CN205835750U - Guider for buffer air cushion machine - Google Patents

Abstract

This utility model discloses a kind of guider for buffer air cushion machine, lower wound membrane guide post is vertical with the front panel of buffer air cushion machine to be connected, upper wound membrane guide post is 2～15 degree with the angle of the vertical line of front panel, so go up wound membrane guide post and will form an oblique arrangement with lower wound membrane guide post, between upper wound membrane guide post and lower wound membrane guide post, the spacing near front panel is big, little near the spacing of lower wound membrane guide post free end, when air-cushion film is through when carrying out guiding conveying upper wound membrane guide post and lower wound membrane guide post, being obliquely installed of upper wound membrane guide post can make air-cushion film be sufficiently spread out, the tension force of release air-cushion film, prevent air-cushion film generation fold, particularly with the air-cushion film that width ratio is bigger, guarantee follow-up carry out heat-sealing cooling time, the hot-seal of air-cushion film is smooth, guarantee to seal effect.

Description

Guider for buffer air cushion machine

Technical field

This utility model relates to a kind of guider, particularly to a kind of guider for buffer air cushion machine.

Background technology

At present, manufacturing buffering pneumatic cushion industry, air-cushion film carries out conveying by the guide post of buffer air cushion machine and guides, air-cushion film In course of conveying, owing to the guide post of buffer air cushion machine is parallel arrangement, when guide post carries out guiding conveying to air-cushion film, The tension force of air-cushion film cannot be released, and air-cushion film can occur fold, especially to wider air-cushion film, follow-up carry out sealing cold But, time, the hot-seal out-of-flatness of air-cushion film, impact heat-sealing effect can be caused, produce heat-sealing defective products.

Utility model content

The purpose of this utility model is to provide a kind of guider for buffer air cushion machine, asks solving above-mentioned technology Topic.

According to an aspect of the present utility model, it is provided that a kind of guider for buffer air cushion machine, including upper volume Film guide post and lower wound membrane guide post, lower wound membrane guide post is located on the front panel of buffer air cushion machine, before buffer air cushion machine Panel vertically connects, and upper wound membrane guide post is located on the front panel of buffer air cushion machine, is 2～15 with the angle of the vertical line of front panel Degree.

In this utility model, lower wound membrane guide post is vertical with the front panel of buffer air cushion machine to be connected, upper wound membrane guide post with The angle of the vertical line of front panel is 2～15 degree, so go up wound membrane guide post and lower wound membrane guide post will be formed one oblique Arrangement, between upper wound membrane guide post and lower wound membrane guide post, the spacing near front panel is big, near lower wound membrane guide post free end Spacing little, when air-cushion film through carry out upper wound membrane guide post and lower wound membrane guide post guide conveying time, upper wound membrane guide Being obliquely installed of bar can make air-cushion film be sufficiently spread out, the tension force of release air-cushion film, prevents air-cushion film generation fold, particularly with The air-cushion film that width ratio is bigger, it is ensured that follow-up carry out heat-sealing cooling time, the hot-seal of air-cushion film is smooth, it is ensured that heat-sealing effect.

In some embodiments, it is also possible to include that puck components, puck components are positioned at the top of wound membrane guide post, use In being pressed on upper wound membrane guide post.Thus, when air-cushion film is inflated by buffer air cushion machine, puck components can be pressed in volume On film guide post, now air-cushion film is pressed in centre together with upper wound membrane guide post by puck components, has both been possible to prevent air-cushion film quilt Outwards pullling, the air blowing guide post being buffered air cushioning machine is poked, and is the most just blocked up by the filling channel of connection between two air-cushion films Live, make inflation area form a hyperbar region closed, it is ensured that the pressure of inflation area, gas can be avoided forward simultaneously Run, cause the most inflated air-cushion film to be heaved too early, be stuck on wound membrane guide post and lower wound membrane guide post, it is impossible to multiple Air-cushion film continuous charge, affects charging efficiency.

In some embodiments, puck components can include pinch roller and wheel pressing shaft, and pinch roller is set on wheel pressing shaft, around Wheel pressing shaft rotates, and pinch roller is positioned at the top of wound membrane guide post, pinch roller and upper wound membrane guide post parallel arrangement, and wheel pressing shaft is located at slow Rush on the front panel of air cushioning machine, and move up and down, it is achieved the laminating of pinch roller and upper wound membrane guide post or separate.Thus, buffering is worked as When air-cushion film is inflated by air cushioning machine, pinch roller can be pressed on wound membrane guide post, now pinch roller and upper wound membrane guide post one Rising and air-cushion film is pressed in centre, be both possible to prevent air-cushion film to be pulled outwardly and pulled, the air blowing guide post being buffered air cushioning machine is poked, again Just the filling channel of connection between two air-cushion films is blocked, make inflation area form a hyperbar region closed, protect The pressure of card inflation area, can avoid gas to run forward simultaneously, cause the most inflated air-cushion film to be heaved too early, be stuck in On wound membrane guide post and lower wound membrane guide post, it is impossible to multiple air-cushion film continuous charges, affect charging efficiency；On pinch roller is pressed in Time on wound membrane guide post, owing to pinch roller can rotate around wheel pressing shaft, so not interfering with the conveying of air-cushion film, when pinch roller is with upper When wound membrane guide post separates, air-cushion film can be taken out.

In some embodiments, puck components can also include swing arm and balance staff, and one end of balance staff is located at buffering pneumatic cushion On the front panel of machine, being rotationally connected with buffer air cushion machine, one end of swing arm is located on the other end of balance staff, Tong Bu with balance staff turn Dynamic, wheel pressing shaft is located on the other end of swing arm, with swing arm synchronous axial system.Thus, when balance staff rotates, balance staff can drive swing arm Swinging, swing arm can drive wheel pressing shaft to swing, and wheel pressing shaft swings and pinch roller can be driven to swing up and down, such that it is able to make pinch roller be pressed in On upper wound membrane guide post (during inflation), and separate (during on-inflatable) with upper wound membrane guide post.

In some embodiments, puck components can also include rocking arm, spring and pedestal, and one end of balance staff passes pedestal And be located on rocking arm, balance staff is rotationally connected with pedestal, and pedestal is provided with stopper slot, and rocking arm is positioned in stopper slot, one end of spring Being located on pedestal, the other end is located on rocking arm, and spring is in extended state, and pedestal is located in buffer air cushion machine.Thus, due to bullet Spring is in extended state, and spring can hold rocking arm under the effect of restoring force, makes the relevant position that rocking arm is fixed in stopper slot, So that balance staff also rotates to relevant position, and then pinch roller is made to be pressed on wound membrane guide post (during inflation), along spring restoring force Opposite direction pull rocking arm, balance staff can be rotated, make pinch roller separate (during on-inflatable) with upper wound membrane guide post, and rocking arm be by Spring restoring force is fixed, when air-cushion film is crushed between pinch roller and upper wound membrane guide post, along with the conveying of air-cushion film, pinch roller Also bob can slightly be carried out, it is ensured that the conveying of air-cushion film.

In some embodiments, one end of wheel pressing shaft is located in the chute on buffer air cushion machine front panel, and at chute In move up and down, it is achieved the laminating of pinch roller and upper wound membrane guide post or separate.Thus, wheel pressing shaft is on buffer air cushion machine front panel Chute in when moving up and down, it is possible to achieve pinch roller is pressed on wound membrane guide post (during inflation), and with upper wound membrane guide post Separate (during on-inflatable).

In some embodiments, upper wound membrane guide post is 7 degree with the angle of the vertical line of buffer air cushion machine front panel.By This, angle is that being obliquely installed of the upper wound membrane guide post of 7 degree can make air-cushion film be sufficiently spread out, the tension force of release air-cushion film, anti- Only air-cushion film generation fold.

Accompanying drawing explanation

Fig. 1 is the structural representation of the guider for buffer air cushion machine of a kind of embodiment of this utility model；

Fig. 2 is the side-looking structural representation of the guider for buffer air cushion machine shown in Fig. 1；

Fig. 3 is the side-looking structural representation of the guider for buffer air cushion machine shown in Fig. 1；

Fig. 4 is the structural representation of puck components in the guider for buffer air cushion machine shown in Fig. 1；

Fig. 5 is the side-looking structural representation of the puck components shown in Fig. 4；

Fig. 6 is the use state diagram of the guider for buffer air cushion machine shown in Fig. 1.

Detailed description of the invention

Below in conjunction with the accompanying drawings this utility model is described in more detail.

Fig. 1 to Fig. 5 show schematically show the guiding for buffer air cushion machine of a kind of embodiment of this utility model and fills The structure put.

As shown in Figures 1 to 5, for the guider of buffer air cushion machine, guide including upper wound membrane guide post 1 and lower wound membrane Air-cushion film can be played guiding conveying effect by bar 2, upper wound membrane guide post 1 and lower wound membrane guide post 2.Additionally, for buffering pneumatic cushion The guider of machine can also include puck components.

Shown in as shown in Figure 1, Figure 2 with 3, lower wound membrane guide post 2 is arranged on the front panel of buffer air cushion machine 4, with buffering pneumatic cushion The front panel of machine 4 vertically connects, and upper wound membrane guide post 1 is arranged on the front panel of buffer air cushion machine 4, with the vertical line of front panel Angle α is 2～15 degree (shown in Fig. 2).Upper wound membrane guide post 1 forms an oblique arrangement (such as Fig. 3 with lower wound membrane guide post 2 Shown in), between upper wound membrane guide post 1 and lower wound membrane guide post 2, the spacing near front panel is big, near lower wound membrane guide post 2 certainly Little by the spacing held, when air-cushion film through carry out upper wound membrane guide post 1 and lower wound membrane guide post 2 guide conveying time, upper volume Being obliquely installed of film guide post 1 can make air-cushion film be sufficiently spread out, the tension force of release air-cushion film, prevents air-cushion film generation fold, Particularly with the air-cushion film that width ratio is bigger, it is ensured that follow-up carry out heat-sealing cooling time, the hot-seal of air-cushion film is smooth, it is ensured that heat-sealing Effect.

In the present embodiment, upper wound membrane guide post 1 is 7 degree with the angle α of the vertical line of the front panel of buffer air cushion machine 4.At it In his embodiment, according to width and the pattern of air-cushion film, angle α can be arranged to other number of degrees in 2～15 degree.

As shown in Figure 4 and Figure 5, puck components includes pinch roller 31, wheel pressing shaft 32, swing arm 33, balance staff 34, rocking arm 35, spring 36 and pedestal 37.

In the present embodiment, pedestal 37 is arranged on the front panel of buffer air cushion machine 4, is positioned at the inside of buffer air cushion machine 4.? In other embodiments, pedestal 37 can also be arranged on other positions of buffer air cushion machine 4.

As shown in Figure 4, pinch roller 31 is enclosed within wheel pressing shaft 32, rotates around wheel pressing shaft 32, and pinch roller 31 is positioned at wound membrane and guides The top (as shown in Figure 1) of bar 1；As it is shown in figure 1, one end of balance staff 34 (inner end) is through the front panel of buffer air cushion machine 4, and wear Crossing pedestal 37 to be fixed on rocking arm 35 (as shown in Figure 5), balance staff 34 is rotationally connected with pedestal 37, as shown in Figure 4, and a left side for swing arm 33 End is arranged on (outer end) on the other end of balance staff 34, and with balance staff 34 synchronous axial system, wheel pressing shaft 32 is arranged on the right-hand member of swing arm 33, With swing arm 33 synchronous axial system.

As it is shown in figure 5, form stopper slot 371 on pedestal 37, stopper slot 371 include connection upper limit position groove 3711 and under Stopper slot 3712, rocking arm 35 is positioned in stopper slot 371, and the lower end of spring 36 is arranged on pedestal 37, and upper end is arranged on rocking arm 35 On, spring 36 is in extended state all the time.As it is shown in figure 5, owing to spring 36 is in extended state, spring 36 is at the work of restoring force Drawing rocking arm 35 with lower meeting lower section to the left, make the upper bit of rocking arm 35 be resisted against on upper limit position groove 3711, now balance staff 34 also rotates To relevant position, balance staff 34 drives swing arm 33 to swing, and swing arm 33 drives wheel pressing shaft 32 to swing, and wheel pressing shaft 32 drives pinch roller 31 also same Step swings, and now pinch roller 31 is just pressed on wound membrane guide post 1 (during inflation), and owing to rocking arm 35 is extensive by spring 36 Multiple power is fixed, when air-cushion film is crushed between pinch roller 31 and upper wound membrane guide post 1, along with the conveying of air-cushion film, pinch roller 31 Also bob can slightly be carried out, it is ensured that the conveying of air-cushion film；Opposite direction along the restoring force of spring 36 pulls rocking arm 35 (lower limit The scope pulling rocking arm 35 can be defined by position groove 3712), balance staff 34, swing arm 33, wheel pressing shaft 32 rotate together, so that Pinch roller 31 separates (during on-inflatable) with upper wound membrane guide post 1.In air-cushion film is pressed in together with upper wound membrane guide post 1 by pinch roller 31 Between time, be both possible to prevent air-cushion film to be pulled outwardly and pulled, the air blowing guide post being buffered air cushioning machine 4 is poked, the most just by two gas Between pad film, the filling channel of connection is blocked, and makes inflation area form a hyperbar region closed, it is ensured that inflation area Pressure, can avoid gas to run forward simultaneously, cause the most inflated air-cushion film to be heaved too early, be stuck in wound membrane guide post 1 With on lower wound membrane guide post 2, it is impossible to multiple air-cushion film continuous charges, affect charging efficiency, lead when pinch roller 31 is pressed in upper wound membrane Time on bar 1, owing to pinch roller 31 can rotate around wheel pressing shaft 32, so not interfering with the conveying of air-cushion film, when pinch roller 31 with When upper wound membrane guide post 1 separates, air-cushion film can be taken out.

In the present embodiment, pinch roller 31 swings up and down, it is achieved the contact of pinch roller 31 and upper wound membrane guide post 1 with separate, be logical The opposite direction of the restoring force effect and rocking arm 35 of crossing spring 36 moves realization.In other embodiments, it is also possible in buffering Arranging chute on the front panel of air cushioning machine 4, one end of wheel pressing shaft 32 is arranged in chute, by linear electric motors driving pressure wheel shaft 32 Chute moves up and down, such that it is able to realize moving up and down of pinch roller 31, and then realizes pinch roller 31 and upper wound membrane guide post 1 Contact and separate.In other embodiments, it is achieved moving up and down of pinch roller 31 can also be arranged to other structures, as long as guaranteeing pressure Wheel 31 can be pressed on wound membrane guide post 1, and air-cushion film can be crushed between pinch roller 31 and upper wound membrane guide post 1, and pressure Wheel 31 can separate with upper wound membrane guide post 1.

Fig. 6 show schematically show the use state of the guider for buffer air cushion machine shown in Fig. 1.

As shown in Figure 6, multiple continuous print being treated, inflated cushion film 5 is arranged on upper wound membrane guide post 1 and lower wound membrane guides Between bar 2, the inflation guide post 41 of buffer air cushion machine 4 is interspersed in the filling channel of air-cushion film 5.

As shown in Figure 6, when air-cushion film 5 is inflated by the inflation guide post 41 of buffer air cushion machine 4, due to spring 36 Effect, pinch roller 31 is pressed on wound membrane guide post 1, during now air-cushion film 5 is pressed in together with upper wound membrane guide post 1 by pinch roller 31 Between, both it being possible to prevent air-cushion film 5 to be pulled outwardly and pulled, the air blowing guide post 41 being buffered air cushioning machine 4 is poked, again can be by two gas Between pad film 5, the filling channel of connection is blocked, and makes inflation area form a hyperbar region closed, it is ensured that inflation area Pressure, can avoid gas to turn left race simultaneously, cause the most inflated air-cushion film 5 to be heaved too early, be stuck in wound membrane guide post 1 With on lower wound membrane guide post 2, it is impossible to the continuous charge of multiple air-cushion film 5, affect charging efficiency；And when pinch roller 31 is pressed in volume Time on film guide post 1, owing to pinch roller 31 can rotate around wheel pressing shaft 32, so not interfering with the conveying of air-cushion film 5, owing to shaking Arm 35 is fixing by the restoring force of spring 36, when air-cushion film 5 is crushed between pinch roller 31 and upper wound membrane guide post 1, along with The conveying of air-cushion film 5, pinch roller 31 also can slightly carry out bob, it is ensured that the conveying of air-cushion film 5；When needing to take out air-cushion film 5, Being lifted by pinch roller 31, pinch roller 31 realizes separating with upper wound membrane guide post 1, i.e. can be taken off air-cushion film 5.

Above-described is only embodiments more of the present utility model.For the person of ordinary skill of the art, On the premise of creating design without departing from this utility model, it is also possible to making some deformation and improvement, these broadly fall into this practicality Novel protection domain.

Claims (7)

1. for the guider of buffer air cushion machine, it is characterised in that include wound membrane guide post (1) and lower wound membrane guide post (2), described lower wound membrane guide post (2) is located on the front panel of buffer air cushion machine, vertical with the front panel of buffer air cushion machine is connected, Described upper wound membrane guide post (1) is located on the front panel of buffer air cushion machine, is 2～15 degree with the angle of the vertical line of front panel.

Guider for buffer air cushion machine the most according to claim 1, it is characterised in that also include puck components, Described puck components is positioned at the top of wound membrane guide post (1), is used for being pressed in wound membrane guide post (1).

Guider for buffer air cushion machine the most according to claim 2, it is characterised in that described puck components includes Pinch roller (31) and wheel pressing shaft (32), described pinch roller (31) is set on wheel pressing shaft (32), rotates around wheel pressing shaft (32), described pressure Wheel (31) is positioned at the top of wound membrane guide post (1), pinch roller (31) and upper wound membrane guide post (1) parallel arrangement, described wheel pressing shaft (32) be located on the front panel of buffer air cushion machine, and move up and down, it is achieved the laminating of pinch roller (31) and upper wound membrane guide post (1) or Separate.

Guider for buffer air cushion machine the most according to claim 3, it is characterised in that described puck components is also wrapped Including swing arm (33) and balance staff (34), one end of described balance staff (34) is located on the front panel of buffer air cushion machine, with buffer air cushion machine Being rotationally connected, one end of described swing arm (33) is located on the other end of balance staff (34), with balance staff (34) synchronous axial system, described pinch roller Axle (32) is located on the other end of swing arm (33), with swing arm (33) synchronous axial system.

Guider for buffer air cushion machine the most according to claim 4, it is characterised in that described puck components is also wrapped Including rocking arm (35), spring (36) and pedestal (37), one end of described balance staff (34) is through pedestal (37) and is located on rocking arm (35), Described balance staff (34) is rotationally connected with pedestal (37), and described pedestal (37) is provided with stopper slot (371), and described rocking arm (35) is positioned at In stopper slot (371), one end of described spring (36) is located on pedestal (37), and the other end is located on rocking arm (35), spring (36) Being in extended state, described pedestal (37) is located in buffer air cushion machine.

Guider for buffer air cushion machine the most according to claim 3, it is characterised in that described wheel pressing shaft (32) One end is located in the chute on buffer air cushion machine front panel, and moves up and down in chute, it is achieved pinch roller (31) is led with upper wound membrane To laminating or the separation of bar (1).

7., according to the guider for buffer air cushion machine described in claim any one of claim 1～6, its feature exists In, described upper wound membrane guide post (1) is 7 degree with the angle of the vertical line of buffer air cushion machine front panel.