CN111874307B - Steel band forming device and steel band baling equipment - Google Patents

Steel band forming device and steel band baling equipment Download PDF

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Publication number
CN111874307B
CN111874307B CN202010678965.1A CN202010678965A CN111874307B CN 111874307 B CN111874307 B CN 111874307B CN 202010678965 A CN202010678965 A CN 202010678965A CN 111874307 B CN111874307 B CN 111874307B
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steel strip
steel
seat
base
profiling
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CN111874307A (en
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不公告发明人
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Jiangsu hydrogen guide intelligent equipment Co.,Ltd.
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Jiangsu Hydrogen Guide Intelligent Equipment Co ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B13/00Bundling articles
    • B65B13/02Applying and securing binding material around articles or groups of articles, e.g. using strings, wires, strips, bands or tapes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B13/00Bundling articles
    • B65B13/18Details of, or auxiliary devices used in, bundling machines or bundling tools
    • B65B13/22Means for controlling tension of binding means

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Basic Packing Technique (AREA)

Abstract

The invention relates to a steel belt forming device and steel belt packaging equipment. The steel strip forming device acts on a steel strip, the steel strip is provided with a first end and a second end opposite to the first end, and the steel strip forming device comprises a steel strip penetrating mechanism and a profiling mechanism which are respectively positioned on two sides of a galvanic pile in a first direction; the steel strip penetrating mechanism is used for guiding the first end of the steel strip to one side, facing the profiling mechanism, of the galvanic pile so as to bend towards a second direction perpendicular to the first direction under the action of the profiling mechanism, and is also used for bending the second end of the steel strip towards the second direction. So, utilize steel band forming device's guide effect to realize wearing the steel band for the first end and the second end of steel band are located the pile both sides on the first direction respectively, and hold the first end and the second of steel band and bend to the second direction, make two draw the first end and the second end that the steel band device snatched the steel band respectively and taut steel band simultaneously, and whole process need not artifical the participation, and degree of automation is high, is favorable to improving production efficiency.

Description

Steel band forming device and steel band baling equipment
Technical Field
The invention relates to the technical field of fuel cell manufacturing, in particular to a steel strip forming device and steel strip packaging equipment.
Background
During the assembly of the stack of the fuel cell, the stack needs to be packed. Common packaging methods include a screw tightening method, a woven belt or steel belt binding method, and a steel belt binding and welding method. The former two modes need to adopt screw thread locking, are easy to loosen and seriously affect the performances of the galvanic pile such as sealing, durability and safety.
The steel band bundling and welding method is to bundle the galvanic pile with a steel band and then weld both ends of the steel band to the bottom plate of the galvanic pile, thereby preventing looseness from occurring. In order to realize tying up the galvanic pile, need artifical supplementary top of wearing to locate the galvanic pile with the steel band generally to bend the both ends of steel band downwards, in order to supply to draw the steel band device taut, degree of automation is low, and operating personnel work load is big, influences production efficiency.
Disclosure of Invention
Based on this, it is necessary to wear to locate the top of pile with the steel band to need artifical supplementary among the prior art to bend the both ends of steel band downwards and draw the steel band device taut in order to supply, lead to degree of automation low, operating personnel work load is big, influence production efficiency's problem, provide a steel band forming device and steel band baling equipment who improves above-mentioned defect.
A steel strip forming device acts on a steel strip, the steel strip is provided with a first end and a second end opposite to the first end, and the steel strip forming device comprises a steel strip penetrating mechanism and a profiling mechanism which are respectively positioned on two sides of a galvanic pile in a first direction;
the steel strip penetrating mechanism is used for guiding the first end of the steel strip to one side, facing the profiling mechanism, of the galvanic pile so as to bend the steel strip towards a second direction perpendicular to the first direction under the action of the profiling mechanism, and the steel strip penetrating mechanism is also used for bending the second end of the steel strip towards the second direction.
In one embodiment, the steel strip penetrating mechanism comprises an installation seat, a lifting seat and a clamping assembly, the lifting seat is connected to the installation seat in a reciprocating manner along the second direction, and the clamping assembly is arranged on the installation seat and used for allowing the steel strip to penetrate along the first direction and clamping the steel strip.
In one embodiment, the steel strip penetrating mechanism further comprises a rotary driving piece arranged on the lifting seat, and the clamping assembly is arranged at the driving end of the rotary driving piece and used for driving the clamping assembly to rotate around a rotating axis parallel to the third direction;
wherein the third direction is perpendicular to the first direction and the second direction.
In one embodiment, the steel strip penetrating mechanism further comprises a first welding protection cover arranged on the mounting seat, the first welding protection cover can be controlled to move or rotate, and the second end of the steel strip can be pressed against the galvanic pile in the moving or rotating process.
In one embodiment, the profiling mechanism has a profiling channel comprising an inlet section into which the first end of the steel strip is inserted and an outlet section in communication with the inlet section, the inlet section extending in the first direction and the outlet section in the second direction.
In one embodiment, the inlet section and the outlet section are in circular arc transition.
In one embodiment, the cam mechanism includes a mounting base and first and second opposing cams disposed on the mounting base, the first and second cams being movable toward and away from each other and forming the cam channel when the first and second cams abut each other.
In one embodiment, the profiling mechanism further comprises a second welding protection cover arranged on the mounting base, the second welding protection cover can be controlled to move or rotate, and the first end of the steel strip can be pressed against the pile in the moving or rotating process.
In one embodiment, the profiling mechanism further comprises a base and an adjusting mechanism, the mounting base is movably connected to the base along the first direction, and the adjusting mechanism is connected to the base and the mounting base and used for adjusting the position of the mounting base relative to the base along the first direction.
A steel strip baling device including a steel strip baling device as described in any one of the above embodiments.
Above-mentioned steel band forming device and steel band baling equipment utilize steel band forming device's the guide effect of wearing steel band mechanism to realize wearing the steel band for the first end and the second end of steel band are located the pile respectively in the both sides of first direction, and bend the first end of steel band to the second direction under the effect of profiling mechanism at the in-process of wearing the steel band, make corresponding draw the taut this first end of steel band device. After the steel belt is penetrated, the steel belt penetrating mechanism bends the second end of the steel belt towards the second direction, so that the corresponding steel belt pulling device tensions the second end, the whole process does not need manual participation, the automation degree is high, and the improvement of the production efficiency is facilitated.
Drawings
FIG. 1 is a schematic structural view of a steel strip baling apparatus according to an embodiment of the present invention;
FIG. 2 is a schematic view showing the structure of a pressing device of the steel strip wrapping apparatus shown in FIG. 1;
FIG. 3 is a steel strip forming apparatus of the steel strip baling device shown in FIG. 1;
FIG. 4 is a front view of a steel strip passing mechanism of the steel strip forming apparatus shown in FIG. 3;
FIG. 5 is a side view of the steel strap threading mechanism shown in FIG. 4;
FIG. 6 is a front view of a profiling mechanism of the steel strip forming apparatus shown in FIG. 3;
FIG. 7 is a side view of a profiling mechanism of the steel strip forming apparatus shown in FIG. 6;
FIG. 8 is a schematic view showing the operational relationship between the steel strip pulling device and the steel strip of the steel strip baling apparatus shown in FIG. 1;
FIG. 9 is a schematic illustration of the steel strip pulling apparatus of FIG. 8 in operative relationship with a steel strip at another viewing angle;
FIG. 10 is a front view of the steel strip pulling apparatus shown in FIG. 8;
FIG. 11 is an enlarged view of a portion of the positioning mechanism of the steel strip pulling apparatus shown in FIG. 8;
FIG. 12 is a schematic structural view (release position) of a steel strip pulling mechanism of the steel strip pulling apparatus shown in FIG. 8;
FIG. 13 is a schematic structural view (locked position) of a steel strip pulling mechanism of the steel strip pulling apparatus shown in FIG. 8;
fig. 14 is a schematic structural view of a welding device of the steel strip baling apparatus shown in fig. 1.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.
In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.
It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.
Referring to fig. 1 and 2, in an embodiment of the present invention, a steel band packing apparatus is provided for packing a cell stack a with a steel band B, that is, firstly, the cell stack a is bundled with the steel band B, and then both ends of the steel band B are welded to a lower end plate of the cell stack a. Wherein the steel strip B has a first end and a second end opposite to the first end. The steel strip baling equipment comprises a pressurizing device 10, a steel strip forming device 20, two steel strip pulling devices 30 and a welding device 40.
The pressing device 10 includes a base 11 and a pressing plate 12 provided opposite to the base 11. The base 11 has a placement site for the stack a, and the pressing plate 12 is used to press the stack a placed in the placement site. The steel strip forming device 20 is disposed on the base 11, and is configured to guide a first end of the steel strip B from one side of the stack a to the other side of the stack a along a first direction e (generally, the first end of the steel strip B passes through between the top of the stack a and the pressing plate 12, so that the first end and the second end of the steel strip B are respectively located on two opposite sides of the stack a in the first direction e), and bend the first end and the second end of the steel strip B towards a second direction f perpendicular to the first direction e. The two steel strip pulling devices 30 are disposed on the base 11 and respectively located on two sides of the placing position in the first direction e. The two strip pulling devices 30 are used to pull the first and second ends of the strip B in the second direction f, respectively. The welding device 40 is used to weld the first and second ends of the steel strip B to the lower end plates of the stack a, respectively.
Above-mentioned steel band baling equipment, during actual packing operation, the pile is arranged in the position of placing on base 11, and pressure plate 12 of pressure device 10 pushes down in order to pressurize pile A. The steel strip B is conveyed to the steel strip forming device 20, under the guidance of the steel strip forming device 20, the first end of the steel strip B penetrates from one side of the galvanic pile A to the other side of the galvanic pile A through the top of the galvanic pile A along the first direction e, and under the action of the steel strip forming device 20, the first end and the second end of the steel strip B are both bent towards the second direction f. Then, the two steel strip pulling devices 30 respectively grab the first and second ends of the steel strip B and simultaneously pull the steel strip B in the second direction f, and finally, the welding devices 40 respectively weld the first and second ends of the steel strip B to the lower end plates of the stack a.
So, utilize steel band forming device 20's guide effect to realize wearing the steel band for steel band B's first end and second end are located pile A both sides on first direction e respectively, and bend steel band B's first end and second end to second direction f, make two draw steel band device 30 to snatch steel band B's first end and second end respectively and taut steel band B simultaneously. Because the first end and the second end of the steel strip B are simultaneously tensioned by adopting the two steel strip pulling devices 30, the tensioning force of the first end and the second end of the steel strip B can be equal by controlling the two steel strip pulling devices 30, so that the tension of the first end and the tension of the second end of the steel strip B are consistent, the stress of two sides of the pile A is consistent, and the packing effect is favorably improved.
It should be noted that the steel strip B may be transported in the first direction e by a steel strip transporting apparatus (not shown), and the steel strip forming device 20 guides the steel strip B transported in the first direction e such that the first end of the steel strip B passes through the top of the cell stack a to the other side of the cell stack a. The steel belt conveying equipment can adopt the conveying equipment in the prior art, and therefore, the details are not described herein.
In an embodiment of the present invention, the pressing device 10 further includes a guide post 13, a mounting plate 14, and a pressing driving member 15. One end of the guide post 13 is connected to one side of the base 11 having a placement position, and the other end of the guide post 13 is connected to the mounting plate 14. The pressure plate 12 is slidably connected to the guide posts 13 and is located between the mounting plate 14 and the base 11. The pressurizing driving member 15 is disposed on the mounting plate 14 and is in transmission connection with the pressing plate 12 to drive the pressing plate 12 to move along the guide post 13 to pressurize the stack a. Alternatively, the pressure driving member 15 may be a servo hydraulic cylinder or a servo electric cylinder, etc., and is not limited thereto. The longitudinal direction of the guide post 13 is parallel to the second direction f. The guide pillars 13 may include a plurality of guide pillars 13, and the pressing process of the pressing plate 12 on the stack a may be more stable and reliable.
Further, the pressurizing device 10 further includes a pressure sensor 151, and the pressure sensor 151 is connected between the pressure plate 12 and the pressurizing driving member 15, and is used for detecting and acquiring the pressure applied to the stack a by the pressure plate 12.
Further, a plurality of distance measuring sensors 16 are installed on the pressing plate 12 and used for simultaneously detecting the distance between the pressing plate 12 and the base 11, so that the parallelism between the pressing plate 12 and the base 11 can be calculated according to the distance value measured by each distance measuring sensor 16, and the pressing quality of the stack A in the pressing process can be monitored in real time.
Further, the pressing device 10 further includes a limiting sleeve 19, and the limiting sleeve 19 is fixedly connected to the guide pillar 13 and located between the pressing plate 12 and the base 11. The limiting clamping sleeve 19 is used for limiting the pressure plate 12 and preventing the pressure plate 12 from crushing the galvanic pile A or other parts.
In the embodiment, the pressurizing device 10 further includes a stack support seat 17 and a stack pressurizing block 18. The stack support seat 17 is fixedly connected to one side of the base 11 facing the pressing plate 12 and is used for supporting the stack a. The stack pressurizing block 18 is fixedly connected to one side of the pressing plate 12 facing the base 11, and corresponds to the stack supporting seat 17, and is used for pressurizing the stack a. It should be noted that the stack pressurizing block 18 is provided with a through groove penetrating through the stack pressurizing block 18 along the first direction e, so that the steel strip B passes through the through groove.
Referring to fig. 1 and 3, in an embodiment of the present invention, a steel strip forming apparatus 20 includes a steel strip passing mechanism 21 and a profiling mechanism 22, where the steel strip passing mechanism 21 and the profiling mechanism 22 are respectively located on two sides of a stack a at a placement position in a first direction e. The steel strip passing mechanism 21 is used for guiding the first end of the steel strip B to the side of the pile a facing the profiling mechanism 22 so as to be bent in the second direction f under the action of the profiling mechanism 22, and the steel strip passing mechanism 21 is also used for bending the second end of the steel strip B in the second direction f. In this way, the steel strip is threaded by the guiding function of the steel strip threading mechanism 21 of the steel strip forming device 20, so that the first end and the second end of the steel strip B are respectively located at two sides of the pile a in the first direction e, and the first end of the steel strip B is bent towards the second direction f under the action of the profiling mechanism 22 in the steel strip threading process, so that the corresponding steel strip pulling device 30 pulls the first end tightly. After the steel belt is penetrated, the steel belt penetrating mechanism 21 bends the second end of the steel belt B in the second direction f, so that the corresponding steel belt pulling device 30 tensions the second end, the whole process does not need manual participation, the automation degree is high, and the production efficiency is favorably improved.
Referring to fig. 3 to 5, in some embodiments, the steel strip passing mechanism 21 includes a mounting base 211, a lifting base 212, and a clamping assembly 213. The mounting seat 211 is disposed on the base 11, and the lifting seat 212 is connected to the mounting seat 211 in a reciprocating manner along the second direction f. The clamping assembly 213 is disposed on the lifting base 212, and is used for the steel strip B to penetrate through along the first direction e and clamp the steel strip B. So, steel band B wears to locate centre gripping subassembly 213 along the in-process that first direction e was carried (centre gripping subassembly 213 does not carry out the centre gripping to steel band B this moment, allows steel band B to continue to carry along first direction e, centre gripping subassembly 213 only plays the effect of direction), make steel band B's first end wear to pile A's opposite side through pile A's top under centre gripping subassembly 213's guiding effect to steel band B's first end bends to second direction f under profiling mechanism 22's effect, so that draw steel band device 30 to be corresponding to snatch fixedly. Then, the clamping assembly 213 clamps the steel strip B and controls the lifting base 212 to move in the second direction f, so that the second end of the steel strip B is bent in the second direction f to be grasped and fixed by the corresponding steel strip pulling device 30.
In an embodiment, the steel strip passing mechanism 21 further includes a lifting driving assembly 214, and the lifting driving assembly 214 is disposed on the mounting base 211 and is in transmission connection with the lifting base 212, so as to drive the lifting base 212 to reciprocate along the second direction f. Alternatively, the lifting driving assembly 214 may be a linear driving module in the prior art, and is not limited herein.
In an embodiment, the steel strip passing mechanism 21 further includes a rotary driving element 216 disposed on the lifting seat 212, and the clamping assembly 213 is disposed at a driving end of the rotary driving element 216, where the rotary driving element 216 is configured to drive the clamping assembly 213 to rotate around a rotation axis parallel to the third direction g. Wherein the third direction g is perpendicular to the first direction e and the second direction f. In this way, when bending the second end of the steel strip B, the clamping assembly 213 clamps the steel strip B, and the rotary driving member 216 drives the clamping assembly 213 to rotate around the rotation axis parallel to the third direction g while controlling the lifting base 212 to move along the second direction f, so as to ensure that the second end of the steel strip B is bent by 90 ° and is parallel to the second direction f, so that the corresponding steel strip pulling device 30 can grab the second end of the steel strip B and pull the steel strip B along the second direction f. The movement of the lifting seat 212 in the second direction f is matched with the rotation of the clamping assembly 213 around the rotation axis parallel to the third direction g, so that the bending of the second end of the steel strip B in the second direction f is smoother and more reliable. Alternatively, the rotary drive 216 may be a rotary cylinder.
It should be noted that the clamping assembly 213 may adopt a structure of an air cylinder and two clamping rollers, and the air cylinder drives the two clamping rollers to clamp the steel strip B. Of course, in other embodiments, the clamping assembly 213 may also adopt other forms of clamping structures, and is not limited herein.
In a specific embodiment, the steel strip passing mechanism 21 further includes a first welding protection cover 215 disposed on the mounting seat 211. This first welding safety cover 215 can remove or rotate by controlled ground, and can compress tightly steel band B's second end in pile A at removal or pivoted in-process for steel band B hugs closely with pile A and improves the welding effect, and first welding safety cover 215 still plays the guard action to pile A simultaneously, avoids welding the sediment when welding to splash and damages pile A. In one embodiment, the steel strip passing mechanism 21 further comprises a first driving member. The first welding protection cover 215 is movably connected to the mounting base 211, and the first driving member is disposed on the mounting base 211 and is in transmission connection with the first welding protection cover 215 to drive the first welding protection cover 215 to move close to or away from the stack a. Prior to welding, the first drive drives the first welding shoe 215 to move closer to the stack a such that the first welding shoe 215 presses the second end of the steel strip B against the stack. After welding is complete, the first drive drives the first weld shield 215 back (i.e., moving away from stack a). Alternatively, the first driver may be a cylinder.
Specifically, in the embodiment, the steel strip passing mechanism 21 further includes a first moving driving component 210 disposed on the base 11, the mounting seat 211 is disposed on the first moving driving component 210, the first moving driving component 210 is configured to drive the mounting seat 211 to move back and forth along the third direction g, so as to drive the clamping component 213 to enter or exit from a first working position along with the movement of the mounting seat 211 along the third direction g, and the first working position is located on one side of the cell stack a in the first direction e, so as to guide the steel strip B and clamp the steel strip B. Alternatively, the first movement driving assembly 210 may adopt a linear movement module in the prior art, which is not limited herein.
Referring to fig. 3, 6 and 7, in some embodiments, the profiling mechanism 22 has a profiling channel including an inlet section a1 into which the first end of the steel strip B is inserted and an outlet section a2 communicating with the inlet section a 1. The inlet section a1 extends in a first direction e and the outlet section a2 extends in a second direction f. In this way, the first end of the steel strip B passes through the cell stack a under the guiding action of the steel strip passing mechanism 21, is inserted into the profiling channel from the inlet section a1, and moves to the outlet section a2 along the profiling channel, so that the first end of the steel strip B is bent to be parallel to the outlet section a2, i.e. parallel to the second direction f, and is convenient for the corresponding steel strip pulling device 30 to grab and pull. Preferably, the inlet section a1 is in circular arc transition with the outlet section a 2.
In particular embodiments, the cam mechanism 22 includes a mounting base 221 and first and second opposing cams 222a, 222b disposed on the mounting base 221. The mounting base 221 is provided on the base 11, the first cam 222a and the second cam 222b being able to move towards and away from each other and forming the aforementioned cam channels when the first cam 222a and the second cam 222b are brought towards each other into abutment. In this way, when it is desired to bend the first end of the steel strip B, the first cam 222a and the second cam 222B are close to each other until they abut against each other, so that the first end of the steel strip B is inserted from the inlet section a1 to the outlet section a2 of the cam channel, thereby bending the first end of the steel strip B in the second direction f. When the bending of the first end of the steel strip B is completed, the first cam 222a and the second cam 222B are opened away from each other, so that the first cam 222a and the second cam 222B are prevented from affecting the tightness of the steel strip B when the corresponding steel strip pulling device 30 pulls the second end of the steel strip B. Optionally, a slide rail is provided on the mounting base 221, and the first cam 222a and the second cam 222b are slidably provided on the slide rail. In one embodiment, the first cam 222a and the second cam 222b are driven by the third driver 226 to slide along the slide rail. Alternatively, the third driver 226 may be a cylinder.
Further, the first cam 222a and the second cam 222b are disposed on the mounting base 221 along the third direction g, and at least one of the first cam and the second cam is reciprocally movable along the third direction g relative to the mounting base 221. At least one of the first cam 222a and the second cam 222b may move toward or away from each other during the reciprocating movement along the third direction g.
In one embodiment, the profiling mechanism further comprises a seat 224 and an adjustment mechanism 225. The base 224 is disposed on the base 11, and the mounting base 221 is connected to the base 224 in a reciprocating manner along the first direction e. The adjusting mechanism 225 is coupled between the seat 224 and the mounting base 221 to adjust the position of the mounting base 221 relative to the seat 224 in the first direction e, so as to adapt to the stacks a with different sizes and specifications, and improve the applicability of the steel strip baling apparatus. More specifically, the adjusting structure includes a frame body and an adjusting member, the frame body is fixedly connected to the seat body 224, the adjusting member is rotatably connected to the frame body around its axis, and one end of the adjusting member is screwed to the mounting base 221. Thus, the mounting base 221 can be driven to reciprocate along the first direction e by screwing the adjusting member, so as to achieve the purpose of adjusting the position of the mounting base 221.
Specifically, in the embodiment, the profiling mechanism 22 further includes a second welding protection cover 223 disposed on the mounting base 221, the second welding protection cover 223 is controlled to move or rotate, and the first end of the steel strip B can be pressed against the stack a in the moving or rotating process, so that the first end of the steel strip B is tightly attached to the stack a to improve the welding effect, and meanwhile, the second welding protection cover 223 also plays a role in protecting the stack a, and welding slag is prevented from splashing to damage the stack a during welding. In one embodiment, the profiling mechanism 22 further comprises a second drive member. The second welding protection cover 223 is movably connected to the mounting base 221, and the second driving member is disposed on the mounting base 221 and is in transmission connection with the second welding protection cover 223 to drive the second welding protection cover 223 to move close to or away from the stack a. Before welding, the second driving member drives the second welding protection cover 223 to move close to the pile A, so that the second welding protection cover 223 presses the first end of the steel strip B to the pile A. After welding is complete, the second driver drives the second weld boot 223 back (i.e., away from stack a). Alternatively, the second driver may be a cylinder.
In a specific embodiment, the profiling mechanism 22 further includes a second moving driving assembly 220 disposed on the base 11, the mounting base 221 is disposed on the second moving driving assembly 220, the second moving driving assembly 220 is configured to drive the mounting base 221 to move back and forth along the third direction g, so as to drive the first profiling member 222a and the second profiling member 222B to enter or exit a second working position along with the mounting base 221 moving back and forth along the third direction g, the second working position is located on one side of the stack a in the first direction e (the second working position and the first working position are respectively located on two sides of the stack a in the first direction e), so that the first end of the steel strip B passing through the top of the stack a is inserted into the profiling channel formed by the first profiling member 222a and the second profiling member 222B. Alternatively, the second moving driving component 220 may adopt a linear moving module in the prior art, which is not limited herein.
Referring to fig. 8 to 10, in the embodiment of the present invention, steel strip pulling device 30 includes a fixed base 32, a mounting frame 33, and a steel strip pulling mechanism 34. The fixed base 32 is disposed on the base 11, and the mounting bracket 33 is disposed on the fixed base 32 and can be controlled to move reciprocally along the first direction e relative to the fixed base 32. Steel strip pulling mechanism 34 is disposed on mounting frame 33 and is controlled to move reciprocally with respect to mounting frame 33 along second direction f, and steel strip pulling mechanism 34 can grab the first end or the second end of steel strip B bent in second direction f. In this way, after the first end and the second end of the steel strip B are bent in the second direction f, the steel strip pulling mechanisms 34 of the two steel strip pulling devices 30 move towards the first end and the second end of the steel strip B along the second direction f respectively until the first end and the second end of the steel strip B are grabbed, and then return along the second direction f to tighten the first end and the second end of the steel strip B. After the steel strip B is tensioned in place, the steel strip pulling mechanism 34 moves along the mounting frame 33 towards the pile A along the first direction e, so that the first end and the second end of the steel strip B are attached to the pile A, and the welding quality is ensured.
In the embodiment, the steel strip pulling device 30 further includes a third moving driving assembly 31, the third moving driving assembly 31 is disposed on the base 11, and the fixed base 32 is connected to the third moving driving assembly 31 in a transmission manner. The third movement driving assembly 31 can drive the fixed base 32 to move back and forth along the third direction, so as to drive the steel strip pulling mechanism 34 to enter or exit the third working position for pulling the first end or the second end of the steel strip B. When it is desired to pull steel strip B, third movement driving assembly 31 may drive fixed base 32 to move in a third direction, thereby driving steel strip pulling mechanism 34 into a third operating position in preparation for pulling the first end or the second end of steel strip B. When strip B is completed, third movable drive assembly 31 may drive fixed base back in a third direction, thereby moving strip pulling mechanism 34 out of the third working position to provide working space for other mechanisms (e.g., strip threading mechanism 21 and profiling mechanism 22).
Referring to fig. 12 and 13, in some embodiments, strip pulling mechanism 34 includes a movable base 341, a strip pulling base 342, and a drive assembly. The movable base 341 is disposed on the mounting frame 33 and is controlled to reciprocate along the second direction f relative to the mounting frame 33. Since the mounting frame 33 is reciprocally movable in the first direction e relative to the fixed base 32, the movable base 341 is controllably reciprocally movable in the first direction e and the second direction f relative to the fixed base 32. The steel strip B is locked or unlocked by the pulling strip seat 342 being reciprocatably coupled to the moving seat 341 in the first direction e and being reciprocatingly moved in the first direction e with respect to the moving seat 341. The driving assembly includes a lock driving member 343, a first link 344, and a second link 345. The lock actuator 343 includes a fixed end and a drive end that is retractable relative to the fixed end. The fixed end is hinged to the steel belt drawing seat 342, the driving end is hinged to one end of the first link 344 and one end of the second link 345, and the other end of the first link 344 and the other end of the second link 345 are hinged to the movable seat 341 and the steel belt drawing seat 342 respectively.
The telescopic end includes a locking position (see fig. 13) in the process of extending and retracting the fixed end, when the telescopic end is located at the locking position, the first link 344 and the second link 345 drive the steel pulling strip seat 342 to move to the first end or the second end of the steel locking strip B along the first direction e, and the first link 344 and the second link 345 are parallel to the first direction e and are in a self-locking state.
In this way, when the first end and the second end of the steel strip B are bent in the second direction f, the moving base 341 moves in the second direction f so that the steel strip pulling base 342 moves to the first end or the second end of the steel strip B. The telescopic end of the lock driving member 343 is extended with respect to the fixed end, thereby pushing the pull steel strip holder 342 to move in the first direction e until the first end or the second end of the lock steel strip B by the first link 344 and the second link 345. The movable base 341 is returned in the second direction f to tighten the steel strip B. When the steel band B is tightened in place, the moving seat 341 moves along the first direction e toward the stack a along with the mounting frame 33, so that the first end and the second end of the steel band B are closely attached to the stack a, thereby improving the welding quality. Then, the welding device 40 welds the first and second ends of the steel strip B to the cell stack a, respectively. After the welding is completed, the telescopic end of the locking driving member 343 is contracted with respect to the fixed end, thereby pulling the steel strip holder 342 to move in the first direction e through the first link 344 and the second link 345 until the first end and the second end of the steel strip B are released.
When the telescopic end is located at the locking position, the first link 344 and the second link 345 drive the steel pulling strip seat 342 to move to the first end or the second end of the steel locking strip B along the first direction e, and the first link 344 and the second link 345 are parallel to the first direction e and are in a self-locking state. Then, the movable base 341 moves along the mounting frame 33 toward the stack a along the first direction e, so that in the process that the first end or the second end of the steel strip B is tightly attached to the stack a, since the first link 344 and the second link 345 are parallel to the first direction e, the component force (i.e., the horizontal component force) of the tensile force on the steel strip B along the first direction e and the steel strip resilience force cannot push the first link 344 and the second link 345 to rotate, so that the first link 344 and the second link 345 always maintain a self-locking state. That is, by utilizing the self-locking of the first link 344 and the second link 345, the steel strip pulling seat 342 is prevented from being pushed to move along the first direction e under the action of the component force (i.e. horizontal component force) of the steel strip pulling force along the first direction e and the steel strip resilience force, so that a gap is generated between the steel strip B and the pile a, poor welding is caused, and the welding effect is prevented from being influenced.
In an embodiment, the telescopic end further includes a release position (see fig. 12) during the process of extending and retracting the opposite fixed end, when the telescopic end is located at the release position, the first link 344 and the second link 345 drive the steel pulling strip seat 342 to move along the first direction e to the first end or the second end of the steel strip B, and the first link 344 and the second link 345 are disposed at an angle, that is, they are not parallel to the first direction e.
Further, a steel belt latch 3421 is connected to a side of the steel belt drawing base 342 facing away from the driving assembly, and the steel belt latch 3421 can be inserted into or withdrawn from the latch hole C of the first end or the second end of the steel belt B during the reciprocating movement of the steel belt drawing base 342 along the first direction e. When the pull strap mount 342 is moved to the locking position in the first direction e, the strap latch 3421 is inserted into the latch hole C of the first or second end of the strap B, thereby locking the first or second end of the strap B. When the steel strip pulling seat 342 moves to the release position along the first direction e, the steel strip latch 3421 exits the latch hole C of the first end or the second end of the steel strip B, and the first end and the second end of the steel strip B are separated from the steel strip pulling seat 342.
Further, the steel strip pulling mechanism 34 further includes a steel strip backup plate 346 connected to the moving base 341. The steel belt backup plate 346 is disposed opposite to one side of the steel belt base 342 having the steel belt bolt 3421, and has a fitting hole 3461 through which the steel belt bolt 3421 passes.
In this way, after the first end and the second end of the steel strip B are bent in the second direction f, the movable base 341 moves in the second direction f to be close to the first end or the second end of the steel strip B, so that the first end or the second end of the steel strip B is inserted between the steel strip pulling base 342 and the steel strip backup plate 346. The telescopic end of the locking driving member 343 is extended with respect to the fixed end, so that the steel strip pulling seat 342 is pushed by the first link 344 and the second link 345 to move toward the steel strip backup plate 346 in the first direction e until the steel strip latch 3421 penetrates through the latch hole C of the first end or the second end of the steel strip B and is inserted into the fitting hole 3461 of the steel strip backup plate 346, thereby locking the first end or the second end of the steel strip B. The movable base 341 is returned in the second direction f to tighten the steel strip B. When the steel band B is tightened in place, the moving seat 341 moves along the first direction e toward the stack a along with the mounting frame 33, so that the first end and the second end of the steel band B are closely attached to the stack a, thereby improving the welding quality. Then, the welding device 40 welds the first and second ends of the steel strip B to the cell stack a, respectively. After welding, the telescopic end of the locking driving member 343 is contracted relative to the fixed end, so that the steel strip pulling seat 342 is pulled by the first link 344 and the second link 345 to move away from the steel strip backup plate 346 along the first direction e, so that the steel strip latch 3421 sequentially exits the fitting hole 3461 of the steel strip backup plate 346 and the latch hole C of the first end or the second end of the steel strip B, i.e. the first end or the second end of the steel strip B is released.
Referring to fig. 10 and 11, in some embodiments, the steel strip pulling device 30 further includes a translation driving member 38, and the translation driving member 38 is disposed on the fixed base 32 and is in transmission connection with the mounting frame 33 to drive the mounting frame 33 to reciprocate along the first direction e relative to the fixed base 32. Alternatively, the translation drive 38 may be a pneumatic cylinder.
In the embodiment, the steel strip drawing device 30 further comprises a positioning mechanism 39 disposed on the fixed base 32. The positioning mechanism 39 is controllably positioned and engaged with the mounting frame 33 to limit the movement of the mounting frame 33 relative to the fixed base 32 along the first direction e. In this way, when the movable base 341 moves along the first direction e toward the stack a along the mounting frame 33, so that the first end or the second end of the steel strip B is tightly attached to the stack a, the positioning mechanism 39 can be controlled to be in positioning fit with the mounting frame 33, and the mounting frame 33 is prevented from moving relative to the fixed base 32 under the component force (i.e., the horizontal component force) of the tensile force of the steel strip in the first direction e and the steel strip resilience force, so as to generate a gap between the first end or the second end of the steel strip B and the stack a. By the self-locking and positioning mechanism 39 of the first link 344 and the second link 345, the first end or the second end of the steel strip B can be ensured to be tightly attached to the pile a before welding, so as to ensure the welding effect.
Further, the positioning mechanism 39 includes a positioning bolt 391 and a positioning driving member 392. The positioning pin 391 is connected to the fixing base 32 in a reciprocating manner along the second direction f, and the mounting frame 33 is provided with a positioning hole 331 corresponding to the positioning pin 391. The positioning pin 391 can be inserted into or withdrawn from the positioning hole 331 during the reciprocating movement along the second direction f. The positioning driving member 392 is disposed on the fixing base 32 and is in transmission connection with the positioning pin 391 to drive the positioning pin 391 to reciprocate along the second direction f to be inserted into or withdrawn from the positioning hole 331.
Further, the positioning mechanism 39 further includes an eccentric shaft seat 393, and the fixing base 32 is provided with a mounting hole. The eccentric shaft seat 393 is fixedly installed in the installation hole of the fixed base 32 and has an eccentric shaft hole. The positioning pin 391 is slidably disposed in the eccentric shaft hole of the eccentric shaft seat 393. More specifically, one end of the positioning pin 391 is drivingly connected to the positioning driving member 392, and is driven by the positioning driving member 392 to slide along the eccentric shaft hole, so that the other end of the positioning pin 391 can be inserted into or withdrawn from the positioning hole 331. So, the installation position of accessible change eccentric axle bed 393 to adjust the position of location bolt 391, and then reach the purpose of finely tuning the locating position of mounting bracket 33, further improve equipment's suitability. It will be appreciated that the fine adjustment range of the positioning position of mounting bracket 33 is twice the eccentricity of eccentric shaft seat 393.
In some embodiments, the steel strip pulling mechanism 34 is provided with a tension sensor 351, and the tension sensor 351 is used for detecting the tension applied to the first end or the second end of the steel strip B by the steel strip pulling mechanism 34, so that the tension of the steel strip B can be accurately controlled, and the tension of the first end and the second end of the steel strip B can be kept consistent.
In one embodiment, the strip pulling device 30 further comprises a connecting member 35 and a strip pulling driving mechanism. The connecting member 35 is reciprocally movably connected to the mounting frame 33 along the second direction f, and the moving base 341 is connected to the connecting member 35 by a tension sensor 351, wherein the tension sensor 351 is used for detecting tension applied to the first end or the second end of the steel strip B during the movement of the steel strip pulling mechanism 34 along the second direction f. The steel strip pulling driving mechanism is arranged on the mounting frame 33 and is in transmission connection with the connecting piece 35 so as to drive the connecting piece 35 to move back and forth along the second direction f.
Further, draw steel band actuating mechanism including drawing steel band driving piece 36, synchronous pulley subassembly and ball screw subassembly 37, draw steel band driving piece 36 to install in mounting bracket 33, ball screw subassembly 37 installs in mounting bracket 33, and ball screw subassembly 37's output fixed connection is in connecting piece 35, synchronous pulley subassembly transmission is connected between the input of drawing steel band driving piece 36 and ball screw subassembly 37 to the rotary motion who will draw steel band driving piece 36 to export is converted into the linear motion of connecting piece 35 along second direction f through belt drive and screw drive's mode. It should be noted that, of course, the belt transmission and the screw transmission may not be adopted, and in other embodiments, for example, a worm gear transmission or a rack and pinion transmission may also be adopted, which is not limited herein.
Referring to fig. 1 and 14, in the embodiment of the present invention, two welding devices 40 are provided, and the two welding devices 40 are respectively located at both sides of the placing position in the first direction e to respectively weld the first end and the second end of the steel strip B to the lower end plate of the stack a placed at the placing position.
Specifically, in the embodiment, each welding device 40 includes a moving base 41 and a welder 42, the moving base 41 is disposed on the base 11, the welder 42 is connected to the moving base 41, and the moving base 41 is configured to drive the welder 42 to move along three directions (e.g., the first direction e, the second direction f, and the third direction g) perpendicular to each other, so that the welder 42 can accurately weld the first end or the second end of the steel strip B. Thus, the arrangement of the movable base 41 enables the device to be more suitable for welding the galvanic pile A and the steel strip B with different sizes and specifications. It should be noted that the moving base 41 may adopt a three-axis servo moving mechanism in the prior art, as long as it can drive the welding device 42 to adjust the position in three directions perpendicular to each other, and the present invention is not limited thereto. Alternatively, the welder 42 may employ a laser welder 42.
In particular embodiments, the welding device 40 further includes a distance measuring sensor 16 mounted on the welder 42, the distance measuring sensor 16 being used to detect the distance between the welder 42 and the stack in order to accurately control the movement of the welder 42 to the welding position.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A steel strip forming device acts on a steel strip, the steel strip is provided with a first end and a second end opposite to the first end, and the steel strip forming device is characterized by comprising a steel strip penetrating mechanism and a profiling mechanism which are respectively positioned on two sides of a galvanic pile in a first direction;
the steel strip penetrating mechanism is used for guiding the first end of the steel strip to one side of the galvanic pile facing the profiling mechanism so as to bend the steel strip in a second direction perpendicular to the first direction under the action of the profiling mechanism, and is also used for bending the second end of the steel strip in the second direction;
the steel strip penetrating mechanism comprises a mounting seat, a lifting seat and a clamping assembly, the lifting seat is connected to the mounting seat in a reciprocating manner along the second direction, and the clamping assembly is arranged on the lifting seat and used for allowing the steel strip to penetrate along the first direction and clamping the steel strip;
the steel strip penetrating mechanism further comprises a rotary driving piece arranged on the lifting seat, and the clamping assembly is arranged at the driving end of the rotary driving piece and used for driving the clamping assembly to rotate around a rotating axis parallel to a third direction;
wherein the third direction is perpendicular to the first direction and the second direction.
2. The steel strip forming device according to claim 1, wherein the steel strip passing mechanism further comprises a lifting driving assembly, the lifting driving assembly is disposed on the mounting base and is in transmission connection with the lifting base, and the lifting driving assembly can drive the lifting base to move back and forth along the second direction.
3. The steel strip forming apparatus of claim 1 wherein the rotary drive is a rotary air cylinder.
4. The steel strip forming apparatus of claim 1, wherein the steel strip passing mechanism further comprises a first welding protection cover disposed on the mounting base, the first welding protection cover being controllably movable or rotatable and capable of pressing the second end of the steel strip against the stack during movement or rotation.
5. The steel strip forming apparatus of claim 1 wherein the profiling mechanism has a profiling channel including an inlet section into which the first end of the steel strip is inserted and an outlet section in communication with the inlet section, the inlet section extending in the first direction and the outlet section extending in the second direction.
6. The steel strip forming apparatus of claim 5, wherein the inlet section is radiused to the outlet section.
7. A strip forming apparatus according to claim 5, wherein the profiling mechanism includes a mounting base and opposed first and second cams disposed on the mounting base, the first and second cams being movable towards and away from each other and forming the profiling channel when the first and second cams abut each other.
8. The steel strip forming apparatus of claim 7, wherein the profiling mechanism further comprises a second welding boot disposed on the mounting base, the second welding boot being controllably movable or rotatable and configured to compress the first end of the steel strip against the stack during movement or rotation.
9. The steel strip forming apparatus of claim 7, wherein the profiling mechanism further comprises a seat and an adjustment mechanism, the mounting base is movably connected to the seat along the first direction, and the adjustment mechanism is connected to the seat and the mounting base for adjusting the position of the mounting base relative to the seat along the first direction.
10. A steel strip baling device including a steel strip forming apparatus as claimed in any one of claims 1 to 9.
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