阅读说明：本技术 一种不会掉料的链板流水线 (Chain plate assembly line capable of preventing material falling ) 是由 温志玲 于 2021-02-04 设计创作，主要内容包括：本发明公开了一种不会掉料的链板流水线,其结构设有输送装置、侧护板、驱动机、下板槽、支撑脚,输送装置活动连接在侧护板内侧,驱动机嵌固安装在侧护板一侧端的外侧位置,下板槽位于输送装置下方,支撑脚嵌固连接在侧护板底部,由侧顶辊随自转轴转动而转动,便于动抵体在不同力的作用下进行环状扩缩变化,接杆的伸缩性质辅助弧状顶瓣与载体下端面的灵活抵触,韧撑块的韧性撑接为其提供挤压缓冲力,同时对其产生反向顶力,便于随挤压力大小而有所形变,灵活控制侧顶力,动环的来回位移活动令其与外物产生碰撞,使载体受到震动力,利于其前端面上的纸箱包装物快速掉离。(The invention discloses a link plate assembly line without material falling, which is structurally provided with a conveying device, a side guard plate, a driving machine, a lower plate groove and supporting legs, wherein the conveying device is movably connected to the inner side of the side guard plate, the driving machine is embedded and fixedly arranged at the outer side position of one side end of the side guard plate, the lower plate groove is positioned below the conveying device, the supporting legs are embedded and fixedly connected to the bottom of the side guard plate and rotate along with the rotation of a rotating shaft by a side top roller, so that a dynamic abutting body can perform annular expansion and contraction change under the action of different forces, the flexible property of a connecting rod assists the flexible collision of an arc-shaped top petal and the lower end surface of a carrier, and the flexible support of a, meanwhile, reverse jacking force is generated on the movable ring, so that the movable ring can be deformed along with the extrusion force, the side jacking force is flexibly controlled, the movable ring can move back and forth to collide with foreign objects, the carrier is subjected to vibration force, and the quick falling and separation of the carton packages on the front end face of the movable ring are facilitated.)

1. The utility model provides a link joint assembly line that can not fall material, its structure is equipped with conveyor (1), side guard plate (2), driving machine (3), lower plate groove (4), supporting legs (5), conveyor (1) swing joint is inboard in side guard plate (2), driving machine (3) are embedded solid and are installed in the outside position of side guard plate (2) one side, lower plate groove (4) are located conveyor (1) below, supporting legs (5) are embedded solid and are connected in side guard plate (2) bottom, its characterized in that:

the conveying device (1) is provided with a rotating roller body (11), a conveying chain (12) and a carrier (13), the rotating roller body (11) is connected to two side ends of the conveying chain (12) in a transmission mode, and the carrier (13) is connected with the conveying chain (12) and is in movable fit with the conveying chain.

2. A non-dropping link plate production line according to claim 1, characterized in that: the rotary roller body (11) is provided with an automatic rotating shaft (111), a side top roller (112) and a fixed supporting plate (113), the automatic rotating shaft (111) is connected to the inner side end of the side top roller (112) and is movably matched with the inner side end of the side top roller, and the fixed supporting plate (113) is fixedly arranged on the periphery of the side top roller (112).

3. A non-dropping link plate production line according to claim 2, characterized in that: the side top roller (112) is provided with a movable abutting body (a 1) and an inner limiting ring (a 2), and the movable abutting body (a 1) moves around the periphery of the inner limiting ring (a 2).

4. A non-dropping link plate production line according to claim 3, characterized in that: move and support body (a 1) and be equipped with ladder groove (a 11), end hinge axle (a 12), connect pole (a 13), hard end (a 14), top lamella (a 15), tough bracer (a 16), end hinge axle (a 12) embedding is installed at ladder groove (a 11) inside bottom, it is connected with end hinge axle (a 12) to connect pole (a 13) lower extreme, it is connected and clearance fit with hard end (a 14) articulated to connect pole (a 13) upper end, top lamella (a 15) and hard end (a 14) are integrated structure and establish its top end position, tough bracer (a 16) embedding is installed between hard end (a 14) and top lamella (a 15).

5. A non-dropping link plate production line according to claim 4, characterized in that: the top flap (a 15) is provided with tough flap block (b 1), arc recess (b 2), rotating ring (b 3), dead axle (b 4), arc recess (b 2) embedding is installed inside tough flap block (b 1), dead axle (b 4) fixed connection is at tough flap block (b 1) front end face, rotating ring (b 3) and dead axle (b 4) cross-under and clearance fit.

6. A non-dropping link plate production line according to claim 1, characterized in that: the carrier (13) is provided with a bottom plate block (131), an arc cavity (132), a hitting ball (133), a dragging belt (134), a bearing plate (135) and a drift diameter (136), the arc cavity (132) and the bottom plate block (131) are of an integrated structure and are arranged in the arc cavity (132), the dragging belt (134) is connected with the hitting ball (133) and is in movable fit with the hitting ball (133), the dragging belt (134) is embedded and movable in the arc cavity (132), the bearing plate (135) is fixedly connected above the bottom plate block (131), and the drift diameter (136) and the bearing plate (135) are of an integrated structure.

7. A non-dropping link plate production line according to claim 6, characterized in that: the drift diameter (136) is provided with a swing rod (c 1), a pulling spring (c 2) and a dynamic ring (c 3), the swing rod (c 1) is hinged to the inner side end of the drift diameter (136), the pulling spring (c 2) is connected with the swing rod (c 1) in a movable fit mode, and the dynamic ring (c 3) is connected to the front end of the swing rod (c 1).

Technical Field

The invention belongs to the field of chain plate production lines, and particularly relates to a chain plate production line free of material falling.

Background

The chain plate conveyor is common equipment on a production line, can bear materials to carry out long-distance ordered conveying, and the chain plates are driven under the support and the guide of a chain guide rail, so that the conveying speed is controlled by personnel, the batch materials are convenient to load in specified frequency, the traditional personnel transportation mode is replaced, and the material conveying efficiency is greatly improved.

Based on the discovery of the inventor, the existing chain plate production line which can not drop materials has the following defects:

the link joint carries the material in circulation under the direction of conveying chain, in order to let the chain adapt to the material that weight differs, be set to more multisection not hard up state usually, utilize side top roller to produce the apical force of side direction to the link joint, be convenient for let the material of loading more fast side direction under the apical force fall off the link joint terminal surface, when carrying lighter cold-stored back shrimp marine products, because the packing box is the wet soft state after cold-stored, and its light in weight, the apical force that receives side top roller is little, cause the speed that the packing box slided off the link joint terminal surface easily to slow, and the phenomenon of wet soft wastepaper adhesion on the link joint terminal surface appears, make the link joint terminal surface unsmooth, when subsequently bearing the shrimp marine products of dress in the carton, lead to transporting unstably.

Therefore, a chain plate production line without material dropping needs to be provided.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a chain plate production line without material dropping so as to solve the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the chain plate assembly line without material dropping structurally comprises a conveying device, a side guard plate, a driving machine, a lower plate groove and supporting legs, wherein the conveying device is movably connected to the inner side of the side guard plate, the driving machine is fixedly embedded in the outer side of one side end of the side guard plate, the lower plate groove is located below the conveying device, and the supporting legs are fixedly embedded at the bottom of the side guard plate.

The conveying device is provided with a rotating roller body, a conveying chain and a carrier, the rotating roller body is connected to the two side ends of the conveying chain in a transmission mode, and the carrier is connected with the conveying chain and movably matched with the conveying chain.

As a further improvement of the invention, the rotary roller body is provided with a rotating shaft, a side top roller and a fixed supporting plate, the rotating shaft is connected to the inner side end of the side top roller and is movably matched with the side top roller, the fixed supporting plate is fixedly arranged on the periphery of the side top roller, the side top roller is of a circular ring structure and can perform annular expansion and contraction activities, and the diameter width of the fixed supporting plate is larger than that of the side top roller.

As a further improvement of the invention, the side top roller is provided with a movable supporting body and an inner limiting ring, the movable supporting body moves around the periphery of the inner limiting ring, the movable supporting body is annularly distributed about the inner limiting ring, five groups of the movable supporting body are arranged, and the inner limiting ring rotates along with the movable supporting body and can slide outwards.

As a further improvement of the present invention, the movable supporting body is provided with a ladder groove, a bottom hinge shaft, a connecting rod, a hard bottom, a top flap, and a flexible supporting block, the bottom hinge shaft is embedded in the bottom end of the ladder groove, the lower end of the connecting rod is connected with the bottom hinge shaft, the upper end of the connecting rod is hinged and movably matched with the hard bottom, the top flap and the hard bottom are integrated and are arranged at the top end position thereof, the flexible supporting block is embedded and arranged between the hard bottom and the top flap, the connecting rod has flexible elasticity, the top flap is in an arc-shaped top end and is made of a silica gel material and has certain flexibility, and the flexible supporting block is made of a rubber material with a setting variable force.

As a further improvement of the invention, the top flap is provided with a tough flap block, an arc groove, a movable ring and a fixed shaft, the arc groove is embedded and installed inside the tough flap block, the fixed shaft is fixedly connected to the front end face of the tough flap block, the movable ring is in cross connection and movable fit with the fixed shaft, the movable ring is in a circular ring structure, and the arc groove is in a concave arc groove state.

As a further improvement of the invention, the carrier is provided with a bottom plate, an arc cavity, a ball striking, a pulling belt, a bearing plate and a drift diameter, the arc cavity and the bottom plate are in an integrated structure and are arranged in the arc cavity, the pulling belt is connected with the ball striking and movably matched with the ball striking, the pulling belt is embedded in the arc cavity and movably arranged in the arc cavity, the bearing plate is fixedly connected above the bottom plate, the drift diameter and the bearing plate are in an integrated structure, the ball striking is a sphere with a certain weight, the pulling belt has elastic pulling force, and the drift diameter is in a vertically through structure.

As a further improvement of the invention, the drift diameter is provided with a swing rod, a pulling spring and a dynamic ring, the swing rod is hinged at the inner side end of the drift diameter, the pulling spring is connected with the swing rod and movably matched with the swing rod, the dynamic ring is connected at the front end of the swing rod, the dynamic ring is a ball ring with a certain weight, and the swing rod performs ninety-degree swing movement.

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

1. the side top roller rotates along with the rotation of the rotation shaft, so that the movable supporting body can perform annular expansion and contraction change under different forces, the telescopic property of the connecting rod assists the arc-shaped top flap to flexibly abut against the lower end face of the carrier, the flexible supporting of the flexible supporting block provides extrusion buffering force for the flexible supporting block, and meanwhile, reverse jacking force is generated for the flexible supporting block, so that the flexible supporting block can be deformed along with the size of extrusion force, the side jacking force is flexibly controlled, the moving ring moves back and forth to enable the flexible supporting block to collide with foreign objects, the carrier is subjected to shaking force, and the carton packing materials on the front end face of the carrier can be favorably and quickly separated.

2. Through the arcuation space chamber of arc cavity, produce the jarring power more easily, the supplementary batting of elasticity nature of pulling the area can be made diversified displacement in the arc cavity, by the penetrating state in latus rectum, make the air current change that vibrations produced outwards pass, and further conduct the loading board with the jarring power, only carry out a ninety degrees pendulum by the pendulum rod and fold, its atress is heavy to dragging the spring and is produced and drag the power, and the drive is dragged the spring and is pulled up its port elasticity before the latus rectum, make the vigor ring act on the outer port in latus rectum, the collision of production can be knocked off remaining wastepaper.

Drawings

Fig. 1 is a schematic structural diagram of a chain plate production line without material dropping.

Fig. 2 is a schematic diagram of an internal side view of a conveying device according to the present invention.

Fig. 3 is a schematic diagram of an internal side view of a conveying device according to the present invention.

FIG. 4 is a schematic diagram of an internal side view of a side-lift roller according to the present invention.

Fig. 5 is a schematic diagram of an internal side view structure of a movable support body according to the present invention.

Fig. 6 is a schematic diagram of an internal side view of a top flap of the present invention.

FIG. 7 is a schematic diagram of an internal side view of a carrier according to the present invention.

FIG. 8 is a schematic diagram of an internal side view of a bore of the present invention.

In the figure: the device comprises a conveying device-1, a side guard plate-2, a driving machine-3, a lower plate groove-4, a supporting leg-5, a rotating roller body-11, a conveying chain-12, a carrier-13, a rotating shaft-111, a side top roller-112, a fixed supporting plate-113, a dynamic supporting body-a 1, an inner limit ring-a 2, a ladder groove-a 11, a bottom hinge shaft-a 12, a connecting rod-a 13, a hard bottom-a 14, a top flap-a 15, a tough supporting block-a 16, a tough flap block-b 1, an arc groove-b 2, a dynamic ring-b 3, a fixed shaft-b 4, a bottom plate block-131, an arc cavity-132, a batting-133, a dragging belt-134, a bearing plate-135, a through diameter-136, a swing rod-c 1, a dragging spring-c 2 and a dynamic ring-c 3.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides a chain plate assembly line without material falling, which is structurally provided with a conveying device 1, a side guard plate 2, a driving machine 3, a lower plate groove 4 and supporting legs 5, wherein the conveying device 1 is movably connected to the inner side of the side guard plate 2, the driving machine 3 is fixedly embedded at the outer side position of one side end of the side guard plate 2, the lower plate groove 4 is positioned below the conveying device 1, and the supporting legs 5 are fixedly connected to the bottom of the side guard plate 2.

The conveying device 1 is provided with a rotary roller body 11, a conveying chain 12 and a carrier 13, wherein the rotary roller body 11 is connected to two side ends of the conveying chain 12 in a transmission manner, and the carrier 13 is connected with the conveying chain 12 and is in movable fit with the conveying chain 12.

Wherein, it is equipped with rotation shaft 111, side top roller 112, solid fagging 113 to change roll body 11, rotation shaft 111 is connected at 112 medial extremity of side top roller and clearance fit, solid fagging 113 is fixed to be located 112 peripheries of side top roller, side top roller 112 is the ring structure and can carries out cyclic annular expansion and contraction activity, the footpath width of solid fagging 113 is greater than side top roller 112, side top roller 112 expands and contracts the activity and is convenient for produce different side top dynamics to the outside.

The side top roller 112 is provided with a movable abutting body a1 and an inner limit ring a2, the movable abutting body a1 moves around the outer periphery of the inner limit ring a2, the movable abutting bodies a1 are annularly distributed around the inner limit ring a2, five groups are arranged, and the inner limit ring a2 rotates along with the movable abutting body a1 and can slide outwards, so that the whole annular amplification movement is realized.

The dynamic supporting body a1 is provided with a ladder groove a11, a bottom hinge shaft a12, a connecting rod a13, a hard bottom a14, a top flap a15 and a tough supporting block a16, the bottom hinge shaft a12 is embedded in the bottom end of the ladder groove a11, the lower end of the connecting rod a13 is connected with the bottom hinge shaft a12, the upper end of the connecting rod a13 is hinged and movably matched with the hard bottom a14, the top flap a15 and the hard bottom a14 are of an integrated structure and are arranged at the top end position of the integrated structure, the tough supporting block a16 is embedded and arranged between the hard bottom a14 and the top flap a15, the connecting rod a13 has telescopic elasticity, the top flap a15 is of an arc-shaped top end and is made of silica gel and has certain toughness, the tough supporting block a16 is made of rubber material with a shaping variable force and has a supporting effect, and the top flap a15 is deformed under the assistance of the connecting rod a16 and is deformed along with the force of the connecting rod a13 to assist in overall position change.

The top flap a15 is provided with a tough flap block b1, an arc groove b2, a movable ring b3 and a fixed shaft b4, the arc groove b2 is embedded inside the tough flap block b1, the fixed shaft b4 is fixedly connected to the front end face of the tough flap block b1, the movable ring b3 is in penetrating and movable fit with the fixed shaft b4, the movable ring b3 is of a circular ring structure, the arc groove b2 is of a concave arc groove state, and the movable ring b3 penetrates the fixed shaft b4 to move to a certain extent so as to generate tremor force on an object.

The specific use mode and function of the embodiment are as follows: the personnel put the shrimp seafood packaged by the paper box on the upper end surface of the carrier 13, start the driving machine 3, make the conveying chain 12 transmit under the coordination of the fixed supporting plate 113, rotate with the rotation shaft 111 by the side top roller 112, facilitate the body a1 of dynamic resistance to carry on the change of annular expansion and contraction under the action of different forces, the flexible nature of the connecting rod a13, facilitate its articulation and bring the hard bottom a14 to slip, assist the flexible conflict of the arcuate top flap a15 and carrier 13 lower end surface, the toughness of the flexible supporting block a16 supports and provides its extrusion buffering power, produce its reverse jacking force at the same time, facilitate the flexible flap b1 to contact with the lower end surface of the carrier 13 gradually, and have deformation with the magnitude of the extrusion force, the flexible control side top force, the annular structure of the dynamic ring b3 facilitates its cross-connection fixed axis b4 can have certain displacement, the arc groove b2 provides its activity space, facilitate the flexible ring b3 of the flexible flap b1 to act on the carrier further with the bottom end of the carrier, the back and forth displacement of the movable ring b3 makes it collide with foreign objects, so that the carrier 13 is subjected to vibration force, which is beneficial to the quick falling off of the carton package on the front end face.

Example 2:

as shown in fig. 7 to 8:

the carrier 13 is provided with a bottom plate block 131, an arc cavity 132, a striking ball 133, a pulling belt 134, a bearing plate 135 and a through diameter 136, the arc cavity 132 and the bottom plate block 131 are integrated and arranged in the inner part, the pulling belt 134 is connected with the striking ball 133 and movably matched, the pulling belt 134 is embedded in the arc cavity 132 and movably matched, the bearing plate 135 is fixedly connected above the bottom plate block 131, the through diameter 136 and the bearing plate 135 are integrated, the striking ball 133 is a sphere with a certain weight, the pulling belt 134 has elastic pulling force, the through diameter 136 is a through structure from top to bottom, the striking ball 133 acts on the lower end of the bearing plate 135 under the pulling of the pulling belt 134 to generate striking force, and the substance on the outer end face of the bearing plate 135 is conveniently struck down through the through diameter 136.

The drift diameter 136 is provided with a swing rod c1, a pull spring c2 and a movable ring c3, the swing rod c1 is hinged to the inner end of the drift diameter 136, the pull spring c2 is connected with the swing rod c1 in a movable fit mode, the movable ring c3 is connected to the front end of the swing rod c1, the movable ring c3 is a ball ring with a certain weight, the swing rod c1 is in a ninety-degree swing motion, the swing rod c1 transversely swings under the gravity condition borne by the movable ring c3, and the movable ring c3 is driven to act on the outer end opening of the drift diameter 136 under the elastic action of the pull spring c 2.

The specific use mode and function of the embodiment are as follows: through the arc-shaped space cavity of the arc cavity 132, after the bottom plate block 131 is vibrated, the vibration force is more easily generated in the arc cavity 132, the driving striking ball 133 is favorably activated, the elastic property of the dragging belt 134 assists the striking ball 133 to make multidirectional displacement in the arc cavity 132, the through state of the through diameter 136 enables the airflow change generated by vibration to be transmitted outwards, and further the vibration force is transmitted to the bearing plate 135, when the carrier 13 is in a lateral direction, the swing rod c1 has the tendency of swinging downwards along with the gravity of the active ring c3, the swing rod c1 only carries out a ninety-degree swinging folding, the swinging force is generated by the gravity on the dragging spring c2, the dragging spring c2 is driven to elastically pull the dragging spring towards the front port of the through diameter 136, the active ring c3 acts on the outer port of the through diameter 136, and the generated collision can knock off the residual paper scraps.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.