CN212040290U

CN212040290U - Material distributing mechanism

Info

Publication number: CN212040290U
Application number: CN202020286889.5U
Authority: CN
Inventors: 蔡峰
Original assignee: Suzhou Yutianwei Automation Technology Co ltd
Current assignee: Suzhou Yutianwei Automation Technology Co ltd
Priority date: 2020-03-10
Filing date: 2020-03-10
Publication date: 2020-12-01
Anticipated expiration: 2030-03-10

Abstract

The utility model discloses a feed mechanism. The material distribution mechanism comprises a lifting mechanism, a belt line, a material distribution cylinder and a material sensor, wherein the lifting mechanism is connected with a servo lifting motor; the two belt lines are horizontally arranged on two sides above the lifting mechanism and are connected with a streamline stepping motor; the material distributing cylinders are respectively arranged above the belt lines, and a material distributing sensor is arranged above at least one belt line; the two material sensors are arranged above the same position at one end of one belt line. The utility model provides a feed mechanism can carry out automatic branch material loading and circulation work to the mixing material high-efficient steadily, has realized unmanned operation, has not only saved manpower, material resources and time, has alleviateed staff's intensity of labour, has still guaranteed the efficiency of material loading to can reach the effect of storing up the material in batches.

Description

Material distributing mechanism

Technical Field

The utility model relates to a material processing field, in particular to feed mechanism.

Background

In the process of processing and processing the mixed material with small volume, a manager is generally required to perform the procedures of distributing and feeding the mixed material. In the conventional material distributing and feeding process, due to the complexity of mixed materials, the materials can be mostly and manually distributed and fed automatically, so that the operation is complex, a large amount of manpower, material resources and time are consumed, the feeding amount at each time is less, the working efficiency is not high, and the purpose of storing the materials in batches and producing and processing cannot be realized.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a feed mechanism.

According to an aspect of the utility model, a feed mechanism is provided, include

The lifting mechanism is connected with a servo lifting motor;

the two belt lines are horizontally arranged on two sides above the lifting mechanism and are connected with a streamline stepping motor;

the material distributing cylinders are respectively arranged above the belt lines, and a material distributing sensor is arranged above at least one belt line;

and the two material sensors are arranged above the same position of one end of one belt line.

The utility model provides a feed mechanism can carry out automatic branch material loading and circulation work to the mixing material high-efficient steadily, has realized unmanned operation, has not only saved manpower, material resources and time, has alleviateed staff's intensity of labour, has still guaranteed the efficiency of material loading to can reach the effect of storing up the material in batches.

In some embodiments, the lifting mechanism comprises an underframe, a top plate is movably arranged above the middle part of the underframe, and a bracket is movably arranged above the periphery of the underframe; the top plate is connected with the servo lifting motor and is positioned right below the middle part of the support. Thus, the general structure of the lifting mechanism is provided for lifting the material to be fed.

In some embodiments, the top plate is mounted above the middle of the bottom frame by a vertical center bearing; and each corner of the support is respectively arranged on two bottom rods through a plurality of vertical outer bearings, and the bottom rods are arranged on the underframe. From this, further set up elevating system's concrete structure, servo elevator motor and support can rise the top and move the support, then can place the charging tray on the support.

In some embodiments, the bracket is i-shaped with a middle portion located directly above the top plate. Therefore, the specific structure of the bracket is arranged, and other suitable structures can be arranged according to actual needs.

In some embodiments, the two belt lines are respectively installed on the side surfaces of two horizontal cross plates, and the material distribution cylinder, the material distribution sensor and the material sensor are all installed on the cross plates. Thus, the arrangement of the transverse plate can be used for reasonably distributing and installing each part, and in addition, the transverse plate can be replaced by a fixed bottom platform and the like according to requirements.

In some embodiments, two material distributing cylinders are mounted on each transverse plate. From this, set up the quantity of dividing the material cylinder, two branch material cylinders of every side installation can guarantee to divide the efficiency of material work.

In some embodiments, a vertical guide groove is installed above both ends of two transverse plates, and two material inductors are respectively installed at the upper end and the lower end of the guide groove of one of the transverse plates. From this, set up the concrete installation of guide way and material inductor, guaranteed the accuracy of work such as branch material and unloading.

In some embodiments, the ends of the two transverse plates away from the material sensor are connected by a connecting plate. Therefore, the stability of the mechanism can be improved by connecting the two transverse plates through the connecting plate.

In some embodiments, at least one of the cross plates has a material conveying sensor mounted thereon, and the material conveying sensor is mounted on a side away from the connecting plate and below the belt line. From this, set up fortune material inductor and can sense the fortune material condition of material on the belt line in real time to avoid the position deviation of material.

In some embodiments, two support blocks are provided at the bottom of each of the cross plates. From this, then can carry out the steady support to the diaphragm through the supporting shoe, can guarantee that the diaphragm has suitable height simultaneously.

Drawings

Fig. 1 is a schematic structural diagram of a material distributing mechanism according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the lifting mechanism shown in FIG. 1;

fig. 3 is a partial structure schematic view of one side of the upper part of the material separating mechanism shown in fig. 1.

The device comprises a lifting mechanism 1, a servo lifting motor 2, a belt line 3, a material distribution cylinder 4, a material sensor 5, a transverse plate 6, a material conveying sensor 7, an underframe 11, a support 12, an outer bearing 13, a bottom rod 14, a top plate 21, a middle bearing 22, a streamline stepping motor 31, a material distribution sensor 41, a guide groove 61, connecting

plates

6 and 2 and a supporting block 63.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 schematically shows a structure of a feed mechanism according to an embodiment of the present invention, fig. 2 shows a structure of a lifting mechanism in fig. 1, and fig. 3 shows a structure of one side of an upper portion of the feed mechanism in fig. 1. As shown in fig. 1-3, the material distribution mechanism mainly includes a lifting mechanism 1, two belt lines 3 disposed on two sides above the lifting mechanism 1, and a material distribution sensor 41 and a material sensor 5 disposed above each belt line 3.

The lifting mechanism 1 comprises an underframe 11, two horizontal bottom rods 14 are arranged around the underframe 11, two telescopic vertical outer bearings 13 are arranged at two ends of each bottom rod 14, namely, four outer bearings 13 are arranged, and a support 12 is supported at the tops of the four outer bearings 13.

Preferably, the bracket 12 is i-shaped, and four corners thereof are supported by the outer bearings 13, respectively.

A vertical middle bearing 22 which can be stretched and contracted is arranged above the middle part of the bottom frame 11, a top plate 21 is arranged at the top part of the middle bearing 22, and the top plate 21 is connected with a servo lifting motor 2 and can be lifted under the operation of the servo lifting motor 2. Wherein the top plate 21 is located directly below the support 12 and, during the lifting movement, can be pushed against the support 12 and move it jointly.

Two sides above the lifting mechanism 1 are respectively provided with a horizontal extending transverse plate 6, the two transverse plates 6 have the same height, and the side surfaces are oppositely arranged. Wherein, two belt pulley driven belt line 3 then set up respectively on two relative sides of diaphragm 6, and one of them band pulley of every belt line 3 all is connected with a streamline step motor 31, and streamline step motor 31 installs on diaphragm 6, can drive belt line 3 and rotate. Further, the holder 12 can move above the belt line 3 when it is raised.

Preferably, one end of each of the two transverse plates 6 is connected by a connecting plate 62, so that the stability of the whole mechanism can be improved. And the other ends of the two transverse plates 6 are blanking ends which are generally provided with a processing device or a material receiving device.

Preferably, two supporting blocks 63 are arranged at the bottom of each transverse plate 6, and the supporting blocks 63 are used for stably supporting the transverse plates 6 and ensuring that the transverse plates 6 are proper in height.

The middle parts above the two transverse plates 6 are respectively provided with a material distributing cylinder 4, and the material distributing cylinders 4 are used for distributing materials on the bracket 12.

Preferably, two material distributing cylinders 4 are arranged above each transverse plate 6, so that the material distributing efficiency can be ensured.

A material distributing sensor 41 is installed above at least one transverse plate 6, the material distributing sensor 41 is used for sensing materials on the belt line 3, and when the material distributing sensor 41 senses the materials, the streamline stepping motor 31 can be driven to operate in due time.

A vertical guide groove 61 is all installed to two diaphragm 6's both ends top, then is provided with four guide grooves 61 altogether, and guide groove 61 can restrict the material and can not spill over from diaphragm 6 tip to can also be used for some devices.

Two material inductors 5 are arranged on the guide groove 61 of one transverse plate 6 far away from the connecting plate 62, wherein the two material inductors 5 are respectively arranged at the upper end and the lower end of the guide groove 61 and can be used for sensing materials passing through the guide groove to ensure that the materials are proper in height and cannot overflow due to excessive feeding.

Preferably, a material conveying sensor 7 is arranged on at least one transverse plate 6, the material conveying sensor 7 is arranged on one side, far away from the connecting plate 62, of the transverse plate 6 and is positioned below the belt line 3, and the material conveying sensor 7 can sense the specific position of the material on the belt line 3 in the moving process. Wherein, at least one material distributing inductor 41 and one material transporting inductor 7 are arranged on the same transverse plate 6 with the two material inductors 5.

When using this feed mechanism to divide the material, place the tray that contains the material on elevating system 1's support 12, servo elevator motor 2 operates and makes support 12 and tray rise the height that surpasss two belt lines 3, reach each and divide material cylinder 4 department, each divides material cylinder 4 operation to divide the material, when making servo elevator motor 2 operate the messenger tray descend afterwards, different kinds of material can fall respectively on two belt lines 3, wherein, comparatively useful material generally falls on the belt line 3 that is provided with one side of material inductor 5.

Subsequently, divide material inductor 41 to sense the material and fall on belt line 3, then streamline stepper motor 31 operates and makes belt line 3 rotate, can drive the material and move together, on making the material follow its tip blanking to processingequipment or material collecting device, wherein, the height of each material inductor 5 ability real-time induction material, and fortune material inductor 7 then can real-time induction material to guarantee the stability of material motion.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims

1. The utility model provides a feed mechanism which characterized in that:

the lifting mechanism (1), the said lifting mechanism (1) is connected with a servo lifting motor (2);

the two belt lines (3) are horizontally arranged on two sides above the lifting mechanism (1) and are connected with a streamline stepping motor (31);

the material distributing cylinders (4) are respectively arranged above the belt lines (3), and a material distributing sensor (41) is arranged above at least one belt line (3);

the two material sensors (5) are arranged above the same position of one end of the belt line (3).

2. The feed mechanism of claim 1, wherein: the lifting mechanism (1) comprises an underframe (11), a top plate (21) is movably arranged above the middle part of the underframe (11), and a bracket (12) is movably arranged above the periphery of the underframe; wherein the top plate (21) is connected with the servo lifting motor (2) and is positioned right below the middle part of the bracket (12).

3. The feed mechanism of claim 2, wherein: the top plate (21) is arranged above the middle part of the bottom frame (11) through a vertical middle bearing (22); the corners of the support (12) are respectively arranged on two bottom rods (14) through a plurality of vertical outer bearings (13), and the bottom rods (14) are arranged on the bottom frame (11).

4. The feed mechanism of claim 2, wherein: the support (12) is I-shaped, and the middle part of the support is positioned right above the top plate (21).

5. The feed mechanism of claim 1, wherein: the two belt lines (3) are respectively arranged on the side surfaces of the two horizontal transverse plates (6), and the material distributing cylinder (4), the material distributing sensor (41) and the material sensor (5) are arranged on the transverse plates (6).

6. The feed mechanism of claim 5, wherein: and two material distributing cylinders (4) are arranged on each transverse plate (6).

7. The feed mechanism of claim 5, wherein: two vertical guide grooves (61) are respectively installed above the two ends of the two transverse plates (6), and the two material inductors (5) are respectively installed at the upper end and the lower end of the guide groove (61) of one transverse plate (6).

8. The feed mechanism of claim 5, wherein: and one ends of the two transverse plates (6) far away from the material inductor (5) are connected through a connecting plate (62).

9. The feed mechanism of claim 8, wherein: at least one of the transverse plates (6) is provided with a material conveying sensor (7), and the material conveying sensor (7) is arranged on one side far away from the connecting plate (62) and is positioned below the belt line (3).

10. A dispensing mechanism according to any one of claims 5-9, characterised in that: and two supporting blocks (63) are arranged at the bottom of each transverse plate (6).