the packing machine is that the reinforcing steel bars gathered to the first packing support 4-1 and the second packing support 4-2 are conveniently moved, and the reinforcing steel bars gathered to the second packing support 4-2 are conveniently moved to the first opening 4-5-2 of the large packing support; the structure is shown in figure 10; the design position is shown as 4-3-1 in figure 9.

The gear 4-3-1-1 of the packet driving linkage device disclosed by the invention refers to: forming the component parts of the packet linkage device 4-3-1; the function is to drive the linkage plate 4-3-1-6 of the small bag linkage device; the design position is shown as 4-3-1-1 in figure 10.

The chain 4-3-1-2 of the packet linkage device of the invention refers to: forming the component parts of the packet linkage device 4-3-1; the function of the device is to drive the gear 4-3-1-1 of the small bag driving linkage device conveniently; the design position is shown as 4-3-1-2 in figure 10.

The invention relates to a speed regulating motor 4-3-1-3 of a packet linkage device, which is characterized in that: forming the component parts of the packet linkage device 4-3-1; the function is that the driving plate 4-3-1-6 of the packet driving device is driven by the chain 4-3-1-2 of the packet driving device and the gear 4-3-1-1 of the packet driving device; the design position is shown as 4-3-1-3 in figure 10.

The frame 4-3-1-4 of the packet linkage device of the invention refers to: forming the component parts of the packet linkage device 4-3-1; the function of the device is to facilitate the installation of the speed regulating motor 4-3-1-3 of the packet driving device and the gear installation seat 4-3-1-5 of the packet driving device; the design position is shown as 4-3-1-4 in figure 10.

The gear mounting seat 4-3-1-5 of the packet linkage device disclosed by the invention refers to: forming the component parts of the packet linkage device 4-3-1; the small bag driving device is provided with a gear shaft mounting hole 4-3-1-5-1; the function of the device is to facilitate the installation of the gear 4-3-1-1 of the packet driving device; the structure is shown in figure 11; the design position is shown as 4-3-1-5 in figure 10.

The invention relates to a pinion shaft mounting hole 4-3-1-5-1 of a packing linkage device, which is as follows: the mounting holes are arranged on the gear mounting seats 4-3-1-5 of the small packet driving device; the function of the device is to facilitate the installation of the gear shaft of the small bag driving device gear 4-3-1-1; the design position is shown as the reference number 4-3-1-5-1 in figure 11.

The linkage plate 4-3-1-6 of the small bag linkage device disclosed by the invention means that: forming the component parts of the packet linkage device 4-3-1; the first opening 4-3-1-6-1 of the packet linkage plate and the second opening 4-3-1-6-2 of the packet linkage plate are arranged on the packet linkage plate, and the packet linkage device is connected with the mounting block 4-3-1-6-3; the function of the packing machine is that the reinforcing steel bars gathered to the first packing support 4-1 and the second packing support 4-2 are conveniently moved, and the reinforcing steel bars gathered to the second packing support 4-2 are conveniently moved to the first opening 4-5-2 of the large packing support; the structure is shown in figure 11; the design positions are shown as 4-3-1-6 in figure 10.

The first opening 4-3-1-6-1 of the linkage plate of the bag linkage device of the invention means that: an opening arranged at the top of the linkage plate 4-3-1-6 of the small bag beating linkage device; the function of the packing machine is to facilitate the movement of the reinforcing steel bars on the first packing support 4-1 to the second packing support 4-2; the design position is shown as the reference number 4-3-1-6-1 in figure 11.

The second opening 4-3-1-6-2 of the linkage plate of the linkage device for the small bag is as follows: an opening arranged at the top of the linkage plate 4-3-1-6 of the small bag beating linkage device; the function of the device is to facilitate the steel bars on the second packing support 4-2 to move to the first opening 4-5-2 of the big packing support; the design position is shown as the reference number 4-3-1-6-2 in figure 11.

The connecting and mounting block 4-3-1-6-3 of the packet linkage device of the invention means that: the mounting block is arranged on the left side of the linkage plate 4-3-1-6 of the small bag beating linkage device; the connecting rod is convenient to connect with the connecting rod 4-3-1-7 of the packet driving linkage device; the design positions are shown as 4-3-1-6-3 in figure 11.

The connecting rod 4-3-1-7 of the packet linkage device disclosed by the invention refers to: forming the component parts of the packet linkage device 4-3-1; the small bag driving device is provided with a gear shaft adapting hole 4-3-1-7-1 and a small bag driving linkage connecting installation block installing hole 4-3-1-7-2; the function of the device is to facilitate the connection of the linkage plate 4-3-1-6 of the small bag linkage device and the gear shaft 4-3-1-1 of the small bag linkage device; the structure is shown in figure 12; the design position is shown as 4-3-1-7 in figure 10.

The gear shaft adapting hole 4-3-1-7-1 of the small bag driving device disclosed by the invention means that: the adapting hole is arranged at the upper part of the connecting rod 4-3-1-7 of the packet driving device; the function of the device is to facilitate the connection of a gear shaft of a small bag driving device gear 4-3-1-1; the design position is shown as the reference number 4-3-1-7-1 in figure 12.

The connecting mounting holes 4-3-1-7-2 of the packet linkage device and the mounting block means that: the mounting hole is arranged at the lower part of the connecting rod 4-3-1-7 of the small bag punching linkage device; the function is to facilitate the connection of the gear shaft of the linkage plate 4-3-1-6 of the small bag linkage device; the design position is shown as the reference number 4-3-1-7-2 in figure 12.

The large-package opening device 4-4 refers to: the components of the steel bar packing device 4; it is composed of a big bag driving device 4-4-1 and a big bag driving bracket 4-5; the steel bar packing machine has the function of facilitating subsequent packing of the small packed steel bars; the structure is shown in figure 13; the design position is shown as 4-4 in figure 8.

The large-package beating linkage device 4-4-1 disclosed by the invention refers to: the components of the large packing device 4-4; the device consists of a big-packet linkage gear mounting seat 4-4-1-1, a big-packet linkage plate 4-4-1-2, a big-packet linkage connecting rod 4-4-1-3, a big-packet linkage frame 4-4-1-4, a big-packet linkage speed regulating motor 4-4-1-5, a big-packet linkage chain 4-4-1-6 and a big-packet linkage gear 4-4-1-7; the function is to move the steel bars in the first opening 4-5-2 of the big bag support to the second opening 4-5-3 of the big bag support; the structure is shown in figure 14; the design position is shown as 4-4-1 in figure 13.

The gear mounting seat 4-4-1-1 of the large bag driving device disclosed by the invention refers to: the components of the bale linkage device 4-4-1 are knocked up; and a gear shaft mounting hole 4-4-1-1-1 of the large bag driving device is arranged on the large bag driving device; the gear 4-4-1-7 of the bale breaking linkage device is convenient to mount; the structure is shown in figure 15; the design position is shown as 4-4-1-1 in figure 14.

The gear shaft mounting hole 4-4-1-1-1 of the large packing linkage device of the invention means that: the mounting holes are arranged on the gear mounting seat 4-4-1-1 of the bale breaking linkage device; the gear shaft of the large bag driving device gear 4-4-1-7 is convenient to install; the design position is shown as 4-4-1-1-1 in figure 15.

The linkage plate 4-4-1-2 of the large bag linkage device disclosed by the invention means that: the components of the bale linkage device 4-4-1 are knocked up; the first opening 4-4-1-2-1 of the big bag driving device driving plate, the second opening 4-4-1-2-2 of the big bag driving device driving plate, the sliding rail 4-4-1-2-3 of the big bag driving device driving plate opening and the connecting rod of the big bag driving device driving plate are connected with the mounting block 4-4-1-2-4; the function is to move the steel bars in the first opening 4-5-2 of the big bag support to the second opening 4-5-3 of the big bag support; the structure is shown in figure 15; the design position is shown as 4-4-1-2 in figure 14.

The first opening 4-4-1-2-1 of the linkage plate of the large bag linkage device disclosed by the invention means that: an opening arranged on the linkage plate 4-4-1-2 of the big bag linkage device; the steel bar packing machine has the function of being convenient for packing steel bars; the design position is shown as 4-4-1-2-1 in figure 15.

The second opening 4-4-1-2-2 of the linkage plate of the large bag linkage device disclosed by the invention means that: an opening arranged on the linkage plate 4-4-1-2 of the big bag linkage device; the temporary placement of the steel bars after packing is finished is convenient for subsequent transportation; the design position is shown as 4-4-1-2-2 in figure 15.

The opening slide rail 4-4-1-2-3 of the linkage plate of the large bag linkage device disclosed by the invention means that: a chute arranged on the linkage plate 4-4-1-2 of the big bag linkage device; the function of the device is to facilitate the steel bar to slide into the first opening 4-4-1-2-1 of the linkage plate of the big bag linkage device; the design position is shown as 4-4-1-2-3 in figure 15.

The connecting rod connecting installation block 4-4-1-2-4 of the linkage plate of the large bag beating linkage device means that: the mounting block is arranged on the linkage plate 4-4-1-2 of the large bag beating linkage device; the connecting rod is convenient to connect and install with the connecting rod 4-4-1-3 of the bale breaking linkage device; the design position is shown as 4-4-1-2-4 in figure 15.

The connecting rod 4-4-1-3 of the bale breaking linkage device disclosed by the invention refers to: the components of the bale linkage device 4-4-1 are knocked up; the gear shaft adapting hole 4-4-1-3-1 of the big-bag driving device is arranged on the gear shaft adapting hole, and the driving plate of the big-bag driving device is connected with the mounting block mounting hole 4-4-1-3-2; the function of the device is to facilitate the connection of the big bag driving device linkage plate 4-4-1-2 and the big bag driving device gear 4-4-1-7 gear shaft; the structure is shown in figure 16; the design position is shown as 4-4-1-3 in figure 14.

The gear shaft adapting hole 4-4-1-3-1 of the large packing linkage device of the invention means that: the adapter holes are arranged on the connecting rods 4-4-1-3 of the bale breaking linkage device; the gear 4-4-1-7 is convenient to install with the bale breaking linkage device; the design position is shown as 4-4-1-3-1 in figure 16.

The connecting plate of the large bag connecting device connecting mounting block mounting holes 4-4-1-3-2 means that: the mounting hole is arranged on the connecting rod 4-4-1-3 of the bale breaking linkage device; the function is to facilitate the installation of the linkage plate 4-4-1-2 of the big bag linkage device; the design position is shown as 4-4-1-3-2 in figure 16.

The frame 4-4-1-4 of the large bag driving device of the invention refers to: the components of the bale linkage device 4-4-1 are knocked up; the function of the device is to facilitate the installation of the speed regulating motor 4-4-1-5 of the big bag driving linkage device and the gear installation seat 4-4-1-1 of the big bag driving linkage device; the design position is shown as 4-4-1-4 in fig. 14.

The invention relates to a speed regulating motor 4-4-1-5 of a bale breaking linkage device, which is as follows: the components of the bale linkage device 4-4-1 are knocked up; the function is to drive the gear 4-4-1-7 of the bale breaking linkage device; the design position is shown as 4-4-1-5 in figure 14.

The chain 4-4-1-6 of the large bag driving linkage device disclosed by the invention refers to: the components of the bale linkage device 4-4-1 are knocked up; the function is to drive the big bag driving device to drive the driving plate 4-4-1-2; the design position is shown as 4-4-1-6 in figure 14.

The gear 4-4-1-7 of the bale breaking linkage device disclosed by the invention is as follows: the components of the bale linkage device 4-4-1 are knocked up; the function is to drive the chain 4-4-1-6 of the big bag driving linkage device; the design position is shown as 4-4-1-7 in figure 14.

The large bag support 4-5 provided by the invention is as follows: the components of the steel bar packing device 4; the large bag opening bracket is provided with a large bag opening bracket sliding rail 4-5-1, a large bag opening bracket first opening 4-5-2, a large bag opening bracket second opening 4-5-3 and a large bag opening bracket transitional arc chute 4-5-4; the temporary storage device has the advantages that the placement of the large-package steel bars and temporary storage of the steel bars after the package is completed are facilitated; the structure is shown in figure 17; the design position is shown as 4-5 in figures 8 and 13.

The large package support sliding rail 4-5-1 provided by the invention means that: the sliding rail is arranged at the left side of the bale breaking bracket 4-5; the function of the large bag support is that the steel bars are conveniently drawn into the first opening 4-5-2 of the large bag support; the design position is shown as 4-5-1 in figure 17.

The first opening 4-5-2 of the bale breaking bracket disclosed by the invention means that: an opening arranged at the left side of the bale breaking bracket 4-5; the steel bar packing machine has the function of being convenient for packing steel bars; the design position is shown as 4-5-2 in figure 17.

The second opening 4-5-3 of the bale breaking bracket disclosed by the invention means that: an opening arranged on the right side of the bale breaking bracket 4-5; the temporary storage device has the function of temporarily storing the packed reinforcing steel bars; the design position is shown as 4-5-3 in figure 17.

The transition circular arc chute 4-5-4 of the large ladle bracket disclosed by the invention means that: the arc connection part is arranged between the first opening 4-5-2 of the bale opening bracket and the second opening 4-5-3 of the bale opening bracket; the transition from the first opening 4-5-2 of the big bag bracket to the second opening 4-5-3 of the big bag bracket is convenient; the design position is shown as 4-5-4 in figure 17.

The foregoing description of the preferred embodiments of the present invention should not be taken as limiting the invention in any way, but rather should be understood to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

While the principles of the invention have been described in detail in connection with the preferred embodiments thereof, it should be understood by those skilled in the art that the foregoing embodiments are merely illustrative of the implementations of the invention and are not intended to limit the scope of the invention. The details of the embodiments are not to be taken as limiting the scope of the invention, and any obvious modifications based on equivalent changes, simple substitutions, etc. of the technical solution of the invention fall within the scope of the invention without departing from the spirit and scope of the invention.

Claims (9)

1. A full-automatic continuous steel bar split-flow packing device is characterized by comprising a steel bar shearing machine (1), a steel bar auxiliary split-flow plate (2), a steel bar split-flow device (3) and a steel bar packing device (4); the reinforcing steel bar auxiliary flow dividing plate (2) is connected and arranged between the reinforcing steel bar shearing machine (1) and the reinforcing steel bar flow dividing device (3), and the reinforcing steel bar flow dividing device (3) is positioned at the left side of the reinforcing steel bar shearing machine (1); the steel bar packing device (4) is arranged at the lower part of the front side of the steel bar diversion device (3) in parallel; the steel bar shearing machine (1) is provided with a steel bar inlet (1-1), a steel bar shearing knife (1-2) and a steel bar outlet (1-3); the steel bar inlet (1-1) and the steel bar outlet (1-3) are oppositely arranged at the left side and the right side of the steel bar shearing machine (1); The steel bar shearing cutter (1-2) is arranged at the middle position of the steel bar shearing machine (1); the steel bar auxiliary flow dividing plate (2) is provided with a limiting straight plate (2-1), an auxiliary steel bar conveying plate (2-2), a steel bar inlet end (2-3) and a steel bar outlet end (2-4); the limiting straight plate (2-1) is arranged at the rear side edge of the reinforcing steel bar auxiliary flow dividing plate (2) and is a vertical straight plate; the auxiliary steel bar conveying plate (2-2) is arranged at the front side edge of the steel bar auxiliary flow dividing plate (2), the auxiliary steel bar conveying plate (2-2) is an inclined plate relative to the limiting straight plate (2-1) so that the width of the steel bar inlet end (2-3) is smaller than that of the steel bar outlet end (2-4), a U-shaped groove (2-2-1) is arranged on the auxiliary steel bar conveying plate (2-2), and the opening of the U-shaped groove (2-2-1) is opposite to the limiting straight plate (2-1); When in installation, the steel bar inlet end (2-3) is flush with the bottommost part of the steel bar outlet (1-3); the steel bar splitting device (3) consists of a splitting roller (3-1), a splitting inclined plate (3-2), a splitting device rack (3-3), a splitting device speed regulating motor rack (3-4) and a splitting device speed regulating motor (3-5); the split rolling wheels (3-1) and the split sloping plates (3-2) are uniformly arranged on the split device frame (3-3), and the split sloping plates (3-2) are arranged between two adjacent split rolling wheels (3-1); the speed regulating motor frame (3-4) of the shunt device is arranged at the front parts of the left side and the right side of the shunt device frame (3-3); The speed regulating motor (3-5) of the shunt device is arranged on the frame (3-4) of the speed regulating motor of the shunt device; the steel bar packing device (4) consists of a first packing support (4-1), a second packing support (4-2), a small packing device (4-3), a big packing device (4-4) and a big packing support (4-5); the first packing support (4-1) and the second packing support (4-2) are respectively arranged on two adjacent parallel lines side by side, and an installation line where the first packing support (4-1) is positioned at the rear part of the installation line where the second packing support (4-2) is positioned; the small bag forming device (4-3) consists of a first bag forming support (4-1), a second bag forming support (4-2) and a small bag forming linkage device (4-3-1), wherein the small bag forming linkage device (4-3-1) is arranged on one side of the first bag forming support (4-1) and one side of the second bag forming support (4-2), and the small bag forming device (4-3) is arranged on two parallel adjacent parallel lines of the first bag forming support (4-1) and the second bag forming support (4-2) which are arranged side by side; The large bag making device (4-4) consists of a large bag making linkage device (4-4-1) and a large bag making bracket (4-5), and the large bag making linkage device (4-4-1) is arranged at one side of the large bag making bracket (4-5); the large packing support (4-5) is arranged at the front part of the first packing support (4-1) and the second packing support (4-2) and is on the same installation line with the large packing device (4-4);

The split roller (3-1) consists of a roller gear (3-1-1), a roller chain (3-1-2) and a split plate (3-1-3); the shunt device frame (3-3) is composed of a shunt device frame main body (3-3-1), a reinforcing steel bar auxiliary shunt plate mounting plate (3-3-2), a shunt inclined plate mounting plate (3-3), a roller shaft (3-3-4) and a bearing seat (3-3-5).

2. The full-automatic continuous steel bar diversion packaging device according to claim 1, wherein the diversion plate (3-1-3) consists of a diversion plate mounting plate (3-1-3-1) and a steel bar diversion supporting plate (3-1-3-2); the steel bar diversion support plate (3-1-3-2) is arranged in the middle of the top of the diversion plate mounting plate (3-1-3-1) and is arranged in the roller chain (3-1-2), and the opening of the steel bar diversion support plate (3-1-3-2) is upward; two roller gears (3-1-1) on the same side; the plurality of splitter plates (3-1-3) are uniformly arranged on the inner sides of the two opposite roller chains (3-1-2) through splitter plate mounting plates (3-1-3-1); the steel bar split-flow supporting plate (3-1-3-2) is provided with a steel bar second placing part (3-1-3-2-1) and a steel bar first placing part (3-1-3-2-2), and the steel bar second placing part (3-1-3-2-1) and the steel bar first placing part (3-1-3-2-2) are of V-shaped structures; the second placing part (3-1-3-2-1) of the reinforcing steel bar is arranged at the upper part of the right side of the reinforcing steel bar diversion supporting plate (3-1-3-2), and the first placing part (3-1-3-2-2) of the reinforcing steel bar is arranged at the bottom of the reinforcing steel bar diversion supporting plate (3-1-3-2).

3. The full-automatic continuous steel bar split packing device according to claim 1, wherein two split right mounting columns (3-3-3-1) and two split left mounting columns (3-3-3-2) are arranged on a split mounting plate (3-3-3), the two split right mounting columns (3-3-3-1) are mounted on the right sides of the two split left mounting columns (3-3-2), the height of the split right mounting columns (3-3-3-1) is lower than that of the split left mounting columns (3-3-3-2), the top surfaces of the two split right mounting columns (3-3-3-1) and the two split left mounting columns (3-3-3-2) are inclined surfaces, and the inclination angles of the two split right mounting columns are consistent with those of the split left mounting columns (3-2); the reinforcing steel bar auxiliary splitter plate mounting plate (3-3-2) is arranged in the middle of the right side of the splitter frame main body (3-3-1); the split-flow inclined plate mounting plate (3-3-3) is arranged at the upper part of the split-flow device rack main body (3-3-1); the roller shaft (3-3-4) is arranged on the bearing seat (3-3-5); the bearing blocks (3-3-5) are arranged at the upper parts of the front side and the rear side of the frame main body (3-3-1) of the shunt device.

4. The full-automatic continuous reinforcement shunt packing device according to claim 1 or 2, wherein the shunt inclined plate (3-2) is installed between two adjacent shunt rollers (3-1), the right side of the shunt inclined plate (3-2) is lower than the bottommost part of a reinforcement first placing part (3-1-3-2) on a reinforcement shunt supporting plate (3-1-3-2) on the right side of the shunt inclined plate (3-2), the left side of the shunt inclined plate (3-2) is higher than the bottommost part of a reinforcement first placing part (3-1-3-2-2) on a reinforcement shunt supporting plate (3-1-3-2) on the left side of the shunt inclined plate (3-2), and the center of the shunt inclined plate (3-2) is flush with the bottommost part of the reinforcement first placing part (3-1-3-2-2).

5. The full-automatic continuous steel bar split-flow packing device according to claim 1, wherein the first packing support (4-1) and the second packing support (4-2) are composed of a support rod (4-1-1) and a small packing steel bar placing opening (4-1-2); the small packet steel bar placing opening (4-1-2) is arranged at the top of the supporting rod (4-1-1), the small packet steel bar placing opening (4-1-2) is of a V-shaped structure, and the opening faces upwards.

6. The full-automatic continuous steel bar shunting and packing device according to claim 1 is characterized in that the packet linkage device (4-3-1) consists of a packet linkage device gear (4-3-1-1), a packet linkage device chain (4-3-1-2), a packet linkage device speed regulating motor (4-3-1-3), a packet linkage device rack (4-3-1-4), a packet linkage device gear mounting seat (4-3-1-5), a packet linkage device linkage plate (4-3-1-6) and a packet linkage device connecting rod (4-3-1-7); the speed regulating motor (4-3-1-3) of the packet driving device and the gear mounting seat (4-3-1-5) of the packet driving device are arranged at the top of the frame (4-3-1-4) of the packet driving device; The small bag driving device gear (4-3-1-1) is arranged on the small bag driving device gear mounting seat (4-3-1-5) through a gear shaft and is positioned at the left side of the small bag driving device gear mounting seat (4-3-1-5); the packet linkage device chain (4-3-1-2) is respectively connected with two packet linkage device gears (4-3-1-1), the packet linkage device gears (4-3-1-1) and the packet linkage device speed regulating motor (4-3-1-3); the small bag driving device driving plate (4-3-1-6) is arranged on the right side of the small bag driving device gear mounting seat (4-3-1-5) through the small bag driving device connecting rod (4-3-1-7); Two pinion shaft mounting holes (4-3-1-5-1) of the small packet driving device are arranged at the upper part of the pinion mounting seat (4-3-1-5) of the small packet driving device; the gear shaft mounting holes (4-3-1-5-1) of the two small packet driving linkage devices are positioned on the same horizontal line; the small bag forming linkage device linkage plate (4-3-1-6) is provided with a first opening (4-3-1-6-1) of the small bag forming linkage plate, a second opening (4-3-1-6-2) of the small bag forming linkage plate and a small bag forming linkage connecting and mounting block (4-3-1-6-3); the first opening (4-3-1-6-1) of the packet linkage plate and the second opening (4-3-1-6-2) of the packet linkage plate are arranged at the top of the packet linkage plate (4-3-1-6); The two small bag linkage device connecting and mounting blocks (4-3-1-6-3) are arranged at the lower part of the left side of the small bag linkage device linkage plate (4-3-1-6), and the two small bag linkage device connecting and mounting blocks (4-3-1-6-3) are positioned on the same horizontal line; the connecting rod (4-3-1-7) of the small bag punching linkage device is provided with a small bag punching linkage device gear shaft adapting hole (4-3-1-7-1) and a small bag punching linkage device connecting mounting block mounting hole (4-3-1-7-2); the gear shaft adapting hole (4-3-1-7-1) of the small bag driving linkage device is arranged at the upper part of the connecting rod (4-3-1-7) of the small bag driving linkage device; The connecting mounting hole (4-3-1-7-2) of the small bag punching linkage device is arranged at the lower part of the connecting rod (4-3-1-7) of the small bag punching linkage device.

7. The full-automatic continuous steel bar shunting and packing device according to claim 1 is characterized in that the big-pack linkage device (4-4-1) consists of a big-pack linkage device gear mounting seat (4-4-1-1), a big-pack linkage device linkage plate (4-4-1-2), a big-pack linkage device connecting rod (4-4-1-3), a big-pack linkage device rack (4-4-1-4), a big-pack linkage device speed regulating motor (4-4-1-5), a big-pack linkage device chain (4-4-1-6) and a big-pack linkage device gear (4-4-1-7); the speed regulating motor (4-4-1-5) of the big bag linkage device and the gear mounting seat (4-4-1-1) of the big bag linkage device are arranged at the top of the frame (4-4-1-4) of the big bag linkage device; The big bag driving linkage gear (4-4-1-7) is arranged on the big bag driving linkage gear mounting seat (4-4-1-1) through a gear shaft and is positioned at the left side of the big bag driving linkage gear mounting seat (4-4-1-1); the big bag driving linkage device chain (4-4-1-6) is respectively connected with two big bag driving linkage device gears (4-4-1-7), the big bag driving linkage device gears (4-4-1-7) and the big bag driving linkage device speed regulating motor (4-4-1-5); the big bag linkage device linkage plate (4-4-1-2) is arranged at the left side of the big bag linkage device gear mounting seat (4-4-1-1) through the big bag linkage device connecting rod (4-4-1-3); the big bag opening sliding rail (4-4-1-2-3) of the big bag opening is arranged on the big bag opening sliding plate (4-4-1-2-2), the big bag opening sliding plate is provided with a big bag opening sliding plate (4-4-1-2-2), and the big bag opening sliding plate is connected with the mounting block (4-4-1-2-4) through a connecting rod; the first opening (4-4-1-2-1) of the big bag driving device driving plate and the second opening (4-4-1-2-2) of the big bag driving device driving plate are arranged at the top of the big bag driving device driving plate (4-4-1-2), and the first opening (4-4-1-2-1) of the big bag driving device driving plate is arranged on the right side of the second opening (4-4-1-2-2) of the big bag driving device driving plate; The opening slide rail (4-4-1-2-3) of the big bag linkage device is arranged on the right side of the first opening (4-4-1-2-1) of the big bag linkage device linkage plate and the left side of the second opening (4-4-1-2-2) of the big bag linkage device linkage plate, the top of the opening slide rail (4-4-1-2-3) of the big bag linkage device linkage plate is a tip, and the tip extends downwards smoothly into the first opening (4-4-1-2-1) of the big bag linkage device linkage plate and the second opening (4-4-1-2-2) of the big bag linkage device linkage plate; the connecting rod connecting and mounting blocks (4-4-1-2-4) of the two large-package driving device driving plates are arranged at the lower part of the left side of the large-package driving device driving plate (4-4-1-2), and the connecting and mounting blocks (4-4-1-2-4) of the two large-package driving device driving plates are positioned on the same horizontal line; Two gear shaft mounting holes (4-4-1-1-1) of the large-package linkage device are formed in the gear mounting seat (4-4-1-1) of the large-package linkage device; the two gear shaft mounting holes (4-4-1-1-1) of the big-packet linkage device are arranged at the upper part of the gear mounting seat (4-4-1-1) of the big-packet linkage device, and the two gear shaft mounting holes (4-4-1-1-1) of the big-packet linkage device are positioned on the same horizontal line; the connecting rod (4-4-1-3) of the big bag driving device is provided with a gear shaft adapting hole (4-4-1-3-1) of the big bag driving device and a mounting block mounting hole (4-4-1-3-2) for connecting the driving plate of the big bag driving device; The gear shaft adapting hole (4-4-1-3-1) of the big-packet linkage device is arranged at the upper part of the connecting rod (4-4-1-3) of the big-packet linkage device, and the mounting hole (4-4-1-3-2) of the connecting plate connecting installation block of the big-packet linkage device is arranged at the lower part of the connecting rod (4-4-1-3) of the big-packet linkage device.

8. A fully automatic continuous steel bar split packing device according to claim 6 or 7, wherein the big packing linkage connecting rod (4-4-1-3) is longer than the small packing linkage connecting rod (4-3-1-7).

9. The full-automatic continuous steel bar shunting and packing device according to claim 1 is characterized in that a large packing support (4-5) is provided with a large packing support sliding rail (4-5-1), a large packing support first opening (4-5-2), a large packing support second opening (4-5-3) and a large packing support transition arc chute (4-5-4); the first opening (4-5-2) of the big bag support and the second opening (4-5-3) of the big bag support are arranged at the top of the big bag support (4-5), and the first opening (4-5-2) of the big bag support is arranged at the left side of the second opening (4-5-3) of the big bag support; the bale breaking support sliding rail (4-5-1) is arranged at the left side of the bale breaking support first opening (4-5-2), the top of the bale breaking support sliding rail (4-5-1) is a tip, and the bale breaking support sliding rail extends downwards smoothly into the bale breaking support first opening (4-5-2); the large bag support transition arc chute (4-5-4) is arranged between the first opening (4-5-2) of the large bag support and the second opening (4-5-3) of the large bag support, and the large bag support transition arc chute (4-5-4) is respectively and smoothly connected with the right side of the first opening (4-5-2) of the large bag support and the left side of the second opening (4-5-3) of the large bag support.