阅读说明：本技术 一种组装流水线及使用方法 (Assembly line and use method ) 是由 陈树海 于 2019-11-22 设计创作，主要内容包括：本发明公开了一种组装流水线及使用方法,其结构包括底固箱、转控箱、内接口,转控箱下表面与底固箱上表面相连接,让转压轮推动物料进行流水处理,当物料置于转压轮之间时,其将会顺着凹口内部进行放置,抵触在外软层外,根据内部部位的变化而产生伸缩,并且对其起到防护的作用,让渐压角顺着转柱持续转动,由展叠芯跟随方向展开,由硬力芯固定大致的位置,延伸展边跟随伸展辅助摆动的距离与力,根据外力的变动而产生伸展效果,让硬力边外侧抵触的较硬截面被逐渐压下,形成所需的弧度,能够在物料流水处理到末端时,内部压轮的伸展角度根据物料进行伸展扩开,让其能够跟随物料的形态对其进行压迫,防止出现硬碰硬出现的划损。(The invention discloses an assembly line and a using method thereof, the structure comprises a bottom fixing box, a rotary control box and an inner interface, the lower surface of the rotary control box is connected with the upper surface of the bottom fixing box, a rotary pressure wheel pushes materials to carry out flowing water treatment, when the materials are arranged between the rotary pressure wheels, the materials are placed along the inner part of a notch and are abutted outside an outer soft layer, the materials are expanded and contracted according to the change of the inner part and play a role of protecting the materials, a gradually-pressing angle is continuously rotated along a rotary column and is expanded along the following direction of an expansion core, a hard force core fixes the approximate position, the expansion edge is extended along the distance and the force of auxiliary expansion swing, the expansion effect is generated according to the change of an external force, the harder cross section abutted on the outer side of the hard force edge is gradually pressed down to form the required radian, and the expansion angle of the inner pressure wheel can be expanded according to the materials when the materials are treated to, let its form that can follow the material oppress it, prevent to appear the scratch damage that hard to touch hard appearance.)

1. The utility model provides a rotatory die mould assembly line of spiral coil pipe product, its structure includes solid case (11) in end, changes accuse case (22), inner joint (33), commentaries on classics pinch roller (44), its characterized in that:

the lower surface of the rotation control box (22) is connected with the upper surface of the bottom fixing box (11), the inner interface (33) is embedded in the rotation control box (22), and the rotation pressing wheel (44) is installed in the inner interface (33);

the rotating and pressing wheel (44) comprises a gradual pressing angle (aa1), a rotating column (aa2) and an outer protective ring (aa3), wherein the rotating column (aa2) is embedded inside the outer protective ring (aa3) and is positioned on the same axis, and one end, away from the rotating column (aa2), of the outer protective ring (aa3) is connected with the gradual pressing angle (aa 1);

the steering column (aa2) comprises a homeotropic concave angle (tt01), a notch (tt02) and a king post (tt03), wherein the homeotropic concave angle (tt01) abuts against the outer surface of the king post (tt03), and the notch (tt02) is embedded inside the homeotropic concave angle (tt 01).

2. The rotary-pressing assembly line of spiral coil products according to claim 1, wherein: the homeotropic concave angle (tt01) comprises an extension head (qw1), an outer soft layer (qw2), a uniform force arc strip (qw3), a fixed arc (qw4) and an inner concave angle (qw5), wherein the extension head (qw1) is connected with the uniform force arc strip (qw3), the uniform force arc strip (qw3) is embedded in the outer soft layer (qw2), and the inner concave angle (qw5) is attached to the inner wall of the fixed arc (qw 4).

3. The rotary-pressing assembly line of spiral coil products according to claim 1, wherein: gradually press angle (aa1) including hard power angle (g01), hard power limit (g02), parting bead strip (g03), exhibition folding core (g04), install in parting bead strip (g03) inner wall hard power angle (g01), exhibition folding core (g04) is connected with parting bead strip (g03), hard power limit (g02) is connected with parting bead strip (g 03).

4. A rotary-press assembly line for spiral coil products as claimed in claim 3, wherein: the hard edge (g02) comprises an inner uniform ball (z11), an outer angle (z22), a slow angle (z33) and a hard core (z44), wherein the inner uniform ball (z11) is installed inside the outer angle (z22), the outer angle (z22) is attached to the slow angle (z33), and the outer surface of the hard core (z44) is connected with the inner wall of the slow angle (z 33).

5. A rotary-press assembly line for spiral coil products as claimed in claim 3, wherein: the folding core (g04) comprises a hard force core (as1), an extending expansion edge (as2), a fixed force head (as3) and a rubber head (as4), wherein the rubber head (as4) is connected with the hard force core (as1), the extending expansion edge (as2) is attached to the outer surface of the hard force core (as1), and the extending expansion edge (as2) is connected with the fixed force head (as 3).

6. An assembly line and method of use according to any one of claims 1 to 5, wherein:

in the invention, materials to be processed are placed in the rotating wheels (44), the rotating wheels (44) push the materials to be processed for flowing water through the operation of the rotating control box (22), when the materials are placed between the rotating wheels (44), the materials are placed along the inner part of the notch (tt02) and are butted outside the outer soft layer (qw2), extending heads (qw1) pocket the materials on two sides, a uniform force arc strip (qw3) swings along the direction of the extending head (qw1) pocket to protect the materials, the outer soft layer (qw2) is weighted to continuously press the materials inwards, and an inner concave angle (qw5) in the inner part expands the pocket range of the materials;

the fixed arc (qw4) fixes the radian of the most part, the gradual pressing angle (aa1) continuously rotates along the rotating column (aa2) to process and press the materials, and when the materials are processed to the section of the tail end, the section of the materials moves along the hard force edge (g02) and is unfolded along the following direction of the folding core (g 04);

the hard force core (as1) fixes approximate position, the extending edge (as2) is used for assisting the swinging distance and force of the extension, the extending core (g04) rotates and extends for a distance to abut against the external hard force edge (g02), the inner uniform ball (z11) can uniformly disperse the force exerted inside, the outer angle (z22) abuts against the outer side, the hard cores (z44) between the hard force cores can assist certain hard force, and the hard section abutted against the outer side of the hard force edge (g02) is gradually pressed down to form the required radian.

Technical Field

The invention belongs to the field of assembly production lines, and particularly relates to an assembly production line and a using method.

Background

Inside the straight reinforcing bar input device of a level, through the rotation between the pinch roller, the spiral coil pipe product carries out flowing water to the spiral coil pipe and handles, lets the reinforcing bar of depositing to remove between the pinch roller be certain direction and turns, and the heliciform is convoluteed into by certain radian extrusion to law and even.

Based on the findings of the inventor, the existing assembly line of the spiral coil pipe product mainly has the following defects, such as:

because the reinforcing bar itself has certain hardness, it still is harder than the middle-end when its section hardness of circling to its terminal of tail end is still steel, when the roll-up tail end was closed, the corner of its tail end scraped colored pinch roller more easily to give the great conflict counter-force of pinch roller, cause the damage of equipment easily.

It is therefore desirable to provide an assembly line and method of use.

Disclosure of Invention

In order to solve the problem that in the prior art, because the steel bar has certain hardness, when the steel bar is coiled to the tail end, the section hardness of the tail end of the steel bar is harder than that of the middle end of the steel bar, when the tail end is coiled for ending, the corners of the tail end of the steel bar are easy to scrape the pinch roller, and the pinch roller is provided with larger conflict counter force, so that equipment is easy to damage.

The invention relates to an assembly line and a use method, and aims and effects are achieved by the following specific technical means:

the structure of the device comprises a bottom fixing box, a rotary control box, an inner interface and a rotary pressure wheel.

The lower surface of the rotary control box is connected with the upper surface of the bottom fixing box, the inner interface is embedded into the rotary control box, and the rotary pressure wheel is arranged in the inner interface.

The rotary pressing wheel comprises a gradually-pressing angle, a rotary column and an outer protective ring, the rotary column is embedded into the inner portion of the outer protective ring and located on the same axis, and one end, far away from the rotary column, of the outer protective ring is connected with the gradually-pressing angle.

As a further improvement of the invention, the rotating column comprises a homeotropic concave angle, two notches and a central column, wherein the homeotropic concave angle is abutted against the outer surface of the central column, the notches are embedded into the homeotropic concave angle, the homeotropic concave angles are symmetrically distributed, the central column is in a cylindrical structure, and the notches are in an arc structure.

As a further improvement of the invention, the consequent concave angle comprises an extension head, an outer soft layer, even force arc strips, a fixed arc and an inner concave angle, the extension head is connected with the even force arc strips, the even force arc strips are embedded in the outer soft layer, the inner concave angle is attached to the inner wall of the fixed arc, four even force arc strips are arranged, two arc strips are arranged in one group, and two extension heads are arranged.

As a further improvement of the invention, the gradual pressing angle comprises a hard force angle, a hard force edge, a separating edge and three unfolding and folding cores, the hard force angle is arranged on the inner wall of the separating edge, the unfolding and folding cores are connected with the separating edge, the hard force edge is connected with the separating edge, the number of the unfolding and folding cores is three, the separating edge is made of rubber materials and has certain toughness, and the number of the hard force edge is three.

As a further improvement of the invention, the hard edge comprises an inner uniform ball, an outer corner, a gentle corner and a hard core, the inner uniform ball is arranged inside the outer corner, the outer corner is attached to the gentle corner, the outer surface of the hard core is connected with the inner wall of the gentle corner, the inner uniform ball is of a spherical structure, and the number of the outer corners is two.

As a further improvement of the invention, the unfolding and folding core comprises a hard core, three extending edges, three fixing heads and three rubber heads, wherein the three extending edges are attached to the outer surface of the hard core, the three extending edges are connected with the fixing heads, and the rubber heads are made of rubber materials and have certain protection performance.

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

the rotating pressing wheels push the materials to carry out flowing water treatment, when the materials are arranged between the rotating pressing wheels, the materials are arranged along the inner part of the notch and are abutted against the outer soft layer, the expansion and contraction are generated according to the change of the inner part, the protection effect is achieved, the inner concave angle is used for expanding the range of the inlet, the fixed arc fixes the radian of the large part, so that the gradually pressing angle continuously rotates along the rotating column, the unfolding core unfolds along the following direction, the hard force core fixes the approximate position, the unfolding edge extends along the distance and the force of the unfolding auxiliary swing, the stretching effect is generated according to the change of the external force, the harder section which is propped against the outer side of the hard edge is gradually pressed down to form the required radian, when the material flowing water is treated to the tail end, the extension angle of inside pinch roller extends according to the material and expands out, lets its form that can follow the material oppress it, prevents to appear touching the drawing damage that hard appears.

Drawings

FIG. 1 is a schematic diagram of an assembly line and a method of use according to the present invention.

Fig. 2 is a schematic front view of an internal structure of a platen according to the present invention.

Fig. 3 is a schematic diagram of a right-view internal structure of a rotary column according to the present invention.

FIG. 4 is a schematic view of an elevational view of the interior structure of a homeotropic concave angle of the present invention.

FIG. 5 is a schematic view of an elevation view of an internal structure of a pressure-gradient angle according to the present invention.

Fig. 6 is a schematic front view of the hard edge according to the present invention.

Fig. 7 is a schematic front view of an inside structure of an expandable core according to the present invention.

In the figure: the device comprises a bottom fixing box-11, a rotation control box-22, an inner interface-33, a rotation pressing wheel-44, a gradual pressing angle-aa 1, a rotation column-aa 2, an outer protective ring-aa 3, a homeotropic concave angle-tt 01, a notch-tt 02, a central column-tt 03, a extension head-qw 1, an outer soft layer-qw 2, a uniform force arc strip-qw 3, a fixed arc-qw 4, an inner concave angle-qw 5, a hard force angle-g 01, a hard force edge-g 02, a spacer strip-g 03, a spread core-g 04, an inner uniform ball-z 11, an outer angle-z 22, a slow angle-z 33, a hard core-z 44, a hard force core-as 1, an extension edge-2, a fixed force head-as 3 and a rubber head-as 4.

Detailed Description

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

example (b):

as shown in figures 1 to 7:

the invention provides an assembly line and a use method thereof, and the structure of the assembly line comprises a bottom fixing box 11, a rotary control box 22, an inner interface 33 and a rotary pressure wheel 44.

The lower surface of the rotation control box 22 is connected with the upper surface of the bottom fixing box 11, the inner interface 33 is embedded in the rotation control box 22, and the rotation pressing wheel 44 is installed in the inner interface 33.

The pressure wheel 44 comprises a gradual pressing angle aa1, a rotating column aa2 and an outer protective ring aa3, wherein the rotating column aa2 is embedded inside the outer protective ring aa3 and is positioned on the same axis, and one end, far away from the rotating column aa2, of the outer protective ring aa3 is connected with the gradual pressing angle aa 1.

The rotating column aa2 comprises a homeotropic concave angle tt01, notches tt02 and a central column tt03, the homeotropic concave angle tt01 abuts against the outer surface of the central column tt03, the notches tt02 are embedded into the homeotropic concave angle tt01, the homeotropic concave angle tt01 is provided with two notches and symmetrically distributed, the central column tt03 is of a cylindrical structure, the notches tt02 are of an arc structure, the central column tt03 fixes the whole movable range and position, the notches tt02 enables a foreign object to more accurately abut against the corresponding position, and the homeotropic concave angle tt01 deforms according to external force and provides certain interference counter force for the external force.

The homeotropic concave angle tt01 comprises an extension head qw1, an outer soft layer qw2, a uniform force arc strip qw3, a fixed arc qw4 and an inner concave angle qw5, wherein the extension head qw1 is connected with the uniform force arc strip qw3, the uniform force arc strip qw3 is embedded inside an outer soft layer qw2, the inner concave angle qw5 is attached to the inner wall of a fixed arc qw4, four uniform force arc strips qw3 are arranged, two extension heads qw1 are arranged, the extension heads qw1 can extend the stressed area of a joint part, the outer soft layer qw2 stretches and stretches according to the change of the inner part and plays a protection role for the inner concave angle, the inner concave angle qw5 plays a role in expanding the external concave angle, and the fixed arc qw 32 generally gives a fixed arc 4.

The gradual pressing angle aa1 comprises a hard force angle g01, hard force edges g02, a separating edge strip g03 and an unfolding core g04, the hard force angle g01 is installed on the inner wall of the separating edge strip g03, the unfolding core g04 is connected with the separating edge strip g03, the hard force edges g02 are connected with the separating edge strip g03, the number of the unfolding core g04 is three, the separating edge strip g03 is made of rubber materials and has certain toughness, the number of the hard force edges g02 is three, the hard force edges g02 give certain resisting hard force to the outside, the hard force angles g01 are arranged at the positions of the internal positions, the unfolding core g04 is stretched according to the rotating force to press the external convex positions, and the separating edge strip g03 separates the internal main positions.

The hard force edge g02 comprises an inner uniform ball z11, an outer angle z22, a slow angle z33 and a hard core z44, wherein the inner uniform ball z11 is installed inside the outer angle z22, the outer angle z22 is attached to the slow angle z33, the outer surface of the hard core z44 is connected with the inner wall of the slow angle z33, the inner uniform ball z11 is of a sphere structure, two outer angles z22 are arranged, the outer angle z22 mainly plays a role in protecting an internal force application part, the force of the outer side and the inner side of the inner uniform ball z11 can be uniformly distributed, and the hard core z44 assists the internal part to give a fixed hard force.

The folding core g04 comprises a hard force core as1, three extending expansion edges as2, a fixed force head as3 and rubber protection heads as4, wherein the rubber protection heads as4 are connected with the hard force core as1, the outer surface of the hard force core as1 is attached with the extending expansion edges as2, the extending expansion edges as2 are connected with the fixed force heads as3, the number of the hard force cores as1 is three, the number of the rubber protection heads as4 is three, the rubber protection heads as4 are made of rubber materials and have certain protection performance, the hard force cores as1 control the approximate position of the whole, the extending expansion edges as2 generate a stretching effect according to the change of external force, and the rubber protection heads as4 can play a protection role when the joint part moves.

The specific use mode and function of the embodiment are as follows:

in the invention, a material to be processed is placed in the rotary pressing wheels 44, the rotary pressing wheels 44 push the material to be processed in a flowing manner through the operation of the rotary control box 22, when the material is placed between the rotary pressing wheels 44, the material is placed along the inside of the notch tt02 and is abutted against the outside of the outer soft layer qw2, the material is wrapped at two sides by the extending heads qw1, the uniform force arc strip qw3 swings along the direction of the extending head qw1 wrapping to protect the material, the outer soft layer qw2 is stressed and continuously pressed, the inner concave angle qw5 inside expands the pocket mouth range, the fixed arc qw4 fixes the radian of the large part, the gradually pressing angle aa1 rotary column aa2 continuously rotates to process and press the material along the hard force edge g02, when the material is processed to the section of the tail end, the section of the material moves along the hard force edge g02 and is unfolded along the direction, the hard force edge 1 approximately fixes the position, the hard force edge as is extended to approximately, the auxiliary expansion distance and the auxiliary expansion force is reached, the distance that its exhibition folding core g04 rotated the extension will contradict external hard power limit g02, and even ball z11 in will evenly disperse the power that inside was exerted and is exerted and spread, is contradicted outward by outer angle z22, and hard core z44 between it will assist certain hard power, and the harder cross-section of letting hard power limit g02 outside contradict is pushed down gradually, forms required radian.

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.