CN205058701U - Bag manufacturing machine - Google Patents

Abstract

The utility model relates to a bag manufacturing machine, this bag manufacturing machine of its characterized in that includes the frame, upward scalds the pressure equipment and puts and descend boiling hot pressure equipment to put, upward scalds the pressure equipment and puts and descend boiling hot pressure equipment to put the longitudinal symmetry and install in the frame, the frame includes base, left frame, well frame, right frame, a drive gear, first transmission shaft, the 2nd drive gear, secondary drive axle, the 3rd drive gear, third transmission shaft, fourth drive gear, fourth transmission shaft, left slide rail, right slide rail, densmedius mounting, motor and encoder, horizontal direction vertical the installation on the base is in proper order followed to left side frame, well frame and right frame, the motor shaft fixed connection of first transmission shaft one end and motor, the motor is fixed in the outside of left frame, and the other end of first transmission shaft passes a drive gear to pass through the key -type connection, a drive gear, the 2nd drive gear, the 3rd drive gear and fourth drive gear from bottom to up be intermeshing in proper order.

Description

A kind of Bag Making Machine

Technical field

The utility model belongs to Bag Making Machine field, is specifically related to a kind of Bag Making Machine.

Background technology

Society, the use of flexible package is frequent all the more in the life of people, and the demand of flexible package is also increasing, especially bag film, and because it is portable, lower-price characteristic, demand grows with each passing day especially.If the bag speed of the Bag Making Machine that can improve can obtain rich profit for enterprise, meet the large batch of demand in market.Traditional Bag Making Machine is in the process of heat-sealing, and the feeding of plastic sheeting is step-type, and plastic sheeting advances a long rear stopping of bag, then scalds cutter and carries out hot pressure to film, had a strong impact on the raising of productivity ratio.

Utility model content

For the deficiencies in the prior art, the technical problem that the utility model quasi-solution is determined is, a kind of Bag Making Machine is provided, this Bag Making Machine utilizes the packaging bag of circle pressure circle fabrication techniques, transmit power by travelling gear, the hot pressure form of traditional mechanism up-and-down reciprocating is improved to the hot pressure form of rotation, realize continuous print at the uniform velocity feeding simultaneously, overcome the problem that in prior art, bag speed is low, production efficiency is poor, significantly improve bag speed.

The utility model solves the technical scheme that its technical problem adopts: a kind of Bag Making Machine, is characterized in that this Bag Making Machine comprises frame, upper hot pressure device and lower hot pressure device, and upper hot pressure device and the upper and lower symmetry of lower hot pressure device are arranged in frame;

Described frame comprises base, left frame, mid frame, right frame, the first travelling gear, the first power transmission shaft, the second travelling gear, second driving shaft, the 3rd travelling gear, the 3rd power transmission shaft, the 4th travelling gear, the 4th power transmission shaft, left slide rail, right slide rail, middle tooth fixture, motor and encoder; Described left frame, mid frame and right frame are vertically arranged on base in the horizontal direction successively; Described first power transmission shaft one end is fixedly connected with the motor shaft of motor, and motor is fixed on the outside of left frame, and the other end of the first power transmission shaft through the first travelling gear, and is connected by key; Described first travelling gear, the second travelling gear, the 3rd travelling gear and the 4th travelling gear engage each other from bottom to top successively, described second driving shaft left end is by rolling bearing units fixed installation left frame, second driving shaft right-hand member, through the second travelling gear, is fixedly mounted on mid frame by rolling bearing units; Described 3rd power transmission shaft left end is fixedly mounted on left frame by rolling bearing units, and the 3rd power transmission shaft right-hand member, through the 3rd travelling gear, is fixedly mounted on mid frame by rolling bearing units; Described 4th power transmission shaft left end is fixedly mounted on left frame by rolling bearing units, and the 4th power transmission shaft right-hand member through the 4th travelling gear, and is connected and fixed by key; Described left slide rail and right slide rail are separately fixed on the right-hand member of mid frame and the left end of right frame, and the two is highly equal, are positioned at the bottom of the 3rd power transmission shaft; At the right-hand member of mid frame and the left end of right frame, and with the first power transmission shaft and the 4th power transmission shaft place straight line for symmetry axis, be symmetrically installed with two middle tooth fixtures respectively; Described encoder is fixedly mounted on the right-hand member in right frame, and contour with motor;

Described upper hot pressure device comprises upper left rotating disk, upper right rotating disk, upper main shaft, upper spring assembly, upper boiling hot cutter, the first electric slip ring and the second electric slip ring; Described upper left rotating disk and upper right rotating disk symmetry are arranged on main shaft; Described upper main shaft left end is connected with the 4th power transmission shaft on mid frame by taper pin with external thread, and upper main shaft right-hand member successively through upper left rotating disk, upper right rotating disk and right frame, and is connected with the second electric slip ring; Described upper right rotating disk is evenly distributed with three the first electric slip rings; Upper left rotating disk and upper right rotating disk are equipped with three upper spring assemblies, and the angle between adjacent upper spring assembly is 120 °, is connected with a upper boiling hot cutter between upper left rotating disk and the corresponding each upper spring assembly on upper right rotating disk, three upper cuttves that scald are parallel to each other;

Described upper left rotating disk comprises middle fixed gear, rotating disk outside plate, rotating disk inner panel and three groups of planetary systems, described rotating disk outside plate is identical with rotating disk inner panel shape specification, comprise three forks, angle between adjacent fork is 120 °, rotating disk outside plate to be fixed on mid frame on tooth fixture by thin-wall bearing, in between rotating disk outside plate and rotating disk inner panel, middle fixed gear is installed in the heart, described middle fixed gear center is fixed on main shaft, each fork between rotating disk outside plate and rotating disk inner panel is all provided with one group of planetary system, often organize planetary system to include: idle pulley, idler shaft, planetary gear and planet wheel spindle, described idle pulley is meshed with middle fixed gear, one end of described idler shaft is fixed on rotating disk outside plate, and the other end is fixed on rotating disk inner panel through idle pulley, described planetary gear is meshed with idle pulley, and planetary gear is fixedly mounted on planet wheel spindle by key, described planet wheel spindle one end is connected with rotating disk outside plate by rolling bearing units, and the other end passes rotating disk inner panel by rolling bearing units, and is connected with one end of upper spring assembly, the gear ratio of described planetary gear and middle fixed gear is 1:1,

The structure of described upper right rotating disk is substantially identical with the structure of upper left rotating disk, and difference is that the other end of the planet wheel spindle of upper right rotating disk is through after rotating disk inner panel, is connected with first electric slip ring, then is connected with one end of upper spring assembly;

Described upper spring assembly comprises upper tool post connector, upper spring spool, upper tool post spring, upper tool post sliding bar baffle plate and upper tool post sliding bar; Described upper tool post connector one end and upper spring spool are bolted to connection, and the other end is connected with corresponding planet wheel spindle; Described upper tool post spring is placed in spring spool; One end of upper tool post sliding bar is arranged on spring spool inside, and is fixed by bolt and upper tool post sliding bar baffle plate, and the other end of upper tool post sliding bar is connected with one end of upper boiling hot cutter;

The structure of described lower hot pressure device is identical with the structure of upper hot pressure device, comprises lower-left rotating disk, bottom right rotating disk, lower main axis, lower spring assembly and lower boiling hot cutter, and described lower-left rotating disk and bottom right rotating disk symmetry are arranged on lower main axis; Described lower main axis left end is connected by the right-hand member of taper pin with external thread with the first power transmission shaft on mid frame, and lower main axis right-hand member successively through lower-left rotating disk, bottom right rotating disk and right frame, and is connected with encoder; Described lower-left rotating disk and bottom right rotating disk are equipped with three lower spring assemblies, and the angle of adjacent lower spring inter-module is 120 °, boiling hot cutter under being connected with between lower-left rotating disk and the corresponding each lower spring assembly on the rotating disk of bottom right, under three, boiling hot cutter is parallel to each other;

Described lower spring assembly comprises lower slide connector, lower spring sleeve, lower slide spring, lower slide sliding bar baffle plate, lower slide sliding bar, miniature bearing sliding bar and miniature bearing; Described lower slide connector one end and lower spring sleeve are bolted to connection, and the other end is connected with corresponding planet wheel spindle; Described lower slide spring is placed in lower spring sleeve; One end of lower slide sliding bar is arranged on lower spring sleeve inner, and is fixed by one end of bolt and lower slide sliding bar baffle plate, and the other end is connected with one end of lower boiling hot cutter; Described miniature bearing sliding bar is mounted by means of bolts on the upper of lower slide sliding bar; Described miniature bearing is fixedly mounted on miniature bearing sliding bar, and miniature bearing slides in corresponding left slide rail or right slide rail.

Compared with traditional concora crush flat Bag Making Machine, the beneficial effects of the utility model are as follows:

The utility model adopts upper hot pressure device and lower hot pressure device, and control its rotary motion by travelling gear, the processing mode of Bag Making Machine is made to be improved to rotary hot pressure by traditional up-and-down reciprocating hot pressure, and continuous print at the uniform velocity feeding can be realized, thus significantly improve bag speed, save cost.The utility model adopts circle pressure circle technology, and line speed can reach more than 400-600mm/s, and for continous way is produced, production efficiency is high.

All the time boiling hot cutter is only had to contact with each other in upper hot pressure device and lower hot pressure device busy process, be a straight contact, the linear pressure of formation is little, and the moment of friction of rolling is inevitable little, the power that Bag Making Machine is operationally consumed is little, and thus machine construction size is also relatively little.Adopt gear ratio to be the planetary gear 2-1-4 of 1:1 and middle fixed gear 2-1-1 simultaneously, can ensure that boiling hot cutter direction remains downward, and lower boiling hot cutter direction remains upwards, fitting tightly when can realize hot pressure.

The utility model Bag Making Machine simple and flexible, floor space is little, easy to operate, simplifies technical process, significantly reduces production cost, decreases raw-material consumption, has saved the energy.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of a kind of embodiment of the utility model Bag Making Machine;

Fig. 2 is the main TV structure schematic diagram of upper hot pressure device 2 of a kind of embodiment of the utility model Bag Making Machine;

Fig. 3 is the right TV structure schematic diagram of the upper left rotating disk 2-1 of a kind of embodiment of the utility model Bag Making Machine;

Fig. 4 is the structural representation of the A-A section of Fig. 3;

Fig. 5 is the structural representation of the upper spring assembly 2-4 the midsagittal plane of a kind of embodiment of the utility model Bag Making Machine;

Fig. 6 is the main TV structure schematic diagram of the upper boiling hot cutter 2-5 of a kind of embodiment of the utility model Bag Making Machine;

Fig. 7 is the main TV structure schematic diagram of the lower hot pressure device 3 of a kind of embodiment of the utility model Bag Making Machine;

Fig. 8 is the midsagittal plane structural representation of the lower spring assembly 3-4 of a kind of embodiment of the utility model Bag Making Machine;

Fig. 9 is the midsagittal plane structural representation of the frame 1 of a kind of embodiment of the utility model Bag Making Machine;

In figure, 1. frame, 2. go up hot pressure device, 3. descend hot pressure device, 2-1. upper left rotating disk, 2-2. upper right rotating disk, the upper main shaft of 2-3., the upper spring assembly of 2-4., 2-5. upper scald cutter, 2-6. first electric slip ring, 2-7. second electric slip ring; Fixed gear, 2-1-2. idle pulley, 2-1-3. idler shaft, 2-1-4. planetary gear, 2-1-5. planet wheel spindle, 2-1-7. rotating disk inner panel, 2-1-8. rotating disk outside plate in the middle of 2-1-1.; 2-4-1. upper tool post connector, the upper spring spool of 2-4-2., 2-4-3. upper tool post spring, 2-4-4. upper tool post sliding bar baffle plate, 2-4-5. upper tool post sliding bar; 2-5-1. is upper scalds edge bearing plate, 2-5-2. high temperature cloth, 2-5-3. electric heating flat filament, 2-5-4. silicagel pad; Cutter is scalded under 3-1. lower-left rotating disk, 3-2. bottom right rotating disk, 3-3. lower main axis, 3-4. lower spring assembly, 3-5.; 3-4-1. lower slide connector, 3-4-2. lower spring sleeve, 3-4-3. lower slide spring, 3-4-4. lower slide sliding bar baffle plate, 3-4-5. lower slide sliding bar, 3-4-6. miniature bearing sliding bar, 3-4-7 miniature bearing; Tooth fixture, 1-16. motor, 1-17. encoder in 1-1. base, 1-2. left frame, 1-3. mid frame, the right frame of 1-4., 1-5. first travelling gear, 1-6. first power transmission shaft, 1-7. second travelling gear, 1-8. second driving shaft, 1-9. the 3rd travelling gear, 1-10. the 3rd power transmission shaft, 1-11. the 4th travelling gear, 1-12. the 4th power transmission shaft, the left slide rail of 1-13., the right slide rail of 1-14., 1-15..

Detailed description of the invention

Provide detailed description of the invention of the present utility model below, but detailed description of the invention is only illustrate the utility model, does not limit the protection domain of the utility model application claim.

The utility model Bag Making Machine (see Fig. 1-9) comprises frame 1, upper hot pressure device 2 and lower hot pressure device 3, and upper hot pressure device 2 and lower hot pressure device about 3 symmetry are arranged in frame 1;

Described frame 1 (see Fig. 9) comprises base 1-1, left frame 1-2, mid frame 1-3, right frame 1-4, the first travelling gear 1-5, the first power transmission shaft 1-6, the second travelling gear 1-7, second driving shaft 1-8, the 3rd travelling gear 1-9, the 3rd power transmission shaft 1-10, the 4th travelling gear 1-11, the 4th power transmission shaft 1-12, left slide rail 1-13, right slide rail 1-14, middle tooth fixture 1-15, motor 1-16 and encoder 1-17; Described left frame 1-2, mid frame 1-3 and right frame 1-4 are vertically arranged on base 1-1 in the horizontal direction successively; Described first power transmission shaft 1-6 one end is fixedly connected with the motor shaft of motor 1-16, and motor 1-16 is fixed on the outside of left frame 1-2, and the other end of the first power transmission shaft 1-6 through the first travelling gear 1-5, and is connected by key; Described first travelling gear 1-5, the second travelling gear 1-7, the 3rd travelling gear 1-9 and the 4th travelling gear 1-11 engage each other from bottom to top successively, described second driving shaft 1-8 left end is by rolling bearing units fixed installation left frame 1-2, second driving shaft 1-8 right-hand member, through the second travelling gear 1-7, is fixedly mounted on mid frame 1-3 by rolling bearing units; Described 3rd power transmission shaft 1-10 left end is fixedly mounted on left frame 1-2 by rolling bearing units, and the 3rd power transmission shaft 1-10 right-hand member, through the 3rd travelling gear 1-9, is fixedly mounted on mid frame 1-3 by rolling bearing units; Described 4th power transmission shaft 1-11 left end is fixedly mounted on left frame 1-2 by rolling bearing units, and the 4th power transmission shaft 1-12 right-hand member through the 4th travelling gear 1-11, and is connected and fixed by key; Described left slide rail 1-13 and right slide rail 1-14 is separately fixed on the right-hand member of mid frame 1-3 and the left end of right frame 1-4, and the two is highly equal, is positioned at the bottom of the 3rd power transmission shaft 1-10; At the right-hand member of mid frame 1-3 and the left end of right frame 1-4, and with the first power transmission shaft 1-6 and the 4th power transmission shaft 1-12 place straight line for symmetry axis, be symmetrically installed with two middle tooth fixture 1-15 respectively; Described encoder 1-17 is fixedly mounted on the right-hand member on right frame 1-4, and contour with motor 1-16;

Described upper hot pressure device 2 (see Fig. 2) comprises upper left rotating disk 2-1, upper right rotating disk 2-2, upper main shaft 2-3, upper spring assembly 2-4, upper boiling hot cutter 2-5, the first electric slip ring 2-6 and the second electric slip ring 2-7; Described upper left rotating disk 2-1 and upper right rotating disk 2-2 symmetry are arranged on main shaft 2-3; Described upper main shaft 2-3 left end is connected with the 4th power transmission shaft 1-12 on mid frame 1-3 by taper pin with external thread, and upper main shaft 2-3 right-hand member successively through upper left rotating disk 2-1, upper right rotating disk 2-2 and right frame 1-4, and is connected with the second electric slip ring 2-7; Described upper right rotating disk 2-2 is evenly distributed with three the first electric slip ring 2-6; Upper left rotating disk 2-1 and upper right rotating disk 2-2 is equipped with three upper spring assembly 2-4, and the angle between adjacent upper spring assembly 2-4 is 120 °, be connected with a upper boiling hot cutter 2-5 between upper left rotating disk 2-1 and the corresponding each upper spring assembly 2-4 on upper right rotating disk 2-2, three upper cutter 2-5 that scald are parallel to each other;

Described upper left rotating disk 2-1 (see Fig. 4) comprises middle fixed gear 2-1-1, rotating disk outside plate 2-1-8, rotating disk inner panel 2-1-7 and three group planetary system, described rotating disk outside plate 2-1-8 is identical with rotating disk inner panel 2-1-7 shape specification, comprise three forks, angle between adjacent fork is 120 ° (see Fig. 3), rotating disk outside plate 2-1-8 to be fixed on mid frame 1-3 on tooth fixture 1-15 by thin-wall bearing, in between rotating disk outside plate 2-1-8 and rotating disk inner panel 2-1-7, middle fixed gear 2-1-1 is installed in the heart, described middle fixed gear 2-1-1 center is fixed on main shaft 2-3, each fork between rotating disk outside plate 2-1-8 and rotating disk inner panel 2-1-7 is all provided with one group of planetary system, often organize planetary system to include: idle pulley 2-1-2, idler shaft 2-1-3, planetary gear 2-1-4 and planet wheel spindle 2-1-5, described idle pulley 2-1-2 is meshed with middle fixed gear 2-1-1, one end of described idler shaft 2-1-3 is fixed on rotating disk outside plate 2-1-8, and the other end is fixed on rotating disk inner panel 2-1-7 through idle pulley 2-1-2, described planetary gear 2-1-4 is meshed with idle pulley 2-1-2, and planetary gear 2-1-4 is fixedly mounted on planet wheel spindle 2-1-5 by key, described planet wheel spindle 2-1-5 one end is connected with rotating disk outside plate 2-1-8 by rolling bearing units, and the other end passes rotating disk inner panel 2-1-7 by rolling bearing units, and is connected with one end of upper spring assembly 2-4, the gear ratio of described planetary gear 2-1-4 and middle fixed gear 2-1-1 is 1:1,

The structure of described upper right rotating disk 2-2 is substantially identical with the structure of upper left rotating disk 2-1, and difference is that the other end of the planet wheel spindle of upper right rotating disk 2-2 is through after rotating disk inner panel, is connected with a first electric slip ring 2-6, then is connected with one end of upper spring assembly;

Described upper spring assembly 2-4 (see Fig. 5) comprises upper tool post connector 2-4-1, upper spring spool 2-4-2, upper tool post spring 2-4-3, upper tool post sliding bar baffle plate 2-4-4 and upper tool post sliding bar 2-4-5; Described upper tool post connector 2-4-1 one end and upper spring spool 2-4-2 are bolted to connection, and the other end is connected with corresponding planet wheel spindle 2-1-5; Described upper tool post spring 2-4-3 is placed in spring spool 2-4-2; One end of upper tool post sliding bar 2-4-5 is arranged on spring spool 2-4-2 inside, and is fixed by bolt and upper tool post sliding bar baffle plate 2-4-4, and the other end of upper tool post sliding bar 2-4-5 is connected with one end of upper boiling hot cutter 2-5;

The structure of described lower hot pressure device 3 (see Fig. 7) is substantially identical with the structure of upper hot pressure device 2, comprise lower-left rotating disk 3-1, bottom right rotating disk 3-2, lower main axis 3-3, lower spring assembly 3-4 and lower boiling hot cutter 3-5, described lower-left rotating disk 3-1 and bottom right rotating disk 3-2 symmetry are arranged on lower main axis 3-3; Described lower main axis 3-3 left end is connected by the right-hand member of taper pin with external thread with the first power transmission shaft 1-6 on mid frame 1-3, and lower main axis 3-3 right-hand member successively through lower-left rotating disk 3-1, bottom right rotating disk 3-2 and right frame 1-4, and is connected with encoder 1-17; Described lower-left rotating disk 3-1 and bottom right rotating disk 3-2 is equipped with three lower spring assembly 3-4, and the angle between adjacent lower spring assembly 2-4 is 120 °, boiling hot cutter 3-5 under being connected with one between lower-left rotating disk 3-1 and the corresponding each lower spring assembly 3-4 on the rotating disk 3-2 of bottom right, under three, boiling hot cutter 3-5 is parallel to each other;

Described lower spring assembly 3-4 (see Fig. 8) comprises lower slide connector 3-4-1, lower spring sleeve 3-4-2, lower slide spring 3-4-3, lower slide sliding bar baffle plate 3-4-4, lower slide sliding bar 3-4-5, miniature bearing sliding bar 3-4-6 and miniature bearing 3-4-7; Described lower slide connector 3-4-1 one end and lower spring sleeve 3-4-2 are bolted to connection, and the other end is connected with corresponding planet wheel spindle; Described lower slide spring 3-4-3 is placed in lower spring sleeve 3-4-2; One end of lower slide sliding bar 3-4-5 is arranged on lower spring sleeve 3-4-2 inside, and is fixed by one end of bolt and lower slide sliding bar baffle plate 3-4-4, and the other end is connected with one end of lower boiling hot cutter 3-5; Described miniature bearing sliding bar 3-4-6 is mounted by means of bolts on the upper of lower slide sliding bar 3-4-5; Described miniature bearing 3-4-7 is fixedly mounted on miniature bearing sliding bar 3-4-6, and miniature bearing 3-4-7 slides in corresponding left slide rail 1-13 or right slide rail 1-14.

Of the present utility modelly be further characterized in that described boiling hot cutter 2-5 (see Fig. 6) comprises upper boiling hot edge bearing plate 2-5-1, high temperature cloth 2-5-2, electric heating flat filament 2-5-3 and silicagel pad 2-5-4; The upper tool post sliding bar 2-4-5 of the upper spring assembly 2-4 on described boiling hot edge bearing plate 2-5-1 left end and upper left rotating disk is bolted to connection, and the upper tool post sliding bar 2-4-5 of the upper spring assembly 2-4 on right-hand member and upper right rotating disk is bolted to connection; Described high temperature cloth 2-5-2 is attached to 2-5-1 on boiling hot edge bearing plate; Described silicagel pad 2-5-4 is attached on high temperature cloth 2-5-2; Described electric heating flat filament 2-5-3 is attached on silicagel pad 2-5-4, and electric heating flat filament 2-5-3 outermost layer pastes one deck high temperature cloth 2-5-2 again; Described boiling hot cutter 2-5 provides the temperature needed for hot pressure.

When planetary gear 2-1-4 is along with when in the middle of supralevoversion coiling, fixed gear 2-1-1 public affairs circle in the utility model, planetary gear 2-1-4 reversely rotates one week around the axis of self, makes the upper boiling hot cutter direction be connected with planet wheel spindle 2-1-5 remain downward.And for the setting by three groups of planetary systems lower hot pressure device, lower boiling hot cutter direction is remained upwards.Lower boiling hot cutter is identical with the structure of upper boiling hot cutter, when lower boiling hot cutter 3-5 contacts with upper boiling hot cutter 2-7, is provided support by high temperature cloth.

Operation principle of the present utility model and using method are: upper hot pressure device 2 and lower hot pressure device 3 symmetry are arranged in frame 1, upper hot pressure device 2 and lower hot pressure device 3 are by travelling gear (the first travelling gear 1-5, second travelling gear 1-7, 3rd travelling gear 1-9 and the 4th travelling gear 1-11) transmission, the motor 1-16 be connected with lower main axis 3-3 is as the power source of whole hot pressure device, the power of lower main axis 3-3 passes to upper main shaft 2-3 via travelling gear, in realization, the synchronous rotary of lower hot pressure device, after upper boiling hot cutter 2-5 contacts with lower boiling hot cutter 3-5, upper spring assembly 2-4 and lower spring assembly 3-4 starts to be compressed and provides the pressure of heat-sealing.

Descend boiling hot cutter 3-5 to rotate around lower main axis 3-3 together along with lower spring assembly 3-4, in rotary course, descend the direction of boiling hot cutter 3-5 to remain constant.Instantly when boiling hot cutter 3-5 rotates to top, corresponding slide rail (left slide rail 1-13 or right slide rail 1-14) will be entered into the miniature bearing 3-4-7 that lower boiling hot cutter 3-5 is connected, the lower slide sliding bar 3-4-5 of lower spring assembly 3-4 moves down, lower slide spring 3-4-3 in lower spring sleeve 3-4-2 is compressed, miniature bearing 3-4-7 is after peak, the decrement of lower slide spring 3-4-3 starts from large to small, until miniature bearing 3-4-7 skids off corresponding slide rail.In the process that miniature bearing 3-4-7 slides in slide rail, the upper boiling hot edge bearing plate 2-5-1 be arranged on spring assembly 2-4 moves horizontally, this process be plastic sheeting just from be heat sealed to the time that heat-sealing terminates, upper tool post spring 2-4-3 during this period of time in upper spring assembly 2-4 is compressed, this be in order to make plastic sheeting in heat seal process on scald cutter and lower boiling hot cutter and have certain pressure, double-layer films is better merged, and the intensity that heat-sealing is sealed is strengthened.

Encoder 1-17 to be used in turntable rotation process measuring in real time the angle value of rotating disk, and the rotating speed exported by controlling motor 1-16 controls the speed of Bag Making Machine hot pressure, thus meets the requirement of different size packaging bag.The miniature bearing 3-4-7 that lower spring assembly 3-4 has slides along left and right slide rail respectively, and slide rail ensure that hot pressure track is on a horizontal line.

The utility model is not addressed part and is applicable to prior art.

Claims (2)

1. a Bag Making Machine, is characterized in that this Bag Making Machine comprises frame, upper hot pressure device and lower hot pressure device, and upper hot pressure device and the upper and lower symmetry of lower hot pressure device are arranged in frame;

Described frame comprises base, left frame, mid frame, right frame, the first travelling gear, the first power transmission shaft, the second travelling gear, second driving shaft, the 3rd travelling gear, the 3rd power transmission shaft, the 4th travelling gear, the 4th power transmission shaft, left slide rail, right slide rail, middle tooth fixture, motor and encoder; Described left frame, mid frame and right frame are vertically arranged on base in the horizontal direction successively; Described first power transmission shaft one end is fixedly connected with the motor shaft of motor, and motor is fixed on the outside of left frame, and the other end of the first power transmission shaft through the first travelling gear, and is connected by key; Described first travelling gear, the second travelling gear, the 3rd travelling gear and the 4th travelling gear engage each other from bottom to top successively, described second driving shaft left end is by rolling bearing units fixed installation left frame, second driving shaft right-hand member, through the second travelling gear, is fixedly mounted on mid frame by rolling bearing units; Described 3rd power transmission shaft left end is fixedly mounted on left frame by rolling bearing units, and the 3rd power transmission shaft right-hand member, through the 3rd travelling gear, is fixedly mounted on mid frame by rolling bearing units; Described 4th power transmission shaft left end is fixedly mounted on left frame by rolling bearing units, and the 4th power transmission shaft right-hand member through the 4th travelling gear, and is connected and fixed by key; Described left slide rail and right slide rail are separately fixed on the right-hand member of mid frame and the left end of right frame, and the two is highly equal, are positioned at the bottom of the 3rd power transmission shaft; At the right-hand member of mid frame and the left end of right frame, and with the first power transmission shaft and the 4th power transmission shaft place straight line for symmetry axis, be symmetrically installed with two middle tooth fixtures respectively; Described encoder is fixedly mounted on the right-hand member in right frame, and contour with motor;

Described upper hot pressure device comprises upper left rotating disk, upper right rotating disk, upper main shaft, upper spring assembly, upper boiling hot cutter, the first electric slip ring and the second electric slip ring; Described upper left rotating disk and upper right rotating disk symmetry are arranged on main shaft; Described upper main shaft left end is connected with the 4th power transmission shaft on mid frame by taper pin with external thread, and upper main shaft right-hand member successively through upper left rotating disk, upper right rotating disk and right frame, and is connected with the second electric slip ring; Described upper right rotating disk is evenly distributed with three the first electric slip rings; Upper left rotating disk and upper right rotating disk are equipped with three upper spring assemblies, and the angle between adjacent upper spring assembly is 120 °, is connected with a upper boiling hot cutter between upper left rotating disk and the corresponding each upper spring assembly on upper right rotating disk, three upper cuttves that scald are parallel to each other;

Described upper left rotating disk comprises middle fixed gear, rotating disk outside plate, rotating disk inner panel and three groups of planetary systems, described rotating disk outside plate is identical with rotating disk inner panel shape specification, comprise three forks, angle between adjacent fork is 120 °, rotating disk outside plate to be fixed on mid frame on tooth fixture by thin-wall bearing, in between rotating disk outside plate and rotating disk inner panel, middle fixed gear is installed in the heart, described middle fixed gear center is fixed on main shaft, each fork between rotating disk outside plate and rotating disk inner panel is all provided with one group of planetary system, often organize planetary system to include: idle pulley, idler shaft, planetary gear and planet wheel spindle, described idle pulley is meshed with middle fixed gear, one end of described idler shaft is fixed on rotating disk outside plate, and the other end is fixed on rotating disk inner panel through idle pulley, described planetary gear is meshed with idle pulley, and planetary gear is fixedly mounted on planet wheel spindle by key, described planet wheel spindle one end is connected with rotating disk outside plate by rolling bearing units, and the other end passes rotating disk inner panel by rolling bearing units, and is connected with one end of upper spring assembly, the gear ratio of described planetary gear and middle fixed gear is 1:1,

The structure of described upper right rotating disk is substantially identical with the structure of upper left rotating disk, and difference is that the other end of the planet wheel spindle of upper right rotating disk is through after rotating disk inner panel, is connected with first electric slip ring, then is connected with one end of upper spring assembly;

Described upper spring assembly comprises upper tool post connector, upper spring spool, upper tool post spring, upper tool post sliding bar baffle plate and upper tool post sliding bar; Described upper tool post connector one end and upper spring spool are bolted to connection, and the other end is connected with corresponding planet wheel spindle; Described upper tool post spring is placed in spring spool; One end of upper tool post sliding bar is arranged on spring spool inside, and is fixed by bolt and upper tool post sliding bar baffle plate, and the other end of upper tool post sliding bar is connected with one end of upper boiling hot cutter;

The structure of described lower hot pressure device is identical with the structure of upper hot pressure device, comprises lower-left rotating disk, bottom right rotating disk, lower main axis, lower spring assembly and lower boiling hot cutter, and described lower-left rotating disk and bottom right rotating disk symmetry are arranged on lower main axis; Described lower main axis left end is connected by the right-hand member of taper pin with external thread with the first power transmission shaft on mid frame, and lower main axis right-hand member successively through lower-left rotating disk, bottom right rotating disk and right frame, and is connected with encoder; Described lower-left rotating disk and bottom right rotating disk are equipped with three lower spring assemblies, and the angle of adjacent lower spring inter-module is 120 °, boiling hot cutter under being connected with between lower-left rotating disk and the corresponding each lower spring assembly on the rotating disk of bottom right, under three, boiling hot cutter is parallel to each other;

Described lower spring assembly comprises lower slide connector, lower spring sleeve, lower slide spring, lower slide sliding bar baffle plate, lower slide sliding bar, miniature bearing sliding bar and miniature bearing; Described lower slide connector one end and lower spring sleeve are bolted to connection, and the other end is connected with corresponding planet wheel spindle; Described lower slide spring is placed in lower spring sleeve; One end of lower slide sliding bar is arranged on lower spring sleeve inner, and is fixed by one end of bolt and lower slide sliding bar baffle plate, and the other end is connected with one end of lower boiling hot cutter; Described miniature bearing sliding bar is mounted by means of bolts on the upper of lower slide sliding bar; Described miniature bearing is fixedly mounted on miniature bearing sliding bar, and miniature bearing slides in corresponding left slide rail or right slide rail.

2. Bag Making Machine according to claim 1, is characterized in that described boiling hot cutter comprises boiling hot edge bearing plate, high temperature cloth, electric heating flat filament and silicagel pad.