阅读说明：本技术 一种用于精密制造焊接材料的包装设备 (Packaging equipment for precisely manufacturing welding materials ) 是由 周付敏 于 2021-08-27 设计创作，主要内容包括：本发明公开了一种用于精密制造焊接材料的包装设备,包括机架、放膜部、打标部、焊剂下料部、焊条下料部、焊条辅助承载输送部和拉膜封切部,所述焊条下料部、焊剂下料部自左至右并列设置于所述机架上,所述打标部固定设置于所述放膜部的右端部,所述焊条辅助承载输送部设置于所述机架上,所述拉膜封切部设置于所述机架的左侧且向下延伸至所述机架的内部,所述放膜部用于放置打包膜,所述焊条下料部和所述焊剂下料部分别用于自动下料焊条与焊剂至打包膜上,所述拉膜封切部用于将经过牵引的打包膜经过所述焊剂下料部和焊条下料部；本发明能够便于包装好的焊剂、焊条在焊接时直接使用,节省人力,大大提高焊接效率,具有良好的市场应用价值。(The invention discloses packaging equipment for precisely manufacturing welding materials, which comprises a rack, a film releasing part, a marking part, a welding flux blanking part, a welding rod auxiliary bearing conveying part and a film pulling and sealing part, wherein the welding rod blanking part and the welding flux blanking part are arranged on the rack in parallel from left to right; the invention can facilitate the packaged welding flux and welding rod to be directly used during welding, saves labor, greatly improves the welding efficiency and has good market application value.)

1. The utility model provides a equipment for packing for precision manufacturing welding material, its characterized in that includes the frame, puts membrane portion, beats mark portion, solder flux unloading portion, welding rod and assists bears the conveying portion and draws the membrane to seal and cut the portion, welding rod unloading portion, solder flux unloading portion from left to right set up side by side in the frame, it sets up to beat mark portion fixed set up in put the right-hand member portion of membrane portion, the welding rod assists to bear the conveying portion set up in the frame, and be located under the feed opening of welding rod unloading portion, it sets up in to draw the membrane to seal cut the portion the left side of frame and downwardly extending to the inside of frame, it is used for placing and beats the diolame to put the membrane portion, it is used for beating the diolame to beat the mark portion, welding rod unloading portion with the welding rod unloading portion is used for automatic unloading respectively with the solder flux to beating the diolame on, it is used for passing through trailing packing membrane portion of solder flux unloading portion and welding rod unloading portion to draw membrane portion, and pressing and cutting are carried out.

2. The packaging device for the precise manufacturing of the welding material as claimed in claim 1, wherein the film placing part comprises a film placing base, a film placing component, a film placing sliding installation mechanism, a forward film drawing component and a forward film pressing component, the film placing base is arranged on the frame, the film placing sliding installation mechanism is arranged on the upper part of the film placing base, the film placing component is arranged on the film placing sliding installation mechanism, the forward film drawing component is arranged on the lower part of the front end of the film placing base, the forward film pressing component is arranged on the lower part of the front end of the film placing base and is positioned on the right side of the forward film drawing component, and a plurality of auxiliary film drawing rotating shafts are further arranged on the upper part and the lower part of the left side of the front end of the film placing base.

3. The packaging device for the precise manufacturing of the welding materials as claimed in claim 2, wherein the marking part comprises a marking support, a marking drive roller, a marking driven roller, a floating printing roller assembly and an ink wheel marking machine, the marking support is arranged on the upper portion of the right side of the front end of the film placing base, the marking drive roller and the marking driven roller are longitudinally arranged on the left end portion of the marking support in parallel, the ink wheel marking machine is arranged on the right side of the marking support, the floating printing roller assembly is arranged on the marking support and is located between the ink wheel marking machine and the marking drive roller.

4. The packaging apparatus for precise manufacturing of welding material according to claim 1, wherein the welding rod unloading part includes a welding rod unloading bin, a bin support, a bin guard plate, a kick-out assembly, an unloading slide, an upper vibrating assembly and a lower vibrating assembly, the bin support is disposed on the frame, the welding rod unloading bin is disposed on the bin support, the bin guard plate is disposed at the front end of the welding rod unloading bin, the unloading slide is disposed at the lower end of the discharge port of the welding rod unloading bin, the kick-out assembly is disposed at the middle portion of the front end of the welding rod unloading bin and is located right above the unloading slide, the upper vibrating assembly is disposed at the upper portion of the front end of the welding rod unloading bin, the upper and lower vibrating assemblies are fixed at the upper portion of the outer side of the bin guard plate, and the lower vibrating assembly is disposed at the lower portion of the welding rod unloading bin, and is fixed on the outer side of the blanking slideway.

5. The packaging device for the precise manufacturing of the welding material according to claim 1, wherein the welding rod auxiliary bearing conveying part comprises an auxiliary bearing driving assembly, a left auxiliary conveying assembly, a right auxiliary conveying assembly and an auxiliary mounting seat, the auxiliary bearing driving assembly vertically penetrates through the rack, the auxiliary mounting seat is arranged on the rack and is positioned on the right side of the upper part of the auxiliary bearing driving assembly, the fixed ends of the left auxiliary conveying assembly and the right auxiliary conveying assembly are respectively fixed on the left side and the right side of the auxiliary mounting, and the working ends of the left auxiliary conveying assembly and the right auxiliary conveying assembly respectively extend to the left side of the upper part of the auxiliary bearing driving assembly.

6. The packaging apparatus for precision manufacturing of welding material according to claim 1, the film-drawing sealing and cutting part comprises a hot-pressing mechanism, a cutting mechanism, a back film-drawing mechanism, a hot-pressing driving mechanism and a cutting driving mechanism, the back film-drawing mechanism, the cutting mechanism and the hot-pressing mechanism are arranged side by side on the left side of the frame from left to right, the hot-pressing driving mechanism is arranged on the lower part of the front side of the frame, the hot pressing driving mechanism is meshed and connected with the hot pressing mechanism through a gear, the back film drawing mechanism is connected with the hot pressing mechanism through a synchronous belt, the cutting driving mechanism is arranged at the lower part of the rear side of the frame and is connected with the cutting mechanism through gear engagement, and film-drawing auxiliary rollers are respectively arranged among the back film-drawing mechanism, the cutting mechanism and the hot-pressing mechanism.

7. The packaging apparatus for precise manufacturing of welding material as claimed in claim 6, wherein the hot pressing driving mechanism includes a hot pressing driving mounting seat, a hot pressing driving motor, a hot pressing driving receiving shaft and a hot pressing driving bevel gear, the hot pressing driving receiving shaft is mounted on the lower portion of the front side of the frame through a bearing seat, the hot pressing driving receiving shaft is further provided with a hot pressing driving main gear, the hot pressing driving mounting seat is disposed on the lower portion of the frame, the hot pressing driving motor is disposed on the hot pressing driving mounting seat, an output end of the hot pressing driving motor is connected with the hot pressing driving main gear through gear engagement, and the hot pressing driving bevel gear is sleeved on a left end portion of the hot pressing driving receiving shaft.

8. The packaging device for precisely manufacturing the welding material according to claim 7, wherein the hot pressing mechanism comprises a driving hot pressing assembly and a driven hot pressing assembly, the driving hot pressing assembly and the driven hot pressing assembly are vertically arranged and vertically penetrate through the frame, the driving hot pressing assembly comprises a driving hot pressing rotating shaft, a driving hot pressing rotating wheel and a hot pressing transmission gear, the driving hot pressing rotating shaft is vertically arranged on the frame, the combination part of the driving hot pressing rotating shaft and the frame is connected through a bearing seat, the driving hot pressing rotating wheel is sleeved at the upper end part of the driving hot pressing rotating shaft, the hot pressing transmission gear is sleeved at the middle part of the driving hot pressing rotating shaft, the structure of the driven hot pressing assembly is the same as that of the driving hot pressing assembly, and the hot pressing transmission gears of the driving hot pressing assembly and the driven hot pressing assembly are meshed, the middle lower part of the driving hot pressing rotating shaft is also fixedly sleeved with a first conical gear, the first conical gear is meshed with the hot pressing driving conical gear, and the middle upper part of the driven hot pressing assembly is also fixedly sleeved with a rear film drawing driving wheel.

9. The packaging apparatus for precisely manufacturing the welding material as claimed in claim 7, wherein the cutting mechanism has a structure identical to that of the hot pressing mechanism, the cutting mechanism comprises a driving cutting assembly and a driven cutting assembly, the driving cutting assembly and the driven cutting assembly are longitudinally arranged in parallel and penetrate the frame, the driving cutting assembly and the driven cutting assembly are arranged opposite to each other on the cutting working face of the driven cutting assembly, the driving cutting assembly comprises a driving cutting rotating shaft and a driving cutter rotating wheel, the driving cutting rotating shaft penetrates the frame, the driving cutter rotating wheel is sleeved on the upper end portion of the driving cutting rotating shaft, the driven cutting assembly has a structure identical to that of the driving cutting assembly, the driven cutting assembly is fixed on the frame, and the driving cutting rotating shaft is connected with the combining portion of the frame through a bearing seat, the lower part of the active cutting rotating shaft is also provided with a cutting conical gear, and the cutting conical gear is meshed with the output end of the cutting driving mechanism and is connected with the output end of the cutting driving mechanism.

10. The packaging device for precisely manufacturing the welding material as recited in claim 8, wherein the post-film-drawing mechanism comprises a post-film-drawing driving assembly and a post-film-drawing tensioning assembly, the post-film-drawing driving assembly comprises a post-film-drawing driving rotating shaft, a post-film-drawing upper roller and a post-film-drawing driven roller, the post-film-drawing driving rotating shaft is penetratingly disposed on the frame, the post-film-drawing roller is sleeved on an upper end portion of the post-film-drawing driving rotating shaft, the post-film-drawing driven roller is sleeved on a lower end portion of the post-film-drawing driving rotating shaft, the post-film-drawing driven roller is connected with the post-film-drawing driving roller through a synchronous belt transmission, the post-film-drawing tensioning assembly comprises a post-film-drawing tensioning shaft, a post-film-drawing tensioning roller, a post-film-drawing tensioning base and a post-film-drawing tensioning spring, the post-film-drawing tensioning base is disposed on the frame, the post-drawing tensioning spring is disposed on an intermediate bonding position of the post-film-tensioning base, draw the membrane tensioning axle after vertical set up in draw the expansion end of membrane tensioning base after, draw membrane tensioning gyro wheel cover after and locate draw the upper end of membrane tensioning axle after.

Technical Field

The invention relates to the technical field of precision welding manufacturing equipment, in particular to packaging equipment for precision manufacturing of welding materials.

Background

The principle of the consumable electrode arc welding method is that the heat produced by arc discharge is used to melt the welding rod and the workpiece mutually and form welding seam after condensation, so that a firm bonding interface is obtained between the workpieces. Therefore, at present, in the manufacture of a steel structure, although automatic welding equipment such as a gas shielded welding machine, a welding robot and the like is applied on a large scale, manual welding is still required to be carried out in some complex welding seams by adopting the traditional shielded metal arc welding to ensure the welding precision, when some precise welding is applied, welding flux is required to be used generally to ensure that the surfaces of the formed welding seams are smooth and attractive, the welding flux is added while welding, but the fixed adding amount of the welding flux cannot be controlled by adopting the current welding method, if the fixed proportioning needs to be achieved, a welder needs to weigh one by one, but according to the method, the welding efficiency is greatly influenced, and the weighing operation is carried out by additionally consuming manpower, so that how to integrally package the welding flux and the welding electrodes is very important.

Accordingly, the prior art is deficient and needs improvement.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a packaging device for precisely manufacturing welding materials.

The invention provides technical documents, and relates to packaging equipment for precisely manufacturing welding materials, which comprises a rack, a film laying part, a marking part, a welding flux blanking part, a welding rod auxiliary bearing conveying part and a film drawing sealing and cutting part, wherein the welding rod blanking part and the welding flux blanking part are arranged on the rack in parallel from left to right, the marking part is fixedly arranged at the right end part of the film laying part, the welding rod auxiliary bearing conveying part is arranged on the rack and is positioned right below a blanking port of the welding rod blanking part, the film drawing sealing and cutting part is arranged at the left side of the rack and extends downwards to the inside of the rack, the film laying part is used for placing a coating film, the marking part is used for marking the coating film, the welding rod blanking part and the welding flux blanking part are respectively used for automatically blanking a welding rod and a welding flux onto the coating film, and the film drawing sealing and cutting part is used for enabling the drawn packaging film to pass through the welding flux blanking part and the welding rod blanking part, and pressing and cutting are carried out.

Preferably, put membrane portion including put the membrane base, put the membrane module, put membrane slide mounting mechanism, draw membrane module and preceding press mold subassembly before, put the membrane base set up in the frame, put membrane slide mounting mechanism set up in put the upper portion of membrane base, put the membrane module set up in put on the membrane slide mounting mechanism, draw membrane module set up in before, put the front end lower part of membrane base, preceding press mold subassembly set up in put the front end lower part of membrane base, and be located draw membrane module's right side before, the front end left side upper portion and the lower part of putting the membrane base still are provided with a plurality of supplementary membrane axes of rotation of drawing.

Preferably, mark portion of beating is including beating mark support, beating mark drive roll, beating mark driven voller, unsteady printing roller subassembly and inker beat the ink recorder, beat the mark support set up in put the front end right side upper portion of membrane base, beat the mark drive roll with beat the mark driven voller vertically set up side by side in beat the left end portion of mark support, the inker beat the ink recorder set up in beat the right side of mark support, unsteady printing roller subassembly set up in beat on the mark support, and be located the inker beat the ink recorder with beat between the mark drive roll.

Preferably, welding rod unloading portion includes under the welding rod feed bin, feed bin support, feed bin backplate, dials material subassembly, unloading slide, goes up vibrations subassembly and vibrations subassembly down, the feed bin support set up in the frame, under the welding rod feed bin set up in on the feed bin support, the feed bin backplate set up in the front end of feed bin under the welding rod, the unloading slide set up in the discharge gate lower extreme of feed bin under the welding rod, dial the material subassembly set up in the front end middle part of feed bin under the welding rod, and be located directly over the unloading slide, go up the vibrations subassembly set up in the front end upper portion of feed bin under the welding rod, just it is fixed in to go up the east subassembly the outside upper portion of feed bin backplate, the vibrations subassembly set up in the lower part of feed bin under the welding rod, and be fixed in the outside of unloading slide.

Preferably, the welding rod auxiliary bearing conveying part comprises an auxiliary bearing driving assembly, a left auxiliary conveying assembly, a right auxiliary conveying assembly and an auxiliary mounting seat, the auxiliary bearing driving assembly vertically penetrates through the rack, the auxiliary mounting seat is arranged on the rack and is located on the right side of the upper portion of the auxiliary bearing driving assembly, the left auxiliary conveying assembly and the fixed end of the right auxiliary conveying assembly are respectively fixed on the left side and the right side of the auxiliary mounting, the left auxiliary conveying assembly and the working end of the right auxiliary conveying assembly respectively extend leftwards to the left side of the upper portion of the auxiliary bearing driving assembly.

Preferably, draw membrane to seal and cut the portion including hot press mechanism, cut mechanism, back drawing membrane mechanism, hot pressing actuating mechanism and cut actuating mechanism, back drawing membrane mechanism, cutting mechanism, hot pressing mechanism are in the left side of frame is set up side by side from left to right, hot pressing actuating mechanism set up in the front side lower part of frame, just hot pressing actuating mechanism with hot pressing mechanism passes through gear engagement and connects, back drawing membrane mechanism with hot pressing mechanism passes through synchronous belt drive and connects, cut actuating mechanism set up in the rear side lower part of frame, cut actuating mechanism with it connects through gear engagement to cut the mechanism, back drawing membrane mechanism, cut and equally divide between mechanism, the hot pressing mechanism and do not be provided with drawing membrane auxiliary roller.

Preferably, hot pressing actuating mechanism includes hot pressing drive mount pad, hot pressing driving motor, hot pressing drive accepts pivot and hot pressing drive conical gear, the hot pressing drive accept the pivot install in through the bearing frame the front side lower part of frame, the hot pressing drive accepts still to be provided with hot pressing drive master gear in the pivot, hot pressing drive mount pad set up in the lower part of frame, hot pressing driving motor set up in on the hot pressing drive mount pad, hot pressing driving motor's output with hot pressing drive master gear passes through gear engagement and connects, hot pressing drive conical gear cover is located the left end portion of pivot is accepted in the hot pressing drive.

Preferably, the hot pressing mechanism comprises a driving hot pressing assembly and a driven hot pressing assembly, the driving hot pressing assembly and the driven hot pressing assembly are longitudinally arranged and vertically run through the frame, the driving hot pressing assembly comprises a driving hot pressing rotating shaft, a driving hot pressing rotating wheel and a hot pressing transmission gear, the driving hot pressing rotating shaft is vertically arranged on the frame, the driving hot pressing rotating shaft is connected with a joint part of the frame through a bearing seat, the driving hot pressing rotating wheel is sleeved on the upper end part of the driving hot pressing rotating shaft, the hot pressing transmission gear is sleeved on the middle part of the driving hot pressing rotating shaft, the structure of the driven hot pressing assembly is the same as that of the driving hot pressing assembly, the driving hot pressing assembly is meshed with the hot pressing transmission gear of the driven hot pressing assembly, and a first conical gear is fixedly sleeved on the middle lower part of the driving hot pressing rotating shaft, the first conical gear is meshed with the hot-pressing driving conical gear, and a rear film-drawing driving wheel is fixedly sleeved on the middle upper part of the driven hot-pressing assembly.

Preferably, the structure of the cutting driving mechanism is the same as that of the hot-pressing driving mechanism, the cutting mechanism comprises a driving cutting assembly and a driven cutting assembly, the driving cutting assembly and the driven cutting assembly are longitudinally arranged in parallel and penetrate the frame, the cutting working face of the driving cutting assembly and the cutting working face of the driven cutting assembly are oppositely arranged, the driving cutting assembly comprises a driving cutting rotating shaft and a driving cutter rotating wheel, the driving cutting rotating shaft penetrates the frame, the driving cutter rotating wheel is sleeved at the upper end part of the driving cutting rotating shaft, the structure of the driven cutting assembly is the same as that of the driving cutting assembly, the driven cutting assembly is fixed on the frame, the driving cutting rotating shaft is connected with the combining part of the frame through a bearing seat, and the lower part of the driving cutting rotating shaft is also provided with a cutting bevel gear, the cutting conical gear is connected with the output end of the cutting driving mechanism in a meshing manner.

Preferably, the post-film-drawing mechanism comprises a post-film-drawing driving component and a post-film-drawing tensioning component, the post-film-drawing driving component comprises a post-film-drawing driving rotating shaft, a post-film-drawing upper roller and a post-film-drawing driven roller, the post-film-drawing driving rotating shaft is arranged on the frame in a penetrating manner, the post-film-drawing roller sleeve is arranged at the upper end part of the post-film-drawing driving rotating shaft, the post-film-drawing driven roller sleeve is arranged at the lower end part of the post-film-drawing driving rotating shaft, the post-film-drawing driven roller is connected with the post-film-drawing driving roller through a synchronous belt transmission, the post-film-drawing tensioning component comprises a post-film-drawing tensioning shaft, a post-film-drawing tensioning roller, a post-film-drawing tensioning base and a post-film-drawing tensioning spring, the post-film-drawing tensioning base is arranged on the frame, the post-film-drawing tensioning spring is arranged at the middle combination position of the post-film-drawing tensioning base, the post-drawing tensioning shaft is vertically arranged at the movable end of the post-film-drawing tensioning base, the back film drawing tensioning roller is sleeved at the upper end part of the back film drawing tensioning shaft.

Compared with the prior art, the beneficial effects are that: the welding machine carries out film laying and code spraying through the film laying part and the marking part, welding and automatic blanking of welding rods are finished through the welding flux blanking part and the welding rod blanking part, and welding and packaging of the welding rods are finished through the film drawing sealing and cutting part, so that the welding machine is convenient to use directly during welding, labor is saved, the welding efficiency is greatly improved, and the welding machine has good market application value.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a film releasing part and a marking part according to the present invention;

FIG. 3 is a schematic view of the structure of the welding rod blanking portion of the present invention;

FIG. 4 is a schematic view of the auxiliary load conveyor of the welding rod of the present invention;

FIG. 5 is a schematic view of a structure of a film-pulling sealing-cutting portion according to the present invention;

FIG. 6 is a schematic structural diagram of a hot press mechanism according to the present invention;

FIG. 7 is a schematic structural diagram of a thermal pressing driving mechanism according to the present invention;

FIG. 8 is a schematic structural view of a cutting mechanism and a cutting driving mechanism according to the present invention;

FIG. 9 is a schematic structural view of a post-film-drawing mechanism of the present invention;

reference numerals: 1. comprises a frame; 2. a film placing part; 3. a marking part; 4. a flux blanking part; 5. a welding rod blanking part; 6. the welding rod assists in bearing the conveying part; 7. a film drawing, sealing and cutting part; 21. placing a film base; 22. placing the membrane assembly; 23. a film placing sliding installation mechanism; 24. a forward-drawn film assembly; 25. a front film pressing component; 31. marking a support; 32. marking a driving roller; 33. marking a driven roller; 34. a floating print roller assembly; 35. an ink wheel marking machine; 51. a welding rod discharging bin; 52. a bin support; 53. a stock bin guard board; 54. a material poking component; 55. a blanking slideway; 56. an upper vibration assembly; 57. a lower vibration assembly; 61. an auxiliary load bearing drive assembly; 62. a left auxiliary conveying assembly; 63. a right auxiliary conveying assembly; 64. an auxiliary mounting seat; 611. an auxiliary load-bearing rotating shaft; 612. an auxiliary load cam; 613. an auxiliary load-bearing pulley; 621. a left auxiliary rotating shaft; 622. a left swing arm; 623. a left oscillating bearing; 624. a left auxiliary roller; 71. a hot-pressing mechanism; 72. a cutting mechanism; 73. a back film-drawing mechanism; 74. a hot pressing driving mechanism; 75. a cutting drive mechanism; 711. an active hot pressing assembly; 712. a driven hot pressing assembly; 7111. actively hot-pressing the rotating shaft; 7112. actively hot-pressing the rotating wheel; 7113. hot pressing the transmission gear; 7114. a first conical gear; 7121. a rear film-drawing driving wheel; 721. an active cutting assembly; 722. a driven cutting assembly; 7211. actively cutting the rotating shaft; 7212. a driving cutter wheel; 7213. cutting the conical gear; 731. a back-draw film active component; 732. a post-draw film tensioning assembly; 7311. a rear film-drawing active rotating shaft; 7312. pulling the upper roller of the film backwards; 7313. a rear film-drawing driven wheel; 7321. a back-draw film tensioning shaft; 7322. a post-drawing film tensioning roller; 7323. a back-draw film tensioning base; 7324. a back-draw film tensioning spring; 741. a hot-pressing driving mounting seat; 742. a hot-pressing driving motor; 743. the hot pressing drives the bearing rotating shaft; 744. hot pressing the driving bevel gear; 745. the main gear is driven by hot pressing.

Detailed Description

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

In order to facilitate an understanding of the invention, the invention is described in more detail below with reference to the accompanying drawings and specific examples. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" 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," "left," "right," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, one embodiment of the present invention is: the utility model provides a equipment for packing for precision manufacturing welding material, includes frame 1, puts membrane portion 2, beats mark portion 3, solder flux unloading portion 4, welding rod unloading portion 5, the supplementary conveying portion 6 that bears of welding rod and draws the membrane to seal and cut portion 7, welding rod unloading portion 5, solder flux unloading portion 4 from left to right set up side by side in the frame, beat mark portion 3 fixed set up in put the right-hand member portion of membrane portion 2, the supplementary conveying portion 6 that bears of welding rod set up in the frame, and be located under the feed opening of welding rod unloading portion 5, it seals and cuts portion 7 set up in the left side of frame and downwardly extending to the inside of frame, it is used for placing and beats the diolame to put membrane portion 2, it is used for the welding rod to beat the diolame to beat mark portion 3, unloading portion 5 with solder flux unloading portion 4 is used for automatic unloading welding rod and solder flux respectively to beating the diolame on, draw membrane to seal and cut portion 7 and be used for passing through towed packing membrane process welding flux unloading portion 4 and welding rod unloading portion 5 to the pressfitting cuts, the welding rod assists bears conveying portion 6 and is used for playing the action of holding up to the packing membrane through its top, and is extremely located when the welding rod unloading the welding rod assists bears the packing membrane back of conveying portion 6 top, and the supplementary membrane that will pack is carried, welding flux unloading mechanism comprises feed bin and unloading electric butterfly valve under the welding flux, through unloading electric butterfly valve control.

Preferably, as shown in fig. 2, the film placing part 2 includes a film placing base 21, a film placing assembly 22, a film placing sliding installation mechanism 23, a front film drawing assembly 24 and a front film pressing assembly 25, the film placing base 21 is disposed on the frame, the film placing sliding installation mechanism 23 is disposed on the upper portion of the film placing base 21, the film placing assembly 22 is disposed on the film placing sliding installation mechanism 23, the front film drawing assembly 24 is disposed on the front end lower portion of the film placing base 21, the front film pressing assembly 25 is disposed on the front end lower portion of the film placing base 21 and is located on the right side of the front film drawing assembly 24, the upper portion and the lower portion on the left side of the front end of the film placing base 21 are further provided with a plurality of auxiliary film drawing rotation shafts, the film placing assembly 22 is used for placing rolled packaging films, the film placing sliding installation mechanism 23 is an adjustable slide rail and a slide block fixed on the film placing base 21, put membrane module 22 and be used for placing the membrane of beating of treating packing use, preceding membrane module 24 that draws is used for drawing the membrane by the packing membrane stub bar of putting membrane module 22 and pulls, preceding press mold subassembly 25 is used for will passing through its below beat the membrane and carry out the press mold action, owing to put membrane module 22, preceding membrane module 24 and preceding press mold subassembly 25 are put the membrane for the commonly used, draw the membrane, press mold structure, consequently no longer describe in this description to above structure again.

Preferably, the marking part 3 includes a marking support 31, a marking driving roller 32, a marking driven roller 33, a floating printing roller assembly 34 and an ink wheel coding machine 35, the marking support 31 is disposed on the upper portion of the right side of the front end of the film placing base 21, the marking driving roller 32 and the marking driven roller 33 are longitudinally arranged at the left end of the marking support 31 in parallel, the ink wheel coding machine 35 is disposed on the right side of the marking support 31, and the floating printing roller assembly 34 is disposed on the marking support 31 and is located between the ink wheel coding machine 35 and the marking driving roller 32; the floating printing roller assembly 34 is a printing roller with floating springs mounted at two ends respectively, a packaging film sequentially passes through the marking driving roller 32, the floating printing roller assembly 34 and the ink wheel coding machine 35 to perform ink jet coding, and then passes through the marking driven roller 33, and then continues to be conveyed backwards through the front film pressing assembly 25 and the front film drawing assembly 24.

Preferably, as shown in fig. 3, the welding rod blanking portion 5 includes a welding rod blanking bin 51, a bin support 52, a bin guard plate 53, a material stirring component 54, a blanking slide 55, an upper vibration component 56 and a lower vibration component 57, the bin support 52 is disposed on the frame, the welding rod blanking bin 51 is disposed on the bin support 52, the bin guard plate 53 is disposed at the front end of the welding rod blanking bin 51, the blanking slide 55 is disposed at the lower end of the discharge port of the welding rod blanking bin 51, the material stirring component 54 is disposed in the middle of the front end of the welding rod blanking bin 51 and is located right above the blanking slide 55, the upper vibration component 56 is disposed at the upper portion of the front end of the welding rod blanking bin 51, the upper east component is fixed at the upper portion of the outer side of the bin guard plate 53, the lower vibration component 57 is disposed at the lower portion of the welding rod blanking bin 51, and be fixed in the outside of unloading slide 55, go up vibrations subassembly 56 and vibrations subassembly 57 down and be the vibration exciter, prevent through last vibrations subassembly 56 and vibrations subassembly 57 down that the welding rod from producing long-pending material in feed bin 51 under the welding rod, through the unloading of being convenient for of vibrations, unloading slide 55 is two, and the upper end of two unloading slides 55 is located dial the material ratchet below of dialling of material subassembly 54, dial the welding rod that the material ratchet will be located feed bin 51 exit under the welding rod and dial material to unloading slide 55, free landing.

Further, dial material subassembly 54 by dial material pivot, dial material band pulley and three group material ratchet constitute, dial the material pivot set up in feed bin 51's front side feed opening department under the welding rod, three group material ratchet equidistant cover is located dial in the material pivot, dial the material band pulley and set up in the right side tip of dialling the material pivot, dial the material band pulley through set up in dial material driving motor in the frame drives the rotation in the belt pulley.

Preferably, as shown in fig. 4, the welding rod auxiliary bearing conveying part 6 includes an auxiliary bearing driving assembly 61, a left auxiliary conveying assembly 62, a right auxiliary conveying assembly 63 and an auxiliary mounting seat 64, the auxiliary bearing driving assembly 61 vertically penetrates through the rack, the auxiliary mounting seat 64 is disposed on the rack and located on the right side of the upper portion of the auxiliary bearing driving assembly 61, the fixed ends of the left auxiliary conveying assembly 62 and the right auxiliary conveying assembly 63 are respectively fixed on the left side and the right side of the auxiliary mounting, and the working ends of the left auxiliary conveying assembly 62 and the right auxiliary conveying assembly 63 respectively extend to the left side of the upper portion of the auxiliary bearing driving assembly 61.

Further, the auxiliary bearing driving assembly 61 includes an auxiliary bearing rotating shaft 611, an auxiliary bearing cam 612 and an auxiliary bearing pulley 613, the auxiliary bearing rotating shaft 611 is vertically disposed on the frame, the auxiliary bearing cam 612 is sleeved on the upper end portion of the auxiliary bearing rotating shaft, the auxiliary bearing pulley 613 is sleeved on the lower end portion of the auxiliary bearing rotating shaft, the auxiliary bearing driving assembly 61 rotates through a stepping motor and a synchronous belt disposed on the lower portion of the frame, and the synchronous belt is sleeved on the output end of the stepping motor and the auxiliary bearing pulley 613;

further, the left auxiliary conveying assembly 62 includes a left auxiliary rotating shaft 621, a left swing arm 622, a left swing bearing 623 and a left auxiliary roller 624, the left auxiliary rotating shaft 621 is fixed to the left side of the auxiliary mounting seat 64, one end of the left swing arm 622 is fixed to the left auxiliary rotating shaft 621, the left auxiliary roller 624 is installed at the other end of the left swing arm 622, the left swing bearing 623 is disposed at the middle bottom of the left swing arm 622, and the left swing bearing 623 is in contact with the outer wall of the auxiliary bearing cam 612; the structure of the right auxiliary conveying assembly 63 is the same as that of the left auxiliary conveying assembly 62, and the working end of the right auxiliary conveying assembly 63 is connected with the working end of the left auxiliary conveying assembly 62 through an extension spring.

Preferably, as shown in fig. 5, draw membrane to seal and cut portion 7 includes hot press mechanism 71, cuts mechanism 72, back draw membrane mechanism 73, hot pressing actuating mechanism 74 and cuts actuating mechanism 75, back draw membrane mechanism 73, cut mechanism 72, hot press mechanism 71 the left side of frame is from left to right side and sets up side by side, hot pressing actuating mechanism 74 set up in the front side lower part of frame, just hot pressing actuating mechanism 74 with hot press mechanism 71 passes through gear engagement and connects, back draw membrane mechanism 73 with hot press mechanism 71 passes through synchronous belt drive and connects, cut actuating mechanism 75 set up in the rear side lower part of frame, cut actuating mechanism 75 with it connects through gear engagement to cut mechanism 72, it does not respectively to be provided with and draws membrane auxiliary roller to draw membrane mechanism 73, cut equally divide between mechanism 72, the hot press mechanism 71.

Preferably, as shown in fig. 7, the thermocompression driving mechanism 74 includes a thermocompression driving mounting seat 741, a thermocompression driving motor 742, a thermocompression driving receiving spindle 743, and a thermocompression driving bevel gear 744, the thermocompression driving receiving spindle 743 is mounted to the lower front side of the rack through a bearing seat, a thermocompression driving main gear 745 is further disposed on the thermocompression driving receiving spindle 743, the thermocompression driving mounting seat 741 is disposed at the lower portion of the rack, the thermocompression driving motor 742 is disposed on the thermocompression driving mounting seat 741, an output end of the thermocompression driving motor 742 is connected to the thermocompression driving main gear 745 in a gear engagement manner, and the thermocompression driving bevel gear 744 is sleeved on the left end portion of the thermocompression driving receiving spindle 743.

Preferably, as shown in fig. 6, the hot pressing mechanism 71 includes a driving hot pressing assembly 711 and a driven hot pressing assembly 712, the driving hot pressing assembly 711 and the driven hot pressing assembly 712 are longitudinally arranged and vertically penetrate through the rack, the driving hot pressing assembly 711 includes a driving hot pressing rotating shaft 7111, a driving hot pressing rotating wheel 7112 and a hot pressing transmission gear 7113, the driving hot pressing rotating shaft 7111 is vertically disposed on the rack, the joint portion of the driving hot pressing rotating shaft 7111 and the rack is connected through a bearing seat, the driving hot pressing rotating wheel 7112 is sleeved at the upper end portion of the driving hot pressing rotating shaft 7111, the hot pressing transmission gear 7113 is sleeved at the middle portion of the driving hot pressing rotating shaft 7111, the structure of the driven hot pressing assembly 712 is the same as that of the driving hot pressing assembly 711, and the hot pressing transmission gear 7113 of the driven hot pressing assembly 712 are engaged with each other, the middle lower part of the driving hot pressing rotating shaft 7111 is also fixedly sleeved with a first conical gear 7114, the first conical gear 7114 is meshed with the hot pressing driving conical gear 744, and the middle upper part of the driven hot pressing component 712 is also fixedly sleeved with a rear film drawing driving wheel 7121.

Preferably, as shown in fig. 8, the structure of the cutting driving mechanism 75 is the same as that of the hot pressing driving mechanism 74, the cutting mechanism 72 includes a driving cutting assembly 721 and a driven cutting assembly 722, the driving cutting assembly 721 and the driven cutting assembly 722 are longitudinally arranged in parallel on the frame, the driving cutting assembly 721 is arranged opposite to the cutting working surface of the driven cutting assembly 722, the driving cutting assembly 721 is composed of a driving cutting rotating shaft 7211 and a driving cutting rotating wheel 7212, the driving cutting rotating shaft 7211 is arranged on the frame in a penetrating manner, the driving cutting rotating wheel 7212 is sleeved on the upper end portion of the driving cutting rotating shaft 7211, the structure of the driven cutting assembly 722 is the same as that of the driving cutting assembly 721, the driven cutting assembly 722 is fixed on the frame, the driving cutting rotating shaft 7211 is connected with the combining portion of the frame through a bearing seat, the lower part that pivot 7211 was cut in initiative still is provided with cuts conical gear 7213, cut conical gear 7213 with the output meshing that cuts actuating mechanism 75 is connected, the cutter on the cutter runner of initiative cutting component 721 and driven cutting component 722 is the impression sword, through setting up the impression sword, prevents to cut off the packing membrane, and inconvenient drawing membrane action to be convenient for carry out the action of unpacking after the packing finishes.

Preferably, as shown in fig. 9, the film backing mechanism 73 includes a film backing driving component 731 and a film backing tensioning component 732, the film backing driving component 731 includes a film backing driving rotating shaft 7311, a film backing upper roller 7312 and a film backing driven roller 7313, the film backing driving rotating shaft 7311 is disposed on the frame in a penetrating manner, the film backing roller is sleeved on the upper end of the film backing driving rotating shaft 7311, the film backing driven roller 7313 is sleeved on the lower end of the film backing driving rotating shaft 7311, the film backing driven roller 7313 is connected with the film backing driving roller 7121 through a synchronous belt transmission, the film backing tensioning component 732 includes a film backing tensioning shaft 7321, a film backing tensioning roller 7322, a film backing tensioning base 7323 and a film backing tensioning spring 7324, the film backing tensioning base 7323 is disposed on the frame, the film backing tensioning spring 7324 is disposed at the middle combining position of the film backing tensioning base 7323, draw membrane tensioning axle 7321 vertical set up in draw the movable end of membrane tensioning base 7323 after, draw membrane tensioning gyro wheel 7322 cover to be located after draw the upper end of membrane tensioning axle 7321.

The working principle of the invention is as follows: the packaging film is placed on the film placing assembly 22, if the position of the film placing assembly 22 needs to be adjusted, the position of the film placing sliding installation mechanism 23 on the film placing base 21 is adjusted, the position of the film placing assembly 22 is further adjusted, after the adjustment is finished, the packaging film is pulled out from the film placing assembly 22 through manual traction, then passes through the marking part 3, sequentially passes through the marking driving roller 32, the floating printing roller assembly 34 and the marking driven roller 33, when passing through the floating printing roller assembly 34, the grinding wheel coding machine works to code the passing packaging film, then the coded packaging film continuously passes through the front film pressing assembly 25 and the front film pulling assembly 24, when passing through the welding flux blanking part 4, the blanking electric butterfly valve is opened once to drop the welding flux onto the packaging film passing below the blanking film, then the packaging film is pulled to continuously pass through the welding rod part 5, and the packaging film passes through the welding rod auxiliary bearing conveying part 6, at this time, the material shifting assembly 54 operates to shift the welding rods in the welding rod blanking bin 51 to the feeding port of the blanking slide way 55, so that the welding rods slide down to the packing film, at this time, the left auxiliary conveying assembly 62 and the right auxiliary conveying assembly 63 are separated towards two sides under the action of the auxiliary bearing driving assembly 61, the packing film continuously passes through, when the packing film passes through, under the rolling action of the left auxiliary conveying assembly 62 and the right auxiliary conveying assembly 63, a wrapping state of the welding flux and the welding rods placed in the packing film is formed, then the packing film is continuously pulled to pass through the hot pressing mechanism 71, under the action of the hot pressing driving mechanism 74, the driving hot pressing assembly 711 and the driven hot pressing assembly 712 complete the hot pressing action of the packing film wrapped with the welding flux and the welding rods passing through the middle of the driving assembly 721, after the hot pressing is completed, and when the packing film passes through the cutting mechanism 72, the packaging film passes through the film post-pulling mechanism 73 after cutting, and the packaging film filled with welding flux welding rods is sequentially pulled out under the working actions of the film post-pulling driving assembly 731 and the film post-pulling tensioning assembly 732.

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.