CN112875150A

CN112875150A - Belt assembly line

Info

Publication number: CN112875150A
Application number: CN202110032654.2A
Authority: CN
Inventors: 柴武
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-11
Filing date: 2021-01-11
Publication date: 2021-06-01

Abstract

The invention provides a belt production line, which structurally comprises a conveying belt, a skirt board, a power box, a transmission roller and a bottom frame, wherein the conveying belt comprises an inner baffle belt, a rolling roller, an inner baffle and a driving wheel, a contact head is jacked up by a pushing structure to apply pressure to the rolling roller so as to enable a guide rail to be stressed uniformly, the rail plate rotates to improve the fixity of the rail plate while the arc surface of a rebound plate is extruded inwards, a clamping block of the rebound plate is contacted with a protruding block on a touch plate when the rebound plate descends, the contact head has buffering force when the touch head descends, the contact head and the edge of the touch plate are prevented from being damaged, meanwhile, the deviation degree of the belt is limited by a movable ring so as to reduce the swinging of a bearing, a triangular block between the movable ring and a middle plate seals a gap between the belt and a conveying disc, so that scraps cannot enter the rolling roller, the rolling roller rotates together after the belt is deviated in angle so as not to continuously, and the friction blocks on the two sides of the inner side of the edge block are matched with the inner shaft plate to reduce the damage to the belt.

Description

Belt assembly line

Technical Field

The invention relates to the technical field of belt production lines, in particular to a belt production line.

Background

The assembly line is a conveying device for continuously conveying objects on a certain line on the basis of a hard belt, is suitable for conveying various metal parts, and conveys the bearings to a cleaner through a conveying belt to remove scraps, so that the labor cost is greatly reduced, the production efficiency is improved, and the assembly line is widely applied to the industrial manufacturing industry.

The belt assembly line of prior art is in the bearing transportation to not abluent, because equipment rocks and lets the atress of conveyer central point's both sides guide rail inhomogeneous, make the belt can produce the skew under high-speed rotation and drive the bearing on the transfer chain and rock, so that belt and support lateral wall take place continuous friction, cause belt edge wearing and tearing to influence life, and the clearance increase between its belt another side and the lateral wall behind the skew, and then let the metal piece on the bearing fall in the block point between the cylinder, the rotational speed that leads to the gyro wheel descends and makes the conveying efficiency of equipment reduce.

Summary of the invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a belt production line, which solves the using problem that the conveying efficiency of the equipment is reduced because the conveying efficiency is reduced because the belt rotates at a high speed and the other side of the conveying line deviates and the gap between the other side of the conveying line and the side wall of the conveying line is increased because the belt rotates at a high speed and the bearing is driven to swing due to the uneven stress of guide rails on the two sides caused by the shaking of the existing equipment.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a belt assembly line, its structure includes conveyer belt, skirtboard, power supply box, transmission roller, chassis, conveying structure activity block is inside the skirtboard, the skirtboard right side is connected with transmission roller gomphosis, power supply box bolted connection is at the chassis side, transmission roller bolted connection is in the chassis right side, chassis top and skirtboard welded connection, the conveyer belt includes interior baffle belt, rolls roller, interior baffle, drive wheel, the belt riveting is connected in rolling the roller outside, roll the roller and run through the gomphosis in the driver, interior baffle middle part with roll roller activity block, the inboard and interior baffle welded connection of driver.

Preferably, the driver comprises an outer frame, guide rails, pushing structures and line pipes, wherein the outer frame is movably clamped with the side ends of the guide rails, the left ends of the guide rails are fixedly connected with the line pipes in an embedded mode, the pushing structures are connected to the inner sides of the guide rails in an embedded mode, the line pipes are electrically connected to the left ends of the pushing structures in a penetrating mode, the number of the pushing structures is two, and the pushing structures are arranged on two sides of the guide rails in an opposite mode.

Preferably, the pushing structure comprises a contact head, an inner pusher, a touch plate and a fixing ring, the contact plate is fixedly connected to the top end of the inner pusher in an embedded mode, the inner pusher is connected between the touch plate and the contact plate in an embedded mode, the bottom end of the touch plate is connected with the fixing ring in a welded mode, and a soft rubber square block is arranged at the top of the touch plate and matched with the bottom end of the upper contact head.

Preferably, the contact head comprises a rebound plate, a connecting plate and a clamping block, the rebound plate is fixedly matched with the top end of the connecting plate, the side edge of the bottom end of the connecting plate is fixedly connected with the clamping block, the upper part of the rebound plate is of an arc-shaped structure, and spring rings are arranged at two ends of the rebound plate.

Preferably, the inner baffle plate comprises an outer connecting plate, a middle plate and a movable ring, the outer connecting plate is welded at the side end of the movable ring, the middle plate is fixedly connected with the movable ring in an embedded mode, a triangular block is arranged at the connecting position of the middle plate and the movable ring, and two sides of the middle plate are oppositely arranged.

As preferred, the built-in board includes curb plate, grinding plate, binder ring, connects the limit piece, curb plate welded connection connects the left end at the limit piece, the grinding plate gomphosis is connected at the curb plate right-hand member, binder ring welded connection is between curb plate and grinding plate, the grinding plate side is connected with the inboard marginal gomphosis of connecting the limit piece, the grinding plate is the trapezium structure, and anterior equidistance is equipped with the gyro wheel.

Preferably, the grinding plate comprises an inner shaft plate, an edge block and a friction block, the right end of the inner shaft plate is connected with the edge block in a welding mode, the top end of the edge block is fixedly connected with the friction block in an embedding mode, the friction block is made of rubber materials and is installed on the inner side of the edge block in an opposite mode.

(II) advantageous effects

The invention provides a belt production line. The method has the following beneficial effects:

1. according to the invention, the contact head is jacked up to apply pressure to the roller through the pushing structure, so that the guide rail is uniformly stressed, the rail plate rotates to improve the fixity of the rail plate while the arc-shaped surface of the rebound plate is inwards extruded, and the clamping block of the rebound plate is contacted with the protruding block on the touch plate when the rebound plate descends, so that the contact head has buffering force when the contact head descends, and the contact head is prevented from being damaged by the edge of the touch plate.

2. According to the belt conveyor, the deviation degree of a belt is limited through the movable ring, the shaking of a bearing is reduced, a gap between the belt and the conveying disc is sealed through the triangular block between the movable ring and the middle-placed plate, so that scraps cannot enter the roller, the roller rotates together after the belt is subjected to angle deviation, the belt cannot continuously rub, and the friction blocks on the two sides of the inner side of the edge block are matched with the inner shaft plate to reduce the damage to the belt.

Drawings

FIG. 1 is a schematic view of a belt line according to the present invention;

FIG. 2 is a schematic view of the conveyor belt of the present invention;

FIG. 3 is a schematic view of the driving wheel of the present invention;

FIG. 4 is a schematic structural diagram of a push structure according to the present invention;

FIG. 5 is a schematic view of a contact according to the present invention;

FIG. 6 is a schematic structural view of an inner partition plate according to the present invention;

FIG. 7 is a schematic structural view of the present invention build-up board;

fig. 8 is a schematic structural view of a millboard of the present invention.

In the figure: the device comprises a conveying belt-1, an apron board-2, a power box-3, a transmission roller-4, a bottom frame-5, a belt-11, a roller-12, an inner partition-13, a driving wheel-14, an outer frame-141, a guide rail-142, a pushing structure-143, a line pipe-144, a contact-a 1, an inner pusher-a 2, a touch plate-a 3, a fixing ring-a 4, a rebound plate-a 11, a connecting plate-a 12, a clamping block-a 13, an external connecting plate-131, a middle plate-132, a movable ring-133, a side plate-b 1, a grinding plate-b 2, a connecting ring-b 3, an edge connecting block-b 4, an inner shaft plate-b 21, an edge block-b 22 and a friction block-b 23.

Detailed Description

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

Example 1

As shown in fig. 1 to 5, an embodiment of the invention provides a belt production line, which structurally comprises a conveying belt 1, an apron board 2, a power box 3, a transmission roller 4 and a base frame 5, wherein the conveying structure 1 is movably clamped inside the apron board 2, the right side of the apron board 2 is connected with the transmission roller 4 in an embedded mode, the power box 3 is connected to the side edge of the base frame 5 through a bolt, the transmission roller 4 is connected to the right side of the base frame 5 through a bolt, the top end of the base frame 5 is connected with the apron board 2 in a welded mode, the conveying belt 1 comprises an inner partition belt 11, a rolling roller 12, an inner partition board 13 and a driving wheel 14, the belt 11 is connected to the outer side of the rolling roller 12 in a riveting mode, the rolling roller 12 penetrates and is embedded into an actuator 14, the middle of the inner partition board 13 is.

The driver 14 includes an outer frame 141, a guide rail 142, a pushing structure 143, and a line pipe 144, wherein the outer frame 141 is movably engaged with a side end of the guide rail 142, a left end of the guide rail 142 is fixedly connected with the line pipe 144, the pushing structure 143 is connected to an inner side of the guide rail 142 in an embedded manner, the line pipe 144 is electrically connected to a left end of the pushing structure 143 in a penetrating manner, the two pushing structures 143 are oppositely disposed at two sides of the guide rail 142, the line pipes 144 rotate along with the guide rail 142, and the pushing structure 143 applies pressure to the roller up and down to force the guide rail 142 uniformly, so as to prevent the contact a1 and the edge of the touch plate a3 from being damaged.

The pushing structure 143 includes a contact head a1, an inner pusher a2, a touch plate a3, and a fixing ring a4, the contact plate a1 is fixedly connected to the top end of the inner pusher a2, the inner pusher a2 is connected between the touch plate a3 and the contact plate a1 in a fitting manner, the bottom end of the touch plate a3 is connected with the fixing ring a4 in a welding manner, and the top of the touch plate a3 is provided with a soft rubber block and is matched with the bottom end of the upper contact head a1, so that the contact head a1 has a buffering force when descending, and the contact head a1 and the edge of the touch plate a3 are prevented from being damaged.

Wherein, contact a1 includes rebound board a11, connecting plate a12, block a13, rebound board a11 inlays the solid cooperation on connecting plate a12 top, connecting plate a12 bottom side and block a13 inlay solid and be connected, rebound board a11 upper portion is the arc structure, and both ends are equipped with the spring coil, lets rebound board a11 and rail plate contact through the release spring, lets the rail plate rotatory when borrowing by the inside extrusion of arcwall face to improve the fixity of rail plate.

The specific working process is as follows:

in the invention, a power box 3 on the side of a chassis 5 supplies power to a transmission roller 4, so that a driving wheel 14 drives a conveying structure 1 in a skirt board 2 to rotate, a roller 12 rotates, a rotating shaft 12 drives a belt 11 on an inner partition board 13 to move forwards, a circuit pipe 144 in an outer frame 141 is used for supplying power to a pushing structure 143, a touch plate a3 on a fixing ring a4 jacks up a contact head a1 through an inner pusher a2, the pushing structure 143 applies pressure to the roller up and down, so that a guide rail 142 is uniformly stressed, the rail plate rotates to improve the fixity of the rail plate while the arc surface of the rebound plate a11 extrudes inwards, and a clamping block a13 under a connecting plate a12 is in contact with a protruding block on the touch plate a3 when the rail plate falls, so that the contact head a1 has buffering power when the rail plate falls, and the contact head a1 and the edge of the touch plate a3 are prevented from being damaged.

Example 2

As shown in fig. 6 to 8, an embodiment of the present invention provides a belt production line, wherein the inner partition plate 13 includes an outer connection plate 131, a middle partition plate 132, and a movable ring 133, the outer connection plate 131 is welded to a side end of the movable ring 133, the middle partition plate 132 is fixedly connected to the movable ring 133, a triangular block is disposed at a connection position of the middle partition plate 132 and the movable ring 133, and two sides of the middle partition plate 132 are oppositely installed, so that a gap between a belt and a conveying disc is closed, and thus, debris cannot enter into a drum.

The middle plate 132 comprises a side plate b1, a running-in plate b2, a coupling ring b3 and an edge connecting block b4, wherein the side plate b1 is connected to the left end of the edge connecting block b4 in a welded mode, the running-in plate b2 is connected to the right end of the side plate b1 in a fitted mode, the coupling ring b3 is connected between the side plate b1 and the running-in plate b2 in a welded mode, the side end of the running-in plate b2 is connected to the inner side edge of the edge connecting block b4 in a fitted mode, the running-in plate b2 is of a trapezoidal structure, rollers are arranged on the front portion of the running-in plate b2 at equal intervals, and the rollers are in contact with the rollers to rotate together, so that the belts cannot continuously rub, and the.

The friction plate b2 comprises an inner shaft plate b21, an edge block b22 and a friction block b23, the right end of the inner shaft plate b21 is connected with the edge block b22 in a welding mode, the top end of the edge block b22 is connected with the friction block b23 in an embedding mode, the friction block b23 is made of rubber materials and is installed on the inner side of the edge block b22 in an opposite mode, and damage to a belt is reduced by matching with the inner shaft plate b 21.

The specific working process is as follows:

in the invention, the belt is limited in deviation degree by the movable ring 133 on the outer connecting plate 131 when rotating, the shaking of a bearing is reduced, the gap between the belt and a conveying disc is sealed by the triangular block between the movable ring 133 and the middle plate 132, so that scraps cannot enter a roller, the belt extends into the inner side of the edge connecting block b4 of the side plate b1 after the belt is deviated in angle and is clamped in the grinding plate b2, the belt cannot be continuously rubbed by the rotation of the roller together, and the damage to the belt is reduced by the matching of the friction blocks b23 on the two inner sides of the edge block b22 and the inner shaft plate b 21.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims

1. The utility model provides a belt assembly line, its structure includes conveyer belt (1), skirtboard (2), power supply box (3), transmission roller (4), chassis (5), conveying structure (1) activity block is inside skirtboard (2), skirtboard (2) right side and transmission roller (4) gomphosis are connected, power supply box (3) bolted connection is in chassis (5) side, transmission roller (4) bolted connection is on chassis (5) right side, chassis (5) top and skirtboard (2) welded connection, its characterized in that:

the conveying belt (1) comprises a belt (11), a rolling roller (12), an inner partition plate (13) and a driving wheel (14), the belt (11) is connected to the outer side of the rolling roller (12) in a riveting mode, the rolling roller (12) penetrates through and is embedded in a driver (14), the middle of the inner partition plate (13) is movably clamped with the rolling roller (12), and the inner side of the driver (14) is connected with the inner partition plate (13) in a welding mode.

2. A belt line as claimed in claim 1, wherein: the driver (14) comprises an outer frame (141), a guide rail (142), a pushing structure (143) and a line pipe (144), wherein the outer frame (141) is movably clamped with the side end of the guide rail (142), the left end of the guide rail (142) is fixedly embedded in the line pipe (144), the pushing structure (143) is embedded in the guide rail (142), and the line pipe (144) penetrates through the pushing structure (143) and is electrically connected to the left end of the pushing structure (143).

3. A belt line as claimed in claim 2, wherein: the pushing structure (143) comprises a contact head (a1), an inner pusher (a2), a touch plate (a3) and a fixing ring (a4), wherein the touch plate (a1) is fixedly connected to the top end of the inner pusher (a2) in an embedded mode, the inner pusher (a2) is connected between the touch plate (a3) and the touch plate (a1) in a embedded mode, and the bottom end of the touch plate (a3) is connected with the fixing ring (a4) in a welded mode.

4. A belt line as claimed in claim 3, wherein: the contact head (a1) comprises a rebound plate (a11), a connecting plate (a12) and a clamping block (a13), the rebound plate (a11) is embedded and matched at the top end of the connecting plate (a12), and the side edge of the bottom end of the connecting plate (a12) is embedded and connected with the clamping block (a 13).

5. A belt line as claimed in claim 2, wherein: the inner baffle plate (13) comprises an outer connecting plate (131), a middle baffle plate (132) and a movable ring (133), the outer connecting plate (131) is connected to the side end of the movable ring (133) in a welding mode, and the middle baffle plate (132) is fixedly connected to the movable ring (133) in an embedding mode.

6. A belt line as claimed in claim 5, wherein: the middle plate (132) comprises a side plate (b1), a running-in plate (b2), a coupling ring (b3) and an edge connecting block (b4), the side plate (b1) is connected to the left end of the edge connecting block (b4) in a welded mode, the grinding plate (b2) is connected to the right end of the side plate (b1) in a meshed mode, the coupling ring (b3) is connected between the side plate (b1) and the grinding plate (b2) in a welded mode, and the side end of the grinding plate (b2) is connected to the inner side edge of the edge connecting block (b4) in a meshed mode.

7. The belt line of claim 6, wherein: the plywood (b2) includes interior axostylus axostyle (b21), limit piece (b22), clutch blocks (b23), interior axostylus axostyle (b21) right-hand member and limit piece (b22) welded connection, limit piece (b22) top is connected with clutch blocks (b23) are embedded and are solid.