CN221252888U - Automatic arrange transmission device of glass bottle - Google Patents

Abstract

The utility model provides a conveying device for automatically arranging glass bottles, which comprises a conveying belt, a bottle arranging device and a blocking device, wherein the bottle arranging device comprises a first fixing frame, a cross rod and adjusting rods, the first fixing frame is arranged on two sides of the conveying belt, two ends of the two adjusting rods are connected to the first fixing frame, two ends of the plurality of cross rods are respectively connected to the two adjusting rods, the blocking device comprises a second fixing frame, a mounting frame, an air cylinder and a top block, the second fixing frame is arranged on two sides of the conveying belt, the mounting frame stretches across the conveying belt, two ends of the mounting frame are connected to the second fixing frame, the air cylinder is obliquely downwards arranged in the middle of the mounting frame, the top block is connected to the end part of a telescopic end of the air cylinder, and the bottle arranging device is positioned in front of the blocking device. The conveying device for automatically arranging the glass bottles can automatically arrange the special-shaped bottles regularly without manually arranging the bottles, so that the problem of reworking is avoided, the bottle arranging speed is improved, and the labor cost and the equipment manufacturing cost of enterprises are reduced.

Description

Automatic arrange transmission device of glass bottle

Technical Field

The utility model belongs to the field of glass bottle production and manufacturing equipment, and particularly relates to a conveying device for automatically arranging glass bottles.

Background

The glass bottle is widely used in the field of food packaging due to the characteristics of no toxicity, transparency, attractive appearance, air impermeability and no reaction with solution, and the glass bottle needs to be piled after the glass bottle is produced, so that the glass bottle can be stored and conveniently transported later. When the glass bottles with circular cross sections are produced, the positions among the glass bottles can be automatically adjusted by the circular glass bodies without excessive intervention, so that the stacking machine can perform stacking work conveniently, but when the special-shaped glass bottles with non-circular cross sections are produced, the glass bottles are very disordered when being piled together due to the cross section shapes of the glass bottles, the glass bottles need to be arranged manually, when the glass bottles are arranged manually, the arranged glass bottles possibly deviate from the positions under the drive of the conveying belt due to continuous movement of the conveying belt, the glass bottles need to be arranged again, and the tail end conveying belt has larger width for arranging the glass bottles, so that the manual arrangement work generates larger obstruction, and when the special-shaped glass bottles are arranged manually, the special-shaped glass bottles need to be consumed in the present stage, are not only arranged conveniently, but also reworked, the consumed time for production is greatly prolonged, and the production efficiency is reduced.

Disclosure of utility model

In order to solve the problems, the utility model provides the conveying device for automatically arranging the glass bottles, wherein the bottle arranging device and the blocking device are arranged, the blocking device is used for blocking the glass bottles to move along with the conveying belt, the bottle arranging device is used for automatically arranging the glass bottles, the blocking device is opened after the arrangement is finished, and the glass bottles are moved to the rear end for stacking.

A conveying device for automatically arranging glass bottles comprises a conveying belt, a bottle arranging device and a blocking device. The bottle arranging device and the blocking device are arranged on the conveyor belt, are integrally arranged above the conveyor belt and are used for controlling glass bottles on the conveyor belt, the bottle arranging device is arranged in front of the blocking device, the glass bottles firstly enter the bottle arranging device, then the blocking device is blocked at the tail part of the bottle arranging device, and the blocking device is opened to enable the glass bottles to move backwards after the bottle arranging device is full of the glass bottles.

The bottle arranging device comprises a first fixing frame, a cross rod and adjusting rods, wherein the first fixing frame is used as a base of the bottle arranging device installed on a conveyor belt, two parallel adjusting rods are installed on the first fixing frame, the direction of the adjusting rods is perpendicular to the direction of the conveyor belt, the distance between the adjusting rods is consistent with the length of the cross rod, an adjusting groove is formed in the middle of each adjusting rod along the length direction, adjusting parts are arranged at the two ends of each cross rod and can be matched with the adjusting groove to be fixed, the two ends of each cross rod are installed on the two adjusting rods through the adjusting parts respectively, the direction of each cross rod is consistent with the direction of the conveyor belt, a plurality of cross rods are installed between the adjusting rods in the mode, and the cross rods are kept parallel. When the glass bottles are conveyed to the cross bar part, the glass bottles can be automatically divided into a plurality of rows by the cross bar to be automatically arranged.

In order to facilitate the adjustment of the height and the distance of the cross bars, threaded rods are respectively arranged at two ends of the adjusting rod, an lug is arranged at the position connected with the threaded rods on the first fixing frame, a hole is formed in the middle of the lug, the threaded rods penetrate through holes in the lug and are fixed on the lug through nuts, the length of the threaded rods penetrating through the lug can be adjusted through the positions of the adjusting nuts, and accordingly the height of the cross bars is increased or reduced. The adjusting part that sets up on the horizontal pole comprises montant, dog and screw rod, montant lug connection is vertical upwards at the whipstock tip, set up the dog on the montant top, then dog top connecting screw rod lets the dog be located between montant and the screw rod, the screw rod penetrates the adjustment tank from the below, then from the top cover nut on the screw rod, let the nut press close to the dog through screwing the nut, nut and dog tightly press from both sides the adjusting lever in the middle at last, the position of fixed horizontal pole, when needs adjust the horizontal pole interval, unscrew nut can adjust.

The blocking device comprises a second fixing frame, a mounting frame, an air cylinder and a top block, wherein the second fixing frame is used as a base for blocking the device to be mounted on the conveyor belt, the two sides of the conveyor belt are mounted on the second fixing frame, then the air cylinder is mounted in the middle of the mounting frame, the direction of the telescopic end of the air cylinder is inclined downwards, the inclined direction faces the front end of the conveyor belt, the top block is fixed on the telescopic end of the air cylinder, the top block can stretch out and draw back through the control air cylinder, the length of the top block is consistent with the width of the conveyor belt, the direction of the top block is perpendicular to the conveyor belt, and the top block can block all glass bottles on the conveyor belt. When the position of the blocking device is set, when the position of the top block is guaranteed to be the lowest, the end face, close to the front end of the conveying belt, of the top block is flush with the rear adjusting part on the cross rod, and therefore glass bottles can be blocked in the bottle arranging device.

The dog only connects a cylinder, probably lets the dog rotate around the junction, in order to avoid taking place to rotate, add guide bar and guide cylinder on the mounting bracket, guide bar and guide cylinder combination are in the same place and are formed a set of guider, guider sets up two sets and is located the cylinder both sides respectively, wherein the guide cylinder is installed and is fixed on the mounting bracket, the guide bar cover is in the guide cylinder, the lower extreme of guide bar is connected on the dog, let the telescopic end of guide bar and cylinder parallel, when the cylinder is flexible, the guide bar can remove in the guide cylinder synchronization, guide bar and cylinder three are parallel, let the dog can not rotate.

The conveying device for automatically arranging the glass bottles can automatically arrange the special-shaped bottles, solves the problem that the special-shaped bottles need to be manually arranged on a conveying belt, automatically and regularly arranges the glass bottles in the bottle arranging process, and the glass bottles entering the next stacking process are uniformly arranged in a rectangular shape, so that the problem of reworking is avoided, the bottle arranging speed is greatly improved, the time required by the stacking process is reduced, the labor cost of enterprises is reduced, meanwhile, the cross bars can adjust the distance, the number and the height according to the size of the special-shaped bottles, multiple application scenes of one set of equipment are realized, and the equipment manufacturing cost is greatly reduced.

Drawings

The utility model is described in further detail below with reference to the accompanying drawings.

FIG. 1 is a schematic view of a bottle arranging device;

FIG. 2 is a schematic view of a combined structure of a cross bar and an adjustment bar;

FIG. 3 is a schematic overall structure of a first embodiment of the present utility model;

FIG. 4 is a schematic overall structure of a second embodiment of the present utility model;

FIG. 5 is a schematic view showing a raised state of the jack block in FIG. 4

FIG. 6 is a schematic structural diagram of a usage state of the second embodiment;

The figure shows: 1-a conveyor belt; 2-a first fixing frame; 3-a cross bar; 4, adjusting a rod; 5-an adjusting part; 6-an adjusting groove; 7-a second fixing frame; 8-mounting frames; 9-cylinder; 10-top blocks; 11-screw; 12-ear pieces; 13-a guide bar; 14-a guide cylinder; 15-a vertical rod; 16-stop; 17-threaded rod.

Detailed Description

For further explanation of the inventive concept, the following description of specific embodiments of the present utility model will be given with reference to the accompanying drawings:

Example 1

The utility model provides an automatic arrange conveyer of glass bottle, conveyer belt 1 adopts the link joint conveyer belt, welds four vertical plates as mount one 2 in conveyer belt 1's both sides, and four vertical plates form rectangular array, transversely welds the lug 12 of metal material at the top of plate, the centre drilling of lug 12. Two metal strips are adopted, the length of each strip is consistent with the width of the conveyor belt 1, two ends of each strip are welded together in parallel by using metal sheets, the two strips are directly provided with intervals to form an adjusting rod 4, an adjusting groove 6 is formed at the interval between the strips, then a threaded rod 17 is vertically welded at two ends of the adjusting rod 4, the two adjusting rods 4 are manufactured by the method, then a nut is sleeved on the threaded rod 17 on the adjusting rod 4, the threaded rod 17 passes through a hole on the lug 12 from the lower part, then a nut is sleeved on the threaded rod 17, in this way, two ends of the adjusting rod 4 are respectively connected to a fixing frame 2 at two ends of the conveyor belt 1, the two adjusting rods 4 are kept in parallel to finish the installation of the adjusting rod 4, and the two nuts can clamp the lug 12 to fix the position of the adjusting rod 4 by screwing the nut on the threaded rod 17, as shown in fig. 1.

The cross rod 3 is manufactured by using a metal rod, two ends of the metal rod are bent upwards by 90 degrees to form vertical rods 15, the distance between the two vertical rods 15 of the cross rod 3 is consistent with the distance between the adjusting grooves 6 on the two adjusting rods 4, then a section of screw rod 11 is vertically welded on the vertical rods 15, a nut is sleeved after the welding, the nut is screwed to the bottom of the screw rod 11 and is welded to form a stop block 16, the screw rod 11 of the cross rod 3 is inserted into the adjusting groove 6 from the lower part of the adjusting rod 4, due to the length arrangement of the cross rod 3, when two ends of the cross rod 3 are respectively connected to the two adjusting rods 4, the cross rod 3 is parallel to the conveyor belt 1, a nut is sleeved above the screw rod 11, the adjusting rod 4 can be clamped with the stop block 16 after the nut is screwed, and the position of the cross rod 3 is fixed, and a plurality of cross rods 3 can be installed on the adjusting rod 4 according to a certain distance and quantity as required in the mode shown in fig. 2.

Two vertical steel frames are welded on two sides of the conveyor belt 1 to serve as a fixing frame II 7, a strip-shaped steel plate is welded in the middle of the fixing frame to serve as a mounting frame 8, the mounting frame 8 is perpendicular to the conveyor belt 1, an air cylinder 9 is fixed on the mounting frame 8, the direction of the air cylinder 9 is inclined by 45 degrees, then a strip-shaped plate piece which is wide with the conveyor belt 1 is used as a top block 10, the end part of a telescopic end of the air cylinder 9 is connected to the top block 10, two metal copper plates are welded on two ends of the air cylinder 9 on the mounting frame 8 to serve as guide cylinders 14, the cylinder body direction of the guide cylinders 14 is parallel to the setting direction of the air cylinder 9, two metal rods with the diameter identical to the inner diameter of the guide cylinders 14 penetrate through the guide cylinders 14 to form guide rods 13, the lower ends of the guide rods 13 are connected to the top block 10, and when the air cylinder 9 stretches, the top block 10 can drive the guide rods 13 to move in the guide cylinders 14 along the stretching direction, as shown in fig. 3. Meanwhile, when the welding position of the second fixing frame 7 is to ensure that the top block 10 is at the lowest position, the top block 10 is positioned below the adjusting rod 4 closest to the second fixing frame 7.

Example two

In order to keep the glass bottles in a regular arrangement after passing through the blocking device, as shown in fig. 4 and 5, a bottle arranging device is further arranged behind the blocking device on the basis of the first embodiment, and alignment of the formation is performed once again after the glass bottles pass through the blocking device.

When the glass bottle stacking machine is used, the number and the distance of the cross bars 3 are adjusted according to the height and the width of the glass bottles, because the glass bottles are special-shaped bottles, the distance of the cross bars 3 is set according to the maximum width of the glass bottles, when finished glass bottle products are conveyed onto the conveying belt 1, the glass bottles are continuously close to the bottle arranging device, when the glass bottles contact the front end part of the cross bars 3, the glass bottles are automatically stirred between the cross bars 3, at the moment, the air cylinders 9 are in an extension state, the ejector blocks 10 are positioned at the rear end parts of the cross bars 3, when the glass bottles move to the rear end of the cross bars 3 along the interval between the cross bars 3, the ejector blocks 10 can be blocked by the ejector blocks 10 and can not advance, so that the glass bottles are stacked and arranged between the cross bars 3, under the continuous driving of the conveying belt 1, the glass bottles can rotate the angle of the bottle bodies to maintain the balance of force, finally the bottle bodies tend to be mutually pushed down by the maximum width and the conveying belt 1, the glass bottles can be orderly arranged together according to the same angle, as shown in fig. 6, after all the glass bottles in the cross bars are orderly arranged, the air cylinders 9 retract and the ejector blocks 10 can be blocked and moved obliquely upwards, the glass bottles can be driven by the conveying belt 1 to continue to move.

The above description is only of the preferred embodiments of the present utility model, and it should be understood that various changes and modifications can be made by those skilled in the art, and any modifications, equivalents, improvements and the like made by the present utility model should be included in the scope of the present utility model.

Claims (5)

1. The utility model provides an automatic transmission device of arranging glass bottle, includes conveyer belt (1), arranges bottle device and blocking device, its characterized in that: the bottle arranging device and the blocking device are arranged above the conveyor belt (1);

The bottle arranging device comprises a first fixing frame (2), a cross rod (3) and adjusting rods (4), wherein two ends of the cross rod (3) are provided with vertical upward adjusting parts (5), the first fixing frame (2) is arranged on two sides of a conveying belt (1), the adjusting rods (4) are perpendicular to the conveying belt (1), two ends of the adjusting rods (4) are connected to the first fixing frame (2), the number of the adjusting rods (4) is two, adjusting grooves (6) are formed in the middle of the adjusting rods (4), the adjusting parts (5) at the two ends of the cross rod (3) are respectively connected to the adjusting grooves (6) of the two adjusting rods (4), and the number of the cross rods (3) is multiple and parallel to each other;

The blocking device comprises a second fixing frame (7), a mounting frame (8), an air cylinder (9) and a top block (10), wherein the second fixing frame (7) is arranged on two sides of the conveying belt (1), the mounting frame (8) spans across the conveying belt (1) and two ends of the mounting frame are connected to the second fixing frame (7), the air cylinder (9) is arranged in the middle of the mounting frame (8), the telescopic end of the air cylinder (9) is obliquely downwards arranged, the length of the top block (10) is consistent with the width of the conveying belt (1), and the top block (10) is connected to the telescopic end of the air cylinder (9);

The bottle arranging device is arranged in front of the blocking device, and when the ejector block (10) is arranged at the lowest position, the front end face of the ejector block (10) is flush with the rear adjusting part (5) on the cross rod (3).

2. The conveyor of self-aligning glass bottles as claimed in claim 1 wherein: the two ends of the adjusting rod (4) are provided with threaded rods (17), the first fixing frame (2) is provided with lugs (12), holes through which the threaded rods (17) can pass are formed in the middle of the lugs (12), and the threaded rods (17) are fixed on the lugs (12) through nuts.

3. The conveyor of self-aligning glass bottles as claimed in claim 2 wherein: the mounting frame (8) is further provided with two guide rods (13) and guide cylinders (14), the guide rods (13) can be freely movably sleeved in the guide cylinders (14), the guide cylinders (14) are arranged on two sides of the air cylinder (9), the lower ends of the guide rods (13) are connected with the jacking blocks (10), and the guide rods (13) are parallel to the telescopic ends of the air cylinder (9).

4. The conveyor of self-aligning glass bottles as claimed in claim 2 wherein: the adjusting part (5) comprises a vertical rod (15), a stop block (16) and a screw rod (11), wherein the lower end of the vertical rod (15) is connected with the cross rod (3), the vertical rod (15) is located below the screw rod (11), the stop block (16) is connected between the screw rod (11) and the vertical rod (15), the screw rod (11) passes through the adjusting groove (6) from the lower part, a nut is sleeved above the screw rod (11), and the nut and the stop block (16) clamp the adjusting rod (4) in the middle.

5. The transfer device for automatically arranging glass bottles as claimed in claim 3 or 4 wherein: a bottle arranging device is arranged behind the blocking device.