CN210234120U - A incessant formula hawk material feeding unit for packing carton automated production - Google Patents

Abstract

The utility model discloses an incessant formula hawk material feeding unit for packing carton automated production, the both sides of chassis are equipped with the slide rail respectively, be equipped with two feed bins that parallel and first support work or material rest and second support work or material rest and arrange in two feed bins respectively and reciprocate through first lift drive and second lift drive respectively on the lifting support, first year flitch and second carry the flitch to install respectively on first support work or material rest and second support work or material rest, lifting support's bottom both sides are installed respectively on the slide rail of chassis both sides and can be under the lateral shifting device drive along slide rail direction lateral shifting and remove the length of maximumly length and be not less than the length of a feed bin in slide rail direction. The utility model discloses a design two feed bins and correspond and set up two support work or material rest and two sets of independent lift drive to realize the purpose of incessant pay-off, need not shut down the back again artifical material loading, production efficiency is showing and is improving.

Description

A incessant formula hawk material feeding unit for packing carton automated production

Technical Field

The utility model relates to a material feeding unit is used in the production of paper packing carton, especially relates to an incessant formula hawk material feeding unit for packing carton automated production.

Background

The packaging box has wide application, is widely applied to industries such as electronics, food, beverage, wine, tea, cigarettes, medicine, health care products, cosmetics, small household appliances, clothes, toys, sports goods and the like, and industries such as product packaging matching and the like, and is an indispensable industry.

In the automatic production field of paper packaging boxes, a common packaging box comprises a large gray board, a bottom gray board, large face paper and bottom paper, the current gray board feeding mode adopts a bottom feeding mode, and the traditional gray board feeding device has the following defects: only one bin is provided, and after the feeding device conveys the ash plates in the bin, the machine needs to be stopped and then manually fed, so that the consumed time is long, and the production efficiency is low; in addition, because the gray plate is deeply embossed and easy to deform, the quality of the packing box can be affected by deformation caused by the fact that the gray plate is extruded and the like in the feeding process.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a incessant formula hawk material feeding unit for packing carton automated production in order to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

an uninterrupted ash plate feeding device for automatic production of packaging boxes comprises a supporting mechanism, a lifting mechanism and a material carrying plate, wherein the lifting mechanism is mounted on a supporting framework, the material carrying plate for placing an ash plate is mounted on the lifting mechanism and can move up and down, the supporting mechanism comprises a bottom frame and a transverse moving device, slide rails are respectively arranged on two sides of the bottom frame, and the transverse moving device is mounted on the bottom frame; the lifting mechanism comprises a lifting bracket, a first lifting driving device, a second lifting driving device, a first material supporting frame and a second material supporting frame, the lifting support is provided with two parallel bins, the first material supporting frame and the second material supporting frame are respectively arranged in the two bins and are driven by the first lifting driving device and the second lifting driving device to move up and down, the material loading plates comprise a first material loading plate and a second material loading plate, the first material loading plate and the second material loading plate are respectively arranged on the first material supporting frame and the second material supporting frame, the two sides of the bottom of the lifting support are respectively arranged on the slide rails on the two sides of the bottom frame and can transversely move along the slide rail direction under the driving of the transverse moving device, and the moving maximum length is not less than the length of one storage bin in the slide rail direction.

In the structure, the underframe is used as an installation foundation for all components; the transverse moving device is used for enabling the lifting mechanism to move in the direction of the slide rail; the lifting bracket is used as a mounting base of all lifting components; the first lifting driving device and the second lifting driving device are used for driving the first material supporting frame and the second material supporting frame to vertically move, move upwards during feeding, and move downwards after the ash plate is taken down to finish feeding; the two material supporting frames can realize the purpose of uninterrupted feeding, namely when one material supporting frame moves upwards for feeding, the other material supporting frame moves downwards to prepare for feeding, so that uninterrupted feeding is realized; the maximum moving length of the lifting support is not less than the length of a stock bin in the direction of the slide rail, so that the two material supporting frames can be positioned at the same position when feeding, and the material can be conveniently taken by another material taking device at the same position.

Specifically, the transverse moving device comprises a transverse moving motor, a transverse moving driving wheel, a transverse moving driven wheel and a synchronous conveyor belt, wherein the transverse moving motor is installed at the first end of the bottom frame, the transverse moving driving wheel is installed on a rotating shaft of the transverse moving motor, the transverse moving driven wheel is installed at the second end of the bottom frame, and the two ends of the non-closed synchronous conveyor belt respectively bypass the transverse moving driving wheel and the transverse moving driven wheel and are respectively connected with the bottom of the lifting support. Adopt synchronous conveyer belt to drive lifting support and remove, have the accurate controllable advantage of displacement.

Specifically, box bearings are respectively installed on two sides of the bottom of the lifting support, and the box bearings are installed on sliding rails on two sides of the underframe.

Furthermore, in order to ensure the accuracy of the feeding position of the material supporting frame and the stability of the material taking operation, the uninterrupted ash plate feeding device further comprises a positioning device, wherein the positioning device comprises a positioning bottom plate, a cylinder mounting seat, a cylinder, a positioning shaft guide sleeve, a positioning shaft and a positioning shaft fixing block, the positioning bottom plate is mounted on the underframe, the cylinder is mounted on the positioning bottom plate through the cylinder mounting seat, the positioning shaft guide sleeve is mounted on the positioning bottom plate and positioned above the cylinder, the lower end of the positioning shaft is fixedly connected with the upper end of a piston rod of the cylinder, and the piston rod of the cylinder penetrates through a vertical through hole of the positioning shaft guide sleeve; the positioning shaft fixing block is installed at the bottom of the lifting support, and the positioning shaft can be inserted into the vertical counter bore or the vertical through hole in the positioning shaft fixing block to position the lifting support.

Specifically, in order to realize accurate lifting movement control, the first lifting driving device and the second lifting driving device are the same in structure and are defined as lifting driving devices, each lifting driving device comprises a lifting moving motor, a coupler, a vertical lead screw and a lead screw nut, the lifting moving motor is installed on the lifting support, a rotating shaft of the lifting moving motor is connected with the lower end of the vertical lead screw through the coupler, the lead screw nut is sleeved on the vertical lead screw, and the lead screw nut is connected with the first material supporting frame or the second material supporting frame.

Furthermore, in order to adjust the position of the material supporting frame in the direction opposite to the direction of the sliding rail, the ash plate can be better placed on the material supporting frame, the lifting driving device further comprises a telescopic guide rail side plate and a heavy drawer sliding block, the telescopic guide rail side plate is installed on the heavy drawer sliding block and can slide in the direction opposite to the direction of the sliding rail, the bottom of the first material supporting plate or the second material supporting plate is connected with the upper portion of the telescopic guide rail side plate, and the heavy drawer sliding block is installed on the first material supporting frame or the second material supporting frame.

Furthermore, in order to increase the stability of the vertical movement of the lifting support, the lifting driving device further comprises a sliding block, a vertical guide rail, a linear bearing and a guide shaft, wherein the vertical guide rail and the vertical guide shaft are respectively arranged at two opposite corners of the storage bin and are fixedly connected with the lifting support, the sliding block and the linear bearing are respectively sleeved on the vertical guide rail and the guide shaft through a vertical through hole of the sliding block and the linear bearing, and the sliding block and the linear bearing are respectively fixedly connected with corresponding corner parts of the first material supporting frame or the second material supporting frame.

Further, for the convenience of better to the spacing messenger of hawk avoid being extruded, elevating system still includes hawk direction support, hawk direction tooth and vertical gag lever post, and is a plurality of hawk direction support is installed respectively elevating support's upper portion just is located the both ends that correspond the feed bin and can slide rail direction short distance removes and fixes a position, hawk direction tooth install in be used for spacing to the hawk on the hawk direction support, it is a plurality of vertical gag lever post is installed respectively elevating support is used for spacing to the hawk all around.

The beneficial effects of the utility model reside in that:

the utility model discloses a design two feed bins and correspond and set up two material supporting frames and two sets of independent lift drive, when a material supporting frame moved upward and pay off, another material supporting frame moved downward and prepared to feed, thereby realize the purpose of incessant pay-off, need not shut down and then manual work feed, production efficiency is showing and improving, and can guarantee that two material supporting frames are in the same position when pay off, be convenient for by other extracting device get the material in the same position, do not influence and get material work; after the motors are controlled by the controller in the prior art, an automatic feeding system can be realized; through setting up multiple regulation structure and limit structure, ensure that the pay-off process can not cause results such as deformation because of reasons such as the hawk is extruded to packing carton quality has been ensured.

Drawings

Fig. 1 is a schematic perspective view of an uninterrupted gray board feeding device for automatic production of packaging boxes according to the present invention;

fig. 2 is a schematic perspective view of a supporting mechanism of the uninterrupted gray board feeding device for automatic production of packaging boxes according to the present invention;

fig. 3 is a schematic view of the three-dimensional structure of the lifting mechanism of the uninterrupted ash plate feeding device for the automatic production of the packing boxes.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1, fig. 2 and fig. 3, the uninterrupted ash plate feeding device for the automatic production of packing boxes of the present invention comprises a supporting mechanism I, a lifting mechanism II, a first material carrying plate 13, a second material carrying plate 14 and a positioning device 12, wherein the lifting mechanism II is installed on the supporting mechanism I, the supporting mechanism I comprises a bottom frame 1 and a lateral moving device, two sides of the bottom frame 1 are respectively provided with a lateral slide rail 3 parallel to each other, the lateral moving device is installed on the bottom frame, the lateral moving device comprises a lateral moving motor 6, a lateral moving driving wheel 9, a lateral moving driven wheel 10 and a synchronous conveyor belt 8, the lateral moving motor 6 is installed at a first end of the bottom frame 1 through a motor installation seat 7, the lateral moving driving wheel 9 is installed on a rotating shaft of the lateral moving motor 6, the lateral moving driven wheel 10 is installed at a second end of the bottom, two ends of the non-closed synchronous conveyor belt 8 respectively bypass the transverse moving driving wheel 9 and the transverse moving driven wheel 10 and are respectively connected with the bottom of a lifting bracket 11 of the lifting mechanism II; the lifting mechanism II comprises a lifting support 11, a first lifting driving device, a second lifting driving device, a first material supporting frame 15 and a second material supporting frame 16, two parallel bins are arranged on the lifting support 11, the first material supporting frame 15 and the second material supporting frame 16 are respectively arranged in the two bins and are driven by the first lifting driving device and the second lifting driving device to move up and down, a first material carrying plate 13 and a second material carrying plate 14 are respectively arranged on the first material supporting frame 15 and the second material supporting frame 16, box-type bearings 4 are respectively arranged on two sides of the bottom of the lifting support 11, the box-type bearings 4 are arranged on the slide rails 3 on two sides of the underframe 1 and can transversely move along the slide rails 3 under the driving of the transverse moving motor 6, the transverse moving driving wheel 9, the transverse moving driven wheel 10 and the synchronous conveyor belt 8, and the maximum moving length is not less than the length of one storage bin in the slide rails 3 direction; the first lifting driving device and the second lifting driving device have the same structure and are defined as lifting driving devices, each lifting driving device comprises a lifting moving motor 27, a coupler 25, a vertical lead screw 24, a lead screw nut 22, a telescopic guide rail side plate 18, a heavy drawer slide block 17, a slide block 20, a vertical guide rail 21, a linear bearing 29, a guide shaft 30, an ash plate guide support 33a, an ash plate guide tooth 33b and a vertical limiting rod 32, the lifting moving motor 27 is mounted on the lifting support 11 through a motor mounting plate 28, a rotating shaft of the lifting moving motor 27 is connected with the lower end of the vertical lead screw 24 through the coupler 25, the lead screw nut 22 is sleeved on the vertical lead screw 24, the vertical lead screw 24 is mounted on the lifting support 11 through a lead screw support 23, and the lead screw nut 22 is connected with the first material support frame 15 or the second material support frame 16; the telescopic guide rail side plate 18 is arranged on the heavy drawer slide block 17 and can slide along the direction opposite to the direction of the slide rail 3, the bottom of the first material carrying plate 13 or the second material carrying plate 14 is connected with the upper part of the telescopic guide rail side plate 18, and the heavy drawer slide block 17 is arranged on the first material supporting frame 15 or the second material supporting frame 16; the vertical guide rail 21 and the vertical guide shaft 30 are respectively arranged at two corresponding corners of the storage bin and fixedly connected with the lifting support 11, guide shaft supports 31 are installed at two ends of the guide shaft 30, the sliding block 20 and the linear bearing 29 are respectively sleeved on the vertical guide rail 21 and the guide shaft 30 through vertical through holes of the sliding block 20 and the linear bearing 29, and the sliding block 20 and the linear bearing 29 are respectively fixedly connected with corresponding corners of the first material supporting frame 15 or the second material supporting frame 16; a plurality of ash plate guide supports 33a are respectively installed on the upper part of the lifting support 11, are positioned at two ends of the corresponding storage bin and can move and position in a short distance in the direction of the slide rail 3, ash plate guide teeth 33b are installed on the ash plate guide supports 33a and are used for limiting an ash (not shown) plate, and a plurality of vertical limiting rods 32 are respectively installed on the periphery of the lifting support 11 and are used for limiting the ash plate; the positioning device 12 comprises a positioning bottom plate 12a, a cylinder mounting seat 12b, a cylinder 12c, a positioning shaft guide sleeve 12d, a positioning shaft 12e and a positioning shaft fixing block 12f, the positioning bottom plate 12a is mounted on the underframe 1, the cylinder 12c is mounted on the positioning bottom plate 12a through the cylinder mounting seat 12b, the positioning shaft guide sleeve 12d is mounted on the positioning bottom plate 12a and located above the cylinder 12c, the lower end of the positioning shaft 12e is fixedly connected with the upper end of a piston rod of the cylinder 12c, the piston rod of the cylinder 12c penetrates through a vertical through hole of the positioning shaft guide sleeve 12d, the positioning shaft fixing block 12f is mounted at the bottom of the lifting support 11, and the positioning shaft 12e can be inserted into a vertical counter bore or a vertical through hole on the positioning shaft fixing block 12f to position the lifting support; the control input end of the transverse moving motor 6, the control input end of the lifting moving motor 27 and the control input end of the air cylinder 12c are respectively and correspondingly connected with the control output end of a controller (not shown, the conventional controller in the prior art is adopted), so that an automatic control system is formed, and the automatic control can be realized by presetting parameters such as time and the like in the controller, and can also be realized by matching with a sensor additionally arranged.

As shown in fig. 1, fig. 2 and fig. 3, the working principle of the uninterrupted ash plate feeding device for the automatic production of the packing boxes is as follows:

when in use, the device is fixedly connected with other associated equipment through the connecting piece 2; firstly, adjusting the installation position of the ash plate guide support 33a according to the size of the ash plate; a positioning shaft 12e driven by the cylinder 12c is matched with a positioning shaft fixing block 12f to accurately position the lifting support 11; a lifting moving motor 27 of the first lifting driving device drives a vertical screw 24 to rotate, so as to drive a first material supporting frame 15 fixedly arranged on a screw nut 22 to vertically lift, and a first material carrying plate 13 provided with an ash plate follows the lifting; in the ascending process, the vertical limiting rod 32 and the ash plate guide teeth 33b position the ash plate, so that the product quality is ensured; after the first material supporting frame 15, the first material loading plate 13 and the corresponding ash plate are sent to the top, the ash plate is taken down by a material taking mechanism (not shown) at the top; then the positioning shaft 12e is driven to descend by the cylinder 12c, the transverse moving motor 6 drives the synchronous conveyor belt 8 to rotate through a transverse moving driving wheel, and the lifting support 11 connected with the synchronous conveyor belt 8 transversely moves on the slide rail 3; after the second material carrying plate 14 on the second lifting driving device with the ash plate mounted reaches a designated position, the transverse moving motor 6 stops running; the cylinder 12c of the second lifting driving device drives the positioning shaft 12e to ascend and is matched with the positioning shaft fixing block 12f to accurately position the lifting support 11; in the ascending process, the vertical limiting rod 32 and the ash plate guide teeth 33b position the ash plate, so that the product quality is ensured; after the second material supporting frame 16, the second material loading plate 14 and the corresponding ash plate are sent to the top, the ash plate is taken down by a material taking mechanism (not shown) at the top; and then the feeding process of the first lifting driving device and the second lifting driving device is repeated, so that uninterrupted work is realized, and the production efficiency is greatly improved. When the first material carrying plate 13 or the second material carrying plate 14 is charged, the first material carrying plate 13 or the second material carrying plate 14 can be drawn out through the corresponding heavy drawer sliding block 17, the convenience of charging operation is improved, the heavy drawer sliding block 17 has a self-locking function, charging is guaranteed to be completed, and the first material carrying plate 13 or the second material carrying plate 14 can be accurately positioned after resetting.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and is not to the limitation of the technical solution of the present invention, as long as the technical solution can be realized on the basis of the above-mentioned embodiment without creative work, all should be regarded as falling into the protection scope of the right of the present invention.

Claims (8)

1. The utility model provides an incessant formula hawk material feeding unit for packing carton automated production, includes supporting mechanism, elevating system and carries the flitch, elevating system installs supporting mechanism is last, is used for placing the hawk carry the flitch to install elevating system is last and can reciprocate its characterized in that: the supporting mechanism comprises an underframe and a transverse moving device, sliding rails are respectively arranged on two sides of the underframe, and the transverse moving device is arranged on the underframe; the lifting mechanism comprises a lifting bracket, a first lifting driving device, a second lifting driving device, a first material supporting frame and a second material supporting frame, the lifting support is provided with two parallel bins, the first material supporting frame and the second material supporting frame are respectively arranged in the two bins and are driven by the first lifting driving device and the second lifting driving device to move up and down, the material loading plates comprise a first material loading plate and a second material loading plate, the first material loading plate and the second material loading plate are respectively arranged on the first material supporting frame and the second material supporting frame, the two sides of the bottom of the lifting support are respectively arranged on the slide rails on the two sides of the bottom frame and can transversely move along the slide rail direction under the driving of the transverse moving device, and the moving maximum length is not less than the length of one storage bin in the slide rail direction.

2. The continuous gray board feeding device for the automatic production of packing boxes according to claim 1, characterized in that: the transverse moving device comprises a transverse moving motor, a transverse moving driving wheel, a transverse moving driven wheel and a synchronous conveyor belt, wherein the transverse moving motor is installed at the first end of the bottom frame, the transverse moving driving wheel is installed on a rotating shaft of the transverse moving motor, the transverse moving driven wheel is installed at the second end of the bottom frame, and the two ends of the non-closed synchronous conveyor belt respectively bypass the transverse moving driving wheel and the transverse moving driven wheel and are respectively connected with the bottom of the lifting support.

3. The continuous gray board feeding device for the automatic production of packing boxes according to claim 1, characterized in that: and box-type bearings are respectively arranged on two sides of the bottom of the lifting support and are arranged on the slide rails on two sides of the underframe.

4. The continuous gray board feeding device for the automatic production of packing boxes according to claim 1, characterized in that: the uninterrupted ash plate feeding device further comprises a positioning device, wherein the positioning device comprises a positioning bottom plate, a cylinder mounting seat, a cylinder, a positioning shaft guide sleeve, a positioning shaft and a positioning shaft fixing block, the positioning bottom plate is mounted on the underframe, the cylinder is mounted on the positioning bottom plate through the cylinder mounting seat, the positioning shaft guide sleeve is mounted on the positioning bottom plate and located above the cylinder, the lower end of the positioning shaft is fixedly connected with the upper end of a piston rod of the cylinder, and the piston rod of the cylinder penetrates through a vertical through hole of the positioning shaft guide sleeve; the positioning shaft fixing block is installed at the bottom of the lifting support, and the positioning shaft can be inserted into the vertical counter bore or the vertical through hole in the positioning shaft fixing block to position the lifting support.

5. An uninterrupted grey board feeding device for the automated production of packages according to claim 1, 2 or 3, characterized in that: the first lifting driving device and the second lifting driving device are identical in structure and are defined as lifting driving devices, each lifting driving device comprises a lifting moving motor, a coupler, a vertical lead screw and a lead screw nut, the lifting moving motors are installed on the lifting support, a rotating shaft of each lifting moving motor is connected with the lower end of the vertical lead screw through the couplers, the lead screw nuts are sleeved on the vertical lead screws, and the lead screw nuts are connected with the first material supporting frame or the second material supporting frame.

6. The continuous gray board feeding device for the automatic production of packing boxes according to claim 5, characterized in that: the lifting driving device further comprises a telescopic guide rail side plate and a heavy drawer sliding block, the telescopic guide rail side plate is mounted on the heavy drawer sliding block and can slide along the direction opposite to the direction of the sliding rail, the bottom of the first material carrying plate or the second material carrying plate is connected with the upper portion of the telescopic guide rail side plate, and the heavy drawer sliding block is mounted on the first material supporting frame or the second material supporting frame.

7. The continuous gray board feeding device for the automatic production of packing boxes according to claim 5, characterized in that: the lifting driving device further comprises a sliding block, a vertical guide rail, a linear bearing and a guide shaft, wherein the vertical guide rail and the vertical guide shaft are respectively arranged at two opposite corners of the storage bin and are fixedly connected with the lifting support, the sliding block and the linear bearing are respectively sleeved on the vertical guide rail and the guide shaft through a vertical through hole of the sliding block and the linear bearing, and the sliding block and the linear bearing are respectively fixedly connected with corresponding corner portions of the first material supporting frame or the second material supporting frame.

8. The continuous gray board feeding device for the automatic production of packing boxes according to claim 5, characterized in that: elevating system still includes hawk direction support, hawk direction tooth and vertical gag lever post, and is a plurality of hawk direction support is installed respectively lifting support's upper portion and be located the both ends that correspond the feed bin and can slide rail direction short distance removes and fixes a position, hawk direction tooth install in on the hawk direction support and be used for spacing the hawk, it is a plurality of vertical gag lever post is installed respectively lifting support is all around and be used for spacing to the hawk.

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