CN212711252U - Rotary feeding roller machine - Google Patents

Abstract

The utility model discloses a rotatory material loading cylinder machine relates to the loading attachment field, include drive arrangement, cylinder and connect the silo, wherein drive arrangement is connected with the cylinder and rotates around its self axis in order to drive the cylinder, and the cylinder has inner chamber and has deposited the material, is provided with planker and planker on the wall of inner chamber and can the bearing material. The utility model provides a drive arrangement can drive the cylinder and rotate, and the material has been piled up in the inner chamber of cylinder, the layer board that is located on the cylinder inner wall can rotate along with the cylinder, can drag the material of inner chamber to the planker when the planker is in the low department of inner chamber on, the material is followed the planker and is slided to the silo again after the eminence of inner chamber along with the planker removal to the material on, thereby the material loading in-process of material has been realized, the material loading in-process can effectively reduce the possibility of entangling each other between the material here, reduce the condition of collision wearing and tearing each other between the material and take place, make the material loading efficient high and safety.

Description

Rotary feeding roller machine

Technical Field

The utility model relates to a loading attachment's technical field particularly, indicates a rotatory material loading cylinder machine.

Background

On the production line of industrial production, conveyor is the key ring that keeps whole production line operation, and the mode that the processing material enters the conveyer on the production line generally has two kinds, one is through the artifical material loading of taking, one is through vibration dish material loading, and the mode of artifical material loading is inefficient, and is not suitable for the material that easily entangles each other when the vibration dish material loading.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at overcoming the not enough of prior art, provide a rotatory material loading cylinder machine to solve current loading attachment inefficiency and cause the problem of material mutual entanglement wearing and tearing easily.

The utility model provides a technical scheme that its technical problem adopted is:

the rotary feeding roller machine comprises a driving device;

the roller and the driving device enable the roller to rotate around a central axis of the roller, the roller is provided with an inner cavity, materials are stored in the inner cavity, and a dragging plate is arranged on the wall surface of the inner cavity and can support the materials;

the material receiving groove penetrates through the roller, and the dragging plate rotates and is lifted along with the roller, so that materials on the dragging plate can slide onto the material receiving groove and slide along the extending direction of the material receiving groove.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Further, the length direction of the carriage is the same as the axial direction of the roller, and the material receiving groove is located on the axial line in the roller.

Furthermore, the planker is articulated with the inner wall of inner chamber so that the angle of planker and inner wall of inner chamber is variable, the planker is provided with a plurality ofly, a plurality ofly the planker is around the inner wall circumference of inner chamber sets up.

Furthermore, the driving device comprises two transmission shafts which are arranged in parallel and are positioned at the same height, the roller is erected on the two transmission shafts, and the two transmission shafts rotate to drive the roller to rotate.

The transmission shaft is erected on the transmission base through the shaft body support, and the synchronous belt is sleeved with the same end of the two transmission shafts.

Furthermore, the device also comprises a speed reducing motor and an idler wheel, wherein the output end of the synchronous motor is connected with a synchronous wheel, and the synchronous wheel and the idler wheel are also sleeved with the synchronous belt.

Furthermore, the transmission shaft is sleeved with a supporting roller, and the supporting roller is made of polyurethane.

Further, still include support column and pillar fixing base, connect the silo setting to be in on the pillar fixing base, the support column is used for supporting the pillar fixing base.

Further, the bottom of receiving the silo is provided with directly shakes, directly shake and be used for driving to be located connect the material in the silo to remove along the extending direction who connects the silo.

Furthermore, the tail end of the material receiving groove is connected with a feeding pipe, and a blowing nozzle is arranged at the joint of the feeding pipe and the material receiving groove.

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

the utility model provides a drive arrangement can drive the cylinder and rotate, and the material has been piled up in the inner chamber of cylinder, the layer board that is located on the cylinder inner wall can rotate along with the cylinder, can drag the material of inner chamber to the planker when the planker is in the low department of inner chamber on, the material is followed the planker and is slided to the silo again after the eminence of inner chamber along with the planker removal to the material on, thereby the material loading in-process of material has been realized, the material loading in-process can effectively reduce the possibility of entangling each other between the material here, reduce the condition of collision wearing and tearing each other between the material and take place, make the material loading efficient high and safety.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings 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 some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the present invention;

fig. 2 is a schematic view of the drum of the present invention;

fig. 3 is a schematic view of the driving device of the present invention;

fig. 4 is a schematic view of the receiving trough of the present invention.

Wherein the figures include the following reference numerals: 100-driving device, 110-transmission shaft, 120-shaft body support, 130-transmission base, 140-synchronous belt, 150-speed reduction motor, 160-synchronous wheel, 170-idle wheel, 180-supporting roller, 200-roller, 210-carriage, 300-material receiving groove, 310-supporting column, 320-supporting column fixing seat, 330-vertical vibration, 340-material feeding pipe and 350-air blowing nozzle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are merely exemplary of the invention and are not intended to be exhaustive. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

a rotary feeding roller machine is shown in fig. 1 and comprises a driving device 100, a roller 200 and a material receiving groove 300, wherein the driving device 100 is connected with the roller 200 to drive the roller 200 to rotate around the central axis of the roller 200, the roller 200 is provided with an inner cavity, materials are stored in the inner cavity, a dragging plate 210 is arranged on the wall surface of the inner cavity, and the dragging plate 210 can support the materials.

Foretell drive arrangement 100 can drive cylinder 200 and rotate, and the material has been piled up in the inner chamber of cylinder 200, the layer board that is located on the cylinder 200 inner wall can rotate along with cylinder 200, can drag the material of inner chamber to planker 210 when planker 210 is in the low department of inner chamber on, the material slides down to receiving groove 300 on planker 210 again along with planker 210 removal to the eminence of inner chamber after the material, thereby the material loading in-process of material has been realized, at this material loading in-process can effectively reduce the mutual wearing and tearing collision between the material, make material loading efficient high and safety.

It should be noted that, in order to smoothly drag the material in the drum 200 to the carriage 210, a certain amount of material should be piled up in the drum 200, so that the probability of dragging the material to the carriage 210 is higher each time the carriage 210 is at a lower position of the inner cavity.

As a preferred embodiment of the present embodiment, as shown in fig. 2, the pallet is disposed in such a manner that its longitudinal direction is the same as the axial direction of the drum 200. For example, when the roller 200 rotates clockwise, when the carriage 210 is located at the lowest position in the roller 200, when any one material is located on the board surface on the right side of the carriage 210, it means that the carriage 210 drags the material onto the carriage 210, when the carriage 210 rotates along with the roller 200, the material can be driven to be lifted, when the carriage is lifted to a certain height to incline to the tray, the material located on the carriage 210 can slide down from the carriage 210 to the receiving groove 300, and therefore the material loading process is achieved.

As an optimized implementation manner of the present embodiment, as shown in fig. 2, an included angle between the carriage 210 and the inner wall of the inner cavity can be adjusted according to actual conditions, specifically, the carriage 210 is hinged to the inner wall of the inner cavity so as to make the angle between the carriage 210 and the inner wall of the inner cavity variable,

for example, when the carriage 210 is perpendicular to the inner wall of the cavity, the material on the carriage 210 will begin to slide off the carriage 210 when the carriage 210 is beyond the nine o' clock position. Certainly, in order to strengthen the fixing effect of the carriage 210 on the material, the included angle between the carriage 210 and the inner wall of the inner cavity can be set to be less than 90 degrees, so that the carriage 210 can clamp the material between the carriage 210 and the inner wall of the inner cavity to ensure that the material cannot slide off the carriage 210 in the lifting process, and correspondingly, the position of the carriage 210 at least needs to exceed 9 o' clock direction, and then the material can slide off the carriage 210. Therefore, the included angle between the carriage 210 and the inner wall of the inner cavity is smaller, the material fixing effect is better, and correspondingly, the carriage 210 needs to be moved to a higher position to enable the material to slide on the carriage 210.

Since the angle of the carriage 210 is variable, the position of the receiving trough 300 should be adjusted according to the angle of the carriage 210, for example, when the carriage 210 moves to the top of the inner cavity, the material slides on the carriage 210, and then the receiving trough 300 should be arranged on the central axis of the roller 200. In the practical application process, the installation position of the receiving chute 300 can be determined by observing the position where the material slides off the carriage 210.

As an optimized implementation manner of the present embodiment, as shown in fig. 3, the driving device 100 includes two transmission shafts 110 disposed in parallel and at the same height, the drum 200 is mounted on the two transmission shafts 110, and the two transmission shafts 110 can drive the drum 200 to rotate.

In order to keep the rotation process of the drum 200 stable, a shaft bracket 120, a transmission base 130 and a timing belt 140 are further provided in this embodiment, the two transmission shafts 110 are mounted on the transmission base 130 through the shaft bracket 120, the timing belt 140 is sleeved in the same end portions of the two transmission shafts 110, and the two transmission shafts 110 can rotate simultaneously by the timing belt 140.

Correspondingly, the embodiment further comprises a speed reducing motor 150 and an idler 170, the output end of the synchronous motor is connected with a synchronous wheel 160, the synchronous wheel 160 is also sleeved with a synchronous belt 140, the synchronous wheel 160 is driven to rotate so as to drive the synchronous belt 140 to rotate, and further the two transmission shafts 110 sleeved with the synchronous belt 140 can also rotate, the idler 170 is arranged so as to enable the synchronous belt 140 to be more compact, the transmission efficiency of the two transmission shafts 110 to be higher, the rotating speed of the speed reducing motor 150 is variable, and the rotating speed of the two transmission shafts 110 is also variable.

As an optimized implementation manner of this embodiment, the supporting roller 180 is sleeved on the transmission shaft 110, the supporting roller 180 is disposed to prevent the transmission shaft 110 from being worn due to the direct contact between the roller 200 and the transmission shaft 110, and the supporting roller 180 is made of polyurethane, which has a low cost and can be directly replaced after being worn.

As an optimized implementation manner of this embodiment, as shown in fig. 4, a support column 310 and a support column fixing base 320 are further provided, the material receiving tank 300 is disposed on the support column fixing base 320, the support column 310 is used for supporting the support column fixing base 320, the support column fixing base 320 is supported by the support column 310, and then the material receiving tank 300 is supported so as to be capable of being inserted into the drum 200.

As an optimized implementation manner of this embodiment, the bottom of the receiving trough 300 is provided with a direct vibration 330, and the direct vibration 330 is used to drive the material in the receiving trough 300 to move along the extending direction of the receiving trough 300.

The straight vibration 330 is a linear vibrator which can move the material dropped into the receiving chute 300 in the extending direction of the receiving chute 300, and accordingly, the receiving chute 300 should have a certain inclination angle so that the material can slide.

As the optimized implementation mode of this embodiment, connect the end connection of silo 300 to have conveying pipe 340, conveying pipe 340 is provided with blowing nozzle 350 with the junction that connects silo 300, blowing nozzle 350's the direction of giving vent to anger should be towards in conveying pipe 340, conveying pipe 340 is used for transporting the material that connects on the silo 300 to next mechanism, conveying pipe 340 adopts the hose to make it can buckle, and blowing nozzle 350 can accelerate the material from the speed that connects silo 300 to enter into in conveying pipe 340, the speed that makes the material transport is faster.

The utility model discloses a theory of operation:

the utility model can be applied to the automatic production line of the spring processing industry in the actual production, especially for the springs with large pitch, concretely, a certain number of springs are placed in the inner cavity of the roller 200, the speed reducing motor 150 adjusts the rotating speed to drive the synchronizing wheel 160 to rotate, then the two transmission shafts 110 are driven to rotate through the synchronous belt 140, the roller 200 erected on the transmission shafts 110 also starts to rotate at the moment, the roller 200 can select clockwise rotation or anticlockwise rotation, when the planker 210 in the roller 200 is at a low position, a certain spring is clamped between the inner wall of the pallet and the inner cavity, the spring can be lifted along with the continuous rotation of the roller 200, when the spring on the planker 210 is lifted to a certain height, the spring on the planker 210 slides down to the receiving groove 300, the direct vibration 330 at the bottom of the receiving groove 300 can drive the spring falling into the receiving groove 300 to move along the extending direction of the receiving groove 300, until the spring enters the feeding pipe 340 connected with the receiving groove 300, the blowing nozzle 350 at the connection part of the receiving groove 300 and the feeding pipe 340 can accelerate the speed of the spring passing through the feeding pipe 340, and the other end of the feeding pipe 340 is connected with the next processing station. The process is the process of spring material loading and transporting to next processing agency promptly, compares in ordinary vibration material loading mode, can effectively reduce the possibility of mutual entanglement between the large pitch spring, has improved material loading efficiency, has reduced the mutual wearing and tearing between the spring. The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention.

Claims (10)

1. A rotary feeding roller machine is characterized by comprising

A drive device (100);

the roller (200) and the driving device (100) enable the roller (200) to rotate around the central axis of the roller, the roller (200) is provided with an inner cavity, materials are stored in the inner cavity, a dragging plate (210) is arranged on the wall surface of the inner cavity, and the dragging plate (210) can support the materials;

the material receiving groove (300) is arranged in the roller (200) in a penetrating mode, the dragging plate (210) rotates and is lifted along with the roller (200), and then materials located on the dragging plate (210) can slide onto the material receiving groove (300) and slide along the extending direction of the material receiving groove (300).

2. The rotary charging roller machine according to claim 1, wherein the length direction of the carriage (210) is the same as the axial direction of the roller (200), and the receiving groove (300) is located on the axial line in the roller (200).

3. The rotary feeding roller machine according to claim 2, characterized in that the carriage (210) is hinged to the inner wall of the inner cavity so that the angle between the carriage (210) and the inner wall of the inner cavity is variable, the carriage (210) is provided in plurality, and the plurality of carriages (210) are circumferentially arranged around the inner wall of the inner cavity.

4. The rotary charging roller machine according to claim 1, characterized in that the driving device (100) comprises two transmission shafts (110) which are arranged in parallel and at the same height, the roller (200) is mounted on the two transmission shafts (110), and the two transmission shafts (110) can rotate to drive the roller (200) to rotate.

5. The rotary charging roller machine according to claim 4, further comprising a shaft body support (120), a transmission base (130) and a synchronous belt (140), wherein the two transmission shafts (110) are mounted on the transmission base (130) through the shaft body support (120), and the synchronous belt (140) sleeves the same end of the two transmission shafts (110).

6. A rotary charging roller machine according to claim 5, characterized by further comprising a reduction motor (150) and an idler (170), wherein the output end of the reduction motor (150) is connected with a synchronizing wheel (160), and the synchronizing wheel (160) and the idler (170) are also nested by the timing belt (140).

7. The rotary feeding roller machine as claimed in claim 4, wherein the transmission shaft (110) is sleeved with a support roller (180), and the support roller (180) is made of polyurethane.

8. The rotary charging drum machine according to claim 1, further comprising a support pillar (310) and a pillar fixing seat (320), wherein the receiving trough (300) is disposed on the pillar fixing seat (320), and the support pillar (310) is used for supporting the pillar fixing seat (320).

9. The rotary feeding roller machine as claimed in claim 1, wherein the receiving trough (300) is provided with a direct vibration (330) at the bottom, and the direct vibration (330) is used for driving the material in the receiving trough (300) to move along the extending direction of the receiving trough (300).

10. The rotary feeding roller machine as claimed in claim 9, wherein the end of the receiving groove (300) is connected with a feeding pipe (340), and a blowing nozzle (350) is arranged at the joint of the feeding pipe (340) and the receiving groove (300).

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