CN211394286U - Pipe storage mechanism of automatic pipe feeding machine of bottle making machine - Google Patents

Abstract

The utility model discloses a bottle-making machine automatic feeding machine's storage tube mechanism, bottle-making machine automatic feeding machine's storage tube mechanism wherein, including frame, storage tube subassembly, fortune pipe subassembly and lifting subassembly, the material pipe transport position of fortune pipe subassembly is corresponding with the material pipe storage position of storage tube subassembly. The utility model discloses can guarantee material pipe quality, reduce the material pipe damaged, improve the production efficiency of enterprise. The utility model is suitable for a use on the automatic pipe feeder of bottle-making machine for the automatic material pipe that stores of transfer mechanism for the automatic pipe feeder of bottle-making machine.

Description

Pipe storage mechanism of automatic pipe feeding machine of bottle making machine

Technical Field

The utility model belongs to the technical field of the bottle-making machine, specifically speaking is a storage tube mechanism of automatic pipe machine of going up of bottle-making machine.

Background

At present, the utility model patent with the grant publication number CN204174080U is adopted to the pipe storage device and the pipe storage mode of the automatic pipe feeding machine for the bottle making machine, this patent adopts to make the extrusion force to the material pipe delivery outlet direction of producing between the material pipe with the material pipe scattered in the storage pipe frame, utilizes the inclination that the balance adjustment ware adjustment storage pipe frame corresponds the material pipe delivery outlet to the material pipe that makes the range in the storage pipe frame rolls the delivery outlet of material pipe automatically. This approach has the following drawbacks:

firstly, the product quality of the glass product is influenced. In the prior art, under the action of the weight of the material pipes, extrusion force towards the direction of the output port of the material pipes is generated among the material pipes, and the extrusion force generated among the material pipes is larger, particularly when the number of the material pipes is larger, so that friction can be generated among the material pipes, particularly between the material pipes and a pipe storage rack, and the surface of the material pipes can be easily scratched, and the quality of glass products is influenced.

And secondly, the production cost of enterprises is increased, and the production efficiency of the enterprises is reduced. When the prior art installs the material pipe additional on the storage pipe frame, need get rid of plastic packaging with whole bundle of material pipe and scatter on the storage pipe frame, at the in-process that the material pipe scatters, not only make the material pipe scatter outside storage pipe frame easily, drop and bump garrulous, damage subaerial, can produce collision each other between the material pipe moreover, also make the material pipe breakage easily, cause the waste of material pipe, increase enterprise manufacturing cost. And for damaged and broken material pipes, operators are easily scratched in the manual removing process, and potential safety hazards exist. More importantly, in the process of removing the damaged material pipe, the machine needs to be stopped, the continuous work of the automatic pipe feeding machine and even the bottle making machine can be seriously influenced, and the production efficiency of enterprises is reduced.

SUMMERY OF THE UTILITY MODEL

For solving exist among the prior art more than not enough, the utility model aims at providing a bottle-making machine automatic feeding machine's storage tube mechanism to reach the purpose of guaranteeing material pipe quality, reducing the material pipe damage, improving enterprise production efficiency.

In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides a bottle-making machine automatic feeding machine's storage tube mechanism, which comprises a frame, the assembly is used for storing the storage tube subassembly of material pipe in the frame, the assembly is corresponding with the storage tube subassembly in the frame and is used for transporting the fortune pipe subassembly of material pipe and correspond the lifting subassembly that is used for supporting the material pipe in storage tube subassembly below, the material pipe delivery outlet of storage tube subassembly is corresponding with the material pipe input port of bottle-making machine automatic feeding machine, the material pipe transport position of fortune pipe subassembly is corresponding with the material pipe storage position of storage tube subassembly.

As the utility model discloses a injecing, the pillar subassembly is including assembling fixed pillar locating part and the activity pillar locating part that is used for the card to put the material pipe in the frame, and fixed pillar locating part and activity pillar locating part constitute material pipe storage space with lifting subassembly combination, and activity pillar locating part has the card position of putting the material pipe of card and breaks away from the position of removing to material pipe card position, and activity pillar locating part links to each other by the card position motion to the movable pillar driving piece of removing the position with drive activity pillar locating part.

As the utility model discloses a further inject, fortune pipe subassembly includes the fortune pipe sheet that links to each other with the removal subassembly, the assembly is used for the card to put fixed fortune pipe locating part and the activity fortune pipe locating part of material pipe on fortune pipe sheet, fortune pipe sheet constitutes the material pipe with fixed fortune pipe locating part and the combination of activity fortune pipe locating part and places the space, activity fortune pipe locating part has the card and puts the card position of material pipe and break away from the position of removing to material pipe card, activity fortune pipe locating part links to each other by the card pipe position motion to the movable fortune pipe driving piece of removing the position with drive activity fortune pipe locating part.

As the utility model discloses a still further inject, set up the opening that makes lifting subassembly and activity storage tube locating part pass when removing to reset on the fortune tube sheet, fixed fortune pipe locating part and activity fortune pipe locating part are located the projection interval that fortune pipe subassembly removed the axis on and equal to fixed storage tube locating part and activity storage tube locating part are located fortune pipe subassembly removal axis, the distance of fixed storage tube locating part to fortune pipe subassembly removal axis is greater than or less than the distance of activity fortune pipe locating part to fortune pipe subassembly removal axis, and the distance of activity storage tube locating part to fortune pipe subassembly removal axis is greater than or is less than the distance of fixed fortune pipe locating part to fortune pipe subassembly removal axis.

As another limitation of the present invention, the lifting assembly includes a tube supporting plate, a first moving member, a second moving member and a fixing member, which are hinged to form a parallelogram, wherein the tube supporting plate is fixedly connected with a clamping block for clamping in the gap of the material tube, and the fixing member arranged in parallel with the tube supporting plate is arranged below the tube supporting plate and fixedly connected to the frame; the second moving part is hinged to one end of the connecting piece in the length direction, and the other end of the connecting piece in the length direction is hinged to the output end of the telescopic device which stretches along the axis direction of the material pipe.

As a further limitation of the present invention, the movable storage tube driving member includes a rotating shaft connected to the movable storage tube limiting member, a first driving member connected between the rotating shafts in a driving manner, and a first driver for driving the rotating shaft to rotate;

the movable conveying pipe driving part comprises a second driver for driving the movable conveying pipe limiting part to rotate;

the moving assembly comprises a second transmission piece connected with the tube conveying plate, a third driver driving the second transmission piece and a sliding rail connected with the tube conveying plate in a sliding mode.

Since the technical scheme is adopted, compared with the prior art, the utility model, the beneficial effect who gains is:

the utility model discloses a work cooperation of storage tube subassembly, fortune pipe subassembly and lifting subassembly can realize the automatic storage tube to the automatic pipe feeding machine of bottle-making machine. The material pipes stacked orderly are accurately conveyed to the material pipe input positions of the storage pipe assembly and the lifting assembly through the pipe conveying assembly, so that the material pipes on the pipe conveying assembly are transferred to the storage pipe assembly and the lifting assembly. The pipe storage device and the pipe storage method not only realize ordered conveying and accurate positioning of the material pipes, but also can continuously and accurately transfer the material pipes on the pipe storage assembly to the pipe storage assembly, so that the transfer mechanism of the automatic pipe feeding machine of the bottle making machine can conveniently take the pipes in order, and continuous work of the automatic pipe feeding machine of the bottle making machine is realized. The pipe storage device and the pipe storage method not only ensure the ordered and orderly arrangement of the material pipes, but also effectively prevent the material pipes from being damaged and the surfaces of the material pipes from being scratched, and greatly improve the production efficiency and the product quality. The utility model discloses can be applicable to the material pipe of the different specifications of deposit, can satisfy the production demand of bottle-making machine to different specification glassware.

The utility model is suitable for a use on the automatic pipe feeding machine of bottle-making machine, for the transfer mechanism storage material pipe of the automatic pipe feeding machine of bottle-making machine.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a pipe conveying assembly in an initial state according to embodiment 1 of the present invention;

fig. 2 is a top view of the tube transport assembly of embodiment 1 of the present invention in an initial position;

fig. 3 is a schematic structural view illustrating a material tube transferring position of the tube transporting assembly and a material tube storing position of the tube storing assembly according to embodiment 1 of the present invention;

fig. 4 is a top view of the tube transfer position of the tube conveying assembly of embodiment 1 of the present invention corresponding to the tube storage position of the tube storage assembly;

fig. 5 is a schematic structural view of the movable tube stopper according to embodiment 1 of the present invention at a release position;

fig. 6 is a schematic structural view of a lifting assembly according to embodiment 1 of the present invention;

fig. 7 is a schematic structural view of the pipe bundle of the storage pipe assembly and the pipe conveying assembly of embodiment 1 of the present invention when the storage pipe assembly and the pipe conveying assembly are clamped.

In the figure: 1. a frame; 2. a tube supporting plate; 3. fixing a storage tube limiting part; 4. a movable storage tube limiting part; 5. a tube conveying plate; 6. fixing a pipe conveying limiting part; 7. a movable pipe-conveying limiting part; 8. a clamping block; 9. a rotating shaft; 10. a second driver; 11. a fixing member; 12. a first movable member; 13. a second movable member; 14. a connecting member; 15. a retractor; 16. a second transmission member; 17. a slide rail; 18. a first transmission member.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It is to be understood that the preferred embodiments described herein are for purposes of illustration and understanding only and are not intended to limit the invention.

Embodiment 1 pipe storage mechanism of automatic pipe feeding machine of bottle making machine

As shown in fig. 1 to 7, the device comprises a frame 1, a storage tube assembly mounted on the frame 1 for storing tubes, a tube transporting assembly mounted on the frame 1 corresponding to the storage tube assembly for transporting tubes, and a lifting assembly mounted below the storage tube assembly for supporting tubes. The material pipe output port of the storage pipe assembly corresponds to the material pipe input port of the automatic pipe feeding machine of the bottle making machine, and the material pipe transferring position of the conveying pipe assembly corresponds to the material pipe storage position of the storage pipe assembly.

First, storage tube assembly

The storage tube assembly comprises a fixed storage tube limiting part 3 and a movable storage tube limiting part 4 which are assembled on the machine frame 1 and used for clamping the storage tube, and the fixed storage tube limiting part 3, the movable storage tube limiting part 4 and the lifting assembly are combined to form a storage space of the storage tube. In this embodiment, the fixed storage tube limiting part 3 is fixedly connected to the front side of the frame 1, the movable storage tube limiting part is arranged at the rear side of the fixed storage tube limiting part, and the lifting assembly is arranged between the fixed storage tube limiting part 3 and the movable storage tube limiting part 4.

(1) Fixed storage tube locating part 3

The fixed storage tube limiting part 3 is used for limiting the rolling of the material tube, the fixed storage tube limiting part 3 is arranged at the material tube input port close to the material tube transfer mechanism of the automatic tube feeding machine of the bottle making machine, the fixed storage tube limiting part 3 is in a square column shape, and extends to the upper side of the material tube bundle to be in contact with the material tube for clamping the material tube bundle. The fixed storage tube locating part 3 extends in the vertical direction perpendicular to the horizontal plane. Corresponding fixed storage tube limiting parts 3 are arranged on the machine frame 1 corresponding to the length positions of the material tubes according to the actual length of the material tubes, in the embodiment, one fixed storage tube limiting part 3 is respectively arranged at two ends of the material tubes in the length direction, two fixed storage tube limiting parts 3 are arranged, and the central connecting line of the two fixed storage tube limiting parts 3 is parallel to the axis of the material tubes.

(2) Movable storage tube limiting part 4

The movable pipe storage limiting part 4 is provided with a pipe clamping position for clamping the material pipe and a releasing position for releasing the clamping of the material pipe. When the movable pipe-storing limiting part 4 is located at the pipe-clamping position, the movable pipe-storing limiting part 4 extends upward of the material pipe to be in contact with the material pipe to clamp the material pipe, and in this embodiment, the movable pipe-storing limiting part 4 extends in the vertical direction when located at the pipe-clamping position. When the movable storage tube limiting part 4 is located at the release position, the movable storage tube limiting part 4 is arranged below the tube conveying plate 5, so that the tube conveying plate 5 can move to a material tube transferring position. In this embodiment, the movable storage tube position-limiting member 4 extends in the horizontal direction when in the release position, and is disposed below the tube conveying plate 5. During use, the corresponding movable storage tube limiting parts 4 can be arranged on the rack 1 corresponding to the length position of the material tube according to the actual length of the material tube, in this embodiment, two movable storage tube limiting parts 4 are respectively arranged at two ends of the material tube in the length direction, two movable storage tube limiting parts 4 are arranged, and the central connecting line of the two movable storage tube limiting parts 4 is parallel to the axis of the material tube.

The movable storage tube limiting part 4 is in a square column shape and is hinged to the rack 1 through a pin shaft, the movable storage tube limiting part 4 rotates to the position, below the plane of the material conveying tube 5, where the material conveying tube is used for supporting the material, when the movable storage tube limiting part 4 is in a tube clamping position, and the movable storage tube limiting part 4 rotates to a vertically upward extending state. The movable storage tube limiting part 4 can be directly driven by the movable storage tube driving part to rotate the pin shaft to drive the movable storage tube limiting part 4 to change from a tube clamping position to a releasing position, and the movable storage tube driving part can be a rotary cylinder or a motor. In this embodiment, the movable storage tube driving member includes a rotating shaft connected to the movable storage tube limiting member 4, a first driving member connected between the rotating shafts 9 in a driving manner, and a first driver for driving the rotating shafts 9 to rotate. The first driver adopts a motor, so that the motor drives one of the rotating shafts 9 to rotate, and the other rotating shafts 9 are driven to rotate through the first transmission piece 18, so that each movable storage tube limiting piece 4 rotates. The first transmission member 18 is a toothed transmission member or a chain transmission member, and when the chain transmission member is adopted, the chain is engaged with the driving sprocket and the driven sprocket in an S shape, and two ends of the S shape are respectively and fixedly connected with the driving sprocket and the driven sprocket so as to enable the rotation directions of the two rotation shafts 9 to be opposite.

Of course, the movable pipe storage limiting part 4 may also be an electric telescopic rod fixedly connected to the frame 1 and capable of extending and retracting along the vertical direction, the electric telescopic rod retracts below the pipe conveying plate 5 when in the release position, and the electric telescopic rod extends above the material pipe when in the pipe clamping position.

Second, lifting assembly

The lifting assembly has two functions, and when the pipe conveying assembly moves to the material pipe transferring position, the lifting assembly is arranged below the pipe conveying plate 5, so that the pipe conveying plate 5 can move to the material pipe transferring position through the moving assembly. Secondly, after the material pipe moved to the material pipe transfer position, the lifting subassembly can have the support to the material pipe. The lifting assembly comprises a supporting plate 2, a first movable piece 12, a second movable piece 13 and a fixed piece 11 which are hinged and connected into a parallelogram. The lift assembly also includes a connector 14.

The tube supporting plate 2 is rectangular plate-shaped, a clamping block 8 is fixedly connected to the upper surface of the tube supporting plate 2, and the clamping block 8 is in a trapezoid block shape and is used for being clamped in the gap between the adjacent material tubes to limit the rolling of the material tubes. A supporting plate driving component is fixedly connected below the supporting plate 2.

The first movable member 12, the second movable member 13 and the fixed member 11 are all rectangular plate-shaped, the fixed member 11 arranged in parallel with the tube supporting plate 2 is arranged below the tube supporting plate 2 and is fixedly connected to the frame 1, and the first movable member 12 and the second movable member 13 are arranged in parallel. One end of the connecting piece 14 in the length direction is hinged with the second movable piece 13, and the other end is hinged with the output end of the expansion piece 15. The expansion piece 15 can be a linear cylinder or an electric expansion rod which can move linearly along the axis direction of the material pipe.

Pipe conveying assembly

The pipe conveying assembly comprises a pipe conveying plate connected with the moving assembly, a fixed pipe conveying limiting part 6 and a movable pipe conveying limiting part 7, wherein the fixed pipe conveying limiting part 6 and the movable pipe conveying limiting part 7 are assembled on the pipe conveying plate 5 and used for clamping a material pipe. The pipe conveying plate 5, the fixed pipe conveying limiting part 6 and the movable pipe conveying limiting part 7 are combined to form a material pipe placing space.

(1) Conveying pipe plate 5

The tube conveying plate 5 is in a horizontal plate shape, and a material tube can be placed on the tube conveying plate 5 and can be supported. In order to enable the pipe conveying plate 5 to move to the material pipe transferring position from the initial displacement, namely the pipe conveying plate 5 can move to the position above the pipe supporting plate 2 and the pipe conveying plate 5 can move away from the material pipe transferring position after the material pipe is supported and lifted by the pipe supporting plate 2, an opening through which the lifting assembly and the movable storage pipe limiting part can pass when the pipe conveying plate 5 moves and resets is formed in the pipe conveying plate 5, the pipe conveying plate 5 is formed by two separated plates arranged at intervals or an opening (namely a 'shape structure') through which the pipe supporting plate 2 can pass is formed in the front side of the pipe conveying plate 5, and the plane, used for supporting the material pipe, of the pipe supporting plate 2 can rise to be coplanar with the plane, used for. In this embodiment, the tube conveying plate 5 is two sub-plates which are arranged outside the tube storage assembly. Each sub-plate is provided with a fixed pipe-transporting limiting part 6 and a movable pipe-transporting limiting part 7.

The transfer plate 5 is moved linearly in a horizontal plane perpendicular to the axis of the pipe by means of a moving assembly. The moving assembly comprises a second transmission piece 16 connected with the tube conveying plate 5, a third driver for driving the second transmission piece 16 and a sliding rail connected with the tube conveying plate 5 in a sliding mode. The second transmission 16 may be a belt drive, chain drive, gear drive. The second transmission 16 is driven by a third drive. In the embodiment, the pipe conveying plate 5 is driven by a motor to move linearly. In order to ensure that the tube conveying plate 5 moves linearly, the bottom surface of the tube conveying plate 5 is fixedly connected with a sliding block, and the sliding block is connected to the linear sliding rail 17 in a sliding manner, so that the tube conveying plate 5 slides linearly along the sliding rail 17.

(2) Fixed pipe-transporting limiting part 6

The fixed pipe conveying limiting part 6 is used for limiting the rolling of the material pipe. Fixed fortune pipe locating part 6 is fixed in the rear side of fortune pipe board 5, and when fortune pipe subassembly was arranged in initial position, fixed fortune pipe locating part 6 was arranged in keeping away from movable storage tube locating part 7 one side in relative activity fortune pipe locating part 7. The fixed pipe conveying limiting part 6 is in a square column shape and extends above the material pipe bundle to be in contact with the material pipe to clamp the material pipe bundle. The fixed pipe-transporting limiting part 6 extends in the vertical direction perpendicular to the horizontal plane. Corresponding fixed pipe conveying limiting parts 6 are arranged on the machine frame 1 corresponding to the length positions of the material pipes according to the actual length of the material pipes, in the embodiment, one fixed pipe conveying limiting part 6 is arranged at each of two ends of the material pipes in the length direction, two fixed pipe conveying limiting parts 6 are arranged, and the central connecting line of the two fixed pipe conveying limiting parts 6 is parallel to the axis of the material pipes.

(3) Movable pipe-transporting limiting part 7

The movable pipe conveying limiting part 7 is provided with a pipe clamping position for clamping the material pipe and a releasing position for releasing the clamping of the material pipe. The movable pipe conveying limiting piece 7 is fixed on the front side of the pipe conveying plate 5. When activity fortune pipe locating part 7 is in the card pipe position, activity fortune pipe locating part 7 extends to material pipe top to with the material pipe card put the material pipe, activity fortune pipe locating part 7 extends along vertical direction when being in the card pipe position in this embodiment. When the movable pipe conveying limiting piece 7 is located at the release position, the movable pipe conveying limiting piece 7 is arranged below the plane of the pipe conveying plate 5, and the pipe conveying plate 5 can move to the initial position. In this embodiment, the movable tube-transporting limiting member 7 extends in the horizontal direction when in the release position, and is disposed below the top plane of the tube-transporting plate 5. During the use, can correspond material pipe length position on frame 1 and set up corresponding activity fortune pipe locating part 7 according to actual material pipe length, respectively set up a activity fortune pipe locating part 7 at the both ends of material pipe length direction in this embodiment, set up two activity fortune pipe locating parts 7 altogether, two activity fortune pipe locating parts 7's central line is parallel with the material pipe axis.

The movable pipe conveying limiting part 7 is in a square column shape and is hinged to the rack 1 through a pin shaft, the movable pipe conveying limiting part 7 rotates to the position, below the plane of the pipe conveying plate 5, where the pipe conveying plate is used for supporting the pipe when the pipe conveying position is released, and the movable pipe conveying limiting part 7 rotates to a vertically upward extending state when the pipe clamping position is located. The movable pipe conveying limiting part 7 can be directly driven by the movable pipe conveying driving part to directly drive the pin shaft to rotate so as to drive the movable pipe conveying limiting part 7 to change from a pipe clamping position to a removing position, and the movable pipe conveying driving part 7 can be a rotary cylinder or a motor. In this embodiment, the movable pipe driving member 7 includes a second driver 10 and a connecting rod, the second driver 10 is a linear cylinder, an output end of the linear cylinder is hinged to one end of the connecting rod, the other end of the connecting rod is hinged to the bottom end of the movable pipe limiting member 7, and the linear cylinder moves up and down and drives the movable pipe limiting member to rotate by 90 degrees through the connecting rod.

Of course, the movable pipe conveying limiting part 7 may also be an electric telescopic rod fixedly connected to the frame 1 and capable of extending and retracting along the vertical direction, the electric telescopic rod retracts to the pipe conveying plate 5 to be used for supporting the lower side of the material pipe plane when being in the release position, and the electric telescopic rod extends to the upper side of the material pipe when being in the pipe clamping position.

In order to enable the pipe conveying assembly to correspond to the material pipe storage position of the pipe storage assembly when moving to the material pipe transfer position, the projection distance between the fixed pipe conveying limiting part and the movable pipe conveying limiting part on the moving axis of the pipe conveying assembly is equal to the projection distance between the fixed pipe conveying limiting part 3 and the movable pipe conveying limiting part 4 on the moving axis of the pipe conveying assembly, namely, when the pipe conveying assembly is arranged on the material pipe transfer position, the central connecting line of the fixed pipe conveying limiting part 3 and the movable pipe conveying limiting part 7 is arranged on one side of the material pipe and is parallel to the axis of the material pipe, and the central connecting line of the movable pipe conveying limiting part 4 and the fixed pipe conveying limiting part 6 is arranged on the other. In order to avoid mutual interference between the pipe transporting assembly and the pipe storing assembly in the moving process, the distance from the fixed pipe storing limiting part 3 to the moving axis of the pipe transporting assembly is greater than or less than the distance from the movable pipe transporting limiting part 7 to the moving axis of the pipe transporting assembly, and the distance from the movable pipe storing limiting part 4 to the moving axis of the pipe transporting assembly is greater than or less than the distance from the fixed pipe transporting limiting part 6 to the moving axis of the pipe transporting assembly. In this embodiment, the pipe conveying assembly is arranged outside the pipe storage assembly in the axial direction of the material pipe.

The storage tube method of this example is shown in example 2.

Embodiment 2 pipe storage method of pipe storage mechanism of automatic pipe feeding machine of bottle making machine

In this embodiment, the pipe storage mechanism of the automatic pipe feeding machine of the bottle making machine in embodiment 1 is utilized to implement, and the movable pipe storage driving part, the movable pipe conveying driving part, the expansion piece 15 and the third driver enter the working state under the control of the controller, which is a PLC programmable controller in this embodiment.

The method comprises the following steps:

s1, the pipe supporting plate 2 descends, and the movable pipe storage limiting part 4 is arranged at a release position

After the material pipe on the pipe supporting plate 2 is used up, the output end of the expansion piece 15 extends along the axial direction of the material pipe, the second movable piece 13 is driven to rotate around the hinge point of the second movable piece 13 and the fixing piece 11 through the connecting piece 14, so that the included angle between the second movable piece 13 and the pipe supporting plate 2 is changed from a right angle to an acute angle, the included angle between the first movable piece 12 and the pipe supporting plate 2 is changed from a right angle to an obtuse angle, the pipe supporting plate 2 descends to a position lower than the position below the pipe conveying plate 5, which is used for supporting the plane of the material pipe, and at the moment, the pipe supporting plate 2.

The position is relieved in arranging in to activity storage tube locating part 4 to make fortune pipe board 5 can move to trusteeship board 2 tops: the first driver drives the rotation shafts 9 to rotate and drives each rotation shaft 9 to rotate by the first transmission member 18, so that the movable storage tube limiting member 4 rotates to a position below the plane of the tube conveying plate 5 for supporting the tube, that is, the movable storage tube limiting member 4 in this embodiment rotates to a horizontally extending state.

S2, the movable pipe conveying limiting part 7 is arranged at the pipe clamping position, and the pipe conveying plate 5 moves to the material pipe transferring position along the axis through the moving assembly

Firstly put the material pipe into the pipe conveying plate 5, clamp the fixed pipe conveying limiting part 6 at one side of the material pipe, and then arrange the movable pipe conveying limiting part 7 at the pipe clamping position: the second driver 10 drives the movable pipe-transporting limiting part 7 to rotate, so that the movable pipe-transporting limiting part 7 rotates to extend above the material pipe, that is, the movable pipe-transporting limiting part 7 in this embodiment rotates to a vertically upward extending state.

Then, the material pipe clamped and fixed by the pipe conveying assembly is driven by a third driver to drive a second transmission piece 16 to drive a pipe conveying plate 5 to linearly move along a slide rail 17 to a material pipe transfer position corresponding to the material pipe storage position of the pipe storage assembly, at the moment, the pipe conveying plate 5 is arranged above a pipe supporting plate 2, and a fixed pipe storage limiting part 3 and a movable pipe conveying limiting part 7 are clamped on the same side of the material pipe, namely the central connecting lines of all the fixed pipe storage limiting parts 3 and all the movable pipe conveying limiting parts 7 are parallel to the axis of the material pipe; the movable pipe limiting parts 4 and the fixed pipe limiting parts 6 are clamped at the other side of the material pipe, namely the central connecting lines of all the movable pipe limiting parts 4 and all the fixed pipe limiting parts 6 are parallel to the axis of the material pipe.

S3, the movable pipe storage limiting part 4 is arranged at the pipe clamping position, and the pipe supporting plate 2 rises to support the material pipe located at the material pipe transferring position of the pipe conveying assembly

After the material pipe that will transport the pipe subassembly removed the material pipe storage position to the storage tube subassembly, for the card put the material pipe of fixed storage tube subassembly 3 material loading pipe storage position, arrange movable storage tube locating part 4 in the card pipe position: the first driver drives the rotation shafts 9 to rotate and the first transmission member 18 drives each rotation shaft 9 to rotate, so that the movable storage tube limiting member 4 rotates to extend upward of the material tube, that is, the movable storage tube limiting member 4 in this embodiment rotates to a state of extending vertically upward.

Then the duct plate 2 is raised so that the plane for supporting the tubes on the duct plate 2 is coplanar with the plane for supporting the tubes on the duct plate 5 to support the tubes: the output end of the expansion piece 15 is shortened along the axial direction of the material pipe, the second movable piece 13 is driven to rotate around the hinge point of the second movable piece 13 and the fixed plate through the connecting piece 14, so that the included angle between the second movable piece 13 and the pipe supporting plate 2 is changed from an acute angle to a right angle, the included angle between the first movable piece 12 and the pipe supporting plate 2 is changed from an obtuse angle to a right angle, and the pipe supporting plate 2, the first movable piece 12, the second movable piece 13 and the fixed piece 11 are rectangular at the moment.

When the supporting pipe plate 2 rises to be in contact with the material pipe, the clamping blocks 8 on the supporting pipe plate 2 are clamped in the gaps between the adjacent material pipes at the bottommost layer of the material pipe.

S4, the movable pipe conveying limiting part 7 is arranged at the releasing position, and the pipe conveying assembly is moved and reset through the moving assembly

In order to move the pipe conveying assembly at the pipe storage station back to the initial position for continuous pipe storage, the movable pipe conveying limiting part 7 is placed at a release position: the second driver 10 drives the movable pipe-transporting limiting part 7 to rotate, so that the movable pipe-transporting limiting part 7 rotates to the position below the material pipe, and the movable pipe-transporting limiting part 7 is placed at the release position, so that the movable pipe-storing limiting part 4 rotates to the position below the plane of the material pipe on the pipe-transporting plate 5, that is, the movable pipe-storing limiting part 4 in the embodiment rotates to the horizontally extending state.

When the tube conveying plate 5 is moved away from the tube transferring position by the moving assembly, the third driver drives the second transmission piece 16 to drive the tube conveying plate 5 to move along the slide rail 17, so that the tube conveying plate 5 is moved away from the tube transferring position by the moving assembly, namely, the tube conveying plate is moved to the initial position.

S5, repeating the steps S1 to S4.

It should be noted that the above-mentioned embodiments are only preferred embodiments of the present invention, and the present invention is not limited thereto, and although the present invention has been described in detail with reference to the above-mentioned embodiments, it will be apparent to those skilled in the art that modifications can be made to the technical solutions described in the above-mentioned embodiments, or some technical features can be replaced with equivalents. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a storage pipe mechanism of automatic pipe feeding machine of bottle-making machine which characterized in that: the automatic feeding device comprises a rack, a storage pipe assembly assembled on the rack and used for storing a material pipe, a conveying pipe assembly assembled on the rack and used for conveying the material pipe and corresponding to the storage pipe assembly, and a lifting assembly correspondingly assembled below the storage pipe assembly and used for supporting the material pipe, wherein a material pipe output port of the storage pipe assembly corresponds to a material pipe input port of an automatic feeding machine of a bottle making machine, and a material pipe conveying position of the conveying pipe assembly corresponds to a material pipe storage position of the storage pipe assembly.

2. The tube storage mechanism of an automatic tube feeding machine of a bottle making machine according to claim 1, wherein: the storage tube assembly comprises a fixed storage tube limiting part and a movable storage tube limiting part which are assembled on the rack and used for clamping the material tube, the fixed storage tube limiting part, the movable storage tube limiting part and the lifting assembly are combined to form a material tube storage space, the movable storage tube limiting part is provided with a tube clamping position for clamping the material tube and a removing position for separating the material tube from the clamping position, and the movable storage tube limiting part is connected with a movable storage tube driving part for driving the movable storage tube limiting part to move from the tube clamping position to the removing position.

3. The tube storage mechanism of an automatic tube feeding machine for a bottle making machine according to claim 2, wherein: the pipe conveying assembly comprises a pipe conveying plate connected with the moving assembly, a fixed pipe conveying limiting part and a movable pipe conveying limiting part, the fixed pipe conveying limiting part and the movable pipe conveying limiting part are assembled on the pipe conveying plate and used for clamping a material pipe, the pipe conveying plate, the fixed pipe conveying limiting part and the movable pipe conveying limiting part are combined to form a material pipe placing space, the movable pipe conveying limiting part is provided with a pipe clamping position for clamping the material pipe and a releasing position for releasing the clamping position of the material pipe, and the movable pipe conveying limiting part and a movable pipe conveying driving part for driving the movable pipe conveying limiting part to move from the pipe clamping position to the.

4. The tube storage mechanism of an automatic tube feeding machine for a bottle making machine according to claim 3, wherein: the pipe conveying plate is provided with an opening through which the lifting assembly and the movable storage pipe limiting part pass when the pipe conveying plate is reset in a moving mode, the projection distance between the fixed pipe conveying limiting part and the movable pipe conveying limiting part on the pipe conveying assembly moving axis is equal to the projection distance between the fixed storage pipe limiting part and the movable storage pipe limiting part on the pipe conveying assembly moving axis, the distance between the fixed storage pipe limiting part and the pipe conveying assembly moving axis is larger than or smaller than the distance between the movable pipe conveying limiting part and the pipe conveying assembly moving axis, and the distance between the movable storage pipe limiting part and the pipe conveying assembly moving axis is larger than or smaller than the distance between the fixed pipe conveying limiting part and the pipe conveying assembly moving axis.

5. The tube storage mechanism of an automatic tube feeding machine for a bottle making machine according to any one of claims 1 to 4, wherein: the lifting assembly comprises a supporting tube plate, a first moving part, a second moving part and a fixing part, wherein the supporting tube plate, the first moving part, the second moving part and the fixing part are hinged and connected into a parallelogram; the second moving part is hinged to one end of the connecting piece in the length direction, and the other end of the connecting piece in the length direction is hinged to the output end of the telescopic device which stretches along the axis direction of the material pipe.

6. The tube storage mechanism of an automatic tube feeding machine for a bottle making machine according to claim 3 or 4, wherein: the movable storage tube driving part comprises a rotating shaft connected with the movable storage tube limiting part, a first driving part connected between the rotating shafts in a driving mode and a first driver driving the rotating shafts to rotate;

the movable conveying pipe driving part comprises a second driver for driving the movable conveying pipe limiting part to rotate;

the moving assembly comprises a second transmission piece connected with the tube conveying plate, a third driver driving the second transmission piece and a sliding rail connected with the tube conveying plate in a sliding mode.

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