CN209922217U - Medicinal control glass bottle transmission device - Google Patents

Abstract

The utility model discloses a medicinal control glass bottle transmission device, including quick-witted case, conveyer belt, side conveyer belt, compression roller drive structure, side conveyer belt drive structure, first side transport structure and second side transport structure, quick-witted case upper end is fixed with the conveyer belt, and conveyer belt right side upper end is fixed with two splint through the support, and the side conveyer belt includes first side transport structure and second side transport structure, first side transport structure and second side transport structure inside all install the side conveyer belt, and the inboard right-hand member of splint is installed the transition roller side conveyer roller, is passed through roller and is encircleed outside setting up the side track. This medicinal control glass bottle transmission device adopts and installs the side conveyer belt in conveyer belt both sides to but set up angle regulation roller at side conveyer belt front end, make the bottle on the conveyer belt all carry between two sets of side conveyer belts, later further guarantee the bottle on a straight line through two sets of compression rollers, do not need artifical arrangement, work efficiency is high.

Description

Medicinal control glass bottle transmission device

Technical Field

The utility model relates to a glass bottle conveying equipment technical field specifically is a medicinal control glass bottle transmission device.

Background

The glass medicine bottles made of the medicinal control glass medicine bottles need to be vertically arranged on a packaging area one by one when being prepared, and due to the fact that the number of the bottles is large, the existing transmission mode can only realize stable conveying, the bottles cannot be arranged on the same straight line in order, the bottles need to be manually adjusted and then packaged, and work efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem lie in overcoming current transmission mode and can only stabilize the transport to can not orderly range on a straight line, need pack after the manual adjustment, the lower problem of work efficiency.

In order to achieve the above object, the utility model provides a following technical scheme: a conveying device for medicinal tube glass bottles comprises a case, a conveying belt, a side conveying belt, a compression roller driving structure, a side conveying belt driving structure, a first side conveying structure and a second side conveying structure, wherein the conveying belt is fixed at the upper end of the case, the front end inside the conveying belt is provided with the conveying belt driving structure, the rear end of the conveying belt is provided with a driven roller, a conveying crawler belt is wound between the driven roller and the conveying belt driving structure, the upper end of the right side of the conveying belt is fixed with two clamping plates through a bracket, the side conveying belt is arranged between the two clamping plates, an angle adjusting structure is arranged on the clamping plate below the side conveying belt, the compression roller is arranged between the two clamping plates on the right side of the side conveying belt, the side conveying belt comprises the first side conveying structure and the second side conveying structure, the first side conveying structure and the second side conveying structure, the shaft lever arranged in the middle of the press roll is connected with the press roll driving structure;

the side conveyer belt is all installed to first side conveying structure and second side conveying structure inside, and two sets of side conveyer belts are corresponding, and the transition roller is installed to the inboard right-hand member of splint, and the spout has been seted up to the inboard left end of splint to spout internally mounted has slidable angle adjusting roller, and the side conveying roller, the transition roller and the angle adjusting roller outside are encircleed and are set up the side track, and the angle adjusting roller is connected with coupling spring, and the coupling spring rear end is connected on the fixed axle of splint lower extreme.

Preferably, the conveyer belt drive structure includes conveyer belt driven gear, conveyer belt drive roll and conveyer belt drive gear, and installs the conveyer belt driven gear in the middle part axostylus axostyle outside of the conveyer belt drive roll to the conveyer belt driven gear is connected with conveyer belt drive gear through the chain, and conveyer belt drive gear installs on the output shaft of conveyer belt driving motor front end, and the drive recess has been seted up in the conveyer belt drive roll outside simultaneously, and carries the inside connecting rod that evenly is provided with of track, and drive recess and connecting rod phase-match.

Preferably, the two sets of side conveyer belt intervals of first side conveying structure and the second side conveying structure internally mounted that the conveyer belt both sides set up are less than the width of conveyer belt, and the interval between the two sets of compression rollers of first side conveying structure and the second side conveying structure front end installation is less than the interval between the two sets of side conveyer belts to the side track inclination that the angle adjusting roller slided in the spout and set up outside the transition roller is 0-5 degree.

Preferably, the fixed plate that the conveyer belt below set up is fixed on quick-witted case, and side conveyer belt drive structure and compression roller drive structure fix on the fixed plate, and compression roller drive structure drives two sets of compression rollers and rotates, and side conveyer belt drive structure drives two sets of side conveyer belts and rotates.

Preferably, the compression roller driving motor arranged on the compression roller driving structure, the side conveying motor and the conveying belt driving motor arranged on the side conveying belt driving structure are servo motors, and the side crawler belt and the compression roller arranged on the outer side of the side conveying belt are made of rubber materials.

Preferably, the compression roller driving structure comprises a compression roller driving wheel, a compression roller transition wheel, a compression roller driving belt regulating wheel and a compression roller driving motor, the compression roller driving motor is fixed on the fixing plate, the front end of the compression roller driving motor is connected with the compression roller driving wheel through a speed reducer, meanwhile, the compression roller driving belt regulating wheel, the compression roller transition wheel and the compression roller driving wheel are provided with a belt in an encircling mode, the compression roller driving belt regulating wheel is installed on the regulating seat and can be regulated in the left-right mode, the compression roller driving motor is connected with the compression roller on one group of side conveying belt side through a shaft rod, the compression roller on the other group of side conveying belt side is installed inside the compression roller transition wheel through the shaft rod, and.

Preferably, the side conveying belt driving structure comprises a side conveying motor, a side conveying belt pulley, a side conveying belt transition wheel and a side conveying belt adjusting wheel, the side conveying belt pulley is driven by a speed reducer connected to the front end of the side conveying motor to rotate, the side conveying belt pulley, the side conveying belt transition wheel and the side conveying belt adjusting wheel at the lower end of the driving shaft rod are connected in a surrounding mode through a belt, the side conveying belt adjusting wheel is installed inside the adjusting seat and can be adjusted, the lower end of the driving shaft rod installed on the side conveying roller inside one group of side conveying belt is installed inside the side conveying belt pulley, the belt wheel connected with the lower end of the driving shaft rod installed on the side conveying roller inside the other group of side conveying belt is installed between the side conveying belt transition wheel and the side conveying belt adjusting wheel, and the side conveying motor drives the two groups of side conveying.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the side conveying belts are arranged on two sides of the conveying belt, the angle-adjustable rollers are arranged at the front ends of the side conveying belts, so that bottles on the conveying belts are conveyed between the two groups of side conveying belts, and then the bottles are further ensured to be on the same straight line through the two groups of compression rollers, manual arrangement is not needed, and the working efficiency is high;

2. the servo motors are matched with the belt pulleys to drive the side conveying belts to carry out conveying work, so that the side conveying belts on the two sides can be ensured to rotate at the same speed, the compression rollers on the two sides can be ensured to rotate at the same speed by driving the compression rollers on the two sides to rotate through a group of servo motors, the conveying is stable, and the problem of deviation of bottles can be avoided;

3. the connecting rod is arranged in the conveying belt, the grooves are evenly formed in the outer side of the driving roller, the grooves are matched with the connecting rod to push the conveying track to run, and conveying is more stable.

Drawings

FIG. 1 is a front view of the structure of the present invention;

FIG. 2 is a schematic top view of the structure of the present invention;

FIG. 3 is a schematic view of the side conveyor belt of the present invention;

FIG. 4 is an installation diagram of the structure of the present invention, which is a roller driving structure and a side conveyer belt driving structure;

fig. 5 is a schematic view of the driving structure of the conveyer belt of the present invention.

Reference numbers in the figures: 1. a chassis; 2. a conveyor belt drive structure; 3. a conveyor belt; 4. an angle adjustment structure; 5. a side conveyor belt; 6. a drive shaft; 7. a splint; 8. a compression roller; 9. a driven roller; 10. a conveying crawler belt; 11. a compression roller driving structure; 12. a side conveyor belt drive structure; 13. a conveyor belt driving motor; 14. a first side conveying structure; 15. a second side transport structure; 16. a side track; 17. a side conveying roller; 18. a chute; 19. an angle adjusting roller; 20. a connecting spring; 21. a fixed shaft; 22. a transition roll; 23. a press roller driving wheel; 24. a transition wheel is pressed; 25. the pressing roller drives the belt adjusting wheel; 26. a side conveying motor; 27. a side conveyor belt pulley; 28. a side conveying belt transition wheel; 29. a side conveyor belt adjusting wheel; 30. an adjusting seat; 31. a fixing plate; 32. the compression roller drives the motor; 33. a connecting rod; 34. a driving groove; 35. a conveyor belt driven gear; 36. a driving roller of the conveying belt; 37. the conveyor belt drives the gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a conveying device for medicinal controlled glass bottles comprises a case 1, a conveying belt 3, a side conveying belt 5, a press roller driving structure 11, a side conveying belt driving structure 12, a first side conveying structure 14 and a second side conveying structure 15, wherein the conveying belt 3 is fixed at the upper end of the case 1, a conveying belt driving structure 2 is installed at the front end inside the conveying belt 3, a driven roller 9 is installed at the rear end of the conveying belt 3, a conveying crawler belt 10 is encircled between the driven roller 9 and the conveying belt driving structure 2, the conveying belt driving structure 2 comprises a conveying belt driven gear 35, a conveying belt driving roller 36 and a conveying belt driving gear 37, a conveying belt driven gear 35 is installed outside a shaft lever in the middle of the conveying belt driving roller 36, the conveying belt driven gear 35 is connected with the conveying belt driving gear 37 through a chain, and the conveying belt driving gear, meanwhile, a driving groove 34 is formed in the outer side of a driving roller 36 of the conveying belt, connecting rods 33 are uniformly arranged in the conveying track 10, the driving groove 34 is matched with the connecting rods 33, two clamping plates 7 are fixed at the upper end of the right side of the conveying belt 3 through a support, a side conveying belt 5 is arranged between the two clamping plates 7, an angle adjusting structure 4 is arranged on the clamping plate 7 below the side conveying belt 5, a press roller 8 is arranged between the two clamping plates 7 on the right side of the side conveying belt 5, the side conveying belt 5 comprises a first side conveying structure 14 and a second side conveying structure 15, the first side conveying structure 14 and the second side conveying structure 15 are arranged on two sides of the conveying belt 3, the distance between the two groups of side conveying belts 5 arranged in the first side conveying structure 14 and the second side conveying structure 15 arranged on two sides of the conveying belt 3 is smaller than the width of the conveying belt 3, and the distance between the two groups of, and the angle adjusting roller 19 slides in the chute 18 and the inclination angle of the side track 16 arranged outside the transition roller 22 is 0-5 degrees, the fixing plate 31 arranged below the conveyer belt 3 is fixed on the machine case 1, the side conveyer belt driving structure 12 and the press roller driving structure 11 are fixed on the fixing plate 31, the press roller driving structure 11 drives the two groups of press rollers 8 to rotate, the side conveyer belt driving structure 12 drives the two groups of side conveyer belts 5 to rotate, the side conveyer belt driving structure 12 comprises a side conveyer motor 26, a side conveyer belt pulley 27, a side conveyer belt transition pulley 28 and a side conveyer belt adjusting pulley 29, a speed reducer connected with the front end of the side conveyer motor 26 drives the side conveyer belt pulley 27 to rotate, the side conveyer belt pulley 27, the side conveyer belt transition pulley 28 and the belt side conveyer belt adjusting pulley 29 at the lower end of the driving shaft lever 6 are connected by a belt in a surrounding manner, the side conveyer belt adjusting pulley 29 is installed, meanwhile, the lower end of a driving shaft lever 6 arranged on a side conveying roller 17 in one group of side conveying belts 5 is arranged in a side conveying belt pulley 27, a belt pulley connected with the lower end of the driving shaft lever 6 arranged on the side conveying roller 17 in the other group of side conveying belts 5 is arranged between a side conveying belt transition wheel 28 and a side conveying belt regulating wheel 29, a side conveying motor 26 drives two groups of side conveying belts 5 to rotate through a belt, the side conveying roller 17 arranged on the side conveying belt 5 is connected with a side conveying belt driving structure 12 through the driving shaft lever 6, a shaft lever arranged in the middle of a compression roller 8 is connected with the compression roller driving structure 11, a compression roller driving motor 32 arranged on the compression roller driving structure 11, a side conveying motor 26 and a conveying belt driving motor 13 arranged on the side conveying belt driving structure 12 are servo motors, and a side crawler belt 16 and a compression roller 8 arranged outside the side, the press roll driving structure 11 comprises a press roll driving wheel 23, a press roll transition wheel 24, a press roll driving belt regulating wheel 25 and a press roll driving motor 32, the press roll driving motor 32 is fixed on the fixing plate 31, the front end of the press roll driving motor 32 is connected with the press roll driving wheel 23 through a speed reducer, meanwhile, a belt is arranged around the outer sides of the press roll driving belt regulating wheel 25, the press roll transition wheel 24 and the press roll driving wheel 23, the press roll driving belt regulating wheel 25 is arranged on a regulating seat and can be regulated left and right, the interior of the press roll driving motor 32 is connected with the press rolls 8 on the side surfaces of one group of side conveying belts 5 through a shaft rod, the press rolls 8 arranged on the side surfaces of the other group of side conveying belts 5 are arranged inside the press roll transition wheel 24 through the shaft rod, the press roll driving motor 32 drives the two groups of press, and two sets of side conveyer belts 5 are corresponding, and the inboard right-hand member of splint 7 installs transition roller 22, and the inboard left end of splint 7 has seted up spout 18 to spout 18 internally mounted has slidable angle adjusting roller 19, and the side conveying roller 17, the transition roller 22 and the angle adjusting roller 19 outside encircle and set up side track 16, and angle adjusting roller 19 is connected with coupling spring 20, and coupling spring 20 rear end is connected on the fixed axle 21 of splint 7 lower extreme.

When the device for conveying the medicinal controlled glass bottles is used, firstly, the device is connected with a power supply, the motor on the device can be ensured to rotate at the same speed, the bottles are placed on the conveying belt 3, the conveying belt driving motor 13 drives the conveying belt driving gear 37 to rotate, further, the conveying belt driving roller 36 is driven to rotate, meanwhile, the conveying track 10 is driven to rotate on the conveying belt driving roller 36 and the driven roller 9, so that the bottles are conveyed forwards on the conveying track 10, the bottles contact the side conveying belts 5 on the first side conveying structure 14 and the second side conveying structure 15, the angle adjusting rollers 19 on the side conveying belts 5 slide on the sliding chutes 18, an included angle between the two groups of side conveying belts 5 is adapted to the diameter of the bottles, the side conveying motor 26 drives the side conveying belt pulley 27 and the driving shaft lever 6 to rotate, and when the side conveying belt pulley 27 and the belt connected with, the side conveying belt adjusting wheel 29 can adjust the tension of the control belt on the adjusting seat 30, and the bottles adjusted by the two groups of side conveying belts 5 form a straight line through the two groups of compression rollers 8, which is the whole working process of the medicinal controlled glass bottle conveying device.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a medicinal control glass bottle transmission device, includes quick-witted case (1), conveyer belt (3), side conveyer belt (5), compression roller drive structure (11), side conveyer belt drive structure (12), first side transport structure (14) and second side transport structure (15), its characterized in that: the upper end of the case (1) is fixed with a conveying belt (3), the front end inside the conveying belt (3) is provided with a conveying belt driving structure (2), the rear end of the conveying belt (3) is provided with a driven roller (9), a conveying crawler belt (10) is wound between the driven roller (9) and the conveying belt driving structure (2), the upper end of the right side of the conveying belt (3) is fixed with two clamping plates (7) through a bracket, a side conveying belt (5) is arranged between the two clamping plates (7), an angle adjusting structure (4) is arranged on the clamping plate (7) below the side conveying belt (5), a compression roller (8) is arranged between the two clamping plates (7) on the right side of the side conveying belt (5), the side conveying belt (5) comprises a first side conveying structure (14) and a second side conveying structure (15), and the first side conveying structure (14) and the second side conveying, a side conveying roller (17) arranged on the side conveying belt (5) is connected with a side conveying belt driving structure (12) through a driving shaft lever (6), and a shaft lever arranged in the middle of the compression roller (8) is connected with a compression roller driving structure (11);

first side transport structure (14) and second side transport structure (15) inside all installs side conveyer belt (5), and two sets of side conveyer belt (5) are corresponding, transition roller (22) are installed to splint (7) inboard right-hand member, and splint (7) inboard left end has seted up spout (18), and spout (18) internally mounted has slidable angle adjusting roller (19), side conveyer roller (17), transition roller (22) and angle adjusting roller (19) outside are encircleed and are set up side track (16), and angle adjusting roller (19) are connected with coupling spring (20), and coupling spring (20) rear end is connected on fixed axle (21) of splint (7) lower extreme.

2. A controlled-vial transfer device as defined in claim 1, further comprising: conveyer belt drive structure (2) are including conveyer belt driven gear (35), conveyer belt drive roll (36) and conveyer belt drive gear (37), and conveyer belt driven gear (35) are installed to conveyer belt drive roll (36) middle part axostylus axostyle outside, and conveyer belt driven gear (35) are connected with conveyer belt drive gear (37) through the chain, and install on the output shaft of conveyer belt driving motor (13) front end conveyer belt drive gear (37), drive recess (34) have been seted up in conveyer belt drive roll (36) outside simultaneously, and carry inside evenly being provided with connecting rod (33) of track (10), and drive recess (34) and connecting rod (33) phase-match.

3. A controlled-vial transfer device as defined in claim 1, further comprising: the utility model discloses a two sets of side conveyer belts (5) interval that first side transport structure (14) and second side transport structure (15) internally mounted that conveyer belt (3) both sides set up is less than the width of conveyer belt (3), and interval between two sets of compression roller (8) of first side transport structure (14) and second side transport structure (15) front end installation is less than interval between two sets of side conveyer belts (5) to angle adjusting roller (19) slide in spout (18) inside and transition roller (22) outside side track (16) inclination that sets up is 0-5 degree.

4. A controlled-vial transfer device as defined in claim 1, further comprising: fixed plate (31) that conveyer belt (3) below set up are fixed on quick-witted case (1), and side conveyer belt drive structure (12) and compression roller drive structure (11) are fixed on fixed plate (31), and compression roller drive structure (11) drive two sets of compression roller (8) and rotate, and side conveyer belt drive structure (12) drive two sets of side conveyer belts (5) and rotate.

5. A controlled-vial transfer device as defined in claim 1, further comprising: the side conveying mechanism is characterized in that a side conveying motor (26) and a conveying belt driving motor (13) which are arranged on a pressing roller driving structure (11) and a pressing roller driving motor (32) and a side conveying belt driving structure (12) are servo motors, and a side crawler belt (16) and a pressing roller (8) which are arranged on the outer side of a side conveying belt (5) are made of rubber materials.

6. A controlled-vial transfer device as defined in claim 1, further comprising: the compression roller driving structure (11) comprises a compression roller driving wheel (23), a compression roller transition wheel (24), a compression roller driving belt adjusting wheel (25) and a compression roller driving motor (32), the compression roller driving motor (32) is fixed on the fixing plate (31), the front end of the compression roller driving motor (32) is connected with a compression roller driving wheel (23) through a speed reducer, meanwhile, the outer sides of the compression roller driving belt adjusting wheel (25), the compression roller transition wheel (24) and the compression roller driving wheel (23) are provided with belts in a surrounding way, and the compression roller driving belt adjusting wheel (25) is arranged on the adjusting seat and can be adjusted left and right, and the inside compression roller (8) that is connected through the axostylus axostyle with a set of side conveyer belt (5) side of compression roller driving motor (32), and inside compression roller (8) of another set of side conveyer belt (5) side-mounting were installed at compression roller transition wheel (24) through the axostylus axostyle, and compression roller driving motor (32) pass through the belt and drive two sets of compression roller (8) and rotate.

7. A controlled-vial transfer device as defined in claim 1, further comprising: the side conveying belt driving structure (12) comprises a side conveying motor (26), a side conveying belt pulley (27), a side conveying belt transition wheel (28) and a side conveying belt adjusting wheel (29), a speed reducer connected with the front end of the side conveying motor (26) drives the side conveying belt pulley (27) to rotate, the side conveying belt pulley (27), the side conveying belt transition wheel (28) and the side conveying belt adjusting wheel (29) at the lower end of a driving shaft lever (6) are connected in a surrounding mode through a belt, the side conveying belt adjusting wheel (29) is installed in an adjusting seat (30) and can be adjusted, the lower end of the driving shaft lever (6) installed on a side conveying roller (17) in one group of side conveying belts (5) is installed in the side conveying belt pulley (27), a belt wheel connected with the lower end of the driving shaft lever (6) installed on a side conveying roller (17) in the other group of side conveying belts (5) is installed between the side conveying belt transition wheel (28) and the side conveying belt adjusting wheel (29), and the side conveying motor (26) drives the two groups of side conveying belts (5) to rotate through the belt.

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