CN220844432U - Quick unloader of steel mesh suitable for different sizes - Google Patents

Abstract

The utility model relates to a steel mesh quick blanking device suitable for different sizes, which comprises a material taking mechanism, a blanking mechanism, a material receiving roller set and a frame, wherein the material taking mechanism is arranged on the frame; the material taking mechanism comprises a movable frame, a material taking piece, a material taking movable actuating mechanism, two position sensors and a touch roller; the blanking mechanism comprises two material supporting plates, a blanking cylinder and a connecting column; the frame includes extracting frame and unloading frame. The utility model has the advantages that: according to the special structure of the steel mesh, the steel mesh is hooked by the material taking hooks, so that the operation is simple and efficient, and the steel mesh material taking device is suitable for taking materials of the steel mesh on a production line; the position sensor and the touch roller are arranged, so that the automation of material taking, material removing and material moving of the material taking hooks is realized, and the production efficiency of the production line is improved; the material taking mechanism and the material discharging mechanism are in linkage fit, so that batch material discharging of the steel mesh on the production line is realized; according to the steel mesh unloading demand of equidimension, can adjust and get material and two interval that hold in palm the flitch, improve the suitability of device.

Description

Quick unloader of steel mesh suitable for different sizes

Technical Field

The utility model relates to the technical field of steel mesh production, in particular to a steel mesh quick blanking device applicable to different sizes.

Background

After the steel mesh is produced and processed, the steel mesh is required to be fed one by one. Because the discharge gate of steel mesh processing equipment often sets up higher, the weight and the volume of steel mesh are great, and the speed of unloading one by one through the loop wheel machine is slower.

Therefore, the problem of low production line blanking speed and efficiency exists for related equipment for blanking steel meshes one by one from processing equipment.

Disclosure of utility model

The utility model aims to provide a steel mesh quick blanking device suitable for different sizes, which can realize one-by-one and quick blanking according to the steel meshes with different sizes.

In order to achieve the aim of the utility model, the utility model provides a steel mesh quick blanking device suitable for different sizes, which comprises a material taking mechanism, a blanking mechanism, a material receiving roller set and a frame; the discharging mechanism is positioned between the material taking mechanism and the material receiving roller set;

The material taking mechanism comprises a movable frame, a material taking piece, a material taking movable executing mechanism, two position sensors and a touch roller;

The material taking part is connected to the bottom of the movable frame through the material taking movable actuating mechanism and comprises two side plates, a transmission rod, a material taking hook, a connecting rod and a material taking cylinder; the connecting rod is connected between the two side plates, the middle part of the transmission rod is rotationally connected to the connecting rod, one end of the transmission rod is hinged with a piston rod of the material taking cylinder, and the other end of the transmission rod is connected with the material taking hook; the top of the side plate is provided with a fixed plate, and the material taking piece is connected with the material taking movable executing mechanism through the fixed plate;

The two position sensors are fixed on the movable frame, and the side plates are provided with position sensing rods;

The touch roller is connected to the movable frame, the side plate extends out of the movable frame to form a touch rod, and the touch roller and the touch rod are positioned at the same height;

The blanking mechanism comprises two material supporting plates, a blanking cylinder and a connecting column, wherein the two material supporting plates are respectively positioned at two sides of the position above the material receiving roller group, the material supporting plates are hinged with the corresponding piston rods of the blanking cylinders, and the material supporting plates are hinged on the frame through the connecting column;

The frame comprises a material taking frame and a material discharging frame; the top of the movable frame is provided with a material taking movable part, the material taking frame is connected with a first positioning mechanism, and the material taking movable part is connected with the first positioning mechanism;

the blanking frame is connected with a second positioning mechanism, a blanking moving part is arranged at the top of the connecting column, the blanking moving part is connected with the second positioning mechanism, and a cylinder body of the blanking cylinder is fixed on the connecting column.

Preferably, a baffle rod is arranged between the two side plates, and the baffle rod is positioned above the transmission rod.

As a further improvement of the utility model, a first sliding wheel is arranged between the two side plates, and the first sliding wheel is positioned at the bottom of the movable frame; the material taking moving part is provided with a second sliding wheel, the second sliding wheel is positioned at the bottom of the material taking rack, the material discharging moving part is provided with a third sliding wheel, and the third sliding wheel is positioned at the bottom of the material discharging rack.

As a further improvement of the utility model, the top of each of the two side plates is provided with the fixed plate, both sides of the movable frame are provided with the material taking movable executing mechanism, and the two fixed plates are respectively connected with the corresponding material taking movable executing mechanisms.

As a further improvement of the utility model, the material taking part further comprises an adjusting rod, the transmission rod is provided with a plurality of adjusting holes, the adjusting rod is provided with a first fastening hole, and the first fastening piece detachably fixes the adjusting rod at one end of the transmission rod through the adjusting holes and the first fastening hole; the material taking hook is fixed at the end part of the adjusting rod.

Further, the material taking hook is vertically provided with an adjusting groove, the end part of the adjusting rod is provided with a second fastening hole, and the second fastening piece fixes the material taking hook at the end part of the adjusting rod through the adjusting groove and the second fastening hole.

As a further improvement of the utility model, a connecting plate is arranged at the bottom of the position sensor, and a third fastener is used for fixing the connecting plate on the movable frame.

As a further improvement of the utility model, the touch rod is provided with a chute.

As a further improvement of the utility model, the back of the material supporting plate is provided with a plurality of reinforcing ribs, and a balance rod is connected between the reinforcing ribs.

As a further improvement of the utility model, the feeding end of the material supporting plate is provided with a feeding sloping plate.

According to the steel mesh quick blanking device suitable for different sizes, the material taking piece is moved to the position above the target steel mesh through the material taking moving executing mechanism, the material taking hooks hook the steel mesh downwards under the action of the material taking air cylinder, then the material taking hooks move towards the blanking mechanism under the action of the material taking moving executing mechanism, the material supporting plate is in a flat state initially, the steel mesh is quickly dragged onto the material supporting plate by the material taking hooks, and two sides of the steel mesh continuously slide along the material supporting plate; after the touch rod of the material taking piece is in butt joint with the touch roller, the piston rod of the material taking cylinder controls the material taking hook to lift up and takes down the steel mesh, and meanwhile, the material taking piece returns to the material hooking position and continues to start the next material hooking; the blanking cylinder acts on the material supporting plate at the same time, so that the material supporting plates on two sides of the steel mesh rotate downwards, the steel mesh loses supporting lifting force and falls onto the material receiving roller set below, and the collected steel mesh is transmitted in batches by the material receiving roller set. The material supporting plate rotates downwards and immediately resets under the action of the blanking cylinder, so as to prepare for the bearing work of the next steel net.

Compared with the prior art, the steel mesh quick blanking device suitable for different sizes has the advantages that:

(1) According to the special structure of the steel mesh, the steel mesh is hooked by the material taking hooks and matched with the material supporting plate, so that the operation is simple and efficient, and the steel mesh material taking device is suitable for taking materials of steel meshes on a production line;

(2) The position sensor and the touch roller are arranged, so that the automation of material taking, material removing and material moving of the material taking hooks is realized, and the production efficiency of the production line is improved;

(3) The material taking mechanism and the material discharging mechanism are in linkage fit, so that batch material discharging of the steel mesh on the production line is realized;

(4) According to the steel mesh unloading demand of equidimension, can adjust and get material and two interval that hold in palm the flitch, improve the suitability of device.

Drawings

FIG. 1 is a schematic diagram of a steel mesh quick blanking device applicable to different sizes;

FIG. 2 is a schematic structural view of a steel mesh quick blanking device applicable to different sizes;

FIG. 3 is a schematic diagram of a frame structure;

FIG. 4 is a schematic view of the abutting state of the material taking member and the touch roller;

FIG. 5 is a schematic view of a take-off mechanism;

FIG. 6 is a schematic view of a take-off mechanism;

FIG. 7 is a schematic view of a take-off structure;

FIG. 8 is a top view of the take-off;

FIG. 9 is a schematic view of a take-off hook connection;

FIG. 10 is a schematic diagram of a position sensor connection;

FIG. 11 is a schematic view of a touch roller and a touch lever;

FIG. 12 is a schematic view of a pallet connection;

Fig. 13 is a schematic view of a pallet structure.

Detailed Description

The following describes the embodiments of the present utility model in further detail with reference to the drawings.

As shown in fig. 1, the steel mesh quick blanking device suitable for different sizes comprises a material taking mechanism 1, a blanking mechanism 2, a material receiving roller set 3 and a frame 4; the blanking mechanism 2 is positioned between the material taking mechanism 1 and the material receiving roller set 3;

as shown in fig. 4-8, the material taking mechanism 1 comprises a movable frame 11, a material taking member 12, a material taking movable executing mechanism 13, two position sensors 14 and a touch roller 15;

The material taking part 12 is connected to the bottom of the movable frame 11 through a material taking movable executing mechanism 13, and the material taking part 12 comprises two side plates 121, a transmission rod 122, a material taking hook 123, a connecting rod 124 and a material taking cylinder 125; the connecting rod 124 is connected between the two side plates 121, the middle part of the transmission rod 122 is rotatably connected to the connecting rod 124, one end of the transmission rod 122 is hinged with a piston rod of the material taking cylinder 125, and the other end of the transmission rod 122 is connected with the material taking hook 123;

The top of the side plate 121 is provided with a fixed plate 128, and the material taking piece 12 is connected with the material taking movable executing mechanism 13 through the fixed plate 128; the material taking and moving actuating mechanism 13 can be a conventional chain and sprocket transmission assembly, the material taking member 12 is connected with the chain, the sprocket is driven by a motor to rotate with the chain, and the material taking member 12 moves along with the chain.

The telescopic action of the piston rod of the material taking cylinder 125 drives the transmission rod 122 to rotate by taking the connecting rod 124 as a fulcrum, and the material taking hook 123 rotates up and down along with the rotation, so that the material taking and the material taking out of the steel mesh are realized. A stop lever 126 is arranged between the two side plates 121, and the stop lever 126 is positioned above the transmission rod 122. The stop lever 126 plays a limiting role in upward rotation of the driving lever 122, and since the rotation angle required by hooking and supporting the material of the material taking hook 123 is not large, the stop lever 126 can limit the rotation amplitude of the driving lever 122, so that abnormal phenomena of steel mesh bouncing caused by the abnormal rotation amplitude of the material taking hook 123 due to the abnormal condition of the material taking cylinder 125 are prevented.

A first sliding wheel 16 is arranged between the two side plates 121, and the first sliding wheel 16 is positioned at the bottom of the movable frame 11. The two side plates 121 can move along the bottom of the moving frame 11 by the first sliding wheel 16, so that the moving stability of the material taking member 12 is improved.

The top of each of the two side plates 121 is provided with a fixed plate 128, two sides of the movable frame 11 are respectively provided with a material taking movable executing mechanism 13, and the two fixed plates 128 are respectively connected with the corresponding material taking movable executing mechanisms 13. Compared with the connection of the single side plate 121 and the material taking and moving executing mechanism 13, the synchronous movement of the material taking and moving executing mechanism 13 can be carried out on two sides of the material taking part 12, so that the stability of the material taking part 12 can be further improved, single-side connection is avoided, the material taking part 12 is unstable in the material hooking and moving process, the material taking part 12 is inclined towards the single side due to the unstable gravity center, the stable transportation of the steel mesh is affected, the material taking part 12 is even removed, and the steel mesh falls.

As shown in fig. 9, the material taking member 12 further includes an adjusting rod 127, the transmission rod 122 is provided with a plurality of adjusting holes 1221, the adjusting rod 127 is provided with a first fastening hole 1272, and the first fastening member 1271 detachably fixes the adjusting rod 127 at one end of the transmission rod 122 through the adjusting holes 1221 and the first fastening hole 1272; the take-out hook 123 is fixed to an end of the adjustment lever 127.

The connection position of the adjusting lever 127 can be rapidly adjusted by selecting the adjusting holes 1221 at different positions through the first fastening member 1271, thereby adjusting the position of the take-out hook 123. Because the back and forth movement range of the material taking member 12 through the material taking moving actuating mechanism 13 is larger, the accuracy of the position of the material taking hook 123 is difficult to control, if the initial distance between the steel mesh and the material taking member 12 is too large, in order to ensure that the material taking hook 123 can hook the steel mesh smoothly, the movement stroke of the material taking hook 123 on the movable frame 11 is increased, and the movement time of the material taking hook 123 is increased. The initial extending position of the material taking hook 123 is initially adjusted, and then the material taking hook 123 is rapidly moved to the target position by the material taking moving executing mechanism 13, so that the moving stroke of the material taking hook 123 is reduced.

Similarly, the material taking hook 123 is vertically provided with an adjusting groove 1231, the end of the adjusting rod 127 is provided with a second fastening hole 1273, and the second fastening member 1232 fixes the material taking hook 123 at the end of the adjusting rod 127 through the adjusting groove 1231 and the second fastening hole 1273. The height and angle of the material taking hook 123 can be adjusted through the second fastening piece 1232, so that the distance between the material taking hook 123 and the lower target steel mesh and the material hooking angle can be adjusted, the material taking hook 123 can be conveniently used for rapidly hooking materials, and unhooking is prevented.

Two position sensors 14 are fixed to the moving frame 11, and the side plate 121 is provided with a position sensing lever 141. The two position sensors 14 are located at two end positions of the back and forth movement of the take-off member 12, respectively. The position sensor 14 may be an existing photoelectric sensor, and when the position sensing rod 141 is located at the sensing position of the position sensor 14, the position sensor 14 converts an optical signal into an electrical signal and transmits the electrical signal to the terminal electric control box, and the terminal electric control box makes an instruction to change the rotation direction of the motor, so that the material taking member 12 is ensured to be capable of moving back and forth within a specified position range.

As shown in fig. 10, the bottom of the position sensor 14 is provided with a connection plate 142, and a third fastener 143 fixes the connection plate 142 to the moving frame 11. The position sensors 14 are detachably fixed on the movable frame 11 through the connecting plates 142, so that the positions of the two position sensors 14 can be conveniently adjusted, and the sensing positions of the position sensors 14 can be adjusted according to different ranges of the movement required by the material taking part 12.

As shown in fig. 11, the touch roller 15 is connected to the moving frame 11, the side plate 121 extends out to form a touch lever 151, and the touch roller 15 and the touch lever 151 are located at the same height. When the material taking part 12 is about to move to the target position with the target steel mesh, the touch roller 15 is in butt joint with the touch rod 151 and continuously slides on the touch rod 151, the touch roller 15 and the touch rod 151 can be made of metal materials, when the touch roller 15 is in contact with the touch rod 151 and the touch roller 15 continuously slides on the touch rod 151 due to inertia for a short time, the terminal electric cabinet receives a signal and controls the piston rod of the material taking cylinder 125, so that the material taking hook 123 removes the steel mesh, and the steel mesh falls down. Because the retraction of the piston rod of the material taking cylinder 125 requires a certain reaction time, the time for the trigger roller 15 to slide on the trigger rod 151 is enough for the piston rod of the material taking cylinder 125 to complete the retraction.

The trigger lever 151 is provided with a slide groove 152. The touch roller 15 can slide in the chute 152, and the chute 152 plays a role in limiting and guiding, so that the problem that the touch roller 15 is separated from the edge of the touch rod 151 when the touch rod 151 slides, so that the touch rod 151 is disconnected with the touch roller 15, and the operation of a piston rod of the material taking cylinder 125 is abnormal is avoided.

As shown in fig. 1-3 and 12, the blanking mechanism 2 comprises two material supporting plates 21, blanking cylinders 22 and connecting columns 23, wherein the two material supporting plates 21 are respectively positioned at two sides of the upper position of the material receiving roller group 3, the material supporting plates 21 are hinged with piston rods of the corresponding blanking cylinders 22, and the material supporting plates 21 are hinged on the frame 4 through the connecting columns 23.

The expansion and contraction of the piston rod of the blanking cylinder 22 controls the material supporting plate 21 to rotate, so that the steel mesh on the material supporting plate 21 falls onto the material receiving roller set 3 below. If the material supporting plate 21 is connected only through the blanking cylinder 22, the connection strength of the blanking cylinder 22 to the material supporting plate 21 is limited, so that shaking occurs when the material supporting plate 21 works, the stability of the steel mesh is poor, and the connecting column 23 plays a role in stabilizing the material supporting plate 21.

As shown in fig. 13, the back of the material supporting plate 21 is provided with a plurality of reinforcing ribs 212, a balance bar 212 is connected between the plurality of reinforcing ribs 212, and the combination of the reinforcing ribs 212 and the balance bar 212 strengthens the structural strength of the material supporting plate 21, so that the material supporting plate 21 can be stably and repeatedly opened and closed and rotated.

The feed end of the tray 21 is provided with a feed sloping plate 211. Since the steel mesh is hooked by the material taking hooks 123 and is dragged to the material supporting plate 21, the structure of the downward inclination of the material feeding inclined plate 211 is more beneficial to the smooth entering of the steel mesh, and the collision between the steel mesh and the material supporting plate 21 at the material feeding end is reduced.

As shown in fig. 3, the frame 4 includes a take-out frame 41 and a blanking frame 42; the top of the movable frame 11 is provided with a material taking movable member 17, the material taking frame 41 is connected with a first positioning mechanism 411, and the material taking movable member 17 is connected with the first positioning mechanism 411;

The blanking frame 42 is connected with a second positioning mechanism 412, the top of the connecting column 23 is provided with a blanking moving member 24, the blanking moving member 24 is connected with the second positioning mechanism 412, and the cylinder body of the blanking cylinder 22 is fixed on the connecting column 23.

The first positioning mechanism 411 and the second positioning mechanism 412 may be existing chain and sprocket drive assemblies, and the rotation of the chain is achieved by a motor.

The material taking moving member 17 moves along with the chain, so that the position of the material taking mechanism 1 relative to the target steel mesh can be adjusted, and according to the steel mesh with no size, the hooking position of the material taking hook 123 is ensured to be at a proper position so as to stably pull the steel mesh, and the situation that the hooking position of the material taking hook 123 is positioned at the edge of the steel mesh due to the change of the size of the steel mesh, so that the steel mesh is inclined when the steel mesh is pulled, and the butt joint of the steel mesh and the material supporting plate 21 is influenced is avoided.

The blanking moving part 24 moves along with the chain, so that the positions of the connecting columns 23 on two sides of the steel mesh can be adjusted, and the distance between the two material supporting plates 21 on two sides of the steel mesh can be adjusted according to the steel mesh with different sizes.

The material taking moving member 17 is provided with a second sliding wheel 171, the second sliding wheel 171 is positioned at the bottom of the material taking frame 41, the material discharging moving member 24 is provided with a third sliding wheel 25, and the third sliding wheel 25 is positioned at the bottom of the material discharging frame 42. The sliding wheels are arranged, so that the material taking moving member 17 and the material discharging moving member 24 can move back and forth more stably.

According to the steel mesh quick blanking device suitable for different sizes, the material taking piece 12 is moved to the position above a target steel mesh through the material taking moving executing mechanism 13, the material taking hook 123 hooks the steel mesh downwards through the action of the material taking air cylinder 125, then the material taking hook 123 moves towards the blanking mechanism 2 under the action of the material taking moving executing mechanism 13, the material supporting plate 21 is initially in a flat state, the steel mesh is quickly dragged onto the material supporting plate 21 by the material taking hook 123, and two sides of the steel mesh continuously slide along the material supporting plate 21; after the touch rod 151 of the material taking part 12 is in butt joint with the touch roller 15, the piston rod of the material taking cylinder 125 controls the material taking hook 123 to lift up and the steel mesh to be detached, and meanwhile, the material taking part 12 returns to the material hooking position and continues to start the next material hooking; the blanking cylinder 22 acts on the material supporting plate 21 at the same time, so that the material supporting plates 21 on two sides of the steel mesh rotate downwards, the steel mesh loses supporting lifting force and falls onto the material receiving roller set 3 below, and the collected steel mesh is transmitted in batches by the material receiving roller set 3. Immediately after the material supporting plate 21 rotates downwards, the material supporting plate is reset under the action of the blanking cylinder 22, and the next steel mesh is prepared for carrying.

While the preferred embodiments of the present utility model have been described in detail, the present utility model is not limited to the embodiments described above, and various equivalent modifications and substitutions can be made by those skilled in the art without departing from the spirit of the present utility model, and these are intended to be included in the scope of the present utility model as defined in the appended claims.

Claims (10)

1. The steel mesh quick blanking device suitable for the different sizes is characterized by comprising a material taking mechanism, a blanking mechanism, a material receiving roller set and a frame; the discharging mechanism is positioned between the material taking mechanism and the material receiving roller set;

The material taking mechanism comprises a movable frame, a material taking piece, a material taking movable executing mechanism, two position sensors and a touch roller;

The material taking part is connected to the bottom of the movable frame through the material taking movable actuating mechanism and comprises two side plates, a transmission rod, a material taking hook, a connecting rod and a material taking cylinder; the connecting rod is connected between the two side plates, the middle part of the transmission rod is rotationally connected to the connecting rod, one end of the transmission rod is hinged with a piston rod of the material taking cylinder, and the other end of the transmission rod is connected with the material taking hook; the top of the side plate is provided with a fixed plate, and the material taking piece is connected with the material taking movable executing mechanism through the fixed plate;

The two position sensors are fixed on the movable frame, and the side plates are provided with position sensing rods;

The touch roller is connected to the movable frame, the side plate extends out of the movable frame to form a touch rod, and the touch roller and the touch rod are positioned at the same height;

The blanking mechanism comprises two material supporting plates, a blanking cylinder and a connecting column, wherein the two material supporting plates are respectively positioned at two sides of the position above the material receiving roller group, the material supporting plates are hinged with the corresponding piston rods of the blanking cylinders, and the material supporting plates are hinged on the frame through the connecting column;

The frame comprises a material taking frame and a material discharging frame; the top of the movable frame is provided with a material taking movable part, the material taking frame is connected with a first positioning mechanism, and the material taking movable part is connected with the first positioning mechanism;

the blanking frame is connected with a second positioning mechanism, a blanking moving part is arranged at the top of the connecting column, the blanking moving part is connected with the second positioning mechanism, and a cylinder body of the blanking cylinder is fixed on the connecting column.

2. A quick blanking device for steel meshes of different sizes according to claim 1, wherein a stop lever is arranged between two side plates and above the transmission lever.

3. The steel mesh quick blanking device suitable for different sizes according to claim 1, wherein a first sliding wheel is arranged between the two side plates, and the first sliding wheel is positioned at the bottom of the movable frame; the material taking moving part is provided with a second sliding wheel, the second sliding wheel is positioned at the bottom of the material taking rack, the material discharging moving part is provided with a third sliding wheel, and the third sliding wheel is positioned at the bottom of the material discharging rack.

4. The steel mesh quick blanking device suitable for different sizes according to claim 1, wherein the top of each of the two side plates is provided with a fixed plate, two sides of the movable frame are respectively provided with the material taking movable actuating mechanism, and the two fixed plates are respectively connected with the corresponding material taking movable actuating mechanisms.

5. The steel mesh quick blanking device applicable to different sizes according to claim 1, wherein the material taking piece further comprises an adjusting rod, the transmission rod is provided with a plurality of adjusting holes, the adjusting rod is provided with a first fastening hole, and the adjusting rod is detachably fixed at one end of the transmission rod through the adjusting hole and the first fastening hole by a first fastening piece; the material taking hook is fixed at the end part of the adjusting rod.

6. The steel mesh quick blanking device applicable to different sizes according to claim 5, wherein the material taking hook is vertically provided with an adjusting groove, the end part of the adjusting rod is provided with a second fastening hole, and the material taking hook is fixed at the end part of the adjusting rod through the adjusting groove and the second fastening hole by a second fastening piece.

7. A steel mesh quick blanking device suitable for different sizes according to claim 1, wherein a connecting plate is arranged at the bottom of the position sensor, and a third fastener is used for fixing the connecting plate on the movable frame.

8. A quick blanking device for steel mesh of different sizes as claimed in claim 1, wherein said trigger lever is provided with a chute.

9. The steel mesh quick blanking device suitable for different sizes according to claim 1, wherein a plurality of reinforcing ribs are arranged on the back of the material supporting plate, and balance bars are connected between the plurality of reinforcing ribs.

10. The steel mesh quick blanking device suitable for different sizes according to claim 1, wherein a feeding inclined plate is arranged at a feeding end of the material supporting plate.