CN214827001U - Blanking mechanism - Google Patents

Abstract

The utility model discloses a blanking mechanism, include: the upper side of the flat plate part is provided with a positioning groove matched with a product; one end of the fixing plate is pivotally connected with the flat plate part; the telescopic part can drive the flat plate part to rotate relative to the fixed plate; the blanking groove is arranged on one side of the flat plate part, which is far away from the fixed plate; the telescopic part can enable the flat plate part to be in a first working state and a second working state; the end part of the flat plate part, which is far away from one end of the fixed plate, is provided with a baffle plate; the upper part of the baffle has an inclined surface facing the flat plate part, and the inclined surface inclines upwards from the flat plate part to the direction far away from the flat plate part. The utility model discloses can realize under the condition that does not need staff to participate in alright with realizing the blanking process, save the manpower. The blanking stability of the blanking mechanism is improved. In addition, the effect of preventing the product from falling from the flat plate portion in the first operating state and enabling the product to fall from the flat plate portion into the chute in the second operating state can be achieved.

Description

Blanking mechanism

Technical Field

The utility model relates to a product collection field, specific is a blanking mechanism.

Background

The blanking mechanism is a mechanism capable of realizing the product blanking effect. The existing blanking mechanism comprises a flat plate part and a blanking groove which is arranged corresponding to the flat plate part. To achieve the blanking effect, the flat plate part needs to be manually controlled and the product in the flat plate part falls into the blanking groove. The existing blanking mechanism needs manpower to participate in the blanking process, and the whole blanking process consumes manpower. In addition, a special positioning structure is not arranged, and the blanking stability of the blanking mechanism is not high.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect among the prior art, the embodiment of the utility model provides a blanking mechanism, it is used for solving above-mentioned blanking process and consumes the problem that manpower and blanking stability are not high.

The embodiment of the application discloses: a blanking mechanism, comprising: the upper side of the flat plate part is provided with a positioning groove matched with a product; one end of the fixing plate is pivotally connected with the flat plate part; the telescopic part can drive the flat plate part to rotate relative to the fixed plate; the blanking groove is arranged on one side of the flat plate part, which is far away from the fixed plate; the telescopic part can enable the flat plate part to be in a first working state and a second working state; in the first working state, the flat plate part is in a horizontal state; in the second working state, the flat plate part inclines downwards from one end of the fixed plate to one end of the charging chute to correspond to the charging chute.

Furthermore, the end part of the flat plate part, which is far away from one end of the fixed plate, is provided with a baffle, the upper part of the baffle is provided with an inclined surface facing the flat plate part, and the inclined surface inclines upwards from the flat plate part towards the direction far away from the flat plate part.

Further, the fixing plate is perpendicular to the flat plate portion in the first operating state.

Further, the pars contractilis includes the base, and the upper portion and the telescopic cylinder of base rotate to be connected, and telescopic cylinder keeps away from the one end of base and the one end that the fixed plate was kept away from to the flat plate portion and rotates to be connected, and the base is located between the both ends of flat plate portion.

Further, the positioning groove extends along a first direction, and the first direction is parallel to the flat plate part and faces the charging chute from the fixed plate.

Further, the chute abuts against the flat plate portion in the second operating state.

Further, the flat plate portion is provided with a baffle at an end portion near one end of the fixed plate.

The utility model has the advantages as follows:

1. the flat plate part is driven to be switched between the first working state and the second working state through the telescopic part, so that the blanking process can be realized under the condition that workers do not participate, and the labor is saved.

2. Due to the arrangement of the positioning grooves, products can be prevented from being discharged along the direction outside the positioning grooves, and the discharging stability of the discharging mechanism is improved.

3. The baffle is added, so that the product can be prevented from falling from the flat plate part in the first working state, and the product can fall into the blanking groove from the flat plate part in the second working state.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

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 structural diagram of a blanking mechanism in an embodiment of the present invention;

fig. 2 is a right side view of the blanking mechanism in the embodiment of the present invention;

fig. 3 is a detailed view of the blanking mechanism in the embodiment of the present invention;

reference numerals of the above figures: 1. a flat plate portion; 12. positioning a groove; 2. a fixing plate; 3. a telescopic part; 31. a base; 32. a telescopic cylinder; 4. a charging chute; 5. a baffle plate; 51. a bevel; 6. and (5) producing the product.

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.

As shown in fig. 1 to 3, the blanking mechanism of the present embodiment includes:

the upper side of the flat plate part 1 and the upper side of the flat plate part 1 are provided with positioning grooves 12 matched with the products 6, so that the products 6 can be placed in the positioning grooves 12 and can fall into the blanking groove 4 from the flat plate part 1 through the positioning grooves 12 in the blanking process. The width of the positioning slot 12 may be the same as the length of the ends of the product 6. So that the product 6, after entering the positioning slot 12, can roll in the positioning slot 12 and finally fall into the chute 4.

One end of the fixing plate 2 is pivotally connected to the flat plate portion 1, so that the flat plate portion 1 can rotate relative to the fixing plate 2, and an included angle between the flat plate portion 1 and the fixing plate 2 is changed. The end of the fixing plate 2 remote from the flat plate portion 1 may be fixed so that the fixing plate 2 itself does not move.

The telescopic part 3, the telescopic part 3 can drive the flat plate part 1 to rotate relative to the fixed plate 2, thereby converting the telescopic motion of the telescopic part 3 into the rotary motion of the flat plate part 1.

Charging chute 4, charging chute 4 set up in one side that fixed plate 2 was kept away from to flat plate portion 1 to can make when taking place the relative rotation back between flat plate portion 1 and the fixed part, product 6 on the flat plate portion 1 can fall into charging chute 4, realizes collecting the effect of product 6.

And a baffle 5, wherein the baffle 5 is arranged at the end part of one end of the flat plate part 1 far away from the fixed plate 2, the upper part of the baffle 5 is provided with a slope 51 facing the flat plate part 1, and the slope 51 inclines upwards from the flat plate part 1 to the direction far away from the flat plate part 1. So that when the product 6 is on the flat plate portion 1, the baffle 5 can prevent the product 6 from falling off the flat plate portion 1 when the flat plate portion 1 is in the first working state; when the plate portion 1 is in the second operating condition, the product 6 can fall along the inclined surface 51 into the chute 4 under the action of gravity.

In this embodiment, the expansion part 3 can make the flat plate part 1 in the first operating state and the second operating state, and the product 6 is a cylindrical battery.

In an alternative embodiment, the flat plate portion 1 is in the first operating state, in which the flat plate portion 1 is in the horizontal state. Products 6 are on plate portion 1, and in this state, products 6 may fall into positioning grooves 12 of plate portion 1, thereby accommodating products 6. And the baffle 5 prevents the product 6 from falling from the positioning portion.

In another alternative embodiment, the flat plate portion 1 is in the second working state, and the flat plate portion 1 is inclined downward from one end of the fixed plate 2 to one end of the charging chute 4 to correspond to the charging chute 4. At this time, the flat plate portion 1 forms a certain included angle with the horizontal direction, so that the product 6 on the flat plate portion 1 can fall into the blanking slot 4 along the positioning slot 12. In this state, the product 6 falls under the influence of gravity through the inclined surface 51 into the chute 4.

By means of the structure, the flat plate part 1 is driven to be switched between the first working state and the second working state through the telescopic part 3, the blanking process can be achieved without the participation of workers, and the labor is saved. Due to the arrangement of the positioning grooves 12, the products 6 can be prevented from being discharged along the direction outside the positioning grooves 12, and the discharging stability of the discharging mechanism is improved. In addition, the addition of the baffle 5 can achieve the effect of preventing the product 6 from falling from the flat plate part 1 in the first working state and enabling the product 6 to fall from the flat plate part 1 into the charging chute 4 in the second working state.

Specifically, as shown in fig. 1 and fig. 2, the fixing plate 2 may be perpendicular to the flat plate portion 1 in the first working state, that is, the fixing plate 2 may be disposed along the vertical direction, so that the fixing plate 2 can give better support to the flat plate portion 1 in the vertical direction. In the present embodiment, in the first operating state, since the fixing plate 2 and the flat plate portion 1 are perpendicular to each other, the fixing plate 2 is prevented from occupying too much space in the horizontal direction during use, and the use space of the fixing plate 2 in the horizontal direction can be saved.

Specifically, as shown in fig. 1 and 2, the telescopic portion 3 includes a base 31, the upper portion of the base 31 can be rotatably connected to the telescopic cylinder 32, and the base 31 can be fixed, so that the base 31 can be rotated as an axis in the rotating process of the telescopic cylinder 32, and the position of one end of the telescopic cylinder 32 close to the base 31 is prevented from being changed. So that the telescopic cylinder 32 can move around the end adjacent to the base 31 as an axis during the telescopic movement. The one end that telescopic cylinder 32 kept away from base 31 can rotate with the one end that fixed plate 2 was kept away from to flat plate portion 1 and be connected for in-process that telescopic cylinder 32 carried out concertina movement, the one end that can drive flat plate portion 1 to keep away from fixed plate 2 uses flat plate portion 1 to close on the one end of fixed plate 2 to rotate as the axle, thereby realizes changing the effect of flat plate portion 1 inclination. The base 31 may be located between two ends of the flat plate portion 1, so that the extending and retracting directions of the telescopic cylinder 32 and the rotation direction of the flat plate portion 1 may be substantially consistent, and the condition that the directions of the telescopic cylinder 32 and the flat plate portion 1 are opposite to each other to limit the rotation of the flat plate portion 1 is prevented.

In an alternative embodiment, when the telescopic cylinder 32 extends, the end of the telescopic cylinder 32 adjacent to the flat plate portion 1 pushes the flat plate portion 1 to rotate along the end of the flat plate portion 1 adjacent to the fixed plate 2 as a shaft, so that the flat plate portion 1 gradually moves away from the base 31, and finally the flat plate portion 1 is in the first working state.

In another alternative embodiment, when the telescopic cylinder 32 is contracted, the end of the telescopic cylinder 32 adjacent to the flat plate portion 1 pushes the flat plate portion 1 to rotate along the end of the flat plate portion 1 adjacent to the fixed plate 2 as a shaft, so that the flat plate portion 1 gradually approaches the base 31, and finally the flat plate portion 1 is in the second working state.

Specifically, as shown in fig. 1 and 2, the positioning groove 12 may extend in a first direction, and the first direction may be parallel to the flat plate portion 1 and may be directed from the fixed plate 2 toward the chute 4. Can be so that after the product 6 falls into the positioning groove 12, under the second operating condition, the product 6 in the positioning groove 12 can directly fall into the charging chute 4 along the direction of the positioning groove 12. A guiding action for the product 6 is achieved.

Specifically, the charging chute 4 can abut against the flat plate portion 1 in the second working state, that is, the edge of the charging chute 4 can support the flat plate portion 1 in the process that the product 6 falls into the charging chute 4. Therefore, in the process that the product 6 falls into the blanking groove 4, the situation that the blanking is unstable due to the fact that the flat plate part 1 moves in the vertical direction can be prevented. The stability of whole blanking mechanism has been increased.

Specifically, as shown in fig. 1 and 2, the flat plate portion 1 may be provided with a baffle 5 at an end portion near one end of the fixed plate 2. Baffle 5 of the tip of setting in the one end that is close to fixed plate 2 can prevent that product 6 from falling along the one end that is close to fixed plate 2 when flat plate portion 1 to the success rate of blanking mechanism blanking has been increased.

The present invention has been explained by using specific embodiments, and the explanation of the above embodiments is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (7)

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

the upper side surface of the flat plate part is provided with a positioning groove matched with a product;

one end of the fixing plate is pivotally connected with the flat plate part;

the telescopic part can drive the flat plate part to rotate relative to the fixed plate;

the charging chute is arranged on one side of the flat plate part, which is far away from the fixed plate;

the telescopic part can enable the flat plate part to be in a first working state and a second working state;

in a first working state, the flat plate part is in a horizontal state;

in a second working state, the flat plate part inclines downwards from one end of the fixed plate to one end of the charging chute so as to correspond to the charging chute.

2. The blanking mechanism of claim 1, wherein the flat plate portion is provided with a baffle at an end portion away from one end of the fixed plate, and an upper portion of the baffle is provided with a slope facing the flat plate portion, and the slope inclines upwards from the flat plate portion in a direction away from the flat plate portion.

3. The blanking mechanism of claim 1, wherein the fixed plate is perpendicular to the flat plate portion in the first operating state.

4. The blanking mechanism of claim 1, wherein the telescopic portion comprises a base, an upper portion of the base is rotatably connected to a telescopic cylinder, an end of the telescopic cylinder, which is away from the base, is rotatably connected to an end of the flat plate portion, which is away from the fixed plate, and the base is located between two ends of the flat plate portion.

5. The blanking mechanism of claim 1, wherein the positioning slot extends in a first direction, the first direction being parallel to the flat plate portion and facing the blanking slot from the fixed plate.

6. The blanking mechanism of claim 1 wherein the chute abuts the plate portion in the second operating condition.

7. The blanking mechanism of claim 2, wherein the flat plate portion is provided with a baffle at an end portion near one end of the fixed plate.

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