CN217893395U - Automatic bottle separation plate interval adjusting device for bottle collecting table - Google Patents

Abstract

The utility model discloses a collection bottle platform separates bottle board interval automatic regulating apparatus, include: the supporting seat is arranged on the bottle collecting platform assembly and is provided with a power part for outputting rotary power; the active driving screw rod and the passive driving screw rod are both rotatably arranged on the supporting seat and are connected with the power part; the middle spacing bottle plate is arranged on the guide shaft of the supporting seat and is positioned in the middle of the supporting seat; the first side bottle separating plate is in threaded connection with the active driving screw rod, and the second side bottle separating plate is in threaded connection with the passive driving screw rod, the second side bottle separating plate is located between the first side bottle separating plate and the middle bottle separating plate, the output of the power part is used for driving the second side bottle separating plate and the first side bottle separating plate to be close to or away from the middle bottle separating plate at the same time, the moving speed of the first side bottle separating plate is twice of the speed of the second side bottle separating plate, so that the distance between the first side bottle separating plate and the second side bottle separating plate and the distance between the second side bottle separating plate and the middle bottle separating plate are kept equal, and the problems of low switching precision and long debugging operation time are solved.

Description

Automatic bottle separation plate interval adjusting device for bottle collecting table

Technical Field

The utility model relates to an automatic equipment technical field, more specifically say, relate to a collection bottle platform separates bottle board interval automatic regulating apparatus.

Background

In the production, sterilization and storage packaging of large infusion, the same medicine product has a plurality of packaging forms: the packaging bag is characterized by comprising a circular glass bottle, a soft bag, a circular plastic bottle, a flat bottle and the like, and each packaging form also has various different volume specifications. Particularly, when vertical bags of circular plastic bottles and flat bottles are produced, due to the fact that bottle types are similar or slightly different, the states and conveying modes of products are different, the same set of post-packaging equipment can be shared for production in actual operation, and when specifications are switched for production, the arrangement structure on the bottle collecting table is prone to being not corresponding to the shape structure of the products.

At present, domestic products and specifications are still switched manually, the bottle separating plates are fixed on the adjusting cross braces through screws, fastening screws are loosened firstly, the space between the bottle separating plates is adjusted according to the size and the passing state of a bottle, the screws are tightened one by one, a plurality of bottle separating plates are tested again, and the bottle passes through the state and is adjusted in detail. Also can be through increasing the multiunit and separating the bottle board, according to different bottle type sizes, the bottle board that separates of preparation multiunit interval when changing the specification, separates the whole dismantlement of bottle board after will using, changes the bottle board that separates of other specifications. The whole cost is high, and the storage pressure is large.

The manual work switches product and specification, and the adjustment once needs to rotate hundreds of screws, and is slow, work load is big, and debugging work is consuming time long, and the manual regulation precision is low, and the adjustment is troublesome. The multiple groups of bottle separating plates are integrally replaced, the manufacturing cost is high, and when the specifications are replaced, multiple persons are required to work in a cooperative mode, and the speed is low.

In conclusion, how to avoid the problem of narrow application range of the bottle collecting table is an urgent problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a collection bottle platform separates bottle board interval automatic regulating apparatus, the device can be applicable to the product of multiple size type to realize the reinforcing to the suitable for the universality of different products.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model provides a collection bottle platform separates bottle board interval automatic regulating apparatus, includes:

the supporting seat is arranged on the bottle collecting platform assembly and is provided with a power part for outputting rotary power;

the driving screw rod and the driven screw rod are both rotatably arranged on the supporting seat and are connected with the power part;

the middle bottle separating plate is arranged on the guide shaft of the supporting seat and is positioned in the middle of the supporting seat;

the second side bottle separating plate is positioned between the first side bottle separating plate and the middle bottle separating plate, the output of the power part is used for driving the second side bottle separating plate and the first side bottle separating plate to be close to or away from the middle bottle separating plate at the same time, and the moving speed of the first side bottle separating plate is twice of that of the second side bottle separating plate, so that the distance between the first side bottle separating plate and the second side bottle separating plate and the distance between the second side bottle separating plate and the middle bottle separating plate are kept equal.

Preferably, the supporting seat is a U-shaped bracket, and both ends of the driving screw rod and the driven screw rod are rotatably mounted on two side plate bearing seats of the supporting seat;

the two sides of the middle separating bottle plate are respectively provided with the first side separating bottle plate and the second side separating bottle plate, the threads of the first side separating bottle plates positioned on the two sides of the middle separating bottle plate are opposite in rotating direction, and the threads of the second side separating bottle plates positioned on the two sides of the middle separating bottle plate are opposite in rotating direction.

Preferably, the first side bottle separating plate and/or the second side bottle separating plate are/is fixed with a screw nut, and are/is used for being correspondingly connected with the active driving screw rod and/or the passive driving screw rod through the screw nut.

Preferably, the guide shaft is sleeved with at least three bearings, and the at least three bearings are respectively used for correspondingly connecting the middle bottle separating plate, the first side bottle separating plate and/or the second side bottle separating plate.

Preferably, the middle partition bottle plate is sleeved on the unthreaded section on the active driving screw rod and/or the passive driving screw rod.

Preferably, at least two active driving screw rods and at least two passive driving screw rods are arranged along the length direction of the supporting seat, and the active driving screw rods and the passive driving screw rods are arranged in a one-to-one correspondence manner.

Preferably, at least two driving screw rods are arranged along the length direction of the supporting seat and connected through a synchronous belt device.

Preferably, the timing belt device includes:

the driving synchronous belt wheel is connected with one driving screw rod;

the passive synchronous belt wheel is connected with the other active driving screw rod;

the synchronous belt is sequentially wound on the driving synchronous belt pulley and the driven synchronous belt pulley, and the synchronous belt tensioning shaft is supported on the synchronous belt.

Preferably, the power unit includes:

the servo motor is fixed on a motor fixing plate arranged on the supporting seat;

and the input end of the transmission bevel gear is connected with the input end of the servo motor, and the output end of the transmission bevel gear is connected with the active driving screw rod.

Preferably, the passive driving screw rod is connected to the active driving screw rod through a speed change device to obtain power transmission of the power component, and the speed change device includes:

the driving gear is connected with the driving screw rod;

and the driven gear is in meshing transmission with the driving gear and is connected to the driven driving screw rod.

The utility model provides an in the scheme, lead screw through the drive difference rotates to a plurality of that the control is established ties and is set up separates the bottle board and carry out syntropy and not fast displacement, specifically can be single times and double relation etc. can realize adjusting the product through adjusting to the bottle board that separates of different positions and place the position size's purpose, thereby can realize the adjustment to the collection bottle bench waiting to operate the product specification, can obviously enlarge the suitability of collection bottle platform, and automatic switch's convenience.

Because the same power device is adopted to control the positions of all the bottle separating plates, the automatic adjustment and the accurate adjustment of the distance between the bottle separating plates are realized, the quick switching of the operation of products with different specifications and sizes can be realized, the procedures during specification replacement are reduced, the switching speed has advantages, the control logic operation mode is optimized, the operation mode can adapt to various different working conditions, the quick recovery production is ensured, the working time is saved, and the working efficiency is greatly improved. The problems of low manual regulation precision, low speed, large workload and long time consumption of debugging work when specifications are switched are solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic view of an automatic adjusting device for the distance between bottle separating plates of a bottle collecting table provided by the present application;

FIG. 2 is a right side view of FIG. 1;

FIG. 3 is a partial top view of FIG. 1;

fig. 4 is a right side sectional view of fig. 1.

In fig. 1-4, the reference numerals include:

the bottle collecting platform component 1, the bottle separating plate adjusting component 2 and the transmission component 3;

the device comprises a support base 2.1, a motor fixing plate 2.2, a servo motor 2.3, a transmission bevel gear 2.4, a driving screw rod 2.5, a bearing base 2.6, a driving gear 2.7, a driven gear 2.8, a driven screw rod 2.9, a screw rod nut 2.10, a side bottle separating plate 2.11, a linear bearing 2.12, a guide shaft 2.13 and a middle bottle separating plate 2.14;

a driving synchronous belt pulley 3.1, a synchronous belt 3.2, a synchronous belt tensioning shaft 3.3, a tensioning shaft bearing seat 3.4, a driven synchronous belt pulley 3.5, a position digital display 3.6, an adjusting handle 3.7 and a protective outer cover 3.8.

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.

The core of the utility model is to provide a collection bottle platform separates bottle board interval automatic regulating apparatus, the device can be applicable to the product of multiple size type to realize the reinforcing to the applicable extensive nature of different products.

Referring to fig. 1 to 4, the present application provides an automatic adjusting device for a distance between bottle separating plates of a bottle collecting table, which includes a bottle collecting table assembly 1 and a bottle separating plate adjusting assembly 2. Wherein, collection bottle platform subassembly 1 is the part for supporting, mainly used to the support of other structures, place and carry the product, separate bottle board adjusting part 2 and be used for realizing the adjustment to the product position, in some embodiments, if the number of separating bottle board adjusting part 2 on collection bottle platform subassembly 1 is not unique, then can set up drive assembly 3, drive assembly 3 is used for realizing the adjustment to different groups separate bottle board adjusting part 2 positions, in some embodiments, if only set up one or a set of separating bottle board adjusting part 2, then can not set up drive assembly 3.

The bottle collecting platform assembly 1 may be a flat plate type support or other type of support structure.

In a specific embodiment, the above-mentioned bottle partition plate adjusting assembly 2 comprises: the bottle separating device comprises a supporting seat 2.1, an active driving screw rod 2.5, a passive driving screw rod 2.9, a middle bottle separating plate 2.14, a first side bottle separating plate and a second side bottle separating plate.

Wherein, the supporting seat 2.1 is arranged on the bottle collecting platform component 1, and the supporting seat 2.1 is provided with a power part for outputting rotary power; the power component can be a power source such as a motor capable of outputting rotary motion or linear motion.

The active driving screw rod 2.5 and the passive driving screw rod 2.9 are both rotatably arranged on the supporting seat 2.1, and are specifically arranged on a bearing seat of the side plate, and the active driving screw rod 2.5 and the passive driving screw rod 2.9 are both connected with the power component and used for transmitting motion through power provided by the power component, wherein the active driving screw rod 2.5 and the passive driving screw rod 2.9 can be both directly connected with the output end of the power component, or the active driving screw rod 2.5 is directly connected with the output end of the power component, and the passive driving screw rod 2.9 is indirectly connected with the output end of the power component through the active driving screw rod 2.5 or is connected with the power component through other components so as to obtain power.

The middle separating bottle plate 2.14 is arranged on the guide shaft 2.13 of the supporting seat 2.1, and the middle separating bottle plate 2.14 can be sleeved outside the guide shaft 2.13 and is positioned in the middle of the supporting seat 2.1 to play a role in isolating the middle.

The first side bottle separating plate is in threaded connection with the active driving screw rod 2.5, and the second side bottle separating plate is in threaded connection with the passive driving screw rod 2.9. The second side bottle separating plate is located between the first side bottle separating plate and the middle bottle separating plate 2.14, that is, the second side bottle separating plate is arranged on the side portion of the middle bottle separating plate 2.14, and the first side bottle separating plate is arranged on the position, far away from the middle bottle separating plate 2.14, of the second side bottle separating plate. Optionally, a second side bottle separating plate may be disposed on each of two sides of the middle bottle separating plate 2.14, and a first side bottle separating plate may be disposed outside the second side bottle separating plate, i.e., at a position far from the middle bottle separating plate 2.14.

The output of the power component is used for driving the second side bottle separating plate and the first side bottle separating plate to simultaneously approach or simultaneously keep away from the middle bottle separating plate 2.14, and the moving speed of the first side bottle separating plate is twice of the speed of the second side bottle separating plate, so that the distance between the first side bottle separating plate and the second side bottle separating plate and the distance between the second side bottle separating plate and the middle bottle separating plate 2.14 are kept equal.

It can know that power unit connects initiative drive lead screw 2.5, passive drive lead screw 2.9 respectively, can drive the two and carry out the output of different speed, and initiative drive lead screw 2.5 is connected first side and is separated the bottle board, and passive drive lead screw 2.9 is connected second side and is separated the bottle board, and two sets of correspond the setting respectively to make, power unit can finally drive first side and separate the bottle board and the second side and separate the motion of bottle board syntropy simultaneously, nevertheless not equidistance. Specifically, the moving speed of the first side bottle separating plate can be twice as fast as that of the second side bottle separating plate, and no matter the first side bottle separating plate is close to or far from the middle bottle separating plate 2.14, the speeds of the first side bottle separating plate and the second side bottle separating plate are both twice, that is, the moving distance of the second side bottle separating plate close to the middle bottle separating plate 2.14 is X, the moving distance of the first side bottle separating plate close to the middle bottle separating plate is 2X, and the first side bottle separating plate and the middle bottle separating plate can move in the same direction and in different steps, so that the distance between the second side bottle separating plate and the middle bottle separating plate 2.14 is equal to that between the second side bottle separating plate and the first side bottle separating plate, and therefore the product width clamped between the second side bottle separating plate and the middle bottle separating plate 2.14 is controlled by the power component and is equal to that between the second side bottle separating plate and the first side bottle separating plate.

In the scheme that this application provided, lead screw through the drive difference rotates to control a plurality of that the series connection set up separates the bottle board and carries out syntropy and not fast displacement, specifically can be single time and double relation etc. can realize adjusting the product through the separation bottle board of adjusting to different positions and place the position and place the purpose of position size, thereby can realize the adjustment to the collection bottle bench treat the operation product specification, can obviously enlarge the suitability of collection bottle platform, and automatic switch's convenience.

Because the same power device is adopted to control the positions of all the bottle separating plates, the automatic adjustment and the accurate adjustment of the distance between the bottle separating plates are realized, the quick switching of the operation of products with different specifications and sizes can be realized, the procedures during specification replacement are reduced, the switching speed has advantages, the control logic operation mode is optimized, the operation mode can adapt to various different working conditions, the quick recovery production is ensured, the working time is saved, and the working efficiency is greatly improved. The problems of low manual regulation precision, low speed, large workload and long time consumption of debugging work when specifications are switched are solved.

On the basis of the above embodiment, the supporting base 2.1 is a U-shaped bracket, and both ends of the driving screw rod 2.5 and the driven screw rod 2.9 are rotatably mounted on two side plate bearing seats of the supporting base 2.1;

the two sides of the middle bottle separating plate 2.14 are both provided with a first side bottle separating plate and a second side bottle separating plate, the screw thread turning directions of the first side bottle separating plates positioned at the two sides of the middle bottle separating plate 2.14 are opposite, and the screw thread turning directions of the second side bottle separating plates positioned at the two sides of the middle bottle separating plate 2.14 are opposite.

The first side bottle partition plate and the second side bottle partition plate in the application are both side bottle partition plates 2.11, and are different in that the side bottle partition plates are relatively closer to or far away from the middle bottle partition plate 2.14.

The two sides of the middle bottle separating plate 2.14 are both provided with a first side bottle separating plate, and the outer sides of the two first side bottle separating plates are both provided with a second side bottle separating plate.

The screw thread turning directions of the two first side bottle separating plates are opposite, so that the active driving screw rod 2.5 drives the two first side bottle separating plates to move in opposite directions, namely, the distance between the active driving screw rod and the middle bottle separating plate 2.14 is reduced or the distance between the active driving screw rod and the middle bottle separating plate 2.14 is enlarged.

Similarly, the screw threads of the two second side bottle separating plates are arranged in opposite rotating directions, so that the driven screw rod 2.9 drives the two second side bottle separating plates to move in opposite directions, namely, the distance between the driven screw rod and the middle bottle separating plate 2.14 is reduced at the same time, or the distance between the driven screw rod and the middle bottle separating plate 2.14 is enlarged at the same time.

On the basis of the above embodiment, the first side bottle separating plate and/or the second side bottle separating plate are/is fixed with a screw rod nut 2.10, and are/is used for correspondingly connecting an active driving screw rod 2.5 and/or a passive driving screw rod 2.9 through the screw rod nut 2.10.

Optionally, the first side bottle separating plate and/or the second side bottle separating plate may be provided with a thread structure on an inner hole thereof, so as to ensure the certainty of the thread and reduce the possibility of error.

On the basis of the above embodiment, the guide shaft 2.13 is sleeved with at least three bearings, and the at least three bearings are respectively used for correspondingly connecting the middle bottle separating plate 2.14, the first side bottle separating plate and/or the second side bottle separating plate.

So that the middle bottle separating plate 2.14, the first side bottle separating plate and/or the second side bottle separating plate can be connected with the guide shaft 2.13, thereby further controlling the coaxiality of the movement of the middle bottle separating plate 2.14, the first side bottle separating plate and/or the second side bottle separating plate.

Alternatively, the three shafts can be mounted on the corresponding shafts instead of being mounted on the guide shafts 2.13, and the corresponding shafts are in a parallel or collinear structure.

Optionally, the middle partition bottle plate 2.14 is sleeved on the unthreaded section of the active driving screw rod 2.5 and/or the passive driving screw rod 2.9.

On the basis of the above embodiment, at least two active driving screws 2.5 and at least two passive driving screws 2.9 are arranged along the length direction of the supporting base 2.1, and the active driving screws 2.5 and the passive driving screws 2.9 are uniformly arranged in a corresponding manner.

On the basis of the above embodiment, at least two active driving screws 2.5 are arranged along the length direction of the support base 2.1 and connected through a synchronous belt device.

The synchronous belt device can reduce the dependence of at least two groups of active driving screw rods 2.5 on a driving applying device, namely, the synchronous motion of a plurality of groups of active driving screw rods 2.5 arranged in parallel can be obtained through one active driving screw rod 2.5.

On the basis of the above embodiment, the timing belt device includes: a driving synchronous pulley 3.1, a synchronous belt 3.2 and a driven synchronous pulley 3.5.

The driving synchronous pulley 3.1 is connected with one driving screw rod 2.5, the driven synchronous pulley 3.5 is connected with the other driving screw rod 2.5, the two driving screw rods 2.5 are driving screw rods of different groups, one group of driving screw rods 2.5 is a driving part connected with a power part, and the other group of driving screw rods is a driving screw rod with driven action of the former connected through a synchronous belt device.

The synchronous belt 3.2 is sequentially wound on the driving synchronous belt pulley 3.1 and the driven synchronous belt pulley 3.5, and the synchronous belt tensioning shaft 3.3 is supported on the synchronous belt 3.2.

The transmission assembly 3 specifically comprises a driving synchronous belt pulley 3.1, a synchronous belt 3.2, a synchronous belt tensioning shaft 3.3, a tensioning shaft bearing seat 3.4, a driven synchronous belt pulley 3.5, a position digital display 3.6, an adjusting handle 3.7 and a protective outer cover 3.8.

Specifically, a driving synchronous pulley 3.1 is installed on a driving screw rod 2.5 of the middle 1 group of the bottle separating plate adjusting assemblies 2, a driven synchronous pulley 3.5 is installed on a driving screw rod 2.5 of the adjacent left and right 2 groups of the bottle separating plate adjusting assemblies 2, and the driving synchronous pulley 3.1 and the driven synchronous pulley 3.5 on the adjacent 2 groups of the bottle separating plate adjusting assemblies 2 are connected and driven by a synchronous belt 3.2.

A U-shaped supporting seat 2.1 on one side of the bottle collecting table assembly 1 is provided with a tensioning shaft bearing seat 3.4, and a synchronous belt tensioning shaft 3.3 is arranged on the tensioning shaft bearing seat 3.4 to tension the synchronous belt. The outer side of the synchronous belt 3.2 is provided with a protective outer cover 3.8.

On the basis of any of the above embodiments, a manual adjusting device (e.g. an adjusting handle 3.7) and a position digital display 3.6 can be configured, and manual and automatic adjustment can be realized.

The multiple groups of bottle separating plate adjusting assemblies 2 penetrate through the side bottle separating plates 2.11 and the middle bottle separating plates 2.14 and are arranged on the bottle collecting platform assembly 1 in parallel. On will adjacent separate bottle board adjusting part 2 through multiunit drive assembly 3, there are 2 groups of drive assembly 3 on every group separates bottle board adjusting part 2, can pass the adjacent left and right sides of power transmission on 2 groups separate bottle board adjusting part 2, realize that a power supply passes through multiunit drive assembly 3, controls multiunit and separates the linkage of bottle board adjusting part 2.

On the basis of the above-described embodiment, the power unit comprises a servomotor 2.3 and a transmission bevel gear 2.4.

Wherein, the servo motor 2.3 is fixed on a motor fixing plate 2.2 arranged on the supporting seat 2.1;

and the input end of the transmission bevel gear 2.4 is connected with the input end of the servo motor 2.3, and the output end of the transmission bevel gear is connected with the active driving screw rod 2.5.

It should be noted that the main function of the transmission bevel gear 2.4 is to change the direction of the rotating shaft, so as to conveniently realize the layout relationship in the whole structure, and contribute to reducing the volume of the whole arrangement.

Optionally, the position digital display 3.6 and the adjusting handle 3.7 are mounted on another group of the bottle separating plate adjusting assemblies 2 adjacent to the bottle separating plate adjusting assembly 2 provided with the servo motor 2.3.

On the basis of the above embodiment, the passive driving screw rod 2.9 is connected with the active driving screw rod 2.5 through a speed change device to obtain the power transmission of the power component, and the speed change device comprises: the speed transmission relationship between the driving gear 2.7 and the driven gear 2.8 is integral multiple.

The driving gear 2.7 is connected with the driving screw rod 2.5;

the driven gear 2.8 is in meshed transmission with the driving gear 2.7, and the driven gear 2.8 is connected to the driven screw rod 2.9.

Optionally, the driving of the bottle separating plate can adopt the driving of executing elements such as a servo electric cylinder, an air cylinder, a cam and the like; the linkage of the plurality of rotating shafts can be realized by adopting a chain, a synchronous belt, a worm gear and the like.

In a particular embodiment of the present application,

the bottle collecting platform assembly 1 is a bottom supporting frame, at least two groups of bottle separating plate adjusting assemblies 2 can be installed above the bottle collecting platform assembly 1, at least two groups of transmission assemblies 3 can be selectively installed on the side portion of the bottle collecting platform assembly 1, at least two groups of bottle separating plate adjusting assemblies 2 are connected in series and linked, simultaneous and equidirectional but asynchronous adjustment of the single group of baffle plate adjusting assemblies 2 is achieved, and multiple groups of baffle plate adjusting assemblies 2 are simultaneously and equidirectionally synchronous adjustment.

Wherein, the support seat 2.1 can be two or more, install respectively in the both sides of album bottle platform subassembly 1, and install bearing frame 2.6 respectively, and active drive lead screw 2.5 and passive drive lead screw 2.9 are installed in the centre of two relative bearing frames 2.6, and optional, active drive lead screw 2.5 is located passive drive lead screw 2.9 top.

The active driving screw rod 2.5 is provided with 2 groups of screw rod nuts 2.10 on a left-handed screw and a right-handed screw of a positive screw respectively, a bottle separating plate at the first side is fixed on the screw rod nuts 2.10, the middle position of the active driving screw rod 2.5 is a polished rod without a thread structure, and the bottle separating plate 2.14 at the middle position of the active driving screw rod 2.5.

The passive driving screw rod 2.9 is respectively provided with 2 groups of screw rod nuts 2.10 on the left rotation of the positive screw and the right rotation of the negative screw, the bottle separating plate at the second side is fixed on the screw rod nuts 2.10, the middle position of the passive driving screw rod 2.9 is a polished rod without a threaded wire structure, and the bottle separating plate 2.14 at the middle position of the passive driving screw rod 2.9 is simultaneously arranged.

Two second side bottle separating plates arranged on the passive driving screw rod 2.9 are arranged at the left side and the right side of the middle bottle separating plate 2.14, and two side bottle separating plates 2.11 arranged on the active driving screw rod 2.5 are arranged at the outer sides of the two side bottle separating plates 2.11 arranged on the passive driving screw rod 2.9, namely the outermost side far away from the middle bottle separating plate 2.14.

The middle of the supporting seats 2.1 at the two sides of the bottle collecting platform component 1 is provided with a guide shaft 2.13, the guide shaft 2.13 penetrates through the bottle separating plates 2.11 at the sides and the bottle separating plates 2.14 at the middle parts, each bottle separating plate 2.11 at each side is provided with a linear bearing 2.12, and the linear bearings 2.12 are arranged on the guide shafts 2.13.

A motor fixing plate 2.2 is arranged on a supporting seat 2.1 at one side of a bottle collecting platform component 1, a servo motor 2.3 is arranged on the motor fixing plate 2.2, a transmission bevel gear 2.4 is arranged on the servo motor 2.3, the transmission bevel gear 2.4 is arranged at the head position at one side of an active driving screw rod 2.5, and the transmission bevel gear 2.4 is engaged for transmission, so that the power transmission effect on the active driving screw rod 2.5 is achieved.

When the device is used, the servo motor 2.3 drives the transmission bevel gear 2.4 to drive the driving screw rod 2.5 to rotate, and the driving gear 2.7 is meshed with the driven gear 2.8 to drive the driven screw rod 2.9 to rotate.

When the screw rod 2.5 is actively driven to rotate, torque is transmitted to the 2 groups of side bottle separating plates 2.11 through the screw rod nut 2.10, and because the linear bearing 2.12 is arranged on the side bottle separating plate 2.11, the linear bearing 2.12 can move along the direction of the guide shaft 2.13, so that the side bottle separating plates 2.11 are ensured to move in parallel along the direction of the guide shaft 2.13 without rotating. So that the 2 sets of side divider panels 2.11 will simultaneously move in parallel away from/towards the middle divider panel 2.14.

The number of teeth of the driving gear 2.7 is 1/2 times that of the driven gear 2.8, so that the driving screw rod 2.5 and the driving gear 2.7 rotate 360 degrees, and the driven screw rod 2.9 and the driven gear 2.8 rotate 180 degrees.

The screw pitches of the active driving screw rod 2.5, the passive driving screw rod 2.9 and the screw rod nut 2.10 are the same, and the rotation motion is converted into the movement of the screw rod nut 2.10, so that the horizontal movement distance of the bottle separating plate on the first side of the active driving screw rod 2.5 is 2 times that of the bottle separating plate on the second side of the passive driving screw rod 2.9.

In the using process, the middle bottle separating plate 2.14 is positioned at the center of the bottle collecting platform component 1, the position is unchanged, the positions of the screw rod nut 2.10 on the driving screw rod 2.5 and the driven screw rod 2.9 are adjusted according to the conveying width dimension specification of a bottle type to be produced by taking the middle bottle separating plate 2.14 as a reference, and then the first side bottle separating plate and the second side bottle separating plate are fixed on the screw rod nut 2.10.

When bottle types produced according to specifications need to be switched, the size difference is obtained by subtracting the conveying width sizes of the bottle types twice, and the size difference is converted into a rotation angle according to the screw pitch. A servo motor 2.3 is used for driving a driving screw rod 2.5 to rotate, and a side bottle separating plate 2.11 is driven to adjust the position to the interval of a proper bottle shape.

Servo motor 2.3 drives multiunit side and separates the bottle board and remove to suitable position, the settlement of the position of accomplishing promptly, and when needs adjustment, servo motor 2.3 drives multiunit side and separates the bottle board and remove, then accomplishes the adjustment.

Except for the automatic bottle separation plate spacing adjusting device of the bottle collecting table provided in the above embodiments, please refer to the prior art for the structure of other parts of the automatic bottle separation plate spacing adjusting device of the bottle collecting table, and details are not repeated herein.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

It is right above the utility model provides a collection bottle platform separates bottle board interval automatic regulating apparatus and has introduced in detail. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the scope of the appended claims.

Claims (10)

1. The utility model provides a collection bottle platform separates bottle board interval automatic regulating apparatus which characterized in that includes:

the supporting seat (2.1) is arranged on the bottle collecting table component (1) and is provided with a power part for outputting rotary power;

the driving screw rod (2.5) and the driven screw rod (2.9) are both rotationally arranged on the supporting seat (2.1) and are connected with the power part;

the middle spacing bottle plate (2.14) is arranged on the guide shaft (2.13) of the supporting seat (2.1) and is positioned in the middle position of the supporting seat (2.1);

the bottle separating device comprises a first side bottle separating plate in threaded connection with the active driving screw rod (2.5) and a second side bottle separating plate in threaded connection with the passive driving screw rod (2.9), wherein the second side bottle separating plate is located between the first side bottle separating plate and the middle bottle separating plate (2.14), the output of the power part is used for driving the second side bottle separating plate and the first side bottle separating plate to be close to or away from the middle bottle separating plate (2.14) at the same time, and the moving speed of the first side bottle separating plate is twice as fast as that of the second side bottle separating plate, so that the distance between the first side bottle separating plate and the second side bottle separating plate and the distance between the second side bottle separating plate and the middle bottle separating plate (2.14) are kept equal.

2. The automatic bottle collecting platform and bottle separating plate spacing adjusting device according to claim 1, characterized in that the supporting base (2.1) is a U-shaped bracket, and both ends of the active driving screw rod (2.5) and the passive driving screw rod (2.9) are rotatably mounted on two side plate bearing seats of the supporting base (2.1);

the first side bottle separating plate and the second side bottle separating plate are arranged on the two sides of the middle bottle separating plate (2.14), the screw thread turning directions of the first side bottle separating plate on the two sides of the middle bottle separating plate (2.14) are opposite, and the screw thread turning directions of the second side bottle separating plate on the two sides of the middle bottle separating plate (2.14) are opposite.

3. The automatic bottle collecting platform and bottle separating plate spacing adjusting device according to claim 2, wherein a lead screw nut (2.10) is fixed on each of the first side bottle separating plate and the second side bottle separating plate, and is used for correspondingly connecting the active driving lead screw (2.5) and/or the passive driving lead screw (2.9) through the lead screw nut (2.10).

4. The automatic bottle collecting platform and bottle separating plate spacing adjusting device according to claim 2, wherein the guide shaft (2.13) is sleeved with at least three bearings, and the at least three bearings are respectively used for correspondingly connecting the middle bottle separating plate (2.14), the first side bottle separating plate and/or the second side bottle separating plate.

5. The automatic bottle collecting platform and bottle separating plate distance adjusting device as claimed in claim 4, wherein the middle bottle separating plate (2.14) is sleeved on the non-threaded section of the active driving screw rod (2.5) and/or the passive driving screw rod (2.9).

6. The automatic bottle collecting platform and bottle separating plate spacing adjusting device according to claim 2, wherein at least two active driving screws (2.5) and at least two passive driving screws (2.9) are arranged along the length direction of the supporting seat (2.1), and the active driving screws (2.5) and the passive driving screws (2.9) are uniformly arranged in a corresponding manner.

7. The automatic bottle collecting platform and bottle separating plate spacing adjusting device as claimed in claim 6, wherein at least two active driving screws (2.5) arranged along the length direction of the supporting base (2.1) are connected through a synchronous belt device.

8. The apparatus of claim 7, wherein the synchronization belt device comprises:

a driving synchronous pulley (3.1) connected to one of the driving screws (2.5);

a passive synchronous belt wheel (3.5) connected to the other active driving screw rod (2.5);

and the synchronous belt (3.2) is sequentially wound on the driving synchronous belt pulley (3.1) and the driven synchronous belt pulley (3.5), and the synchronous belt tensioning shaft (3.3) is supported on the synchronous belt (3.2).

9. The automatic bottle collecting platform and bottle separating plate spacing adjusting device as claimed in any one of claims 1 to 8, wherein the power component comprises:

the servo motor (2.3) is fixed on a motor fixing plate (2.2) arranged on the supporting seat (2.1);

and the input end of the transmission bevel gear (2.4) is connected with the input end of the servo motor (2.3), and the output end of the transmission bevel gear is connected with the active driving screw rod (2.5).

10. The automatic bottle collecting platform and partition plate spacing adjustment device according to any one of claims 1 to 8, wherein the passive driving screw (2.9) is connected with the active driving screw (2.5) through a speed change device to obtain power transmission of the power component, and the speed change device comprises:

a driving gear (2.7) connected to the driving screw rod (2.5);

and the driven gear (2.8) is in meshed transmission with the driving gear (2.7), and the driven gear (2.8) is connected to the driven screw rod (2.9).

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