CN111483655A - Food packaging equipment for food processing - Google Patents

Abstract

The invention relates to food packaging equipment, in particular to food packaging equipment for food processing, which comprises a belt extrusion mechanism, a hot pressing linkage mechanism, a feeding switching mechanism and a cutting output mechanism, wherein the equipment can hot press food bag raw materials made of annular plastic materials into small bags, the equipment can inject the small bags subjected to hot pressing into food, the equipment can seal the small bags injected with the food, the equipment can tilt the small bags subjected to sealing out, the belt extrusion mechanism is connected with the hot pressing mechanism, the hot pressing linkage mechanism is connected with the belt extrusion mechanism, the feeding switching mechanism is connected with the belt extrusion mechanism, the cutting output mechanism is connected with the belt extrusion mechanism, and the hot pressing linkage mechanism is connected with the feeding switching mechanism.

Description

Food packaging equipment for food processing

Technical Field

The invention relates to food packaging equipment, in particular to food packaging equipment for food processing.

Background

In the process of packaging food by water, the phenomena of waste of packaging bag raw materials and over-slow packaging speed often occur, but no good food packaging equipment exists in the market, so the food packaging equipment for food processing is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing food packaging equipment for food processing, which can hot-press food bag raw materials made of annular plastic materials into small bags, can inject the small bags after hot pressing into food, can seal the small bags injected with the food, and can reduce the small bags after sealing to incline.

In order to solve the technical problems, the invention relates to food packaging equipment, in particular to food packaging equipment for food processing, which comprises a belt extrusion mechanism, a hot pressing linkage mechanism, a feeding switching mechanism and a cutting output mechanism, wherein the equipment can hot press food bag raw materials made of annular plastic materials into small bags, can inject the small bags subjected to hot pressing into food, can seal the small bags injected with the food, and can incline the small bags subjected to sealing.

The belt extrusion mechanism is connected with the hot pressing mechanism, the hot pressing linkage mechanism is connected with the belt extrusion mechanism, the feeding switching mechanism is connected with the belt extrusion mechanism, the cutting output mechanism is connected with the belt extrusion mechanism, and the hot pressing linkage mechanism is connected with the feeding switching mechanism.

As a further optimization of the technical scheme, the food packaging equipment for food processing comprises a belt extrusion mechanism, a belt extrusion power motor, a left side transmission shaft, a transmission belt, a reverse transmission shaft, a gear a, a gear b, a right side transmission shaft, a left side extrusion belt, a right side extrusion belt, a transmission column, a lateral hot pressing plate mechanism, a lower side extrusion belt limiting mechanism, a mounting plate a, a mounting plate b, a mounting plate c and a mounting plate d, wherein a motor shaft on the extrusion power motor is connected with the left side transmission shaft, the left side transmission shaft is in friction connection with the transmission belt, the transmission belt is in friction connection with the reverse transmission shaft, the reverse transmission shaft is connected with the gear a, the gear a is meshed with the gear b, the gear b is connected with the right side transmission shaft, the four right side transmission shafts are in friction connection with the right side extrusion belt, the left side extrusion belt is in, the conveying column is connected with the left side extrusion belt in a friction way, the lateral hot pressing plate mechanism is connected with the mounting plate b, the lower side extrusion belt limiting mechanism is connected with the mounting plate b, the mounting plate a is connected with the mounting plate b, the mounting plate b is connected with the left side transmission shaft bearing, the mounting plate c is connected with the mounting plate b, the mounting plate d is connected with the left side transmission shaft bearing, the left side transmission shaft is connected with the mounting plate d bearing, the reverse transmission shaft on one side is connected with the mounting plate b bearing, the reverse transmission shaft on the other side is connected with the mounting plate d bearing, the right side transmission shaft is connected with the mounting plate d bearing, the lateral hot pressing plate mechanism is connected with the mounting plate d, the lower side extrusion belt limiting mechanism on one side is connected with the lower side extrusion belt limiting mechanism on the other side, the lower side extrusion belt limiting, the mounting plate b is connected with the mounting plate c, and the mounting plate c is connected with the mounting plate d; the lateral hot pressing plate mechanism comprises a connecting plate a, a connecting plate b, a hot pressing plate, a positive terminal and a negative terminal, wherein the connecting plate a is connected with the hot pressing plate, the connecting plate b is connected with the hot pressing plate, the hot pressing plate is connected with the positive terminal and the negative terminal, one side of the connecting plate a is connected with the mounting plate b, one side of the connecting plate b is connected with the mounting plate d, one side of the connecting plate b is connected with the mounting plate b, one side of the hot pressing plate is connected with the mounting plate d, one side of the hot pressing plate is connected with the mounting plate b, one side of the hot pressing plate is connected with the mounting plate d, the lower side extrusion belt limiting mechanism comprises a fixing plate, a sliding shaft, a limiting spring and a pressing plate, the fixing plate is in sliding connection, the upper and lower connecting belts are in friction connection with the left transmission shaft, and the upper and lower connecting belts are connected with the right transmission shaft.

As a further optimization of the technical proposal, the invention relates to food packaging equipment for food processing, the hot pressing mechanism include the screw thread strip, the screw thread post, hot pressing sliding shaft, the paralysed that resets, the hot pressing board, hot pressing contact piece a, the contact hole, hot pressing board b, positive negative terminal, the screw thread strip is connected with driving belt, the screw thread post with advance the screw thread strip threaded connection of screw thread post top, hot pressing sliding shaft and screw thread post connection, paralysed cover that resets is spacing on hot pressing sliding shaft and spacing in mounting panel d and hot pressing board, hot pressing board and hot pressing sliding shaft connection, hot pressing contact piece a is connected with the hot pressing board, the contact hole is opened on hot pressing board b, hot pressing board b and hot pressing board connection, positive negative terminal and hot pressing board connection, hot pressing contact piece a and contact connection, hot pressing sliding shaft and mounting panel b sliding connection, hot pressing sliding shaft and mounting panel d sliding connection.

As a further optimization of the technical scheme, the food packaging equipment for food processing comprises a hot-pressing linkage mechanism, a linkage power motor, a motor shaft, a belt pulley, a bearing seat a, a linkage transmission shaft a, a linkage belt b, a linkage transmission shaft b, a bearing seat b, a linkage belt c, a special-shaped belt pulley a, a long key, a connecting shaft a, a limiting ring b, a linkage belt d, a special-shaped belt pulley b, a fan shaft, a fluctuation strip, a ball shaft, a fan box, a fan, an inclined plate, an inclined discharge chute, an electric heater, a reset tension spring, a drainage plate and an electric heater connecting plate, wherein the linkage power motor is connected with the motor shaft, the motor shaft is connected with the belt pulley, the belt pulley is in friction connection with the linkage belt a, the bearing seat a is in bearing connection with the linkage transmission shaft a, the linkage belt, the linkage transmission shaft b is connected with the belt pulley, the bearing seat b is connected with the bearing of the linkage transmission shaft b, the linkage belt c is connected with the belt pulley in a friction way, the special-shaped belt pulley a is connected with the linkage belt c in a friction way, the long-strip key is connected with the special-shaped belt pulley a in a sliding way, the connecting shaft a is connected with the long-strip key, the limiting ring a is connected with the connecting shaft a, the limiting ring b is connected with the connecting shaft a, the linkage belt d is connected with the special-shaped belt pulley a in a friction way, the special-shaped belt pulley b is connected with the linkage belt d in a friction way, the fan shaft is connected with the fluctuation strip, the fluctuation strip is connected with the special-shaped belt pulley b in a sliding way, the ball shaft is connected with the bearing of the special-shaped belt pulley b, the fan box is connected with the bearing of the fan shaft, one, one side of the other reset tension spring is connected with the other side of the electric heater connecting plate and a mounting plate b, one side of the drainage plate is connected with the connecting plate a, the other side of the drainage plate is connected with the connecting plate b, the other side of the drainage plate is connected with a mounting plate d, the electric heater connecting plate is connected with a connecting shaft a, the linkage power motor is connected with the mounting plate d, the motor shaft is connected with a bearing of the mounting plate d, the linkage transmission shaft a is connected with a bearing of the mounting plate d, the linkage transmission shaft b on one side is connected with a bearing of the mounting plate b, the linkage transmission shaft b on the other side is connected with a bearing of the mounting plate d, the thread on the connecting shaft a on one side is connected with the thread of the mounting plate b, the fan shaft on one side is connected with a bearing of the mounting, the wave strip is connected with the ball shaft, the fan box on one side is connected with the mounting plate b, the fan box on the other side is connected with the mounting plate d, one side of the inclined plate is connected with the lower end of the opening on the mounting plate b, the other side of the inclined plate is connected with the mounting plate d, and the inclined discharging groove is connected with the mounting plate b; the electric heater comprises an electric heating plate, an on-off contact a, positive and negative wiring terminals and an on-off contact b, wherein the electric heating plate is connected with the on-off contact a, the positive and negative wiring terminals are connected with the electric heating plate, the on-off contact b is connected with the electric heating plate, and the electric heating plate is connected with an electric heater connecting plate.

As a further optimization of the technical scheme, the food packaging equipment for food processing comprises a feed switching mechanism, a handle, a switching sliding plate, a sliding plate limiting plate a, a lower side connecting plate, an upper side connecting plate, a supporting plate, a feed pipe, a sliding plate limiting plate b and a feed barrel, wherein the handle is connected with the switching sliding plate, the switching sliding plate is connected with the sliding plate limiting plate a, the lower side connecting plate is connected with the switching sliding plate in a sliding manner, the upper side connecting plate is connected with the switching sliding plate in a sliding manner, the supporting plate is connected with the lower side connecting plate, the feed pipe is connected with a hole in the lower side connecting plate, the sliding plate limiting plate b is connected with a mounting plate d, the feed barrel is connected with the lower side connecting plate, the upper.

As a further optimization of the technical scheme, the food packaging equipment for food processing comprises a cutting output mechanism, a cutting power motor, a cutting transmission shaft, a cutting transmission belt, a cutting transmission gear, a cutting transmission rack, a cutting sliding plate, a cutting knife, a cutting bearing plate and a cutting motor mounting plate, wherein a motor shaft on the cutting power motor is connected with the cutting transmission shaft, the cutting transmission shaft is in friction connection with the cutting transmission belt, the cutting transmission gear is connected with the cutting transmission shaft, the cutting transmission rack is meshed with the cutting transmission gear, the cutting sliding plate is connected with the cutting transmission rack, the cutting knife is connected with the cutting sliding plate, the cutting bearing plate is connected with a cutting transmission shaft bearing, the cutting motor mounting plate is connected with the cutting power motor, and the cutting sliding plate is in sliding connection with a groove on the.

As a further optimization of the technical scheme, according to the food packaging equipment for food processing, the inner part of the hot pressing plate is provided with the resistor, the bevel edge on the corner of the hot pressing plate is provided with the metal plate, and the surface on the heating edge of the inner resistor heats after the hot pressing plate is electrified.

As a further optimization of the technical scheme, according to the food packaging equipment for food processing, when the two hot pressing plates are contacted, the contact points and the contact point holes are contacted with the resistors in the two hot pressing plates to be communicated, and the metal plates at the contact positions of the two hot pressing plates generate heat.

As a further optimization of the technical scheme, according to the food packaging equipment for food processing, the resistors are arranged inside the electric heating plates, the on-off contact a is in contact with the on-off contact b when the two electric heating plates are in contact, the resistors inside the electric heating plates are communicated, and the metal plates on the surfaces of the two electric heating plates in contact generate heat.

The multifunctional unmanned aerial vehicle lower hanging water conservancy sampling equipment has the beneficial effects that:

the food packaging equipment for food processing can hot-press food bag raw materials made of annular plastic materials into small bags, can inject the small bags subjected to hot pressing into food, can seal the small bags injected with the food, and can reduce the small bags subjected to sealing to incline.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a food packaging apparatus for food processing according to the present invention.

Fig. 2 is a schematic structural diagram of a belt extrusion mechanism 1 of a food packaging device for food processing according to the present invention.

Fig. 3 is a schematic structural diagram of a belt extrusion mechanism 1 of a food packaging device for food processing according to the present invention.

Fig. 4 is a schematic structural diagram three of a belt extrusion mechanism 1 of a food packaging device for food processing according to the present invention.

Fig. 5 is a first structural schematic diagram of the lateral hot-pressing plate mechanism 1-11 of the food packaging device for food processing of the present invention.

Fig. 6 is a second structural schematic diagram of the lateral hot-pressing plate mechanism 1-11 of the food packaging device for food processing of the present invention.

Fig. 7 is a schematic structural diagram of lower side extrusion belt limiting mechanisms 1-12 of the food packaging equipment for food processing.

Fig. 8 is a first structural schematic diagram of the hot-pressing mechanism 2 of the food packaging device for food processing according to the present invention.

Fig. 9 is a second structural schematic diagram of the hot pressing mechanism 2 of the food packaging device for food processing according to the present invention.

Fig. 10 is a third schematic structural diagram of the hot-pressing mechanism 2 of the food packaging apparatus for food processing according to the present invention.

Fig. 11 is a fourth schematic structural diagram of the hot pressing mechanism 2 of the food packaging apparatus for food processing according to the present invention.

Fig. 12 is a fifth schematic structural diagram of the hot pressing mechanism 2 of the food packaging apparatus for food processing according to the present invention.

Fig. 13 is a first structural schematic diagram of a hot-pressing linkage mechanism 3 of the food packaging device for food processing according to the present invention.

Fig. 14 is a schematic structural diagram of a hot-pressing linkage mechanism 3 of the food packaging device for food processing according to the present invention.

Fig. 15 is a second schematic structural diagram of a hot-pressing linkage mechanism 3 of the food packaging device for food processing according to the present invention.

FIG. 16 is a schematic view showing the construction of an electric heater 3-25 of a food packaging appliance for food processing according to the present invention.

Fig. 17 is a first structural schematic diagram of the feeding switching mechanism 4 of the food packaging device for food processing according to the present invention.

Fig. 18 is a second structural schematic diagram of the feeding switching mechanism 4 of the food packaging device for food processing according to the present invention.

Fig. 19 is a third schematic structural diagram of the feeding switching mechanism 4 of the food packaging device for food processing according to the present invention.

Fig. 20 is a first schematic structural diagram of the cutting output mechanism 5 of the food packaging apparatus for food processing according to the present invention.

Fig. 21 is a second schematic structural diagram of the cutting output mechanism 5 of the food packaging device for food processing according to the present invention.

Fig. 22 is a schematic structural view of a cutting knife 5-7 of the food packaging device for food processing of the present invention.

In the figure: a belt extrusion mechanism 1; extruding a power motor 1-1; a left transmission shaft 1-2; 1-3 of a transmission belt; 1-4 of a reverse transmission shaft; gear a 1-5; gear b 1-6; 1-7 parts of a right transmission shaft; 1-8 of left side extrusion belt; 1-9 parts of right side extrusion belt; transfer columns 1-10; a lateral hot-pressing plate mechanism 1-11; connection board a 1-11-1; connecting plate b 1-11-2; 1-11-3 of a hot pressing plate; 1-11-4 of positive and negative terminal posts; a lower side extrusion belt limiting mechanism 1-12; a fixing plate 1-12-1; a sliding shaft 1-12-2; 1-12-3 parts of a limiting spring; 1-12-4 of a compression plate; mounting plate a 1-13; mounting plate b 1-14; mounting plate c 1-15; mounting plate d 1-16; the upper and lower connecting belts 1-17; a hot-press mechanism 2; 2-1 of a thread strip; 2-2 of a threaded column; 2-3 of hot-pressing sliding shaft; paralysis reduction 2-4; 2-5 of a hot pressing plate; hot pressing contact block a 2-6; contacts 2-7; 2-8 of contact holes; hot press plate b 2-9; 2-10 of positive and negative terminal posts; a hot-pressing linkage mechanism 3; linkage power motor 3-1; a motor shaft 3-2; 3-3 of a belt pulley; bearing seat a 3-4; linkage drive shaft a 3-5; a linkage belt a 3-6; a link belt b 3-7; the linkage transmission shaft b 3-8; bearing seat b 3-9; a link belt c 3-10; a special-shaped belt pulley a 3-11; elongated bonds 3-12; connecting shaft a 3-13; a limit ring a 3-14; a limit ring b 3-15; a link belt d 3-16; a special-shaped belt pulley b 3-17; a fan shaft 3-18; 3-19 of fluctuation strips; 3-20 parts of ball shaft; 3-21 parts of a fan box; 3-22 of a fan; 3-23 of an inclined plate; 3-24 of an inclined discharging groove; 3-25 parts of an electric heater; 3-25-1 parts of an electric heating plate; on-off contact a 3-25-2; 3-25-3 parts of positive and negative terminal posts; on-off contact b 3-25-4; 3-26 of a reset tension spring; 3-27 parts of a drainage plate; electric heater connecting plates 3-28; a feed switching mechanism 4; 4-1 of a handle; switching the slide plate 4-2; the sliding plate limiting plate a 4-3; a lower side connecting plate 4-4; an upper side connecting plate 4-5; support plates 4-6; 4-7 parts of a feeding pipe; a slide plate limit plate b 4-8; 4-9 parts of a feed barrel; a cutting output mechanism 5; cutting power motor 5-1; cutting the transmission shaft 5-2; cutting the transmission belt 5-3; cutting the transmission gear 5-4; cutting the transmission rack 5-5; cutting the sliding plate 5-6; 5-7 parts of a cutting knife; cutting the bearing plate 5-8; and 5-9, installing a cutting motor.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the present invention relates to a food packaging apparatus, and more specifically, to a food packaging apparatus for food processing, including a belt pressing mechanism 1, a hot pressing mechanism 2, a hot pressing linkage mechanism 3, a feed switching mechanism 4, and a cutting output mechanism 5, which is capable of hot pressing a food bag raw material of an annular plastic material into small bags, injecting food into the small bags after hot pressing, sealing the small bags with the apparatus, and tilting the small bags after the sealing with the apparatus.

The belt extrusion mechanism 1 is connected with the hot pressing mechanism 2, the hot pressing linkage mechanism 3 is connected with the belt extrusion mechanism 1, the feeding switching mechanism 4 is connected with the belt extrusion mechanism 1, the cutting output mechanism 5 is connected with the belt extrusion mechanism 1, and the hot pressing linkage mechanism 3 is connected with the feeding switching mechanism 4.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the present embodiment further describes the first embodiment, in which the belt pressing mechanism 1 includes a pressing power motor 1-1, a left side driving shaft 1-2, a driving belt 1-3, a reverse driving shaft 1-4, a gear a1-5, a gear b1-6, a right side driving shaft 1-7, a left side pressing belt 1-8, a right side pressing belt 1-9, a conveying column 1-10, a lateral hot pressing plate mechanism 1-11, a lower side pressing belt limiting mechanism 1-12, a mounting plate a1-13, a mounting plate b1-14, a mounting plate c1-, A mounting plate d1-16, a motor shaft on an extrusion power motor 1-1 is connected with a left side transmission shaft 1-2, the left side transmission shaft 1-2 is in friction connection with a transmission belt 1-3, the transmission belt 1-3 is in friction connection with a reverse transmission shaft 1-4, the reverse transmission shaft 1-4 is connected with a gear a1-5, a gear a1-5 is meshed with a gear b1-6, a gear b1-6 is connected with a right side transmission shaft 1-7, four right side transmission shafts 1-7 are in friction connection with a right side extrusion belt 1-9, a left side extrusion belt 1-8 is in friction connection with four left side transmission shafts 1-2, a right side extrusion belt 1-9 is in friction connection with a transmission column 1-10, the transmission column 1-10 is in friction connection with the left side extrusion belt 1-8, a lateral hot pressing plate mechanism 1-11 is connected with a mounting, the lower side extrusion belt limiting mechanisms 1-12 are connected with a mounting plate b1-14, a mounting plate a1-13 is connected with a mounting plate b1-14, a mounting plate b1-14 is connected with a left side transmission shaft 1-2 bearing, a mounting plate c1-15 is connected with a mounting plate b1-14, a mounting plate d1-16 is connected with a left side transmission shaft 1-2 bearing, a left side transmission shaft 1-2 is connected with a mounting plate d1-16 bearing, a reverse transmission shaft 1-4 at one side is connected with a mounting plate b1-14 bearing, a reverse transmission shaft 1-4 at the other side is connected with a mounting plate d1-16 bearing, a right side transmission shaft 1-7 is connected with a mounting plate d1-16 bearing connecting bearing, a lateral hot pressing plate mechanism 1-11 is connected with a mounting plate d1-16, a lower side extrusion belt limiting mechanism 1-12 at one side is in, the lower side extrusion belt limiting mechanism 1-12 on the other side is in friction connection with the lower side right side extrusion belt 1-9, the lower side extrusion belt limiting mechanism 1-12 is connected with the mounting plate d1-16, the mounting plate a1-13 is connected with the mounting plate d1-16, the mounting plate b1-14 is connected with the mounting plate c1-15, and the mounting plate c1-15 is connected with the mounting plate d 1-16; the lateral hot-pressing plate mechanism 1-11 comprises a connecting plate a1-11-1, a connecting plate b1-11-2, a hot-pressing plate 1-11-3 and positive and negative terminals 1-11-4, wherein the connecting plate a1-11-1 is connected with the hot-pressing plate 1-11-3, the connecting plate b1-11-2 is connected with the hot-pressing plate 1-11-3, the hot-pressing plate 1-11-3 is connected with the positive and negative terminals 1-11-4, one side of the connecting plate a1-11-1 is connected with one side of a mounting plate b1-14 and is connected with a mounting plate d1-16, one side of the connecting plate b1-11-2 is connected with a mounting plate b1-14 and is connected with a mounting plate d1-16, one side of the hot-pressing plate 1-11-3 is connected with a mounting plate b1, the lower side extrusion belt limiting mechanism 1-12 comprises a fixed plate 1-12-1, a sliding shaft 1-12-2, a limiting spring 1-12-3 and a compression plate 1-12-4, wherein the fixed plate 1-12-1 is connected with the sliding shaft 1-12-2 in a sliding manner, the sliding shaft 1-12-2 is connected with the compression plate 1-12-4, the limiting spring 1-12-3 is sleeved on the sliding shaft 1-12-2 and limited on the fixed plate 1-12-1 and the compression plate 1-12-4, the compression plate 1-12-4 at one side is in friction connection with the left side extrusion belt 1-8, the compression plate 1-12-4 at the other side is in friction connection with a mounting plate d1-16, one side of the fixed plate 1-12-1 is connected with a mounting plate b1-14, and the other side is connected with a mounting plate d1-16, the upper and lower connecting belts 1-17 are in friction connection with the left transmission shaft 1-2, and the upper and lower connecting belts 1-17 are connected with the right transmission shaft 1-7.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the present embodiment further describes an embodiment, where the hot press mechanism 2 includes a threaded bar 2-1, a threaded post 2-2, a hot press slide shaft 2-3, a reset paralysis 2-4, a hot press plate 2-5, a hot press contact block a2-6, a contact 2-7, a contact hole 2-8, a hot press plate b2-9, a positive and negative terminal post 2-10, the threaded bar 2-1 is connected to a drive belt 1-3, the threaded post 2-2 is connected to the threaded bar 2-1 running above the threaded post 2-2, the hot-pressing sliding shaft 2-3 is connected with the threaded column 2-2, the reset cylinder 2-4 is sleeved on the hot-pressing sliding shaft 2-3 and limited on the mounting plate d1-16 and the hot-pressing plate 2-5, the hot-pressing plate 2-5 is connected with the hot-pressing sliding shaft 2-3, the hot-pressing contact block a2-6 is connected with the hot-pressing plate 2-5, the contact hole 2-8 is arranged on the hot-pressing plate b2-9, the hot-pressing plate b2-9 is connected with the hot-pressing plate 2-5, the positive and negative terminal posts 2-10 are connected with the hot-pressing plate 2-5, the hot-pressing contact block a2-6 is connected with the contact 2-7, the hot-pressing sliding shaft 2-3 is connected with the mounting plate b1-14 in a sliding manner, the hot-pressing sliding shaft 2-3 is connected with the mounting plate d1-16, the packaging bag raw material made of annular plastic materials is sleeved on a conveying column 1-10, an extrusion power motor 1-1 rotates, the extrusion power motor 1-1 rotates to drive a left transmission shaft 1-2, the left transmission shaft 1-2 rotates to drive a gear a1-5 to rotate, a gear a1-5 rotates to drive a right transmission shaft 1-7 to rotate, the left transmission shaft 1-2 and the right transmission shaft 1-7 rotate in opposite directions at the same time, when the left transmission shaft 1-2 and the right transmission shaft 1-7 rotate, a left extrusion belt 1-8 and a right extrusion belt 1-9 are respectively driven to move upwards or downwards in the direction of a lateral hot pressing plate mechanism 1-11, and when the left extrusion belt 1-8 and the right extrusion belt 1-9 move upwards, the packaging bag raw material made of annular plastic materials is conveyed upwards along the conveying column 1-10, at the moment, the left side extrusion belt 1-8 and the right side extrusion belt 1-9 are pressed, the other side of the left side extrusion belt 1-8 and the right side extrusion belt 1-9 is pressed by the pressure from the compression plate 1-12-4, the compression plate 1-12-4 is pressed by the pressure to press the limit spring 1-12-3, the limit spring 1-12-3 presses the pressure to move to the fixed plate 1-12-1 through the sliding shaft 1-12-2, namely, both sides of the left side extrusion belt 1-8 and the right side extrusion belt 1-9 are both pressed, one side of the left side transmission shaft 1-2 in the direction of the mounting plate b1-14 drives the left side extrusion belt 1-8 and the right side extrusion belt 1-9 on the upper side through the up-down connecting belt 1-17 and the right side transmission shaft 1-, when the materials move upwards, the materials are contacted with the inclined surfaces of the hot pressing plates 1-11-3, the positive and negative terminals 1-11-4 are connected with the positive and negative electrodes of a power supply, the inclined surfaces of the hot pressing plates 1-11-3 emit heat, the materials passing through are longitudinally integrated, when the materials are conveyed to a height exceeding the height of a packaging bag of the hot pressing plates 2-5, the threaded strips 2-1 connected on the transmission belt 1-3 move to the positions contacted with the threaded columns 2-2, the threaded strips 2-1 continue to move and drive the threaded columns 2-2 to move towards the mounting plate d1-16, the threaded columns 2-2 drive the hot pressing sliding shafts 2-3 to move, the hot pressing plates 2-5 are driven by the hot pressing sliding shafts 2-3 to move, the other sides are the same, when the two hot pressing plates 2-5 move to contact, the positive and negative terminals 2-10 of the power supply are, at the moment, the contacts 2-7 are inserted into the contact holes 2-8 and are contacted with the contacts in the contact holes 2-8, the hot pressing plate 2-5 generates heat to heat and press the materials contacted with the hot pressing plate 2-5 in the transverse direction to be fused into a whole, and at the moment, the equipment thermally presses the food bag raw materials made of annular plastic materials into small bags.

The fourth concrete implementation mode:

the present embodiment is further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the present embodiment further describes the first embodiment, in which the thermocompression linkage mechanism 3 includes a linkage power motor 3-1, a motor shaft 3-2, a pulley 3-3, a bearing seat a3-4, a linkage transmission shaft a3-5, a linkage belt a3-6, a linkage belt b3-7, a linkage transmission shaft b3-8, a bearing seat b3-9, a linkage belt c3-10, a profiled pulley a3-11, a long key 3-12, a connecting shaft a3-13, a limit ring a3-14, a limit ring b3-15, a linkage belt d3-16, The device comprises special-shaped belt pulleys b3-17, fan shafts 3-18, wave strips 3-19, ball shafts 3-20, a fan box 3-21, a fan 3-22, inclined plates 3-23, inclined discharging grooves 3-24, electric heaters 3-25, reset tension springs 3-26, a flow guide plate 3-27 and an electric heater connecting plate 3-28, a linkage power motor 3-1 is connected with a motor shaft 3-2, the motor shaft 3-2 is connected with the belt pulleys 3-3, the belt pulleys 3-3 are in friction connection with a linkage belt a3-6, a bearing seat a3-4 is in bearing connection with a linkage transmission shaft a3-5, a linkage transmission shaft a3-5 is connected with the belt pulleys 3-3, a linkage belt b3-7 is in friction connection with the belt pulleys 3-3, a linkage transmission shaft b3-8 is connected with the belt pulleys 3-3, a bearing seat b3-9 is in bearing connection with a linkage transmission shaft b3-8, a linkage belt c3-10 is in friction connection with a belt pulley 3-3, a special-shaped belt pulley a3-11 is in friction connection with a linkage belt c3-10, a long-strip key 3-12 is in sliding connection with a special-shaped belt pulley a3-11, a connecting shaft a3-13 is in connection with a long-strip key 3-12, a limit ring a3-14 is in connection with a connecting shaft a3-13, a limit ring b3-15 is in connection with a connecting shaft a3-13, a linkage belt d3-16 is in friction connection with a special-shaped belt pulley a3-11, a special-shaped belt pulley b3-17 is in friction connection with a linkage belt d3-16, a fan shaft 3-18 is in connection with a wave strip 3-19, a wave strip 3-19 is in sliding connection with a special-shaped belt pulley b3-17, a, the fan box 3-21 is connected with a fan shaft 3-18 through a bearing, the fan 3-22 is connected with the fan shaft 3-18, one side of the inclined plate 3-23 is connected with a connecting plate a1-11-1 and the other side is connected with a connecting plate b1-11-2, the inclined discharging groove 3-24 is connected with a mounting plate b1-14, the electric heater 3-25 is connected with an electric heater connecting plate 3-28, one side of a reset tension spring 3-26 is connected with the other side of the electric heater connecting plate 3-28 and a mounting plate d1-16, one side of another reset tension spring 3-26 is connected with the other side of the electric heater connecting plate 3-28 and a mounting plate b1-14, one side of the drainage plate 3-27 is connected with a connecting plate 1-11-1 and the other side is connected with a connecting plate b1-11-2, one side of the other direction d1-16, electric heater connecting plates 3-28 are connected with connecting shafts a3-13, linkage power motors 3-1 are connected with mounting plates d1-16, motor shafts 3-2 are connected with mounting plates d1-16 through bearings, linkage transmission shafts a3-5 are connected with mounting plates b1-14 through bearings, linkage transmission shafts a3-5 are connected with mounting plates d1-16 through bearings, linkage transmission shafts b3-8 on one side are connected with mounting plates b1-14 through bearings, linkage transmission shafts b3-8 on the other side are connected with mounting plates d1-16 through bearings, threads on connecting shafts a3-13 on one side are connected with mounting plates b1-14 through threads, threads on connecting shafts a3-13 on the other side are connected with mounting plates d1-16 through threads, fan shafts 3-18 on one side are connected with mounting plates b1-14 through bearings, the fan shaft 3-18 at the other side is connected with a mounting plate d1-16 through a bearing, the wave strip 3-19 is connected with a ball shaft 3-20, the fan box 3-21 at one side is connected with a mounting plate b1-14, the fan box 3-21 at the other side is connected with a mounting plate d1-16, one side of the inclined plate 3-23 is connected with the lower end of an opening on the mounting plate b1-14, the other side is connected with the mounting plate d1-16, and the inclined discharging groove 3-24 is connected with the mounting plate b 1-14; the electric heater 3-25 comprises an electric heating plate 3-25-1, an on-off contact a3-25-2, positive and negative terminal posts 3-25-3 and an on-off contact b3-25-4, the electric heating plate 3-25-1 is connected with the on-off contact a3-25-2, the positive and negative terminal posts 3-25-3 are connected with the electric heating plate 3-25-1, the on-off contact b3-25-4 is connected with the electric heating plate 3-25-1, and the electric heating plate 3-25-1 is connected with an electric heater connecting plate 3-28.

The fifth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21 and 22, the present embodiment will be further described, wherein the feed switching mechanism 4 includes a handle 4-1, a switching slide plate 4-2, a slide plate position limiting plate a4-3, a lower connecting plate 4-4, an upper connecting plate 4-5, a supporting plate 4-6, a feed pipe 4-7, a slide plate position limiting plate b4-8 and a feed barrel 4-9, the handle 4-1 is connected with the switching slide plate 4-2, the switching slide plate 4-2 is connected with a slide plate a4-3, the lower connecting plate 4-4 is slidably connected with the switching slide plate 4-2, an upper connecting plate 4-5 is connected with a switching sliding plate 4-2 in a sliding mode, a supporting plate 4-6 is connected with a lower connecting plate 4-4, a feeding pipe 4-7 is connected with a hole in the lower connecting plate 4-4, a sliding plate limiting plate b4-8 is connected with a mounting plate d1-16, a feeding barrel 4-9 is connected with the lower connecting plate 4-4, an upper connecting plate 4-5 is connected with the feeding barrel 4-9, a supporting plate 4-6 is connected with a mounting plate b1-14, a supporting plate 4-6 is connected with a mounting plate d1-16, the device can inject hot-pressed small bags into food, the hot-pressed small bags move until the height of the upper unsealed part is consistent with the highest point of a drainage plate 3-27, at the moment, a linkage power motor 3-1 rotates, the linkage power motor 3-1 rotates, a motor shaft 3-2 drives a belt pulley 3-3 to rotate, the belt pulley 3-3 rotates to drive a belt pulley 3-3 on a linkage transmission shaft a3-5 to rotate through a linkage belt a3-6, another belt pulley 3-3 on the linkage transmission shaft a3-5 drives a belt pulley 3-3 on a linkage transmission shaft b3-8 to rotate through a linkage belt a3-6, the belt pulley 3-3 on a linkage transmission shaft b3-8 drives a special-shaped belt a3-11 to rotate through a linkage belt c3-10, the special-shaped belt pulley a3-11 rotates through a strip key 3-12 fluctuation connecting shaft a3-13, when the connecting shaft a3-13 rotates, the connecting shaft a3-13 is pulled outwards or pushed centrally through the threaded connection relationship between the connecting shaft a3-13 and a mounting plate b1-14 and a mounting plate d1-16, when the limiting ring b3-15 is pulled outwards to be in contact with the other special-shaped belt pulley a3-11 on the connecting shaft a3-13, the threads on the connecting shaft a3-13 disappear, the outward movement of the connecting shaft a3-13 stops, the connecting shaft a3-13 continues to rotate, the connecting shaft a3-13 rotates to drive the special-shaped belt pulley b3-17 to rotate through the connection relation between the other special-shaped belt pulley a3-11 on the connecting shaft a3-13 and the linkage belt d3-16, the special-shaped belt pulley b3-17 rotates to drive the fluctuation strip 3-19 to rotate, the fluctuation strip 3-19 rotates to drive the fan shaft 3-18 to rotate through the ball shaft 3-20, the fan shaft 3-18 rotates to drive the fan 3-22 to rotate, the two fans 3-22 rotate to draw the wind from inside to outside through the action of the drainage plate 3-27, at the moment, the opening of the upper part of the hot-pressed small bag is opened, at the moment, food is placed in a feed barrel 4-9, a handle 4-1 is pushed to enable the handle 4-1 to move towards the direction of the feed barrel 4-9, the handle 4-1 is pushed to drive a switching sliding plate 4-2 to move, the switching sliding plate 4-2 drives a sliding plate limiting plate a4-3 to move, when the sliding plate limiting plate a4-3 moves and contacts with a mounting plate d1-16, the limiting plate a4-3 reaches a limiting position, at the moment, the central hole of the switching sliding plate 4-2 is consistent with the central holes of a lower side connecting plate 4-4 and an upper side connecting plate 4-5 in position, the food enters the hot-pressed small bag from a feed pipe 4-7, equipment can seal the small bag filled with the food, the food is injected into, the linkage power motor 3-1 rotates reversely, moves towards the center direction through the two connecting shafts a3-13 and blows air towards the center through the reverse rotation of the two fans 3-22, in the blowing process, the unsealed part on the upper side of the small bag is blown to the middle position of the drainage plates 3-27, the linkage power motor 3-1 moves to drive the two electric heaters 3-25 to move towards the center through the electric heater connecting plates 3-28, when the two electric heaters 3-25 move to be contacted, the threads on the connecting shaft a3-13 disappear, the connecting shaft a3-13 continues to rotate and stops moving to the center, the on-off contact a3-25-2 is contacted with the on-off contact b3-25-4, the two electric heaters 3-25 are communicated, and the middle position of the two electric heaters 3-25 generates heat. The unsealed portion of the upper side of the pouch is sealed.

The sixth specific implementation mode:

the present embodiment will be further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, wherein the cutting output mechanism 5 includes a cutting motor 5-1, a cutting transmission shaft 5-2, a cutting transmission belt 5-3, a cutting transmission gear 5-4, a cutting transmission rack 5-5, a cutting sliding plate 5-6, a cutting knife 5-7, a cutting bearing plate 5-8, and a cutting motor mounting plate 5-9, a motor shaft on the cutting motor 5-1 is connected to the cutting transmission shaft 5-2, the cutting transmission shaft 5-2 is frictionally connected to the cutting transmission belt 5-3, the cutting transmission gear 5-4 is connected with the cutting transmission shaft 5-2, the cutting transmission rack 5-5 is meshed with the cutting transmission gear 5-4, the cutting sliding plate 5-6 is connected with the cutting transmission rack 5-5, the cutting knife 5-7 is connected with the cutting sliding plate 5-6, the cutting bearing plate 5-8 is connected with the cutting transmission shaft 5-2 through a bearing, the cutting motor mounting plate 5-9 is connected with the cutting power motor 5-1, the cutting sliding plate 5-6 is connected with a groove on the mounting plate d1-16 in a sliding mode, the device can enable the sealed small bag to incline out, when the sealed small bag is conveyed to the position of the cutting knife 5-7 through the left side extrusion belt 1-8 and the right side extrusion belt 1-9, the cutting power motor 5-1 rotates at the moment, and the cutting power motor 5-1 rotates to drive the cutting transmission shaft 5-2 through a motor The cutting transmission shaft 5-2 rotates to drive the other cutting transmission shaft 5-2 to rotate through the cutting transmission belt 5-3, the cutting transmission shaft 5-2 rotates to drive the cutting transmission gear 5-4 to rotate, the cutting transmission gear 5-4 rotates to drive the cutting sliding plates 5-6 at two sides to move outwards or to the center of equipment through the cutting transmission rack 5-5, the cutting sliding plates 5-6 are driven to move, the cutting knife 5-7 moves to cut two sides and the lower side of the small bag, the small bag moves downwards in gravity, the small bag inclines out through the inclined plates 3-23 and the inclined material outlet grooves 3-24, when passing through the gap between the inclined plates 3-23, the inclination speed of the small bag is reduced, and the size of the small bag is far larger than the gap between the inclined plates 3-23, the small bags are inclined out through inclined plates 3-23 and inclined material outlet grooves 3-24.

The seventh embodiment:

the present embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and will further describe a first embodiment in which the inside of the hot-press board 1-11-3 is a resistor, the oblique side at the corner of the hot-press board 1-11-3 is a metal plate, and the surface on the internal resistor heat generating edge generates heat after the current is applied.

The specific implementation mode is eight:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, and 22, and will be further described with reference to the first embodiment, in which when the two hot press plates 2 to 5 are brought into contact, the contacts 2 to 7 and the contact holes 2 to 8 are brought into contact with resistors in the two hot press plates 2 to 5, and the metal plates at the contact positions of the two hot press plates 2 to 5 generate heat.

The specific implementation method nine:

the present embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the present embodiment further describes the first embodiment, in which the electric heater 3-25-1 has a resistor inside, the on-off contact a3-25-2 is in contact with the on-off contact b3-25-4 when two electric heating plates 3-25-1 are in contact, the internal resistor of the electric heating plate 3-25-1 is connected, and the metal plate on the surface where the two electric heating plates 3-25-1 are in contact generates heat.

The working principle of the device is as follows: the equipment can hot-press food bag raw materials made of annular plastic into small bags, the packaging bag raw materials made of annular plastic are sleeved on a conveying column 1-10, an extrusion power motor 1-1 rotates, the extrusion power motor 1-1 rotates to drive a left transmission shaft 1-2, the left transmission shaft 1-2 rotates to drive a gear a1-5 to rotate, the gear a1-5 rotates to drive a right transmission shaft 1-7 to rotate, the left transmission shaft 1-2 and the right transmission shaft 1-7 rotate in the same reverse direction, when the left transmission shaft 1-2 and the right transmission shaft 1-7 rotate, a left extrusion belt 1-8 and a right extrusion belt 1-9 are respectively driven to move upwards or downwards in the direction of a lateral hot-pressing plate mechanism 1-11, and when the left extrusion belt 1-8 and the right extrusion belt 1-9 move upwards, the packaging bag raw materials made of annular plastic are conveyed by the left extrusion belt 1-8 and the column 1-10 is conveyed upwards, at the moment, the left side extrusion belt 1-8 and the right side extrusion belt 1-9 are pressed, the other side of the left side extrusion belt 1-8 and the right side extrusion belt 1-9 is pressed by the pressure from the compression plate 1-12-4, the compression plate 1-12-4 is pressed by the pressure to press the limit spring 1-12-3, the limit spring 1-12-3 presses the pressure to move to the fixed plate 1-12-1 through the sliding shaft 1-12-2, namely, both sides of the left side extrusion belt 1-8 and the right side extrusion belt 1-9 are pressed, the left side transmission shaft 1-2 at one side of the direction of the mounting plate b1-14 drives the left side extrusion belt 1-8 and the right side extrusion belt 1-9 at the upper side through the up-down connecting belt 1-17 and the right side transmission shaft 1-, when the materials move upwards, the materials are contacted with the inclined surfaces of the hot pressing plates 1-11-3, the positive and negative terminals 1-11-4 are connected with the positive and negative electrodes of a power supply, the inclined surfaces of the hot pressing plates 1-11-3 emit heat, the materials passing through are longitudinally integrated, when the materials are conveyed to a height exceeding the height of a packaging bag of the hot pressing plates 2-5, the threaded strips 2-1 connected on the transmission belt 1-3 move to the positions contacted with the threaded columns 2-2, the threaded strips 2-1 continue to move and drive the threaded columns 2-2 to move towards the mounting plate d1-16, the threaded columns 2-2 drive the hot pressing sliding shafts 2-3 to move, the hot pressing plates 2-5 are driven by the hot pressing sliding shafts 2-3 to move, the other sides are the same, when the two hot pressing plates 2-5 move to contact, the positive and negative terminals 2-10 of the power supply are, at the moment, the contacts 2-7 are inserted into the contact holes 2-8 and are contacted with the contacts in the contact holes 2-8, the hot pressing plate 2-5 generates heat to heat and press the materials contacted with the hot pressing plate 2-5 in the transverse direction to be fused into a whole, and at the moment, the equipment thermally presses the food bag raw materials made of annular plastic materials into small bags. The device can inject food into the hot-pressed small bag, the hot-pressed small bag moves to the position where the upper unsealed part is consistent with the highest point of the drainage plate 3-27, at the moment, the linkage power motor 3-1 rotates to drive the motor shaft 3-2 to rotate, the motor shaft 3-2 drives the belt pulley 3-3 to rotate, the belt pulley 3-3 rotates to drive the belt pulley 3-3 on the linkage transmission shaft a3-5 to rotate through the linkage belt a3-6, the other belt pulley 3-3 on the linkage transmission shaft a3-5 drives the belt pulley 3-3 on the linkage transmission shaft b3-8 to rotate through the linkage belt a3-6, the belt pulley 3-3 on the linkage transmission shaft b3-8 drives the special-shaped belt a3-11 to rotate through the linkage belt c3-, the special-shaped belt pulley a3-11 rotates through the wavy connecting shaft a3-13 of the long key 3-12, the connecting shaft a3-13 rotates through the threaded connection of the connecting shaft a3-13, the mounting plate b1-14 and the mounting plate d1-16, the two connecting shafts a3-13 are pulled outwards or pushed towards the center, when the connecting shaft a3-13 is pulled outwards to the limit ring b3-15 and the other special-shaped belt pulley a3-11 on the connecting shaft a3-13 are contacted, threads on the connecting shaft a3-13 disappear, the outward movement of the connecting shaft a3-13 is stopped, the connecting shaft a3-13 continues rotating, the a3-13 rotates to drive the special-shaped belt pulley b3-17 to rotate through the connection of the other special-shaped belt pulley a3-11 on the connecting shaft a3-13 and the linkage belt d3-16, the fluctuation belt b3-17 rotates to drive the fluctuation strip 3, the wave strips 3-19 rotate to drive the fan shafts 3-18 to rotate through the ball shafts 3-20, the fan shafts 3-18 rotate to drive the fans 3-22 to rotate, the two fans 3-22 rotate to draw wind from inside to outside through the action of the flow guide plates 3-27, the upper part of a hot-pressed small bag is opened at the moment, food is placed in the feed barrel 4-9, the handle 4-1 is pushed to enable the handle 4-1 to move towards the feed barrel 4-9, the handle 4-1 is pushed to drive the switching sliding plate 4-2 to move, the switching sliding plate 4-2 drives the sliding plate a4-3 to move, when the sliding plate a4-3 moves and contacts with the mounting plate d1-16, the limiting plate a4-3 reaches the limiting position, at the moment, the central hole of the switching sliding plate 4-2 is consistent with the central holes of the lower side connecting plate 4-4 and the upper side connecting plate 4-, food enters the hot-pressed small bag from the feeding pipe 4-7, the device can seal the small bag filled with the food and inject the food into the small bag, after the process, the power motor 3-1 is linked to rotate reversely, the power motor moves towards the center direction through the two connecting shafts a3-13, the air blows towards the center through the two fans 3-22 rotating reversely, the upper unsealed part of the small bag is blown to the middle position of the drainage plate 3-27 in the blowing process, the power motor 3-1 is linked to move through the electric heater connecting plates 3-28 to drive the two electric heaters 3-25 to move towards the center, when the two electric heaters 3-25 move to contact, the thread on the connecting shaft a3-13 disappears, the connecting shaft a3-13 continues to rotate and stops moving towards the center, at the moment, the on-off contact a3-2 is in contact with the on-off contact b 3-4, the two electric heaters 3-25 are communicated, and the middle position of the two electric heaters 3-25 generates heat. The unsealed part on the upper side of the small bag is sealed, the device can tilt the sealed small bag out, when the sealed small bag is conveyed to the position of a cutting knife 5-7 through a left side extrusion belt 1-8 and a right side extrusion belt 1-9, a cutting power motor 5-1 rotates at the moment, the cutting power motor 5-1 rotates to drive a cutting transmission shaft 5-2 to rotate through a motor shaft of the cutting power motor 5-1, the cutting transmission shaft 5-2 rotates to drive another cutting transmission shaft 5-2 to rotate through a cutting transmission belt 5-3, the cutting transmission shaft 5-2 rotates to drive a cutting transmission gear 5-4 to rotate, the cutting transmission gear 5-4 rotates to drive cutting sliding plates 5-6 on two sides to move outwards or towards the center of the device through a cutting transmission rack 5-5, and the cutting knife 5-7 is driven to move when the cutting sliding plates 5-6 move, the cutting knife 5-7 moves to cut the two sides and the lower side of the small bag, at the moment, the small bag moves downwards in the gravity mode, the small bag inclines out through the inclined plate 3-23 and the inclined material outlet groove 3-24, when the small bag passes through the gap in the middle of the inclined plate 3-23, the inclination speed of the small bag is reduced, and the small bag inclines out through the inclined plate 3-23 and the inclined material outlet groove 3-24 due to the fact that the size of the small bag is far larger than the gap in the middle of the inclined plate 3-23.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (9)

1. The utility model provides a food encapsulation equipment for food processing, includes belt extrusion mechanism (1), hot pressing mechanism (2), hot pressing link gear (3), feeding switching mechanism (4), cutting output mechanism (5), its characterized in that: the belt extrusion mechanism (1) is connected with the hot pressing mechanism (2), the hot pressing linkage mechanism (3) is connected with the belt extrusion mechanism (1), the feeding switching mechanism (4) is connected with the belt extrusion mechanism (1), the cutting output mechanism (5) is connected with the belt extrusion mechanism (1), and the hot pressing linkage mechanism (3) is connected with the feeding switching mechanism (4).

2. The food packaging apparatus of claim 1, wherein: the belt extrusion mechanism (1) comprises an extrusion power motor (1-1), a left side transmission shaft (1-2), a transmission belt (1-3), a reverse transmission shaft (1-4), a gear a (1-5), a gear b (1-6), a right side transmission shaft (1-7), a left side extrusion belt (1-8), a right side extrusion belt (1-9), a transmission column (1-10), a lateral hot pressing plate mechanism (1-11), a lower side extrusion belt limiting mechanism (1-12), a mounting plate a (1-13), a mounting plate b (1-14), a mounting plate c (1-15), a mounting plate d (1-16) and an upper and lower connecting belt (1-17), wherein a motor shaft on the extrusion power motor (1-1) is connected with the left side transmission shaft (1-2), the left side transmission shaft (1-2) is in friction connection with the transmission belt (1-3), the transmission belt (1-3) is in friction connection with the reverse transmission shaft (1-4), the reverse transmission shaft (1-4) is connected with the gear a (1-5), the gear a (1-5) is meshed with the gear b (1-6), the gear b (1-6) is connected with the right side transmission shaft (1-7), the four right side transmission shafts (1-7) are in friction connection with the right side extrusion belt (1-9), the left side extrusion belt (1-8) is in friction connection with the four left side transmission shafts (1-2), the right side extrusion belt (1-9) is in friction connection with the transmission column (1-10), the transmission column (1-10) is in friction connection with the left side extrusion belt (1-8), the lateral hot pressing plate mechanism (1-11) is connected with the mounting plate b (1-14), the lower side extrusion belt limiting mechanism (1-12) is connected with a mounting plate b (1-14), a mounting plate a (1-13) is connected with the mounting plate b (1-14), the mounting plate b (1-14) is in bearing connection with a left side transmission shaft (1-2), a mounting plate c (1-15) is connected with the mounting plate b (1-14), a mounting plate d (1-16) is in bearing connection with a left side transmission shaft (1-2), a left side transmission shaft (1-2) is in bearing connection with a mounting plate d (1-16), a reverse transmission shaft (1-4) at one side is in bearing connection with the mounting plate b (1-14), a reverse transmission shaft (1-4) at the other side is in bearing connection with the mounting plate d (1-16), a right side transmission shaft (1-7) is in bearing connection with the mounting plate d (1-16), the lateral hot-pressing plate mechanism (1-11) is connected with a mounting plate d (1-16), the lower side extrusion belt limiting mechanism (1-12) on one side is in friction connection with the lower side left side extrusion belt (1-8), the lower side extrusion belt limiting mechanism (1-12) on the other side is in friction connection with the lower side right side extrusion belt (1-9), the lower side extrusion belt limiting mechanism (1-12) is connected with the mounting plate d (1-16), the mounting plate a (1-13) is connected with the mounting plate d (1-16), the mounting plate b (1-14) is connected with the mounting plate c (1-15), and the mounting plate c (1-15) is connected with the mounting plate d (1-16); the lateral hot-pressing plate mechanism (1-11) comprises a connecting plate a (1-11-1), a connecting plate b (1-11-2), a hot-pressing plate (1-11-3) and positive and negative terminal posts (1-11-4), wherein the connecting plate a (1-11-1) is connected with the hot-pressing plate (1-11-3), the connecting plate b (1-11-2) is connected with the hot-pressing plate (1-11-3), the hot-pressing plate (1-11-3) is connected with the positive and negative terminal posts (1-11-4), one side of the connecting plate a (1-11-1) is connected with the mounting plate b (1-14) and one side of the connecting plate b (1-11-2) is connected with the mounting plate d (1-16), one side of the hot pressing plate (1-11-3) is connected with the mounting plate b (1-14), the other side is connected with the mounting plate d (1-16), the lower side extrusion band limiting mechanism (1-12) comprises a fixing plate (1-12-1), a sliding shaft (1-12-2), a limiting spring (1-12-3) and a pressing plate (1-12-4), the fixing plate (1-12-1) is connected with the sliding shaft (1-12-2) in a sliding manner, the sliding shaft (1-12-2) is connected with the pressing plate (1-12-4), the limiting spring (1-12-3) is sleeved on the sliding shaft (1-12-2) and limited on the fixing plate (1-12-1) and the pressing plate (1-12-4), the compression plate (1-12-4) at one side is in friction connection with the left side extrusion belt (1-8), the compression plate (1-12-4) at the other side is in friction connection with the mounting plate d (1-16), one side of the fixing plate (1-12-1) is connected with the mounting plate b (1-14), the other side is connected with the mounting plate d (1-16), the upper and lower connecting belts (1-17) are in friction connection with the left side transmission shaft (1-2), and the upper and lower connecting belts (1-17) are connected with the right side transmission shaft (1-7).

3. The food packaging apparatus of claim 1, wherein: the hot pressing mechanism (2) comprises a threaded strip (2-1), a threaded column (2-2), a hot pressing sliding shaft (2-3), a reset paralyzer (2-4), a hot pressing plate (2-5), a hot pressing contact block a (2-6), a contact (2-7), a contact hole (2-8), a hot pressing plate b (2-9) and a positive and negative terminal post (2-10), the threaded strip (2-1) is connected with a transmission belt (1-3), the threaded column (2-2) is in threaded connection with the threaded strip (2-1) which advances to the upper part of the threaded column (2-2), the hot pressing sliding shaft (2-3) is connected with the threaded column (2-2), the reset paralyzer (2-4) is sleeved on the hot pressing sliding shaft (2-3) and limited on a mounting plate d (1-16) and the hot pressing plate (2-5), the hot pressing plate (2-5) is connected with a hot pressing sliding shaft (2-3), a hot pressing contact block a (2-6) is connected with the hot pressing plate (2-5), a contact hole (2-8) is formed in a hot pressing plate b (2-9), the hot pressing plate b (2-9) is connected with the hot pressing plate (2-5), a positive terminal and a negative terminal (2-10) are connected with the hot pressing plate (2-5), the hot pressing contact block a (2-6) is connected with a contact (2-7), the hot pressing sliding shaft (2-3) is connected with a mounting plate b (1-14) in a sliding mode, and the hot pressing sliding shaft (2-3) is connected with a mounting plate d (1-16) in a sliding mode.

4. The food packaging apparatus of claim 1, wherein: the hot-pressing linkage mechanism (3) comprises a linkage power motor (3-1), a motor shaft (3-2), belt pulleys (3-3), bearing seats a (3-4), a linkage transmission shaft a (3-5), a linkage belt a (3-6), a linkage belt b (3-7), a linkage transmission shaft b (3-8), bearing seats b (3-9), a linkage belt c (3-10), special-shaped belt pulleys a (3-11), long-strip keys (3-12), a connecting shaft a (3-13), limiting circular rings a (3-14), limiting circular rings b (3-15), linkage belts d (3-16), special-shaped belt pulleys b (3-17), a fan shaft (3-18), fluctuation strips (3-19), a ball shaft (3-20), The device comprises a fan box (3-21), fans (3-22), inclined plates (3-23), inclined discharge chutes (3-24), electric heaters (3-25), reset tension springs (3-26), drainage plates (3-27) and electric heater connection plates (3-28), a linkage power motor (3-1) is connected with a motor shaft (3-2), the motor shaft (3-2) is connected with a belt pulley (3-3), the belt pulley (3-3) is in friction connection with a linkage belt a (3-6), a bearing seat a (3-4) is in bearing connection with a linkage transmission shaft a (3-5), the linkage transmission shaft a (3-5) is connected with the belt pulley (3-3), a linkage belt b (3-7) is in friction connection with the belt pulley (3-3), and a linkage transmission shaft b (3-8) is connected with the belt pulley (3-3), a bearing seat b (3-9) is in bearing connection with a linkage transmission shaft b (3-8), a linkage belt c (3-10) is in friction connection with a belt pulley (3-3), a special-shaped belt pulley a (3-11) is in friction connection with the linkage belt c (3-10), a long strip key (3-12) is in sliding connection with the special-shaped belt pulley a (3-11), a connecting shaft a (3-13) is connected with the long strip key (3-12), a limiting circular ring a (3-14) is connected with the connecting shaft a (3-13), a limiting circular ring b (3-15) is connected with the connecting shaft a (3-13), a linkage belt d (3-16) is in friction connection with the special-shaped belt pulley a (3-11), and a special-shaped belt pulley b (3-17) is in friction connection with a linkage belt d (3-16), the fan shaft (3-18) is connected with the wave strip (3-19), the wave strip (3-19) is connected with the special-shaped belt pulley b (3-17) in a sliding way, the ball shaft (3-20) is connected with the special-shaped belt pulley b (3-17) in a bearing way, the fan box (3-21) is connected with the fan shaft (3-18) in a bearing way, the fan (3-22) is connected with the fan shaft (3-18), one side of the inclined plate (3-23) is connected with the connecting plate a (1-11-1) and the other side is connected with the connecting plate b (1-11-2), the inclined discharge chute (3-24) is connected with the mounting plate b (1-14), the electric heater (3-25) is connected with the electric heater connecting plate (3-28), one side of the reset tension spring (3-26) is connected with the other side of the electric heater connecting plate (3-28) and the mounting, one side of the other reset tension spring (3-26) is connected with the other side of the electric heater connecting plate (3-28) and the mounting plate b (1-14), one side of the drainage plate (3-27) is connected with the connecting plate a (1-11-1) and the other side is connected with the connecting plate b (1-11-2), one side of the drainage plate (3-27) in the other direction is connected with the mounting plate b (1-14) and the other side is connected with the mounting plate d (1-16), the electric heater connecting plate (3-28) is connected with the connecting shaft a (3-13), the linkage power motor (3-1) is connected with the mounting plate d (1-16), the motor shaft (3-2) is connected with the mounting plate d (1-16) through a bearing, the linkage transmission shaft a (3-5) is connected with the mounting plate b (1-14, the linkage transmission shaft a (3-5) is in bearing connection with the mounting plate d (1-16), the linkage transmission shaft b (3-8) at one side is in bearing connection with the mounting plate b (1-14), the linkage transmission shaft b (3-8) at the other side is in bearing connection with the mounting plate d (1-16), threads on the connecting shaft a (3-13) at one side are in threaded connection with the mounting plate b (1-14), threads on the connecting shaft a (3-13) at the other side are in threaded connection with the mounting plate d (1-16), the fan shaft (3-18) at one side is in bearing connection with the mounting plate b (1-14), the fan shaft (3-18) at the other side is in bearing connection with the mounting plate d (1-16), the fluctuation strip (3-19) is in connection with the ball shaft (3-20), the fan box (3-21) at one side is in bearing connection with the mounting plate b (1-14), the fan box (3-21) at the other side is connected with the mounting plate d (1-16), one side of the inclined plate (3-23) is connected with the lower end of the opening on the mounting plate b (1-14), the other side is connected with the mounting plate d (1-16), and the inclined discharge chute (3-24) is connected with the mounting plate b (1-14); the electric heater (3-25) comprises an electric heating plate (3-25-1), an on-off contact a (3-25-2), positive and negative terminal posts (3-25-3) and an on-off contact b (3-25-4), the electric heating plate (3-25-1) is connected with the on-off contact a (3-25-2), the positive and negative terminal posts (3-25-3) are connected with the electric heating plate (3-25-1), the on-off contact b (3-25-4) is connected with the electric heating plate (3-25-1), and the electric heating plate (3-25-1) is connected with an electric heater connecting plate (3-28).

5. The food packaging apparatus of claim 1, wherein: the feeding switching mechanism (4) comprises a handle (4-1), a switching sliding plate (4-2), a sliding plate limiting plate a (4-3), a lower side connecting plate (4-4), an upper side connecting plate (4-5), a supporting plate (4-6), a feeding pipe (4-7), a sliding plate limiting plate b (4-8) and a feeding barrel (4-9), wherein the handle (4-1) is connected with the switching sliding plate (4-2), the switching sliding plate (4-2) is connected with the sliding plate limiting plate a (4-3), the lower side connecting plate (4-4) is connected with the switching sliding plate (4-2) in a sliding manner, the upper side connecting plate (4-5) is connected with the switching sliding plate (4-2) in a sliding manner, the supporting plate (4-6) is connected with the lower side connecting plate (4-4), the feeding pipe (4-7) is connected with a hole on the lower side connecting plate (4-4), the sliding plate limiting plate b (4-8) is connected with the mounting plate d (1-16), the feeding barrel (4-9) is connected with the lower side connecting plate (4-4), the upper side connecting plate (4-5) is connected with the feeding barrel (4-9), the supporting plate (4-6) is connected with the mounting plate b (1-14), and the supporting plate (4-6) is connected with the mounting plate d (1-16).

6. The food packaging apparatus of claim 1, wherein: the cutting output mechanism (5) comprises a cutting power motor (5-1), a cutting transmission shaft (5-2), a cutting transmission belt (5-3), a cutting transmission gear (5-4), a cutting transmission rack (5-5), a cutting sliding plate (5-6), a cutting knife (5-7), a cutting bearing plate (5-8) and a cutting motor mounting plate (5-9), wherein a motor shaft on the cutting power motor (5-1) is connected with the cutting transmission shaft (5-2), the cutting transmission shaft (5-2) is in friction connection with the cutting transmission belt (5-3), the cutting transmission gear (5-4) is connected with the cutting transmission shaft (5-2), the cutting transmission rack (5-5) is meshed with the cutting transmission gear (5-4), the cutting sliding plate (5-6) is connected with the cutting transmission rack (5-5), the cutting knife (5-7) is connected with the cutting sliding plate (5-6), the cutting bearing plate (5-8) is in bearing connection with the cutting transmission shaft (5-2), the cutting motor mounting plate (5-9) is connected with the cutting power motor (5-1), and the cutting sliding plate (5-6) is in sliding connection with the groove on the mounting plate d (1-16).

7. The food packaging apparatus of claim 1, wherein: the inner part of the hot pressing plate (1-11-3) is provided with a resistor, the bevel edge on the corner of the hot pressing plate (1-11-3) is provided with a metal plate, and the surface on the heating edge of the inner resistor generates heat after the hot pressing plate is electrified.

8. The food packaging apparatus of claim 1, wherein: when the two hot pressing plates (2-5) are contacted, the contacts (2-7) and the contact holes (2-8) are contacted with the resistors in the two hot pressing plates (2-5) to be communicated, and the metal plates at the contact positions of the two hot pressing plates (2-5) generate heat.

9. The food packaging apparatus of claim 1, wherein: the internal part of the electric heating plate (3-25-1) is provided with a resistor, when the two electric heating plates (3-25-1) are contacted, the on-off contact a (3-25-2) is contacted with the on-off contact b (3-25-4), the internal resistors of the electric heating plates (3-25-1) are communicated, and the metal plate on the contact surface of the two electric heating plates (3-25-1) heats.

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