CN215393330U - Cross side welding machine - Google Patents

Abstract

The utility model discloses a cross side welding machine which comprises a rack, wherein a welding die, a welding device matched with the welding die, a first material pulling device, a discharging assembly and a second material pulling device are arranged on the rack, a main material belt sequentially penetrates through the welding die and the first material pulling device to be conveyed along the X direction, a first material belt output by the discharging assembly and formed with small welding pieces sequentially penetrates through the welding die and the second material pulling device to be conveyed along the Y direction, the welding device can weld the small welding pieces on the first material belt in the welding die to corresponding positions on one side of a main part on the main material belt, and the welding die can cut off the small welding pieces after welding from the first material belt. The automatic processing device is convenient to operate, effectively saves manpower and material resources, has high processing precision, improves the production efficiency and the yield of products, is convenient for production management and control and automatic online production of the products, and reduces the production cost.

Description

Cross side welding machine

Technical Field

The utility model relates to welding equipment, in particular to a cross side welding machine.

Background

With the continuous progress of society and the rapid development of science and technology, the demand of many products is larger and higher, so that the production requirements can be met by ensuring the product quality and improving the production efficiency, and the mechanical automation and the intellectualization are inevitable development trends. At present, for some stamping parts of products such as 3C electronic products and the like, a main part and a welding small part are respectively formed on corresponding material belts in a continuous stamping mode in sequence, the material belt for the welding small part is a half-side material belt, namely, one side of the material belt is a conveying area, and the other side of the material belt is a whole welding small part, and then the welding small part is welded at a corresponding position on one side of the main part. However, the material belt for welding the small parts is a half material belt and needs to be welded at a corresponding position on one side of the main part, so that the existing equipment is difficult to or cannot carry out automatic welding, and the traditional manual welding mode is inconvenient to operate, occupies more manpower, is long in consumed time, high in labor intensity, poor in welding quality, and easily causes damage, pollution and the like of products, so that the production efficiency and the yield of the products are low, and the production cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a cross side welding machine, which can solve at least one of the technical problems, and the technical scheme of the utility model is as follows:

the utility model provides a cross side welding machine, which comprises a frame, be provided with the welding mould in the frame, with welding mould matched with welding set, first draw the material device, blowing subassembly and second draw the material device, the major ingredient area passes welding mould and first draw the material device in proper order and carries along the X direction, the shaping of blowing subassembly output has the first material area of welding smallclothes to pass welding mould and second in proper order and draws the material device to carry along the Y direction, welding set can be with the corresponding position of welding smallclothes welding major part one side on the major ingredient area on the first material area in the welding mould, welding mould can cut off welding smallclothes and first material area after the welding.

In some embodiments, one end of the welding mold, which is away from the first material pulling device, is provided with a first guide assembly for matching with the main material belt, the first guide assembly comprises a first support, two first baffles are symmetrically arranged on the first support, and the main material belt can pass through the two first baffles.

In some embodiments, the rack is provided with an anti-collapse assembly for detecting the tightness state of the main material belt, and the anti-collapse assembly comprises an upper detection switch and a lower detection switch which are correspondingly matched.

In some embodiments, a second guide assembly is arranged between the discharging assembly and the welding mold, the second guide assembly comprises a second support, and a second groove body used for the first material belt to pass through and a second detection switch used for detecting the small welding pieces on the first material belt are arranged on the second support.

In some embodiments, a material supporting assembly is arranged between the first material pulling device and the welding die.

In some embodiments, the second material pulling device includes a first fixed block, a first positioning pin, a second driving mechanism and a third driving mechanism, the second driving mechanism can drive the first positioning pin to be inserted into the positioning hole on the first material belt, the third driving mechanism can drive the second driving mechanism to move along the Y direction so that the first positioning pin pulls the first material belt to be conveyed along the Y direction, the first fixed block is provided with a third groove body for the first material belt to pass through and a first avoiding hole matched with the first positioning pin in movement along the Y direction, and the first avoiding hole is communicated with the third groove body.

In some embodiments, the second material pulling device further includes a positioning assembly capable of positioning the first material belt, the positioning assembly includes a second positioning pin and a fourth driving mechanism for driving the second positioning pin to be inserted into the positioning hole in the first material belt, the first fixing block is provided with a first hole body matched with the second positioning pin, and the first hole body is communicated with the third groove body.

In some embodiments, a welding device includes a welder, a first adjustment assembly to adjust an angle of inclination of the welder, and a first lift mechanism to adjust the first adjustment assembly and a height of the welder.

In some embodiments, the welding mold comprises a lower mold plate, an upper mold plate matched with the lower mold plate, a fifth driving mechanism for driving the upper mold plate to move up and down, a sixth driving mechanism for driving a first cutter and a first channel for the main material belt to pass through and a second channel for the first material belt to pass through are arranged on the lower mold plate, the lower mold plate is penetrated through by the first channel along the X direction, the lower mold plate is penetrated through by the second channel along the Y direction, a first avoiding interval matched with the welding device correspondingly is arranged at the intersection of the first channel and the second channel, and the sixth driving mechanism can drive the first cutter to cut off the welded small piece and the first material belt.

In some embodiments, a third positioning pin for positioning the first material belt is arranged on the lower template, a first pressing block for pressing the main material belt downwards, a second pressing block for pressing the first material belt along the X direction, a first push rod for pushing the second pressing block to move along the X direction, and a second push rod for pushing the third positioning pin to move along the X direction are arranged on the upper template, and along with the downward movement of the upper template, the second push rod can push the third positioning pin to move along the X direction so as to position the first material belt, and meanwhile, the first push rod can push the second pressing block to move along the X direction so as to press the first material belt.

The utility model has the beneficial effects that: in the using process, the first material pulling device pulls the main material belt produced by the connecting line to sequentially pass through the welding die and the first material pulling device to be conveyed along the X direction, the first material belt which is output by the discharging assembly and is formed with the small welding parts is pulled by the second material pulling device to sequentially pass through the welding die and the second material pulling device to be conveyed along the Y direction, the main material belt conveyed along the X direction and the first material belt conveyed along the Y direction form cross in the welding die, the welding device welds the small welding parts on the first material belt at the corresponding parts on one side of the main parts on the main material belt at the intersection of the main material belt and the first material belt in the welding die, and then the welding die cuts off the small welding parts after welding and the first material belt, thereby realizing the automatic welding processing of products, having convenient operation, low labor intensity, effective manpower and material resources saving, and high processing precision, the product is not easy to damage and pollute, the stability and the reliability are high, the influence of human factors is reduced, the production efficiency and the yield of the product are improved, the production management and control and the automatic online production of the product are facilitated, and the production cost is reduced.

In addition, in the technical scheme of the utility model, the technical scheme can be realized by adopting the conventional means in the field unless being particularly described.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a perspective view of a cross side welding machine with an upper housing removed in accordance with one embodiment of the present invention.

FIG. 2 is a schematic structural diagram of a cross side welding machine according to an embodiment of the present invention.

Fig. 3 is a first perspective view of a welding die according to an embodiment of the present invention.

Fig. 4 is a second perspective view of a welding die according to an embodiment of the present invention.

Fig. 5 is a sectional view of a welding mold according to an embodiment of the present invention.

FIG. 6 is an enlarged view of a portion of FIG. 5A in accordance with one embodiment of the present invention.

Fig. 7 is a perspective view of a welding apparatus according to an embodiment of the present invention.

Fig. 8 is a perspective view of a first pulling device according to an embodiment of the present invention.

Fig. 9 is a perspective view of a second pulling device according to an embodiment of the present invention.

FIG. 10 is an enlarged view of a portion of FIG. 9 at A in accordance with one embodiment of the present invention.

Fig. 11 is a perspective view of a first polarization assembly in accordance with an embodiment of the present invention.

FIG. 12 is a perspective view of a second polarization assembly in accordance with an embodiment of the present invention.

FIG. 13 is a perspective view of a material holding assembly according to an embodiment of the present invention.

The reference numerals in the drawings indicate that the frame 1, the material supporting component 11, the fourth support 111, the material supporting groove 112, the upper housing 12, the welding mold 2, the lower template 21, the first channel 211, the second channel 212, the first avoiding section 213, the third positioning pin 214, the first mounting block 215, the second baffle 216, the upper template 22, the first pressing block 221, the second pressing block 222, the first push rod 223, the second push rod 224, the first elastic member 225, the fifth driving mechanism 23, the first cutter 24, the sixth driving mechanism 25, the first connecting block 26, the third support 27, the welding device 3, the welder 31, the first adjusting component 32, the lifting frame 321, the arc-shaped groove 3211, the connecting seat 322, the first lifting mechanism 33, the fifth support 34, the first material pulling device 4, the first support 41, the first motor 42, the material pulling roller 43, the pressing roller component 44, the first air cylinder 45, the material receiving plate 46, the material discharging component 5, the material discharging roller 51, the material receiving roller 52, the guide roller 53, the transition plate 54, the sixth support 55, the second material pulling device 6, the first fixing block 61, the third groove 611, the first avoiding hole 612, the first hole 613, the first positioning pin 62, the second driving mechanism 63, the second mounting block 631, the third driving mechanism 64, the positioning assembly 65, the second positioning pin 651, the fourth driving mechanism 652, the third mounting block 653, the second support 66, the first guide assembly 7, the first support 71, the first baffle 72, the first groove 721, the first detection switch 73, the second guide assembly 8, the second support 81, the second groove 82, the second detection switch 83, the material guide block 84, the anti-collapse assembly 9, the upper detection switch 91, the lower detection switch 92, and the third support 93.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the detailed description and specific examples, while indicating some embodiments of the utility model, are intended for purposes of illustration only and are not intended to limit the scope of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", "both ends", "both sides", "bottom", "top", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the elements referred to must have a particular orientation or be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first," "second," "upper," "lower," "primary," "secondary," and the like are used for descriptive purposes only and may be used for purposes of simplicity in more clearly distinguishing between various components and not to indicate or imply relative importance.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are used broadly and can be, for example, fixedly connected, detachably connected, integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected through an intermediate medium, or connected through the inside of two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, the X direction, the Y direction, and the Z direction are given, the Z direction is a vertical direction, and the X direction and the Y direction is a horizontal direction, and "up", "down", and the like in the text are based on the Z direction.

Example (b):

as shown in fig. 1 to 13, schematically showing a cross side welding machine according to the present invention, the cross side welding machine includes a frame 1, a welding mold 2, a welding device 3 matched with the welding mold 2, a first material pulling device 4, a material placing component 5 and a second material pulling device 6 are disposed on the frame 1, the first material pulling device 4 can pull a main material belt output by a corresponding device connecting line to sequentially pass through the welding mold 2 and the first material pulling device 4 to be conveyed along an X direction, a first material belt formed with small welding parts is output by the material placing component 5, the second material pulling device 6 sequentially conveys the first material belt through the welding mold 2 and the second material pulling device 6 along a Y direction, the main material belt conveyed along the X direction and the first material belt conveyed along the Y direction form a cross in the welding mold 2, at a junction of the main material belt and the first material belt in the welding mold 2, the welding device 3 can weld the small welding part on the main material belt at a corresponding position on one side of the main part on the small welding part Then welding die 2 can cut off welding smallclothes and first material area after the welding again to realize the automatic weld of product and process.

The welding mould 2 comprises a third support 27, a lower template 21, an upper template 22 matched with the lower template 21, a fifth driving mechanism 23 for driving the upper template 22 to move up and down, a first cutter 24 and a sixth driving mechanism 25 for driving the first cutter 24 are arranged on the third support 27, the lower template 21 and the lower template 21 are generally respectively composed of one or more than two templates, a first channel 211 for a main material belt to pass through and a second channel 212 for the first material belt to pass through are arranged on the lower template 21, the first channel 211 penetrates through the lower template 21 along the X direction, the second channel 212 penetrates through the lower template 21 along the Y direction, a first avoiding section 213 correspondingly matched with a welding device 31 of the welding device 3 is arranged at the junction of the first channel 211 and the second channel 212, the sixth driving mechanism 25 and the first cutter 24 through a first connecting block 26, a guide channel matched with the first cutter 24 is arranged on the lower template 21, and the like, the number and arrangement of the first cutters 24 are determined according to specific conditions, the sixth driving mechanism 25 can drive the first cutters 24 to cut off the welded small welding parts from the first material belt, the first material belt generally passes through the lower portion of the main material belt along the Y direction to be conveyed, the shape and size of the first avoidance interval 213 are determined according to specific conditions, and the first avoidance interval 213 can be further provided with a collecting tank for collecting welding residues. In the using process, the main material belt passes through the first channel 211 and is conveyed along the X direction, the first material belt passes through the second channel 212 and is conveyed along the Y direction, the fifth driving mechanism 23 drives the upper template 22 to move downwards and position to compress the main material belt and the first material belt, then the welding device 3 welds the welding small parts on the first material belt at the corresponding position on one side of the main part on the main material belt in the first avoidance interval 213, and then the sixth driving mechanism 25 drives the first cutting knife 24 to move, so that the welded welding small parts are cut off from the material belt.

The fifth driving mechanism 23 and the sixth driving mechanism 25 can adopt a cylinder, an oil cylinder, an electric cylinder, a linear module, a screw rod mechanism and the like, for example, the cylinder is adopted, so that the structure is simple and compact, the motion is stable, the installation and the maintenance are convenient, the installation space is saved, and the device is safe and environment-friendly.

The lower template 21 is provided with a third positioning pin 214 for positioning the first material strap, the third positioning pin 214 is installed on the first installation block 215, the upper template 22 is provided with a first pressing block 221 for pressing the main material strap downwards, a second pressing block 222 for pressing the first material strap along the X direction, a first push rod 223 for pushing the second pressing block 222 to move along the X direction and a second push rod 224 for pushing the third positioning pin 214 to move along the X direction, the upper template 22 is provided with a sliding groove matched with the second pressing block 222 to move along the X direction, the lower template 21 is provided with a sliding groove matched with the first installation block 215 to move along the X direction, the first push rod 223 is provided with a first inclined surface matched with the second pressing block 222, the second push rod 224 is provided with a second inclined surface matched with the first installation block 215, the number and arrangement of the third positioning pin 214, the first push rod 223 and the second push rod 224 are determined according to specific conditions, the second pressing block 222 may further have an avoiding through hole for matching with the small welding piece on the first material strap. Along with fifth actuating mechanism 23 promotes cope match-plate pattern 22 downstream and lower bolster 21 cooperatees, first briquetting 221 can compress tightly the main material area, second push rod 224 can promote first installation piece 21 and third locating pin 214 through the second inclined plane and move along the X direction in order to fix a position first material area, first push rod 223 can promote second briquetting 222 through first inclined plane simultaneously and move along the X direction in order to compress tightly first material area to can fix a position stably and compress tightly main material area and first material area, be convenient for weld more accurately at the back. The upper die plate 22 may further be provided with a first elastic member 225 matched with the second pressing block 222, the first elastic member 225 such as a spring is convenient for the second pressing block 222 to automatically return after the upper die plate 22 is lifted, and the lower die plate 21 may also be provided with an elastic member such as a spring for the first mounting block 215 to automatically return.

The two sides of the first channel 211 may be respectively provided with a second baffle 216, the main material belt passes through the two second baffles along the first channel 211, and the corresponding end surfaces of the two second baffles are respectively provided with a slot 721 matched with the two side edges of the main material belt, so as to ensure that the main material belt is more stably conveyed. In addition, the upper die plate 22 may also be provided with positioning pins for positioning the main tape.

Welding set 3 includes welder 31, first adjusting part 32 and first elevating system 33, and first elevating system 33 is installed on fifth support 34, and the inclination of welder 31 can be adjusted to first adjusting part 32, and the height of first adjusting part 32 and welder 31 can be adjusted to first elevating system 33 to make welder 31 can better carry out welding process, be convenient for carry out the side welding, the installation is put, convenience such as regulation, efficiency is higher. The first lifting mechanism 33 can be a cylinder, an oil cylinder, an electric cylinder, a linear module, a screw rod mechanism and the like, and the screw rod mechanism can be driven by a motor and can also be manually adjusted by a hand wheel.

First adjusting part 32 includes crane 321 and connecting seat 322, and welding ware 31 fixed mounting is on connecting seat 322, and crane 321 is connected with first elevating system 33, and crane 321 is provided with the arc 3211 with connecting seat 322 matched with, and after adjusting the oblique angle of cutting of welding ware 31, the locking connection spare such as screw is again through arc 3211 for connecting seat 322 and crane 321 lock, easy operation, convenience.

One end of the welding mold 2, which is far away from the first material pulling device 4, is provided with a first guide assembly 7 used for being matched with the main material belt, the first guide assembly 7 comprises a first support 71, two first baffles 72 are symmetrically arranged on the first support 71, and the main material belt can pass through the two first baffles 72, so that the main material belt is prevented from deviating and is conveyed more stably. The corresponding end surfaces of the two first baffles 72 are also respectively provided with a first groove 721 matched with the two side edges of the main material belt, so that the guiding effect is better. The first support 71 is further provided with a first detection switch 73 for detecting the main part on the main material belt, so that whether the main part on the main material belt is lost or not can be detected conveniently, and the detection is safer and more reliable.

Be provided with the anti-collapse subassembly 9 that is used for detecting the main material area elasticity state in frame 1, the place ahead of leading positive subassembly 7 and the first rear of drawing material device 4 are provided with respectively and prevent collapsing subassembly 9 usually, prevent collapsing subassembly 9 includes third support 93, be provided with corresponding complex on the third support 93 and detect switch 91 and lower detect switch 92, for example correlation type photoelectric switch etc. main material area passes between from last detect switch 91 and the lower detect switch 92 and carries, when the main material area is too tight, corresponding equipment carries out the blowing, when the main material area is too loose, corresponding equipment stops the blowing, thereby can guarantee that main material area is more stable, carry reliably.

Be provided with the second between blowing subassembly 5 and the welding mould 2 and lead positive subassembly 8, positive subassembly 8 is led to the second includes second support 81, be provided with on the second support 81 and be used for the second cell body 82 that first material area passes through and be used for detecting the second detection switch 83 of welding smallclothes on the first material area, first material area passes along second cell body 82 and carries, can prevent the material area off tracking, second detection switch 83 is convenient for detect whether have welding smallclothes disappearance on the first material area, thereby it is safer, stable, reliable. The second trough 82 is disposed on the material guiding block 84, the second trough 82 may be formed by processing the material guiding block 84, or the material guiding block 84 may be formed by assembling more than two connecting blocks, and the second trough 82 is formed by assembling more than two connecting blocks.

Be provided with between first material device 4 and the welding mould 2 and hold in the palm material subassembly 11, hold in the palm material subassembly 11 and include fourth support 111, be provided with on the fourth support 111 and hold in the palm silo 112, the major ingredient area passes along holding in the palm silo 112 after the welding is accomplished and is carried, and is more stable, reliable.

First material device 44 that draws includes first support 41, is provided with on first support 41 by first motor 42 driven material roller 43 and with material roller 43 matched with compression roller assembly 44 that draws material roller 43, and compression roller assembly 44 is located the top of drawing material roller 43, and first motor 42 drive draws material roller 43 to rotate, and compression roller assembly 44 cooperatees with material roller 43 and draws the material area to carry. The compression roller assembly 34 comprises a swing frame and a first compression roller arranged on the swing frame, two material pulling wheels are arranged on the material pulling roller 43, pressing rollers which are correspondingly matched with the two material pulling wheels are arranged on the first compression roller respectively, avoidance sections matched with the main material belt are formed between the two material pulling wheels and between the two pressing rollers respectively, and two side edges of the main material belt pass through the space between the material pulling wheels and the pressing rollers respectively. Still be provided with on first support 41 with compression roller assembly 44 matched with adjustment mechanism, adjustment mechanism is including setting up the adjusting screw on first support 41, and the adjusting screw passes through elastic component such as spring and acts on compression roller assembly 44's swing span for first compression roller elasticity presses on pulling material roller 43, thereby can be applicable to the material area of different specifications, also has the effect of buffering protection.

The first support 41 is further provided with a receiving plate 46 at an end close to the welding mold 2, and the receiving plate 36 has supporting and transition functions. Referring to the first pilot assembly 7, two first baffles 7272 may also be symmetrically disposed on the receiving plate 36, and the receiving plate 36 may also be provided with a detection switch for detecting the main material belt, so as to more precisely control the distance of each material pulling.

Still be provided with first cylinder 45 on first support 41, first cylinder 45 can drive compression roller subassembly 44 luffing motion, thereby can the pressure of quick adjustment compression roller subassembly 44 to main material area in order to the taut effect of ideal, very big improvement debugging efficiency, and draw the material back at every turn, welding mould 2 is fixed a position earlier and is compressed tightly the material area, then first cylinder 45 promotes compression roller subassembly 44 and lifts up so that compression roller subassembly 44 loosens main material area, thereby the main material area that the release was tightened, prevent that main material area warp, the locating pin on welding mould 2 also can lead main material area in order to eliminate and draw the material deviation automatically, stability and reliability are higher.

The second material pulling device 6 comprises a first fixing block 61, a first positioning pin 62, a second driving mechanism 63 and a third driving mechanism 64, the first fixing block 61 and the third driving mechanism 64 are arranged on a second support 66, the first positioning pin 62 is installed on a second installation block 631, the number and arrangement of the first positioning pins 62 on the second installation block 631 are determined according to specific conditions, the second driving mechanism 63 is connected with the second installation block 631, a third groove 611 for the first material belt to pass through and a first avoidance hole 612 matched with the first positioning pin 62 in a moving manner along the Y direction are formed in the first fixing block 61, and the first avoidance hole 612 is communicated with the third groove 611. In the use, second actuating mechanism 63 drives the motion of second installation piece 631 for first locating pin 62 inserts in the locating hole on the first material area, then third actuating mechanism 64 drive second actuating mechanism 63 moves along the Y direction, make first locating pin 62 pulling first material area carry along the Y direction, be applicable to the automatic material that draws in half limit material area, draw the material precision height, stability and reliability are high, half limit material area is the product that one side in material area was for conveying district and the another side is all for the shaping processing. First actuating mechanism and second actuating mechanism 63 can adopt modes such as cylinder, hydro-cylinder, electric cylinder, sharp module, screw rod mechanism, can adopt the mode of cylinder usually, for example take guide arm cylinder, three pole cylinders, accurate slip table cylinder etc. simple structure, compactness more, the motion is more steady, and installation, maintenance are more convenient, save installation space more, safer, environmental protection etc.. The third groove 611 may be formed by directly processing the first fixing block 61, or the first fixing block 61 may be formed by assembling more than two connecting blocks, and the third groove 611 is formed after the more than two connecting blocks are assembled.

The second material pulling device 6 further comprises a positioning assembly 65 capable of positioning the first material strap, the positioning assembly 65 comprises a second positioning pin 651 and a fourth driving mechanism 652 driving the second positioning pin 651 to move, the fourth driving mechanism 652 is arranged on the second support 66, the second positioning pin 651 is mounted on a third mounting block 653, the number and arrangement of the second positioning pins 651 on the third mounting block 653 are determined according to specific conditions, the fourth driving mechanism 652 is connected with the third mounting block 653, a first hole 613 matched with the second positioning pin 651 is arranged on the first fixing block 61, and the first hole 613 is communicated with the third groove 611. In the using process, after the first material belt is pulled in the Y direction for pulling and conveying, the fourth driving mechanism 652 drives the third mounting block 653 to move, so that the second positioning pin 651 is inserted into the positioning hole in the first material belt to position the first material belt, and the first material belt is prevented from loosening, shaking and the like.

The discharging assembly 5 comprises a sixth bracket 55, a discharging roller 51 for arranging the first material belt is arranged on the sixth bracket 55, and the discharging roller 51 can be driven by a corresponding motor. The sixth support 55 is further provided with a material receiving roller 52 for rolling the protective films such as the separation paper on the surface of the first material belt, and the material receiving roller 52 is driven by a corresponding motor. The sixth support 55 is further provided with a guide roller 53 and a transition plate 54, the guide roller 53 is usually provided with two limiting wheels, the first material belt can pass through the two limiting wheels along the guide roller 53 to be subjected to edge blocking, a protective film stripped from the first material belt firstly passes through the transition plate 54 and then is wound by the material receiving roller 52, and therefore stability and reliability are achieved. The material discharging roller 51 and the material receiving roller 52 can be respectively provided with a chuck plate for limiting material rolls, and the material discharging roller can also adopt an air inflation shaft, so that the material rolls with suitable sizes are convenient.

The frame 1 can be provided with upper casing 12, and welding jig 2, welding set 3, first leading positive subassembly 7, second lead positive subassembly 8, hold in the palm material subassembly 11, first drawing material device 4 and second draw material device 6 etc. are located upper casing 12, and upper casing 12 can also set up multilayer warning light to it is safer, reliable. The bottom of the frame 1 can be provided with a caster with an adjusting block, so that the whole equipment can be conveniently moved and leveled, and the operation is convenient, thereby improving the flexibility and stability of the equipment.

In the using process, the first material pulling device 4 pulls the main material belt output by the corresponding equipment connecting line to sequentially pass through the anti-collapse assembly 9, the first guiding assembly 7, the welding die 2, the first material pulling device 4 and the anti-collapse assembly 9 to be conveyed along the X direction, the first material belt formed with the small welding parts is output by the discharging assembly 5, the second material pulling device 6 sequentially conveys the first material belt through the second guiding assembly 8, the welding die 2 and the second material pulling device 6 along the Y direction, the main material belt conveyed along the X direction through the first channel 211 and the first material belt conveyed along the Y direction through the second channel 212 form a cross in the welding die 2, the fifth driving mechanism 23 of the welding die 2 drives the upper die plate 22 to move downwards to be matched with the lower die plate 21, the first pressing block 221 presses the main material belt, the second push rod 224 pushes the first mounting block 21 and the third positioning pin 214 to move along the X direction through the second inclined plane to position the first material belt, meanwhile, the first push rod 223 pushes the second pressing block 222 to move along the X direction through the first inclined plane so as to compress the first material belt, so that the main material belt and the first material belt are stably positioned and compressed, then the welding device 3 welds the small welding parts on the first material belt at the corresponding positions on one side of the main part on the main material belt in the first avoidance interval 213, and then the sixth driving mechanism 25 drives the first cutter 24 to move, so that the welded small welding parts are cut off from the material belt, and thus the automatic welding processing of the product is realized.

Compared with the prior art, the utility model has the advantages that: the automatic welding processing of the product is realized, the anti-collapse component 9 can detect the tightness state of the main material belt in real time, the conveyed main material belt is prevented from being too loose or too tight, the first guide component 7 can prevent the main material belt from deviating and detect whether main parts are missing on the main material belt or not, so that the main material belt is ensured to be conveyed more stably, the second guide component 8 can prevent the first material belt from deviating and detect whether welding small parts are missing on the first material belt or not, so that the first material belt is ensured to be conveyed more stably, the main material belt can be compressed by the first pressing block 221 of the welding die 2, the first mounting block 21 and the third positioning pin 214 can be pushed by the second push rod 224 through the second inclined plane to move along the X direction so as to position the first material belt, meanwhile, the first push rod 223 can push the second pressing block 222 to move along the X direction through the first inclined plane so as to compress the first material belt tightly, so that the main material belt and the first material belt are stably positioned and compressed, the first adjusting component 32 of the welding device 3 can adjust the inclination angle of the welder 31, the first lifting mechanism 33 can adjust the heights of the first adjusting component 32 and the welder 31, after the welding mold 2 positions and compresses the material belt, the first cylinder 45 of the first material pulling device 4 pushes the compression roller component 44 to lift up so that the compression roller component 44 loosens the main material belt, the tightened main material belt is conveniently released, the deformation of the main material belt is prevented, the positioning pin on the welding mold 2 can also automatically guide the main material belt to eliminate the material pulling deviation, the positioning component 65 of the second material pulling device 6 can position the first material belt, the loosening, shaking and the like of the first material belt are prevented, the operation is convenient, the labor intensity is low, manpower and material resources are effectively saved, the processing precision is high, the damage, the pollution and the like of products are not easily caused, the stability and the reliability are high, the influence of human factors is reduced, and the production efficiency and the yield of the products are improved, the automatic online production of production management and control and product is convenient, and the production cost is reduced.

The above embodiments of the present invention are only for illustrating the technical solutions of the present invention, and not for limiting the same, it should be understood that modifications or substitutions for those skilled in the art can be made on the basis of the above description without departing from the inventive concept, and all such modifications and substitutions should fall within the protection scope of the appended claims. In this case all the details may be replaced with equivalent elements, and the materials, shapes and dimensions may be any.

Claims (10)

1. The cross side welding machine is characterized by comprising a rack (1), wherein a welding die (2), a welding device (3) matched with the welding die (2), a first material pulling device (4), a discharging assembly (5) and a second material pulling device (6) are arranged on the rack (1), a main material belt sequentially passes through the welding die (2) and the first material pulling device (4) to be conveyed along the X direction, a first material belt which is output by the discharging component (5) and is formed with small welding pieces sequentially passes through the welding mould (2) and the second material pulling device (6) to be conveyed along the Y direction, the welding device (3) can weld the small welding pieces on the first material belt in the welding mould (2) at the corresponding part on one side of the main part on the main material belt, the welding mould (2) can cut off the welded small welding pieces and the first material belt.

2. The cross side welding machine according to claim 1, characterized in that one end of the welding die (2) away from the first material pulling device (4) is provided with a first guiding component (7) for matching with the main material belt, the first guiding component (7) comprises a first bracket (71), two first baffle plates (72) are symmetrically arranged on the first bracket (71), and the main material belt can pass through between the two first baffle plates (72).

3. The cross side welding machine according to claim 1, characterized in that an anti-collapse assembly (9) for detecting the tightness of the main material belt is arranged on the machine frame (1), and the anti-collapse assembly (9) comprises an upper detection switch (91) and a lower detection switch (92) which are correspondingly matched.

4. The cross side welding machine according to claim 1, characterized in that a second guide assembly (8) is arranged between the discharging assembly (5) and the welding die (2), the second guide assembly (8) comprises a second support (81), and a second groove (82) for the first material belt to pass through and a second detection switch (83) for detecting small welding parts on the first material belt are arranged on the second support (81).

5. Cross side welding machine according to claim 1, characterized in that a material holding assembly (11) is arranged between the first pulling device (4) and the welding die (2).

6. Cross side welding machine according to claim 1, characterized in that said second pulling device (6) comprises a first fixed block (61), a first positioning pin (62), a second driving mechanism (63) and a third driving mechanism (64), the second driving mechanism (63) can drive the first positioning pin (62) to be inserted into the positioning hole on the first material belt, the third driving mechanism (64) can drive the second driving mechanism (63) to move along the Y direction so that the first positioning pin (62) pulls the first material belt to convey along the Y direction, be provided with on first fixed block (61) be used for first material area to pass through third cell body (611) and with first locating pin (62) are along the first hole (612 of dodging of Y direction motion matched with, first hole (612) of dodging with third cell body (611) intercommunication.

7. The cross side welding machine according to claim 6, wherein the second material pulling device (6) further comprises a positioning assembly (65) capable of positioning the first material belt, the positioning assembly (65) comprises a second positioning pin (651) and a fourth driving mechanism (652) for driving the second positioning pin (651) to be inserted into a positioning hole in the first material belt, a first hole body (613) matched with the second positioning pin (651) is arranged on the first fixing block (61), and the first hole body (613) is communicated with the third groove body (611).

8. Cross side welding machine according to claim 1, characterized in that the welding device (3) comprises a welder (31), a first adjusting assembly (32) adjusting the inclination angle of the welder (31) and a first lifting mechanism (33) adjusting the height of the first adjusting assembly (32) and the welder (31).

9. The cross side welding machine according to any one of claims 1 to 8, wherein the welding mold (2) comprises a lower template (21), an upper template (22) matched with the lower template (21), a fifth driving mechanism (23) for driving the upper template (22) to move up and down, a first cutter (24) and a sixth driving mechanism (25) for driving the first cutter (24), a first channel (211) for a main material belt to pass through and a second channel (212) for a first material belt to pass through are arranged on the lower template (21), the first channel (211) penetrates through the lower template (21) along the X direction, the second channel (212) penetrates through the lower template (21) along the Y direction, and a first avoidance interval (213) correspondingly matched with the welding device (3) is arranged at the intersection of the first channel (211) and the second channel (212), the sixth driving mechanism (25) can drive the first cutter (24) to cut off the welded small welded parts and the first material belt.

10. The cross side welding machine according to claim 9, wherein a third positioning pin (214) for positioning the first material strip is arranged on the lower template (21), a first pressing block (221) for pressing the main material strip downwards, a second pressing block (222) for pressing the first material strip along the X direction, a first push rod (223) for pushing the second pressing block (222) to move along the X direction, and a second push rod (224) for pushing the third positioning pin (214) to move along the X direction are arranged on the upper template (22), and as the upper template (22) moves downwards, the second push rod (224) can push the third positioning pin (214) to move along the X direction to position the first material strip, and meanwhile, the first push rod (223) can push the second pressing block (222) to move along the X direction to press the first material strip.

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