CN213294650U - Filling gland linked machine suitable for dysmorphism gel bottle - Google Patents

Abstract

The utility model discloses a filling and capping linkage machine suitable for special-shaped gel bottles, which comprises a filling device, a capping device, a bottle body conveying track, a bottle cap conveying track and a circular conveying track; the circular conveying track comprises a circular turntable, and a plurality of bottle conveying grooves are formed in the circumferential edge of the circular turntable at equal intervals; the linkage machine also comprises: the bottle arranging device is used for conveying the bottle bodies with the consistent bottle opening orientation to the bottle body conveying track; the cap arranging device is used for conveying the bottle caps with consistent cap opening directions to the bottle cap conveying track; the bottle body turning and conveying mechanism is used for clamping the bottle bodies on the bottle body conveying track into the bottle conveying groove in a vertical posture that the bottle openings are turned upwards; the bottle cap overturning and conveying mechanism comprises an overturning assembly and a vacuum negative pressure adsorption unit, wherein the overturning assembly is used for overturning bottle caps on the bottle cap conveying track to cover openings vertically downwards, and the bottle caps are positioned right above the bottle conveying groove after being overturned by the bottle cap overturning and conveying mechanism. The utility model discloses can improve the degree of automation of dysmorphism gel bottle at whole filling gland in-process.

Description

Filling gland linked machine suitable for dysmorphism gel bottle

Technical Field

The utility model relates to a filling equipment technical field specifically is a filling gland interlocking machine suitable for dysmorphism gel bottle.

Background

The filling equipment is suitable for various industries such as medicine, food, daily chemical, grease and the like, and can be used for filling various liquid, gel and paste products, and the filling equipment is mainly divided into a filling cap screwing machine and a filling cap pressing machine.

The gel bottle commonly used in medical and physiotherapy products is composed of a bottle body and a bottle cap, wherein the bottle cap can also be called a bottle plug, the bottle cap is an outer cap (an outer plug), and the bottle cap is sleeved outside a bottle opening of the bottle body and is tightly matched with the bottle body to further close the bottle body. The product using the gel bottle is filled and capped by the filling and capping machine, and the filling and capping machine comprises a filling device for filling materials, a capping device for capping caps and a conveying unit.

However, some gel bottles are irregular shaped bottles (see fig. 1), and due to the special structure of the shaped bottle body and the bottle cap, the shaped bottle body cannot be independently kept in the upright posture with the bottle mouth facing upwards during the transportation process, and the shaped bottle cap cannot be independently kept in the upright posture during the transportation process.

Aiming at the special-shaped gel bottle, the material filling and the bottle cap capping are usually carried out in the prior manual filling and manual capping modes, and the defects of low efficiency, large labor input and high cost exist.

The filling capping machine suitable for the special-shaped gel bottle also appears gradually on the market, fixing frames are respectively arranged for the bottle bodies and the bottle caps in conveying units of the filling capping machine, and the bottle bodies and the bottle caps are placed on the corresponding fixing frames when conveyed so as to ensure that the bottle bodies and the bottle caps can be conveyed in vertical postures, so that automatic filling and capping can be smoothly realized. However, the fixing frame is difficult to automatically feed the bottle body and the bottle cap, and is usually realized manually, which undoubtedly has the defects of large human input and high cost.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a filling gland blocking machine suitable for dysmorphism gel bottle to improve the degree of automation of dysmorphism gel bottle at whole filling gland in-process, can not only save the human input and can also promote efficiency enough.

Therefore, the utility model adopts the following technical scheme:

a filling and capping linkage machine suitable for special-shaped gel bottles comprises a filling device, a capping device and a conveying unit, wherein the conveying unit comprises a bottle body conveying rail, a bottle cap conveying rail and a circular conveying rail; the circular conveying track comprises a rotatable circular turntable and a servo driving part for driving the circular turntable to rotate, wherein a plurality of bottle conveying grooves for clamping the bottles are formed in the edge of the circular turntable, and the bottle conveying grooves are arranged at equal intervals in the circumferential direction of the circular turntable; the filling device and the capping device are arranged around the circular turntable; the filling gland linkage machine further comprises: the bottle arranging device is used for arranging the bottles and conveying the bottles with consistent bottle mouth orientations to the bottle conveying track in a lying posture in order; the cap arranging device is used for arranging the bottle caps and conveying the bottle caps with consistent cap opening directions to the bottle cap conveying track in a lying posture in sequence; the bottle body turning and conveying mechanism is arranged at the tail end of the bottle body conveying track and is used for pushing the bottle bodies lying at the tail end of the bottle body conveying track into the bottle conveying groove in a vertical posture that the bottle openings are turned upwards; and the bottle cap turning and conveying mechanism is arranged at the tail end of the bottle cap conveying track and comprises a turning assembly and a vacuum negative pressure adsorption unit, the turning assembly is used for turning the bottle cap lying at the tail end of the bottle cap conveying track to a vertical posture with a cap opening facing downwards, the vacuum negative pressure adsorption unit is used for fixing the bottle cap, and the bottle cap turned by the bottle cap turning and conveying mechanism is positioned right above the bottle conveying groove.

Furthermore, the bottle arranging device comprises a bottle body vibration disc and a first vibration excitation part for driving the bottle body vibration disc to act; the bottle body vibration disc is characterized in that a spiral bottle body ascending rail is arranged on the inner wall of the bottle body vibration disc, a bottle body slide way is arranged on the outer side of the upper portion of the bottle body vibration disc, one end of the bottle body slide way is connected with the bottle outlet end of the spiral bottle body ascending rail, the other end of the bottle body slide way is connected with the bottle body conveying rail, a first screening structure used for screening the bottle opening orientation of the bottle body is arranged at the bottle outlet end of the spiral bottle body ascending rail, the first screening structure enables the bottle body with the bottle bottom at the front in the spiral bottle body ascending rail to be blocked back in the bottle body vibration disc, and the bottle body with the bottle bottom at the rear in the front in the spiral bottle body ascending rail can smoothly pass through the first screening structure to reach the bottle body slide way.

Further, the first screening structure comprises a pair of first hanging rails extending spirally along the outer wall of the bottle outlet end port of the spiral bottle body ascending rail, wherein when the orientations of the bottle openings of the bottle bodies are screened, the bottle body with the bottle opening at the front bottom and the rear bottom in the spiral bottle body ascending rail is hung between the pair of first hanging rails through a flange positioned at the bottom of the bottle body, and the bottle body with the bottle bottom at the front bottom and the rear bottom in the spiral bottle body ascending rail is kept back to the bottle body vibration disc by the pair of first hanging rails.

Further, when the bottle bodies are conveyed after being screened by the pair of first hanging rails, the conveying direction of the bottle body conveying rails is opposite to the direction of the bottle openings of the bottle bodies.

Further, the cap sorting device comprises a bottle cap vibrating disk and a second excitation part for driving the bottle cap vibrating disk to act; be equipped with spiral bottle lid track that rises on the inner wall of bottle lid vibration dish, the upper portion outside of bottle lid vibration dish is equipped with the bottle lid slide, the one end of bottle lid slide with spiral bottle lid ascending orbital play lid end links up, the other end and the bottle lid delivery track of bottle lid slide link up, spiral bottle lid ascending orbital play lid end is equipped with and is used for carrying out the second screening structure that filters to the gaikou orientation of bottle lid, wherein, second screening structure will the gaikou keeps off the bottle lid back in the front gaikou in the spiral bottle lid ascending track in the bottle lid vibration dish, the bottle that the gaikou in the front can pass through smoothly in the spiral bottle lid ascending track the second screening structure reachs in the bottle lid slide.

Further, the second screening structure includes along a pair of second string rails that spiral type bottle lid ascending track goes out lid end port outer wall spiral extension, wherein, when screening the gaikou orientation of bottle lid, the bottle lid that the lid top was in the front gaikou back in the spiral type bottle lid ascending track through be located the flange of bottle lid mouth portion hang in between a pair of second string rails, a pair of second string rails will the bottle lid that the lid top was in the front in the spiral type bottle lid ascending track keeps off back in the bottle lid vibration dish.

Further, when the bottle cap conveying rail conveys the bottle caps screened by the pair of second hanging rails, the conveying direction of the bottle cap conveying rail is consistent with the direction of cap openings of the bottle caps.

Furthermore, the bottle turning and conveying mechanism comprises a first turning plate which can be turned and a first cylinder for driving the first turning plate to turn, and a first receiving groove for receiving the bottles is formed in the first turning plate.

Further, the upset subassembly includes that the second that can overturn turns over the board and is used for the drive the second turns over the second cylinder that the board upset, the second turns over and is equipped with the second that is used for accepting the bottle lid and accepts the groove, vacuum negative pressure adsorbs the unit and includes vacuum generating device, wherein, the second accept the inslot be equipped with a plurality of with the aspirating hole of vacuum generating device intercommunication.

Furthermore, above-mentioned filling gland linked machine still includes discharging device, wherein, filling device, capping device, discharging device encircle circular carousel sets gradually, discharging device is including being used for following the gel bottle fortune push pedal that releases in the bottle groove with be used for the drive dial the ejection of compact cylinder of push pedal action.

The utility model discloses following technological effect has:

(1) the utility model provides a can realize the automatic feeding of bottle through the reason bottled putting, can realize the automatic feeding of bottle lid through the reason lid device, turn over through the bottle and send the mechanism and can make the bottle with bottleneck erect the gesture up by the transport bottle groove on propelling movement to circular carousel in, and then be convenient for realize the automatic filling of material, turn over through the bottle lid and send the mechanism and can guarantee that the bottle lid falls on the bottle with the gesture of erectting that the gai kou faces down and be convenient for realize the automatic gland of bottle lid, the utility model provides the high degree of automation of dysmorphism gel bottle in whole filling gland production process has reduced artifical participation, can not only enough use manpower input, reduce cost, can also promote efficiency.

(2) The utility model discloses in bottle arrangement device's setting not only can be automatically with orderly transport to bottle delivery track of bottle on, can also unify the screening to the bottleneck orientation of carrying the bottle, for the later bottle upset provides reliable guarantee with automatic filling, the setting of bottle arrangement device not only can be automatically with orderly transport to bottle lid delivery track of bottle lid on, can also unify the screening to the gaikou orientation of carrying the bottle lid, provides reliable guarantee for the later bottle lid upset and automatic gland.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 shows a specific structure of a profiled gel bottle;

fig. 2 is a schematic structural diagram of a filling and capping linkage machine suitable for a special-shaped gel bottle according to an embodiment of the present invention;

FIG. 3 shows a specific structure of the bottle unscrambling device; and

fig. 4 shows a specific structure of the cap arranging device.

Description of the reference numerals

1. A filling device; 2. A capping device;

31. a bottle body conveying track; 32. A bottle cap conveying track;

33. a circular conveying track; 331. A circular turntable;

332. a bottle conveying groove; 333. A base;

4. a bottle arranging device; 41. A bottle body vibrating tray;

42. a screw-type bottle body rising rail; 43. A bottle body slideway;

44. a first hanging rail; 5. A cap arranging device;

51. a bottle cap vibrating tray; 52. A screw-type bottle cap ascending rail;

53. a bottle cap slide way; 54. A second hanging rail;

6. a discharging device; 61. Pulling a push plate;

62. and a discharging cylinder.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 2, the utility model discloses a filling gland linkage machine suitable for dysmorphism gel bottle, including filling device 1, capping device 2 and conveying unit, conveying unit includes circular delivery track 33 and is located respectively the bottle delivery track 31, the bottle lid delivery track 32 of circular delivery track 33 both sides.

As shown in fig. 2, the circular conveying track 33 includes a rotatable circular turntable 331, a base 333 disposed below the circular turntable 331, and a servo driving unit for driving the circular turntable 331 to rotate, wherein the servo driving unit is a servo motor, a plurality of bottle transporting slots 332 for locking the bottles are disposed at an edge of the circular turntable 331, and the plurality of bottle transporting slots 332 are disposed at equal intervals in a circumferential direction of the circular turntable 331.

The filling device 1 and the capping device 2 are arranged around the circular turntable 331, the filling device 1 is used for automatically filling the bottles in the bottle conveying groove 332 with materials, the capping device 2 is used for automatically capping the bottles in the bottle conveying groove 332 with caps, and when the capping device 2 caps, the base 333 supports and holds the bottles.

The utility model discloses a filling gland linked gear suitable for dysmorphism gel bottle is still including reason bottled putting 4, setting and is in the terminal bottle of bottle delivery track 31 turns over and send mechanism, reason lid device 5 and set up the terminal bottle lid of bottle lid delivery track 32 turns over and send the mechanism.

The bottle arranging device 4 is used for arranging the bottles and conveying the bottles with the consistent bottle mouth orientations to the bottle conveying rails 31 in a lying posture in order, the bottle arranging device 4 comprises a bottle vibrating disk 41 and a first vibration excitation part arranged below the bottle vibrating disk 41 and used for driving the bottle vibrating disk 41 to act, and the first vibration excitation part adopts a vibration motor.

The inner wall of the bottle body vibration disc 41 is provided with a spiral bottle body ascending rail 42, the outer side of the upper portion of the bottle body vibration disc 41 is provided with a bottle body slide rail 43, one end of the bottle body slide rail 43 is connected with the bottle outlet end of the spiral bottle body ascending rail 42, the other end of the bottle body slide rail 43 is connected with the bottle body conveying rail 31, and the bottle outlet end of the spiral bottle body ascending rail 42 is provided with a first screening structure for screening the bottle mouth orientation of the bottle body.

The first screening structure is used for blocking the bottle body with the front bottle bottom and the rear bottle mouth in the spiral bottle body ascending rail 42 back to the bottle body vibration disc 41, and the bottle body with the front bottle bottom and the rear bottle mouth in the spiral bottle body ascending rail 42 can smoothly pass through the first screening structure and reach the bottle body slide rail 43.

Specifically, as shown in fig. 3, the first screening structure includes a pair of first hanging rails 44 spirally extending along the outer wall of the outlet port of the spiral-type bottle body ascending rail 42. When the bottle mouth directions of the bottle bodies are screened, the bottle bodies with the bottle mouths at the front and the back of the bottle bottoms in the spiral bottle body ascending rails 42 are suspended between the pair of first hanging rails 44 through the flanges at the bottle body bottoms and sequentially reach the bottle body slide rails 43 through the pair of first hanging rails 44; the pair of first hanging rails 44 block the bottle bodies in the spiral bottle body ascending rail 42, the bottle bodies having the bottoms at the front and the mouths at the rear, back into the bottle body vibration tray 41.

When the bottle body with the bottle mouth at the front and the bottle bottom at the back in the spiral bottle body ascending rail 42 reaches the pair of first hanging rails 44, the bottle mouth end is firstly inserted between the pair of first hanging rails 44 and then hung on the pair of first hanging rails 44 through the flange at the bottom of the bottle body; when the bottle body with the front bottom and the rear bottom among the spiral bottle body ascending rails 42 reaches the pair of first hanging rails 44, the bottle bottom end cannot be inserted between the pair of first hanging rails 44 due to the presence of the flange at the bottom of the bottle body, and thus the bottle body can only fall back into the bottle body vibration tray 41.

The pair of first hanging rails 44 are two thick iron wires welded to the bottle body vibration plate 41.

The utility model provides a first screening structure has simple structure, convenient and practical's characteristics, and can guarantee to screen out the bottle of bottleneck orientation inconsistent completely to keep off back in bottle vibration dish.

In order to improve the smoothness of the movement of the bottles in the bottle body slide 43, the engaging end of the bottle body slide 43 engaged with the bottle outlet end of the screw-type bottle body ascending rail 42 is higher than the engaging end engaged with the bottle body conveying rail 31.

Further, in order to facilitate the bottle bodies to be turned to the upright posture that the bottle openings face upwards, when the bottle bodies are conveyed by the bottle body conveying rails 31 after being screened by the pair of first hanging rails 44, the conveying direction of the bottle body conveying rails 31 is opposite to the direction of the bottle openings of the bottle bodies.

Reason lid device 5 is arranged in order the bottle lid and carries the lid mouth orientation unanimous bottle lid with the flat gesture of lying in order extremely in bottle lid delivery track 32, reason lid device 5 includes bottle lid vibration dish 51 and locates bottle lid vibration dish 51 below is used for driving the second excitation part of bottle lid vibration dish 51 action, the second excitation part adopts vibrating motor.

Be equipped with spiral bottle lid track 52 that rises on the inner wall of bottle lid vibration dish 51, the upper portion outside of bottle lid vibration dish 51 is equipped with bottle lid slide 53, the one end of bottle lid slide 53 with spiral bottle lid track 52 that rises goes out the lid end and links up, the other end of bottle lid slide 53 links up with bottle lid delivery track 32, spiral bottle lid track 52 that rises goes out the lid end and is equipped with the second screening structure that is used for carrying out the screening to the gaikou orientation of bottle lid.

The bottle caps with the openings at the front and the back in the spiral bottle cap ascending rail 52 are blocked back to the bottle cap vibration disk 51 by the second screening structure, and the bottle bodies with the openings at the front and the back in the spiral bottle cap ascending rail 52 can smoothly pass through the second screening structure and reach the bottle cap slide 53.

Specifically, as shown in fig. 4, the second screening structure includes a pair of second hanging rails 54 spirally extending along the outer wall of the cap outlet end port of the spiral-type bottle cap ascending rail 52. When the cap openings of the bottle caps are screened, the bottle caps, which are pushed against the front cap opening and are behind, in the spiral bottle cap ascending rail 52 are suspended between the pair of second hanging rails 54 through the flanges located at the cap opening parts of the bottle caps and sequentially reach the bottle cap slide 53 through the pair of second hanging rails 54; the pair of second hanging rails 54 keep the bottle caps whose mouths are at the front and back of the screw-type bottle cap ascending rails 52 back in the bottle cap vibrating tray 51.

When the bottle cap with the cap top at the front cap opening in the spiral bottle cap ascending rail 52 reaches the pair of second hanging rails 54, the cap top is firstly inserted between the pair of second hanging rails 54 and then hung on the pair of second hanging rails 54 through the flange at the cap opening part of the bottle cap; when the bottle cap with its mouth on the front cap top in the spiral bottle cap ascending rail 52 reaches the pair of second hanging rails 54, the mouth end cannot be inserted between the pair of second hanging rails 54 due to the presence of the flange at the mouth part of the bottle cap, and thus the bottle cap can only fall back into the bottle cap vibrating plate 51.

The pair of second hanging rails 54 is specifically two thick iron wires welded to the bottle cap vibration plate 51.

The utility model provides a second screening structure has simple structure, convenient and practical's characteristics equally to can guarantee to screen out the inconsistent bottle lid of lid mouth orientation completely, and keep off back in bottle lid vibration dish.

In order to improve the smoothness of the movement of the bottle caps in the bottle cap slide 53, the coupling end of the bottle cap slide 53 coupled to the cap outlet end of the screw type bottle cap raising rail 52 is higher than the coupling end coupled to the bottle cap conveying rail 32.

Further, in order to facilitate the bottle caps to be turned to the vertical posture that the cap openings face downwards, when the bottle cap conveying rails 32 convey the bottle caps screened by the pair of second hanging rails 54, the conveying direction of the bottle cap conveying rails 32 is consistent with the cap opening direction of the bottle caps.

The bottle overturning and conveying mechanism is used for clamping bottles lying at the tail end of the bottle conveying track 31 into the bottle conveying groove 332 one by one in an overturning mode to a vertical posture that a bottle opening faces upwards, and comprises a first overturning plate capable of overturning and a first cylinder used for driving the first overturning plate to overturn, a first receiving groove used for receiving the bottles is formed in the first overturning plate, and a supporting block used for preventing the bottles from falling in the overturning process is arranged in the first receiving groove.

The first turning plate is provided with a bottle receiving position which is connected with the bottle conveying track 31 and is in a horizontal state and a bottle sending position which is used for clamping the bottles into the bottle conveying groove 332 and is in a vertical state, and the first turning plate realizes turnover switching between the bottle receiving position and the bottle sending position through the driving of the first air cylinder. When the first turning plate is located at the bottle feeding position in a vertical state, the support block is located at the bottom of the first bearing groove.

The front end of a piston rod of the first cylinder is hinged with the first turning plate.

The bottle cap overturning and conveying mechanism comprises an overturning assembly and a vacuum negative pressure adsorption unit, the overturning assembly is used for overturning the bottle cap, lying at the tail end of the bottle cap conveying track 32, to the vertical posture with the cap opening facing downwards, the overturning assembly comprises a second overturning plate capable of overturning and a second cylinder used for driving the second overturning plate to overturn, a second receiving groove used for receiving the bottle cap is formed in the second overturning plate, the vacuum negative pressure adsorption unit comprises a vacuum generating device, and a plurality of air suction holes communicated with the vacuum generating device are formed in the second receiving groove.

The second turning plate is provided with a cover receiving position for receiving the bottle cover in a horizontal state and a cover conveying position in a vertical state, the second turning plate is driven by a second air cylinder to realize turning switching between the cover receiving position and the cover conveying position, and the front end of a piston rod of the second air cylinder is hinged with the second turning plate.

When the bottle cap is received by the second turning plate, the vacuum generating device works to adsorb and fix the bottle cap, the bottle cap turned by the bottle cap turning mechanism is located right above the bottle conveying groove 332, and the vacuum generating device stops pumping air after the bottle cap is turned so that the bottle cap can fall on the bottle opening of the bottle body by means of self weight, and then the bottle body is covered.

As shown in fig. 2, the filling and capping linkage machine of the present invention further comprises a discharging device 6. The filling device 1, the capping device 2 and the discharging device 6 are sequentially arranged around the circular turntable 331, and the discharging device 6 comprises a pushing plate 61 for pushing out a gel bottle (manufactured product) from the bottle conveying groove 332 and a discharging cylinder 62 for driving the pushing plate 61 to act.

The poking and pushing plate 61 is located above the edge portion of the circular rotating disc 331, the poking and pushing plate 61 can horizontally move through the driving of the discharging air cylinder 62, so that the gel bottles in the bottle conveying groove 332 can be pushed out from the bottle conveying groove 332, and the discharging device 6 can automatically discharge the manufactured products.

The present invention will be described in further detail with reference to specific working processes.

Firstly, manually putting a large number of bottles and bottle caps into the bottle body vibration disc and the bottle cap vibration disc respectively, enabling the bottles in the bottle body vibration disc to reach a first screening structure through the spiral bottle body ascending rail under the action of a first vibration excitation part, enabling the bottles screened by the first screening structure to reach the bottle body conveying rail through the bottle body slide rail, and enabling the bottles lying down to be overturned to be clamped into a bottle conveying groove of the circular rotary disc in an upright posture that a bottle mouth faces upwards through the bottle body overturning and conveying mechanism after the bottles reach the tail end of the bottle body conveying rail;

then, the bottles clamped in the bottle conveying grooves reach a filling station through the rotation of the circular turntable, and are automatically filled by a filling device;

after filling, the bottle body filled with the materials rotates to a bottle body upper cover station along with the circular rotary table (before that, the bottle cover in the bottle cover vibration disc reaches a second screening structure through the spiral bottle cover ascending rail under the action of a second vibration excitation part, the bottle cover screened by the second screening structure reaches a bottle cover conveying rail through a bottle cover slide rail, and after reaching the tail end of the bottle cover conveying rail, the bottle cover lying down is turned to a vertical posture that the cover opening faces downwards through a bottle cover turning mechanism), and at the moment, the vacuum generating device stops air suction to enable the bottle cover to freely fall onto the bottle opening of the bottle body;

then, the bottle body with the bottle cap reaches a capping station along with the rotation of the circular turntable and is automatically capped by a press fitting device;

after the capping is finished, the gel bottle reaches the discharging station along with the rotation of the circular rotating disc, and the gel bottle clamped in the bottle conveying groove is pushed out by the discharging device.

The utility model provides a can realize the automatic feeding of bottle through the reason bottled putting, can realize the automatic feeding of bottle lid through the reason lid device, turn over through the bottle and send the mechanism and can make the bottle with bottleneck erect the gesture up by the transport bottle groove on propelling movement to circular carousel in, and then be convenient for realize the automatic filling of material, turn over through the bottle lid and send the mechanism and can guarantee that the bottle lid falls on the bottle with the gesture of erectting that the gai kou faces down and be convenient for realize the automatic gland of bottle lid, the utility model provides the high degree of automation of dysmorphism gel bottle in whole filling gland production process has reduced artifical participation, can not only enough use manpower input, reduce cost, can also promote efficiency.

The utility model discloses in bottle arrangement device's setting not only can be automatically with orderly transport to bottle delivery track of bottle on, can also unify the screening to the bottleneck orientation of carrying the bottle, for the later bottle upset provides reliable guarantee with automatic filling, the setting of bottle arrangement device not only can be automatically with orderly transport to bottle lid delivery track of bottle lid on, can also unify the screening to the gaikou orientation of carrying the bottle lid, provides reliable guarantee for the later bottle lid upset and automatic gland.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A filling and capping linkage machine suitable for special-shaped gel bottles comprises a filling device (1), a capping device (2) and a conveying unit, and is characterized in that the conveying unit comprises a bottle body conveying track (31), a bottle cap conveying track (32) and a circular conveying track (33); the circular conveying track (33) comprises a rotatable circular turntable (331) and a servo driving part for driving the circular turntable (331) to rotate, wherein a plurality of bottle conveying grooves (332) for clamping the bottle bodies are formed in the edge of the circular turntable (331), and the bottle conveying grooves (332) are arranged at equal intervals in the circumferential direction of the circular turntable (331); the filling device (1) and the capping device (2) are arranged around the circular turntable (331);

the filling gland linkage machine further comprises:

the bottle arranging device (4) is used for arranging the bottles and conveying the bottles with consistent bottle mouth orientation to the bottle conveying track (31) in a lying posture in order;

the cap arranging device (5) is used for arranging the caps and conveying the caps with consistent cap opening directions to the cap conveying track (32) in a lying posture in order;

the bottle body overturning and conveying mechanism is arranged at the tail end of the bottle body conveying track (31) and is used for pushing the bottle bodies lying at the tail end of the bottle body conveying track (31) into the bottle conveying groove (332) in a vertical posture that the bottle openings are turned upwards; and

the bottle cap turning and conveying mechanism is arranged at the tail end of the bottle cap conveying track (32) and comprises a turning assembly and a vacuum negative pressure adsorption unit, the turning assembly is used for turning the bottle caps lying at the tail end of the bottle cap conveying track (32) to a vertical posture that the cap openings face downwards, the vacuum negative pressure adsorption unit is used for fixing the bottle caps, and the bottle caps turned by the bottle cap turning and conveying mechanism are located right above the bottle conveying groove (332).

2. The filling and capping linkage machine suitable for the special-shaped gel bottles in claim 1 is characterized in that the bottle arranging device (4) comprises a bottle body vibration disk (41) and a first excitation part for driving the bottle body vibration disk (41) to act;

a spiral bottle body ascending rail (42) is arranged on the inner wall of the bottle body vibrating disk (41), a bottle body slide way (43) is arranged on the outer side of the upper part of the bottle body vibrating disk (41), one end of the bottle body slide way (43) is connected with the bottle outlet end of the spiral bottle body ascending rail (42), the other end of the bottle body slide way (43) is connected with the bottle body conveying rail (31), the bottle outlet end of the spiral bottle body ascending rail (42) is provided with a first screening structure for screening the bottle mouth orientation of the bottle body,

the bottle bodies with the bottle bottoms at the front and the bottle mouths at the back in the spiral bottle body ascending tracks (42) are blocked back to the bottle body vibration disc (41) by the first screening structures, and the bottle bodies with the bottle mouths at the front and the bottle bottoms at the back in the spiral bottle body ascending tracks (42) can smoothly pass through the first screening structures to reach the bottle body slide ways (43).

3. The filling and capping linkage machine for the special-shaped gel bottles as claimed in claim 2, wherein the first screening structure comprises a pair of first hanging rails (44) spirally extending along the outer wall of the outlet port of the spiral bottle body ascending rail (42), wherein when screening the orientation of the bottle mouth of the bottle body, the bottle body with the front bottle mouth at the back of the bottle bottom in the spiral bottle body ascending rail (42) is hung between the pair of first hanging rails (44) through a flange at the bottom of the bottle body, and the pair of first hanging rails (44) block the bottle body with the front bottle mouth at the bottom in the spiral bottle body ascending rail (42) back to the bottle body vibration tray (41).

4. The filling and capping linkage machine for the special-shaped gel bottles according to claim 3, wherein the bottle body conveying track (31) conveys the bottle bodies screened by the pair of first hanging rails (44) in a direction opposite to the bottle openings of the bottle bodies.

5. The filling and capping linkage machine suitable for the special-shaped gel bottles in the claim 1 is characterized in that the cap arranging device (5) comprises a bottle cap vibrating disk (51) and a second excitation part for driving the bottle cap vibrating disk (51) to move;

be equipped with spiral bottle lid track (52) that rises on the inner wall of bottle lid vibration dish (51), the upper portion outside of bottle lid vibration dish (51) is equipped with bottle lid slide (53), the one end of bottle lid slide (53) with the play lid end that spiral bottle lid rises track (52) links up, the other end and the bottle lid delivery track (32) of bottle lid slide (53) link up, the play lid end that spiral bottle lid rises track (52) is equipped with and is used for carrying out the second screening structure that screens to the lip orientation of bottle lid,

the bottle caps with the caps behind the caps in the front of the spiral bottle cap ascending tracks (52) are blocked back into the bottle cap vibration discs (51) by the second screening structures, and the bottle bodies with the caps behind the caps in the front of the spiral bottle cap ascending tracks (52) can smoothly pass through the second screening structures to reach the bottle cap slide ways (53).

6. The filling and capping linkage machine for the special-shaped gel bottles of claim 5, wherein the second screening structure comprises a pair of second hanging rails (54) spirally extending along the outer wall of the cap outlet end port of the spiral bottle cap ascending rail (52), wherein when screening the cap mouth orientation of the bottle caps, the bottle caps which are positioned at the back of the front cap mouth in the spiral bottle cap ascending rail (52) are hung between the pair of second hanging rails (54) through a flange positioned at the cap mouth part of the bottle caps, and the pair of second hanging rails (54) baffle the bottle caps which are positioned at the back of the front cap mouth in the spiral bottle cap ascending rail (52) back to the bottle cap vibrating disk (51).

7. The filling and capping linkage machine suitable for the special-shaped gel bottles in claim 6, wherein when the bottle cap conveying rails (32) convey the bottle caps screened by the second hanging rails (54), the conveying direction of the bottle cap conveying rails (32) is consistent with the capping direction of the bottle caps.

8. The filling and capping linkage machine suitable for the special-shaped gel bottles according to claim 4, wherein the bottle body turning and conveying mechanism comprises a first turning plate which can be turned and a first air cylinder for driving the first turning plate to turn, and a first receiving groove for receiving the bottle body is arranged on the first turning plate.

9. The filling and capping linkage machine suitable for the special-shaped gel bottles as claimed in claim 7, wherein the turnover assembly comprises a second turnover plate and a second cylinder, the second turnover plate is reversible, the second cylinder is used for driving the second turnover plate to turn over, a second receiving groove for receiving the bottle caps is arranged on the second turnover plate, the vacuum negative pressure adsorption unit comprises a vacuum generating device, and a plurality of air pumping holes communicated with the vacuum generating device are arranged in the second receiving groove.

10. The filling and capping linkage machine suitable for the special-shaped gel bottles in any one of claims 1 to 9, further comprising a discharging device (6), wherein the filling device (1), the capping device (2) and the discharging device (6) are sequentially arranged around the circular turntable (331), and the discharging device (6) comprises a poking and pushing plate (61) for pushing the gel bottles out of the bottle conveying groove (332) and a discharging air cylinder (62) for driving the poking and pushing plate (61) to act.

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