CN210175954U - Two-in-one dial for conveying infusion bottle lines - Google Patents

Abstract

The utility model discloses a driver plate for two-in-one conveying of infusion bottle lines, which belongs to the technical field of flat bottle conveying lines. Including circular disk body, equidistant seting up on the outline of circular disk body dials the groove with flat bottle matched with, adjacent group groove and dial and form the dog between the groove, it is the U style of calligraphy to dial the groove, comprises the first flange that sets gradually, second flange and third flange, and the both ends of second flange are connected with first flange and third flange respectively, and the other end of first flange and the other end of third flange are connected with the outline of circular disk body respectively, logical groove has been seted up at the middle part of dog, leads to the inslot and installs a plurality of rollers, and the cover is equipped with the gyro wheel on the roller bearing.

Description

Two-in-one dial for conveying infusion bottle lines

Technical Field

The utility model relates to a flat bottle transfer chain technical field, more specifically the driver plate that two unifications carried infusion bottle line usefulness that says so relates to.

Background

A plurality of processes in the workshop of the large infusion industry at present are that front-end equipment is dual-conveying-line bottle output, and rear-end equipment is single-conveying-line bottle input, and simultaneously, in order to guarantee the stability of conveying of flat bottles, the flat bottles are more difficult to fall by adopting a shoulder-leaning mode. The bottle feeding after the sterilization of the existing workshop is carried to the lamp inspection process by using double-line bottle feeding, and the line combining mode adopts two conveying lines to increase the dislocation gap after the blockage and place the bottle to one conveying line, so that the mode is more suitable for double conveying line combining adopting shoulder-to-shoulder conveying. And the flat bottle that adopts back-to-back to carry adopts this mode to cause easily to block that the bottle appears falling in the front and back both ends of each section bottle of giving out after, influences the normal clear of production, need increase the device alone behind this mode thread simultaneously and turn to the body, just can satisfy the production demand of back process, and equipment flow is complicated, and personnel's operating strength is great.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a driver plate that two unifications were carried infusion bottle line and were used, will two feeding transfer chain through this driver plate merge a transfer line after the carousel mode is arranged flat bottle in order and go out the bottle, rotate body 90 degrees direction when simultaneously through the carousel, realize the two kinds of functions of mixing and turning to, accord with the production demand that the production site becomes the single line by the double-line.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a driver plate that two unifications were used of carrying infusion bottle line, includes circular disk body, equidistant seting up on the outline of circular disk body with flat bottle matched with group groove, adjacent group groove and group form the dog between the groove, it is the U style of calligraphy to dial the groove, comprises first flange, second flange and the third flange that sets gradually, and the both ends of second flange are connected with first flange and third flange respectively, and the other end of first flange and the other end of third flange are connected with the outline of circular disk body respectively, logical groove has been seted up at the middle part of dog, installs a plurality of rollers in logical inslot, and the cover is equipped with the gyro wheel on the roller.

Furthermore, the included angle between the first retaining edge and the second retaining edge is 80-85 degrees.

Further, the included angle between the second retaining edge and the third retaining edge is 120-125 degrees.

Further, the thickness of the poking groove is 2/3 of the thickness of a flat bottle.

Furthermore, the logical inslot of dog is equipped with 4 rollers, all is equipped with 1 gyro wheel on every roller bearing.

Furthermore, a rotating shaft mounting hole is formed in the middle of the circular disc body, the rotating shaft mounting hole serves as a circle center, and a plurality of through holes are formed in the circular disc body at equal intervals.

Compared with the prior art, the utility model beneficial effect who has is:

install the utility model discloses a transfer chain has integrated two unifications of transfer chain and the function that flat bottle body turned to, and equipment has simple structure, and control is convenient, and overall dimension is less, advantages such as suitability is stronger. All adopt the gyro wheel design at the dog position of equipment, reduce the friction to the bottle body surface when satisfying the function, effectively guaranteed the quality of product. The utility model discloses effectively solved the difficult point that the flat bottle of dual delivery line merges into single transfer chain and changes the operation of arrangement mode, the converter speed governing is adopted in the operation of equipment, and modes such as accessible increase business turn over material detection switch realize automatic control, reduce personnel's operation, and the corollary equipment that processes the transfer chain uses around as in production many times.

Drawings

Fig. 1 is a schematic view of a top view structure of a driving plate for a two-in-one infusion bottle line of the present invention;

fig. 2 is a schematic top view of the conveyor line with the driver plate of the present invention installed in embodiment 1;

fig. 3 is a schematic front view of the conveyor line with the drive plate of the present invention in embodiment 1;

fig. 4 is a partially enlarged schematic view of a in fig. 1.

The labels in the figure are: 1-workbench, 2-first bottle feeding conveying line, 3-second bottle feeding conveying line, 4-bottle discharging conveying line, 5-first driving plate, 6-second driving plate, 7-driving groove, 8-second driving edge, 9-stop block, 10-third stopping edge, 11-stop block, 12-first arc-shaped groove, 13-second slide way, 14-flat bottle, 15-motor, 16-speed reducer, 17-transmission shaft, 18-rotating shaft of first driving plate, 19-rotating shaft of second driving plate, 20-first gear, 21-second gear, 22-rolling shaft, 23-rolling wheel, 24-second arc-shaped groove, 25-first slide way, 26-circular tray body, 27-through hole and 28-first stopping edge.

Detailed Description

The present invention will be further described with reference to the following examples, which are only some, but not all, of the examples of the present invention. Based on the embodiments in the present invention, other embodiments used by those skilled in the art without creative work belong to the protection scope of the present invention.

Example 1:

as shown in fig. 1 and 4, a driving plate for two-in-one conveying of infusion bottle lines comprises a circular plate body 26, wherein shifting grooves 7 matched with flat bottles 14 are formed in the outer contour of the circular plate body 26 at equal intervals, a stop block 9 is formed between each adjacent shifting groove 7 and each shifting groove 7, each shifting groove 7 is in a U shape and consists of a first stop edge 28, a second stop edge 8 and a third stop edge 10 which are sequentially arranged, two ends of each second stop edge 8 are respectively connected with the first stop edge 28 and the third stop edge 10, the other end of each first stop edge 28 and the other end of each third stop edge 10 are respectively connected with the outer contour of the circular plate body 26, a through groove is formed in the middle of each stop block 9, a plurality of rolling shafts 22 are installed in the through groove, and rolling wheels 23 are sleeved on the rolling shafts 22. The included angle between the first rib 28 and the second rib 8 is 80-85 degrees. The included angle between the second retaining edge 8 and the third retaining edge 10 is 120-125 degrees. The thickness of the poking groove 7 is 2/3 of the thickness of the flat bottle 14. The through groove of the block 9 is internally provided with 4 rollers 22, and each roller 22 is provided with 1 roller 23. A rotating shaft mounting hole is formed in the middle of the circular disc body 26, and a plurality of through holes 27 are distributed at equal intervals by taking the rotating shaft mounting hole as a circle center. The provision of the through-holes 27 can reduce the weight of the circular disk 26.

As shown in fig. 2 and 3, the following describes the conveying line for installing the driving plate of the present invention, and the working principle of the present invention is described in detail: installation the utility model discloses a transfer chain of driver plate, including workstation 1, install two first bottle transfer chain 2 and the second of advancing that are parallel to each other on workstation 1 and advance bottle transfer chain 3, advance bottle transfer chain 2's output and second at the first output of advancing bottle transfer chain and be equipped with out bottle transfer chain 4 between the output of bottle transfer chain 3, advance bottle transfer chain 2's output and go out bottle transfer chain 4 at the first output of advancing, the second is advanced and is equipped with between bottle transfer chain 4 and be used for advancing first bottle transfer chain 2 and/or second and advance the rotatory 90 shoulders of flat bottle 14 that bottle placed back to back on bottle transfer chain 3 and place the driver plate subassembly on a bottle transfer chain 4.

In this embodiment, the drive plate assembly comprises a first drive plate 5, a second drive plate 6, a baffle plate 11 and a driving device, wherein a rotating shaft of the first drive plate 5 is arranged on the workbench 1 just opposite to the output end of the first bottle feeding conveying line 2, a rotating shaft of the second drive plate 6 is arranged on the workbench 1 just opposite to the output end of the first bottle feeding conveying line 2, the axis of the first drive plate 5 and the axis of the second drive plate 6 are arranged on the same horizontal line, and the distance between the outer contour of the first drive plate 5 and the outer contour of the second drive plate 6 is 5 mm. The driving device is respectively connected with the rotating shaft of the first driving plate 5 and the rotating shaft of the second driving plate 6; the shifting groove 7 of the first driving plate 5 and the stop block 9 of the second driving plate 6 are arranged in a staggered mode in the tangential direction, the baffle plate 11 is arranged between the first bottle feeding conveying line 2 and the second bottle feeding conveying line 3, the baffle plate 11 is provided with a first arc-shaped groove 12 matched with the first driving plate 5 and a second arc-shaped groove 24 matched with the second driving plate 6 at one end facing the bottle discharging conveying line 4 by taking the center line of the bottle discharging conveying line 4 as an axial symmetry line, a first slide way 25 is formed between the first arc-shaped groove 12 and the shifting groove 7 of the first driving plate 5, and a second slide way 13 is formed between the second arc-shaped groove 24 and the shifting groove 7 of the second driving plate 6. The speed of the first bottle feeding conveying line 2 is equal to that of the second bottle feeding conveying line 3, and the speed of the bottle discharging conveying line 4 is higher than the linear speed of the first driving plate 5 and the second driving plate 6.

In this embodiment, the driving device includes a motor 15, a speed reducer 16, a transmission shaft 17, a first gear 20 and a second gear 21, an output end of the motor 15 is connected to the speed reducer 16, one end of the transmission shaft 17 is connected to the speed reducer 16, the other end of the transmission shaft 17 is connected to a rotating shaft of the first dial 5, the first gear 20 is sleeved and fixed on the rotating shaft of the first dial 5, the second gear 21 is sleeved and fixed on the rotating shaft of the second dial 6, and the first gear 20 and the second gear 21 are engaged with each other. The first dial 5 and the second dial 6 in this embodiment are the dials of the present invention, and the first and second are only for the purpose of description. The utility model relates to a solve the unification of transfer chain line and flat bottle 14 steering function, simple structure, convenient operation. According to the working principle of the driving plate, a corresponding driving groove 7 is processed on the driving plate, a structure that the first driving plate 5 is tangent to the second driving plate 6 is adopted, the first driving plate 5 and the second driving plate 6 rotate towards the tangential direction, the driving grooves 7 of the first driving plate 5 and the second driving plate 6 are adjusted to be staggered and fixed when tangent, the driving groove 7 of the first driving plate 5 is just opposite to a stop block 9 of the second driving plate 6 when the two driving plates are tangent, and the phenomenon that overlapped bottles are clamped due to the fact that the first driving plate 5 and the second driving plate 6 are discharged simultaneously is avoided; the structure of the groove 7 on the first drive plate 5 and the second drive plate 6 is designed to be a flat bottle 14 body style, the first bottle feeding conveying line 2 is over against the center of the first drive plate 5, the second bottle feeding conveying line 3 is over against the center of the second drive plate 6, the back-to-back flat bottles 14 on the first bottle feeding conveying line 2 and the second bottle feeding conveying line 3 are conveyed to push each groove 7 of the first drive plate 5 and the second drive plate 6, then the flat bottles 14 are rotated away by the grooves 7 and enter the bottle discharging conveying line 4 after being turned to 90 degrees, and as the grooves 7 of the first drive plate 5 and the second drive plate 6 are just staggered and have the stop blocks 9, the flat bottles 14 put into the bottle discharging dislocation conveying line 4 by the first drive plate 5 and the second drive plate 6 are just alternately discharged, the flat bottles 14 on one bottle discharging conveying line 4 are gathered and arranged orderly and changed into a shoulder-leaning manner to enter a next process.

The back-to-back flat bottles 14 on two conveying lines after the bottles are put are conveyed to a first driving plate 5 and a second driving plate 6 through a first bottle feeding conveying line 2 and a second bottle feeding conveying line 3, the first driving plate 5 and the second driving plate 6 rotate oppositely after the equipment is started, a shifting groove 7 and a stop block 9 are designed on the first driving plate 5 and the second driving plate 6, the shifting groove 7 is slightly wider than the bodies of the flat bottles 14, the thickness of the shifting groove 7 is 2/3 of the bodies of the flat bottles 14, the width of the stop block 9 is equal to the body of the flat bottles, when the shifting groove 7 of the first driving plate 5 passes through the first bottle feeding conveying line 2 and is aligned with the first bottle feeding conveying line 2, the flat bottles 14 are conveyed into the shifting groove 7 of the first driving plate 5 by the first driving plate 5, the shifting groove 7 is driven by the first driving plate 5 to take the flat bottles 14 along a first slide way 25, the transverse movement of the next flat bottle 14 is stopped by the stop plate 11, and the flat bottles 14 are further separated, and the central lines of the conveying lines 4 are positioned on the tangent lines of the first driving, when the first drive plate 5 and the second drive plate 6 rotate to tangent positions, the flat bottles 14 are just sent to the bottle outlet conveying line 4, the stop block 9 of the second drive plate 6 just protects the flat bottles 14 in the drive groove 7 of the first drive plate 5 to prevent the flat bottles 14 from inclining or turning, otherwise, the stop block 9 of the first drive plate 5 just protects the flat bottles 14 in the drive groove 7 of the second drive plate 6 to prevent the flat bottles 14 from inclining or turning, the linear speed of the bottle outlet conveying line 4 is greater than that of the first drive plate 5 and the second drive plate 6, and the flat bottles 14 in the shoulder-to-shoulder mode which are rotated by the first drive plate 5 and the second drive plate 6 and are arranged at equal intervals are sent out by the bottle outlet conveying line 4. After the continuous operation of the equipment, the flat bottles 14 which are back to back on the first bottle feeding conveying line 2 and the second bottle feeding conveying line 3 are arranged and turned by the drive plate assembly and then are arranged in a row to lean against the shoulder, and the flat bottles are continuously conveyed to the next working procedure by the bottle discharging conveying line 4.

The included angle between the second retaining edge 8 and the third retaining edge 10 is 120-125 degrees. The included angle of 120-125 degrees is convenient for the flat bottles 14 on the first bottle feeding conveying line 2 and the second bottle feeding conveying line 3 to enter the poking groove 7, and is also convenient for the flat bottles 14 in the poking groove 7 to be separated from the poking groove 7 when rotating to the bottle discharging conveying line 4.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a drive plate that two unifications were used for carrying infusion bottle line which characterized in that: including circular disk body (26), equidistant seting up and flat bottle (14) matched with group groove (7) on the outline of circular disk body (26), adjacent group groove (7) and group form dog (9) between groove (7), it is the U style of calligraphy to dial groove (7), comprises first flange (28), second flange (8) and third flange (10) that set gradually, and the both ends of second flange (8) are connected with first flange (28) and third flange (10) respectively, and the other end of first flange (28) and the other end of third flange (10) are connected with the outline of circular disk body (26) respectively, logical groove has been seted up at the middle part of dog (9), installs a plurality of roller bearings (22) at logical inslot cover, and gyro wheel (23) are gone up to roller bearing (22).

2. The dial for a two-in-one infusion line according to claim 1, wherein: the included angle between the first retaining edge (28) and the second retaining edge (8) is 80-85 degrees.

3. The dial for a two-in-one infusion line according to claim 1, wherein: the included angle between the second rib (8) and the third rib (10) is 120-125 degrees.

4. The dial for a two-in-one infusion line according to claim 1, wherein: the thickness of the poking groove (7) is 2/3 of the thickness of the flat bottle (14).

5. The dial for a two-in-one infusion line according to claim 1, wherein: the through groove of the stop block (9) is internally provided with 4 rolling shafts (22), and each rolling shaft (22) is provided with 1 roller (23).

6. The dial for a two-in-one infusion line according to claim 1, wherein: a rotating shaft mounting hole is formed in the middle of the circular disc body (26), and a plurality of through holes (27) are distributed at equal intervals by taking the rotating shaft mounting hole as the circle center.

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