CN108622455B - Plastic particle vacuumizing sealing packaging device for electric wires and cables - Google Patents

Abstract

A plastic particle vacuumizing sealing packaging device for wires and cables belongs to the technical field of packaging machinery. Comprises a machine case and a control device, wherein the machine case comprises a machine case, the top of the device is provided with a case platform; the static type bag opening electric heating sealing mechanism is arranged at the upper part of the front side of the case; the movable electric heating sealing mechanism of the bag mouth is connected with the movable electric heater driving mechanism at a position corresponding to the front part of the static type electric heating sealing mechanism of the bag mouth, the movable electric heater driving mechanism is arranged on the chassis platform; the suction pipe cantilever lifting mechanism is fixed on the chassis platform, the vacuumizing mechanism is connected with the suction pipe cantilever lifting mechanism and corresponds to the space between the static type bag opening electric heating sealing mechanism and the movable type bag opening electric heating sealing mechanism; the negative pressure generating mechanism is arranged in a case cavity of the case, and the vacuumizing mechanism is connected with the negative pressure generating mechanism through a pipeline. Space is saved; the air extraction efficiency is high, and the vacuumizing effect is good; shortening the vacuumizing time; the operation intensity is lightened.

Description

Plastic particle vacuumizing sealing packaging device for electric wires and cables

Technical Field

The invention belongs to the technical field of packaging machinery, and particularly relates to a plastic particle vacuumizing sealing packaging device for wires and cables.

Background

The concept of the plastic particles for electric wires and cables described above can be seen, but not limited to, the following patent documents: CN1325540C, CN102093580C, CN1282699C, CN101724181a and CN101812208a, etc.

As is known in the art, since plastic particles for wires and cables are protected from moisture, they are usually vacuum sealed and packed, and the vacuum sealed and packed need to be provided with a corresponding device, for example CN205971964U recommends a "vacuum packing device for low smoke and halogen-free cable materials", and it is known from the reading of paragraphs 0010 to 0011 and paragraphs 0014 to 0019 of the specification of this patent that two packages can be simultaneously vacuum-pumped and sealed, so that the packing efficiency can be improved theoretically. However, it is not difficult to find the following drawbacks when the specification of this patent is carefully read in paragraph 0018: firstly, because a vacuum chamber needs to be constructed, a vacuum cover is arranged and is lifted by a hydraulic lifting pump according to the need, in particular, when the vacuum is to be pumped, the vacuum cover descends, and conversely, ascends, so that the occupied space is large and the investment cost is high; secondly, because a vacuum cover is used, an L-shaped groove is required to be formed on a vertical plate (called as a vacuum vertical plate in the patent), however, the sealing between the vacuum cover and the wall of the L-shaped groove is difficult to ensure; thirdly, because the whole vacuum chamber is required to form negative pressure when vacuumizing, the air in the packaging bag can be pumped out under the environment of a negative pressure field, namely the packaging bag is not directly vacuumized, the space for forming the negative pressure is large, and the energy consumption of a vacuumizing machine is not beneficial to saving; fourth, because before vacuumizing, the bag mouth of the packaging bag is put into the vacuum chamber from the outside, the bag mouth is laid on a circle of powerful magnetic sheets and pressed by the powerful magnetic sheets, then the vacuum cover is put down by the hydraulic lifting pump to seal the vacuum chamber, then the vacuumizing machine is started to suck the gas in the bag body of the packaging bag, and finally the bag mouth is thermally sealed by the heat sealing machine (the 0018 th section of the specification is 2 to 5 lines), the operation is relatively complex, and a plurality of actions are manually completed by online operators, so that the working strength of the online operators is high, and particularly, although the requirements of simultaneously vacuumizing and simultaneously sealing two packaging bags can be met, the time consumed by the preparation work of the preamble is long, and the improvement of the overall efficiency is not obvious. In another example, CN104021336U provides a "packing device for silane high polyethylene cable material", which is characterized in that when a packing bag filled with wire and cable material is sealed, the packing bag is placed on a supporting surface as a workbench, a bag opening of the packing bag is placed under the sealing device, a pedal is stepped on, the sealing device is operated by the pedal through a pull rod, the sealing device heats up, the bag opening of the packing bag is bonded, and finally, a heat-bonded and sealed aluminum-plastic composite bag is sleeved into a paper-plastic composite bag (see the specification of paragraph 0013 of the patent). Because this patent scheme need by the workman lift the wrapping bag of filling material to aforementioned holding surface before sealing the wrapping bag, because the initiating action of sack bonding is realized by the workman trampling the step, therefore workman's operation intensity is big and efficiency is relatively low.

The present inventors have made a durable and advantageous design to develop the technical solutions described below, and have made simulation tests in the inventor's materials and equipment test center with security measures, which have proved to be practical.

Disclosure of Invention

The invention aims to provide a plastic particle vacuumizing sealing packaging device which is beneficial to abandoning a vacuum chamber to save space and reduce investment cost, is beneficial to reliably clamping a bag opening of a packaging bag to be sealed to ensure ideal vacuumizing efficiency and vacuumizing effect, is beneficial to directly carrying out vacuumizing in the packaging bag to remarkably shorten vacuumizing time, remarkably saves energy consumption of a vacuumizing device, and is convenient for showing good automation effect to lighten working intensity of on-line operators.

The invention accomplishes the task by a plastic particle vacuumizing sealing packaging device for wires and cables, which comprises a case, wherein a case platform is formed at the top of the case; the static type bag opening electric heating sealing mechanism is arranged at the upper part of the front side of the case in a horizontal cantilever state; a movable electric heater driving mechanism for driving the movable electric heater sealing mechanism to displace towards the static electric heater sealing mechanism or away from the static electric heater sealing mechanism, wherein the movable electric heater driving mechanism is connected with the movable electric heater driving mechanism at a position corresponding to the front of the static electric heater sealing mechanism, and the movable electric heater driving mechanism is arranged on the chassis platform; the suction pipe cantilever lifting mechanism is fixed on the chassis platform, and the suction pipe cantilever lifting mechanism is connected with the suction pipe cantilever lifting mechanism and corresponds to between the static type bag opening electric heating sealing mechanism and the movable type bag opening electric heating sealing mechanism; the negative pressure generating mechanism is arranged in a case cavity of the case, and the vacuumizing mechanism is connected with the negative pressure generating mechanism through a pipeline.

In a specific embodiment of the invention, the electric heating sealing mechanism for the static pocket comprises a left supporting tube of the static pocket electric heater, a right supporting tube of the static pocket electric heater, a left electric heater of the static pocket electric heater, a shield of the static pocket electric heater, an upper sealing elastic pressing strip and a lower sealing elastic pressing strip, the rear end of the left supporting tube of the static pocket electric heater and the rear end of the right supporting tube of the static pocket electric heater are fixed with the upper part of the front side of the case and extend into the cavity of the case, the front ends of the left supporting tube of the static pocket electric heater and the right supporting tube of the static pocket electric heater are formed into horizontal cantilever ends, the rear side of the left end of the static pocket electric heater is fixed with the front end of the left supporting tube of the static pocket electric heater, the rear side of the right end of the static pocket electric heater is fixed with the front end of the right supporting tube of the static pocket electric heater, a stationary electric heater hot melting tooth is formed on the stationary electric heater at the length direction of one side of the movable electric heating sealing mechanism, a stationary electric heater shield is covered outside the stationary electric heater and is fixed with the front end of a left support tube of the stationary electric heater, the rear right side of the stationary electric heater shield is fixed with the front end of a right support tube of the stationary electric heater, an opening is formed on the stationary electric heater shield at the length direction of one side of the movable electric heating sealing mechanism, the stationary electric heater protrudes out of the opening, an upper sealing elastic pressing strip is inserted into the upper part of the front side of the stationary electric heater shield at a position corresponding to the upper part of the length direction of the stationary electric heater, the lower sealing elastic pressing strip is inserted and embedded at the lower part of the front side of the protective cover of the static pocket electric heater at a position corresponding to the lower part of the length direction of the static pocket electric heater; a movable travel signal collector for collecting the movable travel of the movable electric heater driving mechanism is arranged on the chassis platform and at the right side of the movable electric heater driving mechanism, the exhaust pipe cantilever lifting mechanism is fixed at the front central position of the chassis platform, the vacuumizing mechanism is arranged between the movable electric heater driving mechanism and the stationary electric heater, and the negative pressure generating mechanism is arranged at the bottom of the chassis cavity; a hood is disposed on the chassis platform.

In another specific embodiment of the present invention, the electric heating sealing mechanism for a movable pouch comprises a left support tube of the movable pouch electric heater, a right support tube of the movable pouch electric heater, a shield of the movable pouch electric heater, an upper sealing elastic pressing sheet and a lower sealing elastic pressing sheet, wherein the rear end of the left support tube of the movable pouch electric heater and the rear end of the right support tube of the movable pouch electric heater are connected with the driving mechanism of the movable electric heater arranged on the chassis platform, the front end of the left support tube of the movable pouch electric heater and the front end of the right support tube of the movable pouch electric heater are configured as horizontal cantilever ends and extend to the front side of the shield of the movable pouch electric heater at a position corresponding to the upper side of the shield of the movable pouch electric heater, the movable pouch electric heater corresponds to the front side of the length direction of the stationary pouch electric heater, a left connecting seat of the movable electric heater is fixed at the upper part of the left end of the movable pouch electric heater, a right connecting seat of the movable electric heater is fixed at the upper part of the left end of the movable pouch electric heater, the left connecting seat is connected with the front end of the movable electric heater support tube of the movable pouch electric heater, the front end of the movable pouch electric heater is formed toward the shield of the movable pouch electric heater, the movable pouch electric heater is opened toward the front side of the movable pouch electric heater shield of the movable pouch electric heater, the front side of the movable pouch electric heater is opened toward the front side of the movable pouch electric heater shield of the movable pouch electric heater, the upper sealing elastic pressing piece is inserted into the upper part of the rear side of the movable electric pocket heater shield at a position corresponding to the upper part of the length direction of the movable electric pocket heater, the lower sealing elastic pressing piece is inserted into the lower part of the rear side of the movable electric pocket heater shield at a position corresponding to the lower part of the length direction of the movable electric pocket heater, the upper sealing elastic pressing piece and the upper sealing elastic pressing piece correspond to each other, the lower sealing elastic pressing piece and the lower sealing elastic pressing piece correspond to each other, and the hot melting teeth of the static electric pocket heater and the hot melting teeth of the movable electric pocket heater correspond to each other; a left support tube abdication groove is formed in the position, corresponding to the left support tube of the movable electric pocket heater, of the hood, a right support tube abdication groove is formed in the position, corresponding to the right support tube of the movable electric pocket heater, of the hood, a vacuum gauge is arranged at the position, above the left side, of the front side of the hood, an electric controller is arranged at the position, above the right side, of the hood, the stationary electric pocket heater is electrically connected with the electric controller through a stationary electric pocket heater power line, the movable electric pocket heater is electrically connected with the electric controller through a movable electric pocket heater power line, a movable electric heater driving mechanism, an exhaust tube cantilever lifting mechanism, a vacuumizing mechanism and a negative pressure generating mechanism are electrically controlled to be connected with the electric controller, and a movable travel signal collector is electrically controlled to be connected with the electric controller through a circuit.

In yet another specific embodiment of the present invention, the portable electric heater driving mechanism includes a left rail, a right rail, a slider fixing base, a left slider, a right slider, a slider fixing base driving cylinder and a driving cylinder column supporting seat, the left rail is fixed on a side of the left end of the case platform facing upward, the right rail corresponds to the right side of the left rail and is fixed on a side of the right end of the case platform facing upward, the left slider is fixed with the left end bottom of the slider fixing base and is in sliding fit with the left rail, the right slider is fixed with the right end bottom of the slider fixing base and is in sliding fit with the right rail, the slider fixing base driving cylinder is fixed with the slider fixing base in a position corresponding to the rear side of the slider fixing base and in a state of being emptied above the case platform, the slider fixing base driving cylinder column of the slider fixing base driving cylinder is connected to the driving cylinder column supporting seat fixed with the case platform, the rear end of the portable electric heater left support tube is connected with the left end of the slider fixing base, the rear end of the portable electric heater support tube is connected with the slider fixing base, and the controller is connected with the electric controller.

In still another specific embodiment of the present invention, the slider fixing seat driving cylinder is a cylinder and the cylinder is a servo cylinder.

In still another specific embodiment of the present invention, the pumping pipe cantilever lifting mechanism includes a lifting cylinder, a lifting cylinder fixing seat and a lifting cylinder column connecting seat, the lifting cylinder fixing seat is fixed at a front central position of the chassis platform, the lifting cylinder is located at a downward side of the chassis platform and is fixed with the lifting cylinder fixing seat in a longitudinal cantilever state, the lifting cylinder column of the lifting cylinder extends upwards to an upper side of the chassis platform via the lifting cylinder fixing seat and is connected with the lifting cylinder column connecting seat, and the vacuum pumping mechanism is fixedly connected with the lifting cylinder column connecting seat, wherein: the lifting acting cylinder is electrically connected with the electric controller in a control manner.

In a further specific embodiment of the invention, the lifting cylinder is a cylinder and is connected in use via an air pipe to an air supply device which is an air compressor or an air pump and is in electrical control connection with the electrical control.

In a further specific embodiment of the present invention, the vacuum pumping mechanism includes a pumping pipe cantilever, a pumping pipe fixing and adjusting seat fixing plate, a pumping pipe fixing and adjusting seat, and a pumping pipe of the packing bag, wherein the rear end of the pumping pipe cantilever is fixed with the lifting action cylinder column connecting seat through a connecting seat connecting screw, a pumping pipe limiting sleeve is fixed at the rear end of the pumping pipe cantilever, a bending part is formed at the upper part of the pumping pipe fixing and adjusting seat fixing plate, the bending part is fixed with the front end of the pumping pipe cantilever through a bending part fixing screw, the pumping pipe fixing and adjusting seat is fixed with the front side of the lower part of the pumping pipe fixing and adjusting seat fixing plate, the pumping pipe of the packing bag is arranged on the pumping pipe fixing and adjusting seat in an up-down adjusting manner, one end of a pumping pipe is connected at the top of the packing bag, the other end of the pumping pipe is connected with the negative pressure generating mechanism arranged at the bottom of the case cavity after passing through the pumping pipe limiting sleeve, the lower end of the packing bag pipe corresponds to the static pocket electric heater and the movable pocket electric heater, and the pumping pipe is provided with a pumping pipe cavity corresponding to the pumping pipe cantilever at the position of the pumping pipe.

In yet another specific embodiment of the present invention, an exhaust pipe connecting hole is formed in the chassis platform, and the exhaust pipe is connected to the negative pressure generating mechanism disposed at the bottom of the chassis cavity through the exhaust pipe connecting hole.

In yet another specific embodiment of the present invention, the negative pressure generating mechanism includes a vacuum pump motor and a vacuum pump, the vacuum pump motor is connected with the electric controller in an electric control manner, the vacuum pump and the vacuum pump motor are arranged on a vacuum pump seat, the vacuum pump seat is fixed at the bottom of the chassis cavity, and the air suction connecting pipe is connected with a vacuum pump air suction port of the vacuum pump in a matching manner.

Compared with the prior art, the invention has one of the technical effects that the vacuum chamber is not required to be established, thereby saving space and reducing investment cost; secondly, the bag mouth of the packaging bag to be sealed can be reliably clamped under the combined action of the static type bag mouth electric heating sealing mechanism and the movable type bag mouth electric heating sealing mechanism, so that the ideal air extraction efficiency of the vacuumizing mechanism to the packaging bag can be ensured, and the excellent vacuumizing effect can be reflected; thirdly, the vacuumizing mechanism can be lifted as required under the action of the pumping pipe cantilever lifting mechanism so as to realize that the vacuumizing mechanism enters the packaging bag for vacuumizing, thus the vacuumizing time can be obviously shortened and the electric energy consumption of the negative pressure generating mechanism serving as a vacuumizing device can be obviously saved; fourth, the automatic machine has a good automatic effect, so that the operation intensity of online operators can be remarkably reduced.

Drawings

Fig. 1 is a structural diagram of an embodiment of the present invention.

Fig. 2 is a right side schematic view of fig. 1.

Detailed Description

In order to make the technical spirit and advantages of the present invention more clearly understood, the applicant will now make a detailed description by way of example, but the description of the examples is not intended to limit the scope of the invention, and any equivalent transformation made merely in form, not essentially, according to the inventive concept should be regarded as the scope of the technical solution of the present invention.

In the following description, all concepts related to the directions or azimuths of up, down, left, right, front and rear are based on the position state of fig. 1, and thus should not be construed as a specific limitation on the technical solution provided by the present invention.

Referring to fig. 1 and 2, a chassis 1 is shown, and a chassis platform 11 is formed on top of the chassis 1; a stationary type pouch electric heating sealing mechanism 2 is shown, which is called a stationary type pouch electric heating sealing mechanism 2 by the applicant because the stationary type pouch electric heating sealing mechanism 2 is not movable, and the stationary type pouch electric heating sealing mechanism 2 is provided in a horizontally cantilever state at the upper portion of the front side of the aforementioned cabinet 1; showing a movable pouch mouth electric heating sealing mechanism 3 and a movable electric heater driving mechanism 4 for driving the movable pouch mouth electric heating sealing mechanism 3 to displace in a direction toward the stationary pouch mouth electric heating sealing mechanism 2 (rearward displacement) or to displace in a direction away from the stationary pouch mouth electric heating sealing mechanism 2 (forward displacement), the movable pouch mouth electric heating sealing mechanism 3 being connected to the movable electric heater driving mechanism 4 at a position corresponding to the front of the stationary pouch mouth electric heating sealing mechanism 2, and the movable electric heater driving mechanism 4 being provided on the aforementioned cabinet platform 11; showing an exhaust pipe cantilever lifting mechanism 5 and a vacuumizing mechanism 6, wherein the exhaust pipe cantilever lifting mechanism 5 is fixed on the chassis platform 11, the vacuumizing mechanism 6 is connected with the exhaust pipe cantilever lifting mechanism 5, and the vacuumizing mechanism 6 corresponds to between the static type bag mouth electric heating sealing mechanism 2 and the movable type bag mouth electric heating sealing mechanism 3; a negative pressure generating means 7 is shown, which negative pressure generating means 7 is arranged in the housing cavity 12 of the housing 1, and the aforesaid evacuation means 6 is connected to the negative pressure generating means 7 by means of a pipeline.

Continuing to see fig. 1 and2, the aforementioned electric still mouth heating sealing mechanism 2 comprises a left still mouth electric heater support tube 21, a right still mouth electric heater support tube 22, a left still mouth electric heater 23, a left still mouth electric heater shield 24, an upper sealing elastic bead 25 and a lower sealing elastic bead 26, the rear ends of the left still mouth electric heater support tube 21 and the right still mouth electric heater support tube 22 are fixed with the upper part of the front side of the aforementioned cabinet 1 and extend into the aforementioned cabinet cavity 12, the front ends of the left still mouth electric heater support tube 21 and the right still mouth electric heater support tube 22 are configured as horizontal cantilever ends, the rear side of the left still mouth electric heater 23 is fixed with the front end of the left still mouth electric heater support tube 21, the rear side of the right still mouth electric heater 23 is fixed with the front end of the right still mouth electric heater support tube 22, a stationary electric heater hot melt tooth 231 is formed in a length direction of a side (i.e., a front side) of the stationary electric heater 23 facing the movable electric heater sealing mechanism 3, a stationary electric heater shield 24 is covered outside the stationary electric heater 23 and a left end rear side of the stationary electric heater shield 24 is fixed to a front end of the stationary electric heater left support tube 21, a right end rear side of the stationary electric heater shield 24 is fixed to a front end of the stationary electric heater right support tube 22, an opening 241 is formed in a length direction of a side of the stationary electric heater shield 24 facing the movable electric heater sealing mechanism 3, i.e., a front side of a position state shown in fig. 1, the stationary electric heater 23 protrudes out of the opening 241, the upper seal elastic bead 25 is inserted into the upper portion of the front side of the stationary electric pouch heater cover 24 at a position corresponding to the upper portion of the stationary electric pouch heater 23 in the longitudinal direction, and the lower seal elastic bead 26 is inserted into the lower portion of the front side of the stationary electric pouch heater cover 24 at a position corresponding to the lower portion of the stationary electric pouch heater 23 in the longitudinal direction.

As shown in fig. 1, a shroud cap 242 is fixed to the upper part of the shroud 24 of the stationary electric pouch heater in the longitudinal direction by a shroud cap screw 2421, and a shroud cap upper pressure plate 2422 is extended to the front side of the shroud cap 242 in the longitudinal direction, and the space between the shroud cap upper pressure plate 2422 and the shroud 24 of the stationary electric pouch heater is configured as an upper seal elastic bead insertion groove 2423, and the upper seal elastic bead 25 is inserted into the upper seal elastic bead insertion groove 2423. A shield lower pressure plate 243 extends at the lower part of the stationary electric heater shield 24 in the length direction, and a space between the shield lower pressure plate 243 and the bottom wall of the stationary electric heater shield 24 is formed as a lower sealing elastic pressure strip inserting groove 2431, and the lower sealing elastic pressure strip 26 is in inserting fit with the lower sealing elastic pressure strip inserting groove 2431. In this embodiment, the upper sealing elastic bead 25 and the lower sealing elastic bead 26 are preferably made of high temperature resistant rubber strips. In order to achieve a good heat dissipation effect, heat dissipation holes 27 are formed in the stationary electric-bag-opening heater cover 24 and the cover 242 at intervals.

As shown in fig. 1, a travel signal collector 111 for collecting the travel of the portable electric heater driving mechanism 3 is provided on the housing platform 11 at a position corresponding to the right side of the portable electric heater driving mechanism 4, specifically: the travel signal collector 111 is disposed on a signal collector adjustment seat 1111, and the signal collector adjustment seat 1111 is fixed to the chassis platform 11. In the present embodiment, the travel signal collector 111 preferably employs a travel switch or a micro switch, but a position proximity switch, a reed switch, or a hall sensing element may be used. The pumping pipe cantilever lifting mechanism 5 is fixed at the front central position of the chassis platform 11, the vacuumizing mechanism 6 corresponds to the space between the movable bag mouth electric heating sealing mechanism 3 and the static bag mouth electric heater 23, and the negative pressure generating mechanism 7 is arranged at the bottom of the chassis cavity 12; a hood 8 is disposed on the housing platform 11.

In order to shield the rear side of the hood 8, a hood cavity rear shielding plate 113 is fixed to the rear side of the housing platform 11 in a state of being perpendicular to the Yu Jixiang platform 11, and the hood cavity rear shielding plate 113 seals the rear side of the hood 8 when the hood 8 is mounted on the housing platform 11.

Continuing with fig. 1 and 2, the aforementioned portable electric-heating sealing mechanism 3 for a pouch mouth comprises a portable electric-heating left support tube 31, a portable electric-heating right support tube 32, a portable electric-heating device 33, a portable electric-heating device shield 34, an upper sealing elastic pressing sheet 35 and a lower sealing elastic pressing sheet 36, the rear end of the portable electric-heating left support tube 31 and the rear end of the portable electric-heating right support tube 32 are connected with the aforementioned portable electric-heating driving mechanism 4 provided on the aforementioned cabinet platform 11, the front end of the portable electric-heating left support tube 31 and the front end of the portable electric-heating right support tube 32 are configured as horizontal cantilever ends and extend to the front side of the stationary electric-heating device shield 24 at positions corresponding to the upper side of the aforementioned stationary electric-heating device shield 24, the portable electric-heating device 33 corresponds to the front side in the length direction of the aforementioned stationary electric-heating device 23, a left electric-heating connection seat 331 is fixed at the upper left end of the portable electric-heating device 33 through a left connection seat 3311, and a right electric-heating device 31 is fixed at the upper end of the right end of the portable electric-heating device 33 through a left connection seat 3311, a left electric-heating device 31 is fixed at the right end of the right electric-heating device 31 and a left electric-heating device 31 is screwed to the front end of the portable electric-heating device 31 and a nut 332 is defined by the front end of the portable electric-heating device 31, the portable electric-heating device 31 is screwed at the front end of the portable electric-heating device 31 and is screwed at the front end of the portable electric-heating device 31, and is defined by the front end of the portable electric-heating device 31, and is screwed at the front end of the portable electric-end 31, and is connected with the front end of the portable electric-heating device 31, and is screwed at the front end of the portable electric-heating device 31, a movable electric heater hot-melt tooth 333 is formed in the longitudinal direction of the side of the movable electric heater 33 facing the stationary electric heater 23, the movable electric heater shield 34 is covered outside the movable electric heater 33, an opening 341 is formed in the longitudinal direction of the side of the movable electric heater 33 facing the stationary electric heater 23, the movable electric heater 33 protrudes out of the opening 341, the upper seal elastic pressing piece 35 is inserted into the rear upper portion of the movable electric heater shield 34 at a position corresponding to the upper portion of the longitudinal direction of the movable electric heater 33, the lower seal elastic pressing piece 36 is inserted into the rear lower portion of the movable electric heater shield 34 at a position corresponding to the lower portion of the longitudinal direction of the movable electric heater 33, the upper seal elastic pressing piece 25 and the upper seal elastic pressing piece 35 correspond to each other, the lower seal elastic pressing piece 26 and the lower seal elastic pressing piece 36 correspond to each other, and the stationary electric heater hot-melt tooth 231 and the movable electric heater hot-melt tooth 333 correspond to each other.

Because the structure and arrangement of the movable electric heater 33, the movable electric heater shield 34, the upper seal elastic pressing piece 35 and the lower seal elastic pressing piece 36 of the structure system of the movable electric heater 3 are the same as those of the stationary electric heater 23, the stationary electric heater shield 24, the upper seal elastic pressing strip 25 and the lower seal elastic pressing strip 36 of the structure system of the stationary electric heater 2, for example, the movable electric heater shield 34 is provided with heat dissipation through holes 37 at intervals, and the upper seal elastic pressing piece 35 and the lower seal elastic pressing piece 36 are made of high temperature resistant rubber sheets, the description is not repeated.

Two stationary electric pocket heater lead-throughs 28 electrically connected to stationary electric pocket heater power supply line 232 and respectively lashed to stationary electric pocket heater left support tube 21 and stationary electric pocket heater right support tube 22 are shown in fig. 1, and two movable electric pocket heater lead-throughs 38 electrically connected to movable electric pocket heater power supply line 334 and respectively lashed to movable electric pocket heater left support tube 31 and movable electric pocket heater right support tube 32 are shown.

As shown in fig. 1, a left support tube abdication groove 81 is formed in the hood 8 at a position corresponding to the left support tube 31 of the electric heater, a right support tube abdication groove 82 is formed in a position corresponding to the right support tube 32 of the electric heater, a vacuum gauge 83 is provided at a position left upper than the front side of the hood 8, an electric controller 84 is provided at a position right upper than the front side of the hood 8, the electric heater 23 is electrically connected to the electric controller 84 by a power line 232, the electric heater 33 is electrically connected to the electric controller 84 by a power line 334, the electric heater driving mechanism 4, the suction tube cantilever elevating mechanism 5, the vacuum pumping mechanism 6 and the negative pressure generating mechanism 7 are electrically connected to the electric controller 84, the travel signal collector 111 is electrically connected to the electric controller 84 by a circuit, and the travel signal collector 111 is electrically connected to the electric controller 84 by a circuit.

With continued reference to fig. 1 and 2, the aforementioned portable electric heater driving mechanism 4 is preferably, but not exclusively, structured as follows: the left guide rail 41 is fixed on the side of the left end of the chassis platform 11 facing upwards through a left guide rail fixing screw 411, the right guide rail 42 corresponds to the right side of the left guide rail 41 and is fixed on the side of the right end of the chassis platform 11 facing upwards through a right guide rail fixing screw 421, the left slider 44 is fixed with the bottom of the left end of the slider fixing seat 43 and is in sliding fit with the left guide rail 41, the right slider 45 is fixed with the bottom of the right end of the slider fixing seat 43 and is in sliding fit with the right guide rail 42, a signal collector triggering flange 451 is arranged on the right side of the right slider 45, the signal collector triggering flange 451 is matched with the moving stroke signal collector 111, the slider fixing seat driving cylinder 46 is fixed with the fixing seat 43 through an action cylinder fixing screw 462 at a position corresponding to the rear side of the slider fixing seat 43 and in a state of being empty above the chassis platform 11, the slider driving action slider 461 of the slider driving cylinder 46 is connected with the right end of the slider fixing seat 43 and is in sliding fit with the right guide rail 41, the right slider driving cylinder seat 46 is in sliding fit with the right guide rail 42, a signal collector triggering flange 451 is matched with the moving stroke signal collector 111, and the driving cylinder column 11 is defined by the driving cylinder column 11.

The rear end of the left support tube 31 of the portable electric heater is connected to the left end of the slider fixing base 43, and the rear end of the right support tube 32 of the portable electric heater is connected to the right end of the slider fixing base 43, wherein the slider fixing base driving cylinder 46 is electrically controlled and connected to the electrical controller 84.

In this embodiment, the aforementioned slider fixing seat driving cylinder is a cylinder and the cylinder is a servo cylinder.

The aforementioned exhaust pipe cantilever elevating mechanism 5 includes an elevating cylinder 51, an elevating cylinder fixing base 52 and an elevating cylinder column connecting base 53, the elevating cylinder fixing base 52 is fixed at the front center position of the aforementioned chassis platform 11, the elevating cylinder 51 is located at one side of the chassis platform 11 facing downward and fixed with the elevating cylinder fixing base 52 in a longitudinal cantilever state, the elevating cylinder column 511 of the elevating cylinder 51 extends upward to the upper side of the chassis platform 11 via the elevating cylinder fixing base 52 and is connected with the elevating cylinder column connecting base 53, the aforementioned vacuum pumping mechanism 6 is fixedly connected with the elevating cylinder column connecting base 53, wherein: the lift cylinder 51 is electrically connected to the electric controller 84.

The lifting cylinder 51 is a cylinder and is connected in use by an air line to an air supply device, which in this embodiment employs an air compressor preferably disposed within the housing cavity 12 and is in electrical control connection with the electrical controller 84. If an air pump is used instead of an air compressor, this should be considered equivalent.

With continued reference to fig. 1 and 2, the vacuum pumping mechanism 6 includes a pumping pipe cantilever 61, a pumping pipe fixing and adjusting seat fixing plate 62, a pumping pipe fixing and adjusting seat 63, and a pumping pipe 64, wherein the rear end of the pumping pipe cantilever 61 is fixed to the lifting cylinder connecting seat 53 by a connecting seat connecting screw 612, a pumping pipe limiting sleeve 611 is fixed to the rear end of the pumping pipe cantilever 61, a bent portion 621 is formed at the upper portion of the pumping pipe fixing and adjusting seat fixing plate 62, the bent portion 621 is fixed to the front end of the pumping pipe cantilever 61 by a bending portion fixing screw 6211, the pumping pipe fixing and adjusting seat 63 and the lower front side of the pumping pipe fixing and adjusting seat fixing plate 62 are fixed, the pumping pipe 64 is vertically and adjustably disposed on the pumping pipe fixing and adjusting seat 63, one end of a pumping pipe 641 is connected to the top of the pumping pipe 64, the other end of the pumping pipe 641 is connected to the negative pressure generating mechanism 7 disposed at the bottom of the casing cavity 12 after passing through the pumping pipe limiting sleeve 611, the lower end of the pumping pipe 64 corresponds to the electric heater pocket 23, and the pumping pipe opening of the electric heater pocket 33 is disposed at the opening of the pumping pipe cantilever 8, and the pumping pipe 64 is disposed at the opening of the pumping pipe 8 corresponding to the electric heater pocket 33.

As shown in fig. 1, an exhaust pipe connecting hole 112 is formed in the chassis platform 11, and the exhaust pipe 641 is connected to the negative pressure generating mechanism 7 provided at the bottom of the chassis cavity 12 through the exhaust pipe connecting hole 112.

With continued reference to fig. 1 and 2, the negative pressure generating mechanism 7 includes a vacuum pump motor 71 and a vacuum pump 72, the vacuum pump motor 71 is connected to the vacuum pump 72, the vacuum pump motor 71 is electrically connected to the electric controller 84, the vacuum pump 72 and the vacuum pump motor 71 are disposed on a vacuum pump seat 721, the vacuum pump seat 721 is fixed at the bottom of the housing 12, and the suction connection tube 641 is connected to a vacuum pump air outlet 722 of the vacuum pump 72.

Also shown in fig. 1 and 2 is a bag holder 9 provided on the floor of the place of use corresponding to the front side of the cabinet 1, the upper portion of the bag holder 9 being formed with a roller guide 91, the bag 10 filled with wire and cable material by the previous process being moved from the bag holder 20 having the running roller 201 provided at the bottom to the station between the stationary bag mouth electric heating sealing mechanism 2 and the movable bag mouth electric heating sealing mechanism 3 of the present invention along the roller guide 91, and the bag mouth 101 of the bag 10 (also referred to as "bag upper bag edge") protruding out of the upper portion of the bag holder 20 being corresponding to between the stationary bag mouth electric heater 23 and the movable bag mouth electric heater 33. At this time, since the bag opening 101 is in an open state, the lift cylinder 51 of the structural system of the suction pipe cantilever lift mechanism 5 is operated, the lift cylinder 511 is displaced downward, i.e., inward, and since the rear end of the suction pipe cantilever 61 of the vacuum suction mechanism 6 is connected to the lift cylinder connecting seat 53 by the connecting seat connecting screw 612, and since the upper end of the lift cylinder 511 is connected to the lift cylinder connecting seat 53, the suction pipe cantilever 61 is correspondingly displaced downward (lowered) by the lift cylinder connecting seat 53 by carrying the lift cylinder connecting seat 53 when the lift cylinder is displaced downward, the suction pipe cantilever 61 drives the suction pipe fixing and adjusting seat fixing plate 62 for fixing the front end of the suction pipe cantilever to move downwards, and the suction pipe fixing and adjusting seat 63 also moves downwards. Since the bag suction pipe 64 is vertically adjustably fixed to the suction pipe fixing and adjusting seat 63, the bag suction pipe 64 is driven to be downwardly displaced when the suction pipe fixing and adjusting seat 63 is downwardly moved, and a flat portion of the lower portion of the bag suction pipe 64 is inserted into the wire and cable material in the bag 10. At this time, under the operation of the movable electric heater driving mechanism 4, the slider fixing base driving cylinder 46 is displaced rearward, and since the slider fixing base driving cylinder 46 is connected to the slider fixing base 43 and the slider fixing base driving cylinder column 461 is supported and defined on the driving cylinder column support 47, the slider fixing base 43 is also displaced rearward by the slider fixing base driving cylinder 46 accordingly. The method specifically comprises the following steps: the slider holder 43 is displaced rearward on the left rail 41 by the left slider 44, and is simultaneously displaced rearward on the right rail 42 by the right slider 45. Because the rear ends of the left movable electric heater support tube 31 and the right movable electric heater support tube 32 of the structure system of the movable electric heater sealing mechanism 3 are connected with the slide block fixing seat 43, and because the movable electric heater 33 is respectively connected with the front ends of the left movable electric heater support tube 31 and the right movable electric heater support tube 32 through the left electric heater connecting seat 331 and the right electric heater connecting seat 332, the slide block fixing seat 43 drives the left movable electric heater support tube 31 and the right movable electric heater support tube 32 to move backwards and simultaneously makes the movable electric heater 33 move backwards, Until the movable pouch mouth electric heater 33 and the stationary pouch mouth electric heater 23 are made to tend to be closed, the movable pouch mouth electric heater heat-melting teeth 333 and the stationary pouch mouth electric heater heat-melting teeth 231 are respectively contacted with both sides of the pouch mouth 101. In the above process, the limit degree of the backward displacement of the slide fixing seat 43 is determined by the signal collector trigger flange 451 touching the moving travel signal collector 111, when touching, the moving travel signal collector 111 feeds back the signal to the electric controller 84, and the electric controller 84 sends out the instruction to make the slide fixing seat drive the acting cylinder 46 to stop working.

Immediately after the above operation is completed, the vacuum pump motor 71 of the negative pressure generating mechanism 7 is operated to drive the vacuum pump 72, the bag suction pipe 64 is evacuated by the suction connection pipe 641, the air in the wire and cable materials is evacuated by the bag suction pipe 64, the evacuated pressure is revealed by the vacuum gauge 83, when the negative pressure value is reached, the vacuum pump motor 71 is stopped under the control of the electric controller 84, and the bag suction pipe 64 is moved upward by the reverse operation of the suction pipe cantilever lifting mechanism 5 to withdraw the bag 10. At the same time, under the operation of the static pocket electric heater 23 and the movable pocket electric heater 33, the pocket 101 between the static pocket electric heater hot-melt teeth 231 and the movable pocket electric heater hot-melt teeth 333 is hot-melt bonded, and thus the sealing of the pocket 101 is completed.

After the sealing of the bag opening 101 is completed, the slide block fixing seat of the structure system of the movable electric heater driving mechanism 4 drives the acting cylinder 46 to work reversely until the movable electric heater 33 of the bag opening is repelled from the electric heater 23 of the static bag opening, the on-line operator pushes the packaging bag clamp 20 together with the packaging bag 10 with the completed sealing off from the packaging station, namely from the roller guide groove 91, and the next packaging bag 10 with completed filling is sent to the sealing packaging station by the packaging bag clamp 20, and the process is repeated for vacuumizing sealing packaging. The function of the package clamp 20 described above is to ensure that the bagged wire and cable material has a consistent and regular geometry.

In summary, the technical scheme provided by the invention overcomes the defects in the prior art, successfully completes the task of the invention, and faithfully honors the technical effects carried by the applicant in the technical effect column above.

Claims (10)

1. The plastic particle vacuumizing sealing packaging device for the electric wires and cables is characterized by comprising a case (1), wherein a case platform (11) is formed at the top of the case (1); a static pocket electric heating sealing mechanism (2), wherein the static pocket electric heating sealing mechanism (2) is arranged at the upper part of the front side of the case (1) in a horizontal cantilever state; a movable electric heater driving mechanism (4) for driving the movable electric heater sealing mechanism (3) to displace towards the static electric heater sealing mechanism (2) or away from the static electric heater sealing mechanism (2), wherein the movable electric heater sealing mechanism (3) is connected with the movable electric heater driving mechanism (4) at a position corresponding to the front of the static electric heater sealing mechanism (2), and the movable electric heater driving mechanism (4) is arranged on the chassis platform (11); The vacuum pumping mechanism (6) is connected with the suction pipe cantilever lifting mechanism (5) and corresponds to the space between the static type bag opening electric heating sealing mechanism (2) and the movable type bag opening electric heating sealing mechanism (3); the negative pressure generating mechanism (7) is arranged in a case cavity (12) of the case (1), and the vacuumizing mechanism (6) is connected with the negative pressure generating mechanism (7) through a pipeline; The movable electric heater driving mechanism (4) comprises a left guide rail (41), a right guide rail (42), a slide block fixing seat (43), a left slide block (44), a right slide block (45), a slide block fixing seat driving cylinder (46) and a driving cylinder column supporting seat (47), wherein the left guide rail (41) is fixed on one side of the chassis platform (11) with the left end facing upwards, the right guide rail (42) corresponds to the right side of the left guide rail (41) and is fixed on one side of the chassis platform (11) with the right end facing upwards, the left slide block (44) is fixed with the bottom of the left end of the slide block fixing seat (43) and is in sliding fit with the left guide rail (41), The right slider (45) is fixed with the bottom of the right end of the slider fixing seat (43) and is in sliding fit with the right guide rail (42), the slider fixing seat driving action cylinder (46) is fixed with the slider fixing seat (43) at a position corresponding to the rear side of the slider fixing seat (43) and in a state of being emptied above the chassis platform (11), a slider fixing seat driving action cylinder column (461) of the slider fixing seat driving action cylinder (46) is connected with a driving action cylinder column supporting seat (47), the driving action cylinder column supporting seat (47) is fixed with the chassis platform (11), the exhaust pipe cantilever lifting mechanism (5) comprises a lifting action cylinder (51), lifting action cylinder fixing base (52) and lifting action cylinder column connecting seat (53), lifting action cylinder fixing base (52) are fixed in the place ahead intermediate position of quick-witted case platform (11), lifting action cylinder (51) are located machine case platform (11) one side down and fixed with lifting action cylinder fixing base (52) with vertical cantilever state, lifting action cylinder column (511) of this lifting action cylinder (51) upwards extend to the top of machine case platform (11) through lifting action cylinder fixing base (52) and are connected with lifting action cylinder column connecting seat (53), evacuation mechanism (6) and lifting action cylinder column connecting seat (53) fixed connection.

2. The vacuum sealing packing device for plastic particles for electric wires and cables according to claim 1, wherein the electric heating sealing mechanism (2) for a stationary pouch mouth comprises a left support tube (21) for the stationary pouch mouth electric heater, a right support tube (22) for the stationary pouch mouth electric heater, a stationary pouch mouth electric heater (23), a stationary pouch mouth electric heater shield (24), an upper sealing elastic bead (25) and a lower sealing elastic bead (26), the rear end of the left support tube (21) for the stationary pouch mouth electric heater and the rear end of the right support tube (22) for the stationary pouch mouth electric heater are fixed with the upper part of the front side of the case (1) and extend into the case cavity (12), the front end of the left support tube (21) for the stationary pouch mouth electric heater and the front end of the right support tube (22) for the stationary pouch mouth electric heater are formed as horizontal cantilever ends, the rear side of the left end of the stationary pouch mouth electric heater (23) and the front end of the left support tube (21) for the stationary pouch mouth electric heater, the rear side of the right end of the stationary pouch mouth electric heater (23) and the front end of the right support tube (22) for the stationary pouch mouth electric heater are fixed with the front end of the stationary pouch mouth electric heater (23) in the direction of the electric heater cavity (12), the electric heater is formed into a stationary pouch mouth (3), the left end rear side of the static pocket electric heater shield (24) is fixed with the front end of the left supporting tube (21) of the static pocket electric heater, the right end rear side of the static pocket electric heater shield (24) is fixed with the front end of the right supporting tube (22) of the static pocket electric heater, an opening (241) is formed in the length direction of one side of the static pocket electric heater shield (24) facing the movable pocket electric heating sealing mechanism (3), the static pocket electric heater (23) protrudes out of the opening (241), an upper sealing elastic pressing strip (25) is inserted in the upper part of the front side of the static pocket electric heater shield (24) at a position corresponding to the upper part of the length direction of the static pocket electric heater (23), and a lower sealing elastic pressing strip (26) is inserted in the lower part of the front side of the static pocket electric heater shield (24) at a position corresponding to the lower part of the length direction of the static pocket electric heater (23); a moving travel signal collector (111) for collecting the moving travel of the movable electric heater driving mechanism (4) is arranged on the chassis platform (11) and at a position corresponding to the right side of the movable electric heater driving mechanism (4), the exhaust pipe cantilever lifting mechanism (5) is fixed at the front central position of the chassis platform (11), the vacuumizing mechanism (6) corresponds to the space between the movable electric heater driving mechanism (3) and the static electric heater (23), and the negative pressure generating mechanism (7) is arranged at the bottom of the chassis cavity (12); a hood (8) is arranged on the chassis platform (11).

3. The plastic particle vacuumizing sealing packaging device for the electric wires and cables according to claim 2, wherein the movable electric bag mouth sealing mechanism (3) comprises a left movable electric bag mouth electric heater supporting tube (31), a right movable electric bag mouth electric heater supporting tube (32), a movable electric bag mouth electric heater (33), a movable electric bag mouth electric heater protecting cover (34), an upper sealing elastic pressing piece (35) and a lower sealing elastic pressing piece (36), the rear ends of the left movable electric bag mouth electric heater supporting tube (31) and the right movable electric bag mouth electric heater supporting tube (32) are connected with the movable electric heater driving mechanism (4) arranged on the chassis platform (11), The front ends of the left support tube (31) and the right support tube (32) of the movable electric pocket heater are formed into horizontal cantilever ends and extend to the front side of the shield (24) of the stationary electric pocket heater at positions corresponding to the upper part of the shield (24) of the stationary electric pocket heater, the movable electric pocket heater (33) corresponds to the front side of the stationary electric pocket heater (23) in the length direction, an electric heater left connecting seat (331) is fixed at the upper part of the left end of the movable electric pocket heater (33), an electric heater right connecting seat (332) is fixed at the upper part of the right end, The electric heater left connecting seat (331) is connected with the front end of the movable pocket electric heater left supporting tube (31), the electric heater right connecting seat (332) is connected with the front end of the movable pocket electric heater right supporting tube (32), the movable pocket electric heater hot melting teeth (333) are formed on the side of the movable pocket electric heater (33) facing the stationary pocket electric heater (23) in the length direction, the movable pocket electric heater shield (34) is covered outside the movable pocket electric heater (33) and an opening (341) is formed on the side of the movable pocket electric heater shield (34) facing the stationary pocket electric heater (23) in the length direction, The movable electric heater (33) protrudes out of the opening (341), an upper sealing elastic pressing sheet (35) is inserted and embedded at the upper part of the rear side of the movable electric heater shield (34) at a position corresponding to the upper part of the length direction of the movable electric heater (33), a lower sealing elastic pressing sheet (36) is inserted and embedded at the lower part of the rear side of the movable electric heater shield (34) at a position corresponding to the lower part of the length direction of the movable electric heater (33), the upper sealing elastic pressing sheet (25) and the upper sealing elastic pressing sheet (35) are corresponding to each other, the lower sealing elastic pressing sheet (26) and the lower sealing elastic pressing sheet (36) are corresponding to each other, the static type bag mouth electric heater hot melting teeth (231) and the movable type bag mouth electric heater hot melting teeth (333) correspond to each other; A left support tube abdication groove (81) is formed in the position corresponding to the left support tube (31) of the movable electric pocket heater on the hood (8), a right support tube abdication groove (82) is formed in the position corresponding to the right support tube (32) of the movable electric pocket heater, a vacuum gauge (83) is arranged at the left upper position of the front side of the hood (8), an electric controller (84) is arranged at the right upper position, the stationary electric pocket heater (23) is electrically connected with the electric controller (84) through a stationary electric pocket heater power line (232), the movable electric pocket heater (33) is electrically connected with the electric controller (84) through a movable electric pocket heater power line (334), The movable electric heater driving mechanism (4), the exhaust pipe cantilever lifting mechanism (5), the vacuumizing mechanism (6) and the negative pressure generating mechanism (7) are electrically controlled and connected with the electric controller (84), and the movable travel signal collector (111) is electrically controlled and connected with the electric controller (84) through a circuit.

4. The plastic particle vacuum sealing packaging device for electric wires and cables according to claim 3, wherein the rear end of the left support tube (31) of the movable electric pocket heater is connected with the left end of the slider fixing seat (43), the rear end of the right support tube (32) of the movable electric pocket heater is connected with the right end of the slider fixing seat (43), and the slider fixing seat driving cylinder (46) is electrically controlled and connected with the electric controller (84).

5. A plastic particle vacuum sealing packing apparatus for electric wires and cables according to claim 3, wherein the slider holder driving cylinder (46) is a cylinder and the cylinder is a servo cylinder.

6. A plastic particle vacuum sealed packing apparatus for electric wires and cables according to claim 3, characterized in that said elevation cylinder (51) is electrically connected to said electric controller (84).

7. A plastic particle vacuum sealing packaging device for electric wires and cables according to claim 3, characterized in that said lifting cylinder (51) is an air cylinder and is connected in use by an air pipe to an air source device which is an air compressor or an air pump and is electrically controlled to be connected to said electric controller (84).

8. The plastic particle vacuum sealing packaging device for electric wires and cables according to claim 3, wherein the vacuum pumping mechanism (6) comprises an exhaust pipe cantilever (61), an exhaust pipe fixing and adjusting seat fixing plate (62), an exhaust pipe fixing and adjusting seat (63) and a packaging bag exhaust pipe (64), the rear end of the exhaust pipe cantilever (61) is fixed with the lifting cylinder column connecting seat (53) through a connecting seat connecting screw (612), an exhaust pipe limiting sleeve (611) is fixed at the rear end part of the exhaust pipe cantilever (61), a bending part (621) is formed at the upper part of the exhaust pipe fixing and adjusting seat fixing plate (62), the bending part (621) is fixed with the front end of the exhaust pipe cantilever (61) through a bending part fixing screw (6211), the exhaust pipe fixing and adjusting seat (63) is fixed with the front side of the lower part of the exhaust pipe fixing and adjusting seat fixing plate (62), the packaging bag pipe (64) is arranged on the exhaust pipe fixing and adjusting seat (63) in an up-down adjusting manner, one end of an exhaust pipe (641) is connected at the top of the exhaust pipe (64), the other end of the exhaust pipe (641) is connected with the bottom part of the packaging bag (12) through the negative pressure generating part of the connecting pipe (641), the lower end of the packaging bag exhaust pipe (64) corresponds to the space between the static type bag opening electric heater (23) and the movable type bag opening electric heater (33), and an exhaust pipe cantilever abdication cavity (85) is arranged on the hood (8) and at the position corresponding to the exhaust pipe cantilever (61).

9. The plastic particle vacuum sealing packaging device for electric wires and cables according to claim 8, characterized in that an exhaust pipe connecting pipe guide hole (112) is formed in the chassis platform (11), and the exhaust pipe (641) is connected with the negative pressure generating mechanism (7) arranged at the bottom of the chassis cavity (12) through the exhaust pipe connecting pipe guide hole (112).

10. The plastic particle vacuum sealing and packaging device for electric wires and cables according to claim 9, wherein the negative pressure generating mechanism (7) comprises a vacuum pump motor (71) and a vacuum pump (72), the vacuum pump motor (71) is matched with the vacuum pump (72), the vacuum pump motor (71) is electrically controlled and connected with the electric controller (84), the vacuum pump (72) and the vacuum pump motor (71) are arranged on a vacuum pump seat (721), the vacuum pump seat (721) is fixed at the bottom of the machine box cavity (12), and the air suction connecting pipe (641) is matched with a vacuum pump air suction port (722) of the vacuum pump (72).