CN210102098U - Vacuum packaging machine for logistics storage - Google Patents

Abstract

The utility model discloses a vacuum packaging machine for logistics storage, which can enable two leveling shafts to move in a waist-shaped hole by arranging the waist-shaped hole, a left slide block and a right slide block; after placing the wrapping bag on the host computer shell, the accessible removes the leveling axle and flattens the wrapping bag sack fast, makes the wrapping bag opening part level and smooth, makes things convenient for the vacuum pore pair wrapping bag of bleeding to carry out the flattening, has reduced the loaded down with trivial details operation of the manual flattening wrapping bag of workman, has both improved the vacuum treatment effect of packing, has also improved packagine machine's packing efficiency.

Description

Vacuum packaging machine for logistics storage

Technical Field

The utility model belongs to the technical field of the commodity circulation equipment for packing, specifically a vacuum packaging machine is used in commodity circulation storage.

Background

Current vacuum packaging machine when packing, needs the staff to align wrapping bag both sides, just can carry out the evacuation to the wrapping bag, can appear when wrapping bag port unevenness that the wrapping bag is discounted, and pinhole phenomenon can appear in the department of discounting, influences the vacuum treatment effect of wrapping bag, and vacuum packaging's product need pack again, not only consumptive material, also time consuming influences packing efficiency.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned problem that exists among the prior art, the utility model provides a vacuum packaging machine is used in logistics storage. The vacuum packaging machine can avoid the phenomenon of pinholes when the port of the packaging bag is not flat, and saves materials and time, thereby improving the efficiency.

The utility model adopts the technical proposal that:

the utility model provides a vacuum packaging machine for logistics storage, includes connecting plate, vacuum packaging host computer, removes wheel, chamber door, iron tie plate, the chamber door is installed at vacuum packaging host computer lower extreme surface, the iron tie plate inlays at vacuum packaging host computer lower extreme upper surface.

The vacuum packaging host comprises a host shell, a power mechanism, a first air exhaust mechanism, a second air exhaust mechanism, a gas treatment mechanism, a first air exhaust nozzle mechanism, a second air exhaust nozzle mechanism, a sealing mechanism, a top plate cover and a slide rail mechanism, wherein the moving wheels are provided with four wheels and fixedly arranged at four corners of the bottom of the host shell, the power mechanism is fixedly arranged at the bottom surface of the middle end in the host shell, the first air exhaust mechanism and the second air exhaust mechanism are driven by the power mechanism, the right end of the middle part of the first air exhaust mechanism is connected with the upper end of the gas treatment mechanism, the left end of the middle part of the second air exhaust mechanism is connected with the upper end of the gas treatment mechanism, the upper end of the first air exhaust mechanism is connected with the lower end of the first air exhaust nozzle mechanism, the upper end of the second air exhaust mechanism is connected with the lower end of the second air exhaust mechanism, and, the utility model discloses a motor vehicle air conditioner, including main engine shell, second suction nozzle mechanism, top plate lid, connecting plate, iron backing plate, slide rail mechanism, second suction nozzle mechanism, sealing mechanism, connecting plate, sealing mechanism, second suction nozzle mechanism upper end is installed at main engine shell upper surface right-hand member through the embedding mode, sealing mechanism installs inside the top plate lid, the top plate lid is connected with the main engine shell through the connecting plate, it is located directly over the iron backing plate to seal the mechanism.

The first air suction nozzle mechanism comprises a left air inlet, a left air inlet pipe, a left clamping plate, a left clamping hole and a left air suction nozzle, wherein the left air inlet is arranged at the upper end of the right side of the first connecting shell, the left air inlet is connected with the lower end of the left air inlet pipe, the upper end of the left air inlet pipe is connected with the left air suction nozzle through the left clamping plate, and the left clamping hole is formed at the lower right end of the left clamping plate; second suction nozzle mechanism includes right side air inlet, right side intake pipe, right side splint, right side clamp hole, right side suction nozzle, the right side air inlet is installed in second connection shell left side upper end, the right side air inlet is connected with right side intake pipe lower extreme, right side intake pipe upper end is connected with the right side suction nozzle through right side splint, the lower extreme is equipped with the right side and presss from both sides the hole about the right side splint.

Be equipped with two flattening axles between left side splint and the right side splint, the flattening axle sets up perpendicularly between left side splint and right side splint, the opposite flank of left side splint and right side splint is equipped with waist type hole, waist type hole on the splint of left side is passed to the one end of flattening axle, and waist type hole on the splint of right side is passed to the other end of flattening axle, has linked firmly left slider and right slider on the flattening axle, the left side of left side slider meets with the surface of left side splint, the right-hand member of right side slider meets with the surface of right side splint.

The packaging machine enables the two leveling shafts to move in the waist-shaped hole 41 by arranging the waist-shaped hole, the left sliding block and the right sliding block; after placing the wrapping bag on the host computer shell, the accessible removes the leveling axle and flattens the wrapping bag sack fast, makes the wrapping bag opening part level and smooth, makes things convenient for the vacuum pore pair wrapping bag of bleeding to carry out the flattening, has reduced the loaded down with trivial details operation of the manual flattening wrapping bag of workman, has both improved the vacuum treatment effect of packing, has also improved packagine machine's packing efficiency.

Preferably, the gas treatment mechanism comprises a three-port connector and an exhaust pipe, the exhaust pipe penetrates through the side wall of the vacuum packaging main machine and is connected with a clamping plate, a dust filtering plate is arranged in the clamping plate, the clamping plate and the dust filtering plate are fixedly connected through clamping, the left end of the three-port connector is connected with the right end of a first air outlet pipe, the right end of the three-port connector is connected with the left end of a second air outlet pipe, and the lower end of the three-port connector is connected with the upper end of the exhaust pipe.

Connect through cardboard and dust filter through the block, can be very convenient clear up the dust filter, also prevent that the dust from entering into the air-out pipeline.

Preferably, the gas treatment mechanism comprises a three-port connector, an exhaust pipe, a connecting port, a gas collection box, a first filter plate and a second filter plate, the left end of the three-port connector is connected with the right end of the first outlet pipe, the right end of the three-port connector is connected with the left end of the second outlet pipe, the lower end of the three-port connector is connected with the upper end of the exhaust pipe, the lower end of the exhaust pipe is connected with the gas collection box through the connecting port, the first filter plate is arranged inside the gas collection box, the second filter plate is arranged inside the gas collection box, and the first filter plate is located.

Preferably, the power mechanism comprises a bidirectional motor, a left worm, a left driving turbine, a right worm and a right driving turbine, the bidirectional motor is fixedly installed on the bottom surface of the middle end in the host shell, the left worm is connected with an output shaft at the left end of the bidirectional motor, the left worm is meshed with the left driving turbine, the right worm is connected with an output shaft at the right end of the bidirectional motor, and the right worm is meshed with the right driving turbine.

As preferred, first mechanism of bleeding includes first belt, first roller, first sawtooth disc, first hob, first flabellum, first connection shell, first outlet duct of bleeding, first roller is connected with the transmission of the left drive turbine under through first belt, the coaxial fixed mounting of first roller is on first sawtooth disc, first sawtooth disc meshes with first hob lower extreme mutually, first hob upper end welding has first flabellum and mechanical connection of bleeding, first flabellum of bleeding is installed inside first connection shell, first connection shell right side lower extreme is connected with first outlet duct left end, first outlet duct right-hand member is connected with gas treatment mechanism upper end.

The utility model has the advantages as follows:

1. the utility model can avoid the pinhole phenomenon when the port of the packaging bag is uneven, which saves materials and time, thereby improving efficiency;

2. the utility model discloses a first bleed mechanism and second bleed mechanism have driven first bleed mechanism and second bleed mechanism work simultaneously, through first bleed mechanism and second bleed mechanism simultaneous working, can improve the efficiency of bleeding of wrapping bag, the left side double-layered hole can be fixed the port under the wrapping bag, prevent that the wrapping bag breaks away from in the in-process of bleeding, left side bleed mouth and right side bleed mouth keep away from the hot plate, can seal at once after the completion of bleeding, prevent that gas from running into the wrapping bag inside again, can more smoothly drive sealing mechanism through slide rail mechanism and descend, seal the wrapping bag, ensure that sealing mechanism steadily descends fast, seal like this and just can not appear sealing and be heated unevenly;

3. the utility model discloses a cardboard and dust filter are connected through the block, can be very convenient clear up the dust filter, also prevent that the dust from entering into the air-out pipeline.

Drawings

FIG. 1 is a schematic structural view of example 1;

FIG. 2 is a sectional view of embodiment 1;

FIG. 3 is a detailed structural view of embodiment 1;

FIG. 4 is a detailed structural view of embodiment 1;

FIG. 5 is a side view of the upper end structure of example 1;

FIG. 6 is a schematic structural view of a slide rail mechanism according to embodiment 1;

FIG. 7 is a schematic structural view of a slide rail mechanism according to embodiment 1;

FIG. 8 is a cross-sectional view taken at A-A of FIG. 3;

FIG. 9 is a partial cross-sectional view of FIG. 8;

FIG. 10 is a schematic view of the structure of a card in embodiment 2.

Reference numerals:

1. a connecting plate; 2. a vacuum packaging host machine; 3. a moving wheel; 4. leveling the shaft; 5. a box door; 6. an iron backing plate; 21. a host housing; 22. a power mechanism; 23. a first air extraction mechanism; 24. a second air extraction mechanism; 25. a gas processing mechanism; 26. a first suction nozzle mechanism; 27. a second suction nozzle mechanism; 28. a sealing mechanism; 29. a top plate cover; 210. a slide rail mechanism; 221. a bi-directional motor; 222. a left worm; 223. a left drive turbine; 224. a right worm; 225. a right drive turbine; 231. a first belt; 232. a first roller shaft; 233. a first serrated disk; 234. a first screw rod; 235. a first air exhaust fan blade; 236. a first connection housing; 237. a first air outlet pipe; 241. a second belt; 242. a second roller shaft; 243. a second serrated disk; 244. a second screw rod; 245. a second air exhaust fan blade; 246. a second connection housing; 247. a second air outlet pipe; 251. a three-port connector; 252. an exhaust pipe; 253. a connecting port; 254. a gas collection tank; 255. a first filter plate; 256. a second filter plate; 261. a left air inlet; 262. a left air inlet pipe; 263. a left side clamping plate; 264. a left side clamping hole; 265. a left side suction nozzle; 271. a right side air inlet; 272. a right air inlet pipe; 273. a right side splint; 274. a right side clamping hole; 275. a right side suction nozzle; 281. a power supply; 282. a flexible wire; 283. a heater; 284. heating plates; 2101. an outer slide rail; 2102. an inner slide rail; 2103. connecting the shaft hole; 2104. a bearing; 2105. an outer slide block; 2106. an inner slide block; 2107. a movable shaft; 41. a kidney-shaped hole; 42. a left slider; 43. a right slider; 44. clamping a plate; 45. dust filter board.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1:

as shown in fig. 1-7, the vacuum packaging machine for logistics storage comprises a connecting plate 1, a vacuum packaging main machine 2, a moving wheel 3, a box door 5 and an iron pad 6, wherein the box door 5 is installed on the outer surface of the lower end of the vacuum packaging main machine 2, and the iron pad 6 is embedded on the upper surface of the lower end of the vacuum packaging main machine 2.

The vacuum packaging host machine 2 comprises a host machine shell 21, a power mechanism 22, a first air suction mechanism 23, a second air suction mechanism 24, an air treatment mechanism 25, a first air suction nozzle mechanism 26, a second air suction nozzle mechanism 27, a sealing mechanism 28, a top plate cover 29 and a sliding rail mechanism 210, wherein the moving wheel 3 is provided with four moving wheels and is fixedly arranged at four corners of the bottom of the host machine shell 21, the power mechanism 22 is fixedly arranged at the bottom surface of the middle end in the host machine shell 21, the first air suction mechanism 23 and the second air suction mechanism 24 are driven by the power mechanism 22, the right end of the middle part of the first air suction mechanism 23 is connected with the upper end of the air treatment mechanism 25, the left end of the middle part of the second air suction mechanism 24 is connected with the upper end of the air treatment mechanism 25, the upper end of the first air suction mechanism 23 is connected with the lower end of the first air suction nozzle mechanism 26, the upper, the upper end of the first air suction nozzle mechanism 26 is mounted at the left end of the upper surface of the host shell 21 in an embedding manner, the upper end of the second air suction nozzle mechanism 27 is mounted at the right end of the upper surface of the host shell 21 in an embedding manner, the sealing mechanism 28 is mounted inside the top plate cover 29, the top plate cover 29 is connected with the host shell 21 through the connecting plate 1, the lower end of the sealing mechanism 28 is positioned right above the iron base plate 6, the top plate cover 29 is provided with the sliding rail mechanism 210, the upper end of the connecting plate 1 is mounted inside the sliding rail mechanism 210 and is in sliding connection, the power mechanism 22 comprises a bidirectional motor 221, a left worm 222, a left driving worm 223, a right worm 224 and a right driving worm 225, the bidirectional motor 221 is fixedly mounted at the bottom surface of the middle end inside the host shell 21, the left worm 222 is connected with the output shaft at the left end of, the right worm 224 is connected with an output shaft at the right end of the bidirectional motor 221, the right worm 224 is meshed with the right drive turbine 225, the first air exhaust mechanism 23 comprises a first belt 231, a first roll shaft 232, a first sawtooth disc 233, a first spiral rod 234, first air exhaust fan blades 235, a first connecting shell 236 and a first air outlet pipe 237, the first roll shaft 232 is in transmission connection with the right lower left drive turbine 223 through the first belt 231, the first roll shaft 232 is coaxially and fixedly installed on the first sawtooth disc 233, the first sawtooth disc 233 is meshed with the lower end of the first spiral rod 234, the first air exhaust fan blades 235 are welded at the upper end of the first spiral rod 234 and are in mechanical connection, the first air exhaust fan blades 235 are installed inside the first connecting shell 236, the right lower end of the first connecting shell 236 is connected with the left end of the first air outlet pipe 237, the right end of the first air outlet pipe 237 is connected with the upper end of the gas treatment mechanism 25, the second air pumping mechanism 24 comprises a second belt 241, a second roller shaft 242, a second sawtooth disc 243, a second screw rod 244, a second air pumping fan blade 245, a second connecting shell 246 and a second air outlet pipe 247, the second roller shaft 242 is in transmission connection with the right driving turbine 225 right below through the second belt 241, the second roller shaft 242 is fixedly installed on the second sawtooth disc 243 and located in the same circle center, the second sawtooth disc 243 is meshed with the lower end of the second screw rod 244, the second air pumping fan blade 245 is welded to the upper end of the second screw rod 244 and is in mechanical connection with the upper end of the second screw rod 244, the second air pumping fan blade 245 is installed inside the second connecting shell 246, the left lower end of the second connecting shell 246 is connected with the right end of the second air outlet pipe 247, the left end of the second air outlet pipe is connected with the upper end of the gas processing mechanism 25, the gas processing mechanism 25 comprises a three-port connector 251, the exhaust pipe 252, the connection port 253, the gas collection tank 254, the first filter plate 255, the second filter plate 256, the left end of the three-port connector 251 is connected with the right end of the first outlet pipe 237, the right end of the three-port connector 251 is connected with the left end of the second outlet pipe 247, the lower end of the three-port connector 251 is connected with the upper end of the exhaust pipe 252, the lower end of the exhaust pipe 252 is connected with the gas collection tank 254 through the connection port 253, the first filter plate 255 is arranged in the gas collection tank 254, the second filter plate 256 is arranged in the gas collection tank 254, the first filter plate 255 is positioned above the second filter plate 256, the first air suction nozzle mechanism 26 comprises a left air inlet 261, a left air inlet 262, a left clamping plate 263, a left clamping hole 264 and a left air suction nozzle 265, the left air inlet 261 is installed at the upper end of the, the upper end of the left air inlet pipe 262 is connected with a left air suction nozzle 265 through a left clamping plate 263, and a left clamping hole 264 is arranged at the right lower end of the left clamping plate 263.

The second air suction nozzle mechanism 27 comprises a right air inlet 271, a right air inlet pipe 272, a right clamping plate 273, a right clamping hole 274 and a right air suction nozzle 275, the right air inlet 271 is arranged at the upper end of the left side of the second connecting shell 246, the right air inlet 271 is connected with the lower end of the right air inlet pipe 272, the upper end of the right air inlet pipe 272 is connected with the right air suction nozzle 275 through the right clamping plate 273, the right clamping hole 274 is arranged at the lower end of the left side of the right clamping plate 273, the second air suction nozzle mechanism 27 comprises a right air inlet 271, a right air inlet pipe 272, a right clamping plate 273, a right clamping hole 274 and a right air suction nozzle 275, the right air inlet 271 is arranged at the upper end of the left side of the second connecting shell 246, the right air inlet 271 is connected with the lower end of the right air inlet pipe 272, the upper end of the right air, the sealing mechanism 28 comprises a power supply 281, a flexible lead 282, a heater 283 and a heating plate 284, the power supply 281 is fixedly installed inside the top plate cover 29, the power supply 281 is electrically connected with the heater 283 through the flexible lead 282, the heating plate 284 is arranged at the lower end of the heater 283, the heating plate 284 is positioned right above the iron backing plate 6, the sliding rail mechanism 210 comprises an outer sliding rail 2101, an inner sliding rail 2102, a connecting shaft hole 2103, a bearing 2104, an outer sliding block 2105, an inner sliding block 2106 and a moving shaft 2107, the outer sliding rail 2101 is fixedly installed on the outer surface of the top plate cover 29, the inner sliding rail 2102 is arranged inside the middle end of the left side of the outer sliding rail 2101, the right side of the inner sliding rail 2102 is connected with the connecting shaft hole 2103, the bearing 2104 is arranged outside the connecting shaft hole 2103, the right side surface of the outer sliding block 2105 is welded with the left side surface of the inner sliding block 2106, the moving shaft 2107 is fitted into the connecting shaft hole 2103 by fitting and is fitted with a clearance.

The bag mouth is placed on the left clamping plate 263, the lower end mouth of the bag can be fixed through the left clamping hole 264, the bag is prevented from being separated in the air suction process, the air suction is incomplete, the left air suction nozzle 265 extends into the bag mouth, the left worm 222 and the right worm 224 are rotated by opening the two-way motor 221, at this time, the left driving turbine 223 meshed with the left worm 222 starts to rotate, the right driving turbine 225 meshed with the right worm 224 also starts to rotate, the first air suction mechanism 23 works through the transmission of the first belt 231, the second air suction mechanism 24 works similarly, the first roller shaft 232 rotates through the transmission of the first belt 231, simultaneously, the first sawtooth disc 233 also starts to rotate, the first screw rod 234 meshed with the first sawtooth disc 233 starts to rotate, at this time, the first air suction fan blade 235 starts to work, the air in the bag is sucked into the first connecting shell 236 from the left air inlet pipe 262 through the first air suction nozzle mechanism 26, the air is discharged into the air treatment mechanism 25 through the first air outlet pipe 237, similarly, the second air exhaust mechanism 24 sucks the air in the packaging bag on the second air exhaust nozzle mechanism 27 into the air treatment mechanism 25, the packaging bag possibly contains some air with pungent taste, the air is filtered and discharged through the first filter plate 255 and the second filter plate 256 in the air treatment mechanism 25, and some dust and liquid are stored through the air collection box 254, so that the dust and the liquid are prevented from being discharged randomly; after finishing pumping, through opening power supply 281, give heater 283 with electric energy transmission through flexible conductor 282, make heater 283 get electric work, at this moment heating plate 284 begins to heat up and scald, pull down roof lid 29 and drive interior slider 2106 through outer slider 2105 and move in outer slide rail 2101 and interior slide rail 2102 inside, at this moment removal axle 2107 removes at connection shaft hole 2103, reduce friction through bearing 2104, heating plate 284 can more smooth and easy decline like this, seal the wrapping bag sack, heating plate 284 can more smooth and easy decline, can make the time of sealing faster, vacuum packaging's effect is just better like this.

The heating plate described in this embodiment is a form of heating an object by converting electric energy into heat energy, and is a form of electric energy utilization.

In this embodiment, the power mechanism 22, the first pumping mechanism 23, the second pumping mechanism 24, the gas processing mechanism 25, the first pumping mechanism 26, the second pumping mechanism 27, the sealing mechanism 28, and the sliding rail mechanism 210 are used, the first pumping mechanism 23 and the second pumping mechanism 24 are enabled to work by opening the power mechanism 22, the first pumping mechanism 23 and the second pumping mechanism 24 simultaneously drive the first pumping mechanism 26 and the second pumping mechanism 27 to work, the first pumping mechanism 26 and the second pumping mechanism 27 simultaneously work to improve the pumping efficiency of the packaging bag, the lower port of the packaging bag can be fixed by the left clamping hole 264 to prevent the packaging bag from being separated during pumping, the left pumping nozzle 265 and the right pumping nozzle 275 are far away from the heating plate 284, the sealing can be immediately performed after pumping is completed, gas is prevented from leaking into the packaging bag, the sealing mechanism 28 can be driven to descend more smoothly by the sliding rail mechanism 210, the package bag is sealed, so that the sealing mechanism 28 is ensured to descend stably and rapidly, and the phenomenon that the seal is heated unevenly is avoided.

As shown in fig. 8-9, two leveling shafts 4 are disposed between the left clamping plate 263 and the right clamping plate 273, the leveling shafts 4 are vertically disposed between the left clamping plate 263 and the right clamping plate 273, the opposite sides of the left clamping plate 263 and the right clamping plate 273 are provided with kidney-shaped holes 41, one end of the leveling shaft 4 passes through the kidney-shaped hole 41 on the left clamping plate 263, the other end of the leveling shaft 4 passes through the kidney-shaped hole 41 on the right clamping plate 273, a left slider 42 and a right slider 43 are fixedly connected to the leveling shaft 4, the left side of the left slider 42 is connected to the surface of the left clamping plate 263, and the right end of the right slider 43 is connected to the surface of the right clamping plate 273.

The two leveling shafts 4 can move in the kidney-shaped hole 41 by arranging the kidney-shaped hole 41, the left slide block 42 and the right slide block 43; after placing the wrapping bag on host computer shell 21, the accessible removes leveling axle 4 and flattens the wrapping bag sack fast, makes the wrapping bag opening part level and smooth, makes things convenient for the vacuum pore of bleeding to carry out the flattening to the wrapping bag, has reduced the loaded down with trivial details operation of the manual flattening wrapping bag of workman, has both improved the vacuum treatment effect of packing, has also improved packagine machine's packing efficiency.

Example 2:

embodiment 2 is an improvement of the gas processing mechanism 25 of embodiment 1, and in embodiment 2, the gas processing mechanism 25 includes a three-port connector 251 and an exhaust pipe 252, the exhaust pipe 252 is connected to a clamping plate 44 through a side wall of the vacuum packaging main machine 2, the clamping plate 44 is disposed on an outer side wall of the vacuum packaging main machine 2, as shown in fig. 10, a dust filter plate 45 is disposed in the clamping plate 44, the clamping plate 44 and the dust filter plate 45 are fixedly connected by clamping, a left end of the three-port connector 251 is connected to a right end of the first outlet pipe 237, a right end of the three-port connector 251 is connected to a left end of the second outlet pipe 247, and a lower end of the three-port connector 251 is connected to an.

Adopt above-mentioned structure cardboard 44 and dust filter 45 to connect through the block, can be very convenient clear up dust filter 45, also prevent that the dust from entering into the air-out pipeline.

Embodiment 2 the rest of the structure and the operation principle are the same as those of embodiment 1.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (5)

1. The utility model provides a vacuum packaging machine for logistics storage which characterized in that: the box door is arranged on the outer surface of the lower end of the vacuum packaging host, and the iron base plate is embedded on the upper surface of the lower end of the vacuum packaging host;

the vacuum packaging host comprises a host shell, a power mechanism, a first air exhaust mechanism, a second air exhaust mechanism, a gas treatment mechanism, a first air exhaust nozzle mechanism, a second air exhaust nozzle mechanism, a sealing mechanism, a top plate cover and a slide rail mechanism, wherein the moving wheels are provided with four wheels and fixedly arranged at four corners of the bottom of the host shell, the power mechanism is fixedly arranged at the bottom surface of the middle end in the host shell, the first air exhaust mechanism and the second air exhaust mechanism are driven by the power mechanism, the right end of the middle part of the first air exhaust mechanism is connected with the upper end of the gas treatment mechanism, the left end of the middle part of the second air exhaust mechanism is connected with the upper end of the gas treatment mechanism, the upper end of the first air exhaust mechanism is connected with the lower end of the first air exhaust nozzle mechanism, the upper end of the second air exhaust mechanism is connected with the lower end of the second air exhaust mechanism, and, the upper end of the second air suction nozzle mechanism is installed at the right end of the upper surface of the host shell in an embedding mode, the sealing mechanism is installed inside the top plate cover, the top plate cover is connected with the host shell through a connecting plate, the lower end of the sealing mechanism is located right above the iron backing plate, a sliding rail mechanism is arranged on the top plate cover, and the upper end of the connecting plate is installed inside the sliding rail mechanism and is in sliding connection with the sliding rail mechanism;

the first air suction nozzle mechanism comprises a left air inlet, a left air inlet pipe, a left clamping plate, a left clamping hole and a left air suction nozzle, wherein the left air inlet is arranged at the upper end of the right side of the first connecting shell, the left air inlet is connected with the lower end of the left air inlet pipe, the upper end of the left air inlet pipe is connected with the left air suction nozzle through the left clamping plate, and the left clamping hole is formed at the lower right end of the left clamping plate; the second air suction nozzle mechanism comprises a right air inlet, a right air inlet pipe, a right clamping plate, a right clamping hole and a right air suction nozzle, the right air inlet is arranged at the upper end of the left side of the second connecting shell, the right air inlet is connected with the lower end of the right air inlet pipe, the upper end of the right air inlet pipe is connected with the right air suction nozzle through the right clamping plate, and the right clamping hole is formed at the lower end of the left side of the right clamping plate;

be equipped with two leveling shafts between left side splint and the right side splint, the leveling shaft sets up perpendicularly between left side splint and right side splint, the opposite flank of left side splint and right side splint is equipped with waist type hole, the waist type hole on the splint of left side is passed to the one end of leveling shaft, and the other end of leveling shaft passes the waist type hole on the splint of right side, has linked firmly left slider and right slider on the leveling shaft, the left side of left side slider meets with the surface of left side splint, the right-hand member of right side slider meets with the surface of right side splint, makes two leveling shaft can be in the downthehole removal of waist type.

2. The vacuum packing machine for logistics storage according to claim 1, wherein: the gas treatment mechanism comprises a three-port connector and an exhaust pipe, the exhaust pipe penetrates through the side wall of the vacuum packaging host machine and is connected with a clamping plate, a dust filtering plate is arranged in the clamping plate, the clamping plate and the dust filtering plate are fixedly connected through clamping, the left end of the three-port connector is connected with the right end of a first outlet pipe, the right end of the three-port connector is connected with the left end of a second outlet pipe, and the lower end of the three-port connector is connected with the upper end of the exhaust pipe.

3. The vacuum packing machine for logistics storage according to claim 1, wherein: the gas treatment mechanism comprises a three-port connector, an exhaust pipe, a connector, a gas collection box, a first filter plate and a second filter plate, wherein the left end of the three-port connector is connected with the right end of a first outlet pipe, the right end of the three-port connector is connected with the left end of a second outlet pipe, the lower end of the three-port connector is connected with the upper end of the exhaust pipe, the lower end of the exhaust pipe is connected with the gas collection box through the connector, the first filter plate is arranged inside the gas collection box, the second filter plate is arranged inside the gas collection box, and the first filter plate is located.

4. The vacuum packing machine for logistics storage according to claim 1, wherein: the power mechanism comprises a bidirectional motor, a left worm, a left driving turbine, a right worm and a right driving turbine, the bidirectional motor is fixedly installed on the bottom surface of the middle end in the host shell, the left worm is connected with an output shaft at the left end of the bidirectional motor, the left worm is meshed with the left driving turbine, the right worm is connected with an output shaft at the right end of the bidirectional motor, and the right worm is meshed with the right driving turbine.

5. The vacuum packing machine for logistics storage according to claim 4, wherein: first mechanism of bleeding includes first belt, first roller, first sawtooth disc, first hob, first flabellum, first connection shell, first outlet duct of bleeding, first roller is connected with the transmission of the left-hand drive turbine under through first belt, the coaxial fixed mounting of first roller is on first sawtooth disc, first sawtooth disc meshes with first hob lower extreme mutually, first hob upper end welding has first flabellum and mechanical connection of bleeding, first flabellum of bleeding is installed inside first connection shell, first connection shell right side lower extreme is connected with first outlet duct left end, first outlet duct right-hand member is connected with gas treatment mechanism upper end.

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