CN220449171U - Device for leveling mortar of powder material - Google Patents

Abstract

The utility model provides a powder and particle material leveling device for paving a bowl, which comprises a storage and feeding part, a bowl loading part, a sorting part and a conveying part, wherein the bowl loading part comprises a bowl body and a sliding table mechanism, the sliding table mechanism is arranged between the storage and feeding part and the sorting part and comprises a sliding unit and a clamping unit arranged on the sliding unit, the sorting part comprises a conveying mechanism and a lifting mechanism, the lifting mechanism is arranged below the conveying mechanism, and the bowl body has the degree of freedom of reciprocating on a discharge port of the storage and feeding part and the conveying mechanism above the lifting mechanism under the clamping of the clamping unit; the conveying part is connected with the conveying mechanism of the arranging part and is used for conveying the bowl bodies. Through setting up dress alms bowl portion and arrangement portion, realized the automatic tiling of material in the alms bowl body, reduced the layering degree of material in the alms bowl body, improved the dress alms bowl efficiency and the precision of material, improved the technological effect of next process, be fit for extensively popularizing and applying in the material dress alms bowl field.

Description

Device for leveling mortar of powder material

Technical Field

The utility model belongs to the field of material bowl loading, relates to a powder material bowl loading device, and in particular relates to a powder material flat paving bowl device.

Background

The existing material bowl loading equipment is single in structural form, natural stacking angles can be formed in the bowl loading falling process, the bowl loading speed and the metering of the materials cannot be automatically paved, so that the bowl loading precision is affected. Therefore, it is necessary to provide a bowl loading device that can automatically lay flat

Disclosure of Invention

The utility model aims to provide a device for paving a pot by powder and particle materials in a flat way, which solves the technical problems that materials in the prior art can form a natural stacking angle in the pot loading process, can not be paved automatically, and can be layered easily in the pot loading process.

In order to achieve the above purpose, the specific technical scheme of the utility model is as follows:

the device comprises a storage feeding part, a bowl loading part, a sorting part and a conveying part, wherein the bowl loading part comprises a bowl body and a sliding table mechanism, the sliding table mechanism is arranged between the storage feeding part and the sorting part and comprises a sliding unit and a clamping unit arranged on the sliding unit, the sorting part comprises a conveying mechanism and a lifting mechanism, the lifting mechanism is arranged below the conveying mechanism, and the bowl body has the degree of freedom of moving back and forth between a discharge hole of the storage feeding part and the conveying mechanism above the lifting mechanism under the clamping of the clamping unit; the conveying part is connected with the conveying mechanism of the arranging part and is used for conveying the bowl bodies.

The storage feeding portion comprises a storage bin support, a storage bin arranged on the storage bin support, a weighing sensor and an electromagnetic vibration feeder, wherein the storage bin is arranged on the weighing sensor, the electromagnetic vibration feeder is hung below a discharge hole of the storage bin through a feeder hanging bracket, and the discharge hole of the electromagnetic vibration feeder extends out of the storage bin support.

The sliding unit of the sliding table mechanism comprises a supporting frame, a sliding table and a connecting piece, wherein the supporting frame is erected between the arranging part and the storing and feeding part, the sliding table is fixed on the supporting frame through a mounting plate, and the connecting piece is arranged on the sliding table and fixedly connected with the clamping unit.

The clamping unit comprises a clamping executing piece, clamping arms and a weight sensor, wherein the clamping executing piece is arranged on the connecting piece, the clamping arms are arranged at two ends of the clamping executing piece, and the weight sensor is arranged between the clamping executing piece and the connecting piece.

The arrangement part further comprises an electromagnetic driver, and the electromagnetic driver and the lifting mechanism are sequentially arranged below the conveying mechanism along the conveying direction of the conveying mechanism.

The conveying mechanism is a roller type conveying mechanism, and when the lifting mechanism is pushed in place, the lifting mechanism passes through a gap between rollers of the conveying mechanism and is positioned above a conveying surface of the conveying mechanism.

And an execution valve is arranged at the discharge end of the electromagnetic vibration feeder.

The conveying part comprises a conveying part A and a conveying part B, and the sorting part is positioned between the conveying part A and the conveying part B.

The utility model has the beneficial effects that: the utility model provides a device for horizontally paving a mortar of powder and particle materials, which can effectively shorten the height difference between an electromagnetic vibration feeder and a mortar body on the mortar loading part by arranging the mortar loading part between a material storage feeding part and a conveying part, so as to reduce the layering degree of the materials in the mortar loading process, and simultaneously, the utility model also effectively realizes the automatic paving of the materials in the mortar body by controlling the reciprocating motion of the mortar body on a sliding table mechanism, thereby improving the speed and efficiency of the material loading, and the utility model can weigh the materials in the mortar body in real time by arranging a weight sensor on a connecting piece while arranging a material storage bin on a weighing sensor, thereby ensuring the metering precision in the mortar loading process.

According to the utility model, the bowl loading part and the finishing part are arranged, so that the automatic spreading of the materials in the bowl body is realized, the layering degree of the materials in the bowl body is reduced, the bowl loading efficiency and precision of the materials are improved, the technological effect of the next working procedure is improved, and the bowl loading machine is suitable for being widely popularized and applied in the field of bowl loading of the materials.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present utility model;

FIG. 2 is a schematic view of a slide mechanism according to the present utility model;

FIG. 3 is a schematic view of the transport and finishing mechanism of the present utility model.

The figure indicates: 1. the automatic feeding device comprises a storage bin, 2, a weighing sensor, 3, a bin bracket, 4, a feeder hanger, 5, an electromagnetic vibration feeder, 6, a bowl body, 7, a sliding table mechanism, 7-1, a connecting piece, 7-2, a weight sensor, 7-3, a clamping executing piece, 7-4, a clamping arm, 7-5, a sliding table, 7-6, a mounting plate, 8, a finishing part, 8-1, a conveying mechanism, 8-2, an electromagnetic driver, 8-3, a lifting mechanism, 9, conveying parts A,10 and a conveying part B.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings for a better understanding of the objects, structures and functions of the present utility model.

As shown in fig. 1 to 3, the utility model provides a device for leveling a powder and granular material spreading bowl, which comprises a material storage and feeding part, a bowl loading part, a finishing part 8 and a conveying part which are sequentially arranged, wherein the bowl loading part is used for automatically spreading and loading materials to the bowl 6, the layering degree of powder and granular mixed materials with different specific gravities is reduced, and the finishing part 8 is used for further finishing the materials after bowl loading, so that the materials in the bowl 6 are flatter. Specifically, the bowl loading part in this embodiment includes a bowl body 6 and a sliding table 7-5 mechanism 7, where the sliding table 7-5 mechanism 7 is disposed between the material storing and feeding part and the arranging part 8, and includes a sliding unit and a clamping unit disposed on the sliding unit, where the clamping unit is used to clamp the bowl body 6, and the sliding unit is used to drive the clamping unit and the bowl body 6 clamped by the clamping unit to reciprocate below a discharge hole of the material storing and feeding part, so as to realize automatic tiling of materials;

the arranging part 8 comprises a conveying mechanism 8-1 and a lifting mechanism 8-3, wherein the conveying part is connected with the conveying mechanism 8-1 of the arranging part 8 and is used for conveying the bowl body 6, the lifting mechanism 8-3 is arranged below the conveying mechanism 8-1 and is used for jacking up the bowl body 6 on the conveying mechanism 8-1, and the bowl body 6 has the degree of freedom of reciprocating to and from a discharge hole of the storage feeding part and the conveying mechanism 8-1 above the lifting mechanism 8-3 under the clamping of the clamping unit.

Specifically, as shown in fig. 1, the storage feeding portion includes a bin bracket 3, a storage bin 1 arranged on the bin bracket 3, a weighing sensor 2 and an electromagnetic vibration feeder 5, wherein the storage bin 1 is arranged on the weighing sensor 2, materials can be put into the storage bin 1 manually or in a device mode, the weighing sensor 2 is used for feeding back the weight value of the materials in the storage bin 1, the electromagnetic vibration feeder 5 is hung below a discharge hole of the storage bin 1 through a feeder hanging bracket 4, and the discharge hole of the electromagnetic vibration feeder 5 extends out of the bin bracket 3 and is used for conveying the materials into a bowl body 6 clamped by a sliding table 7-5 mechanism 7. In order to close the discharge port when the material in the bowl body 6 reaches the set weight value, the electromagnetic vibration feeder 5 can avoid the material falling due to inertia, and in this embodiment, an execution valve is arranged at the discharge end of the electromagnetic vibration feeder 5.

Further, as shown in fig. 2, the sliding unit of the sliding table 7-5 mechanism 7 comprises a supporting frame, a sliding table 7-5 and a connecting piece 7-1, wherein the supporting frame is erected between the finishing part 8 and the material storage and feeding part, the sliding table 7-5 is fixed on the supporting frame through a mounting plate 7-6, and the connecting piece 7-1 is arranged on the sliding table 7-5 and fixedly connected with the clamping unit; the clamping unit comprises a clamping executing piece 7-3, clamping arms 7-4 and a weight sensor 7-2, wherein the clamping executing piece 7-3 is arranged on the connecting piece 7-1, the clamping arms 7-4 are arranged at two ends of the clamping executing piece 7-3, and the weight sensor 7-2 is arranged between the clamping executing piece 7-3 and the connecting piece 7-1.

In addition, as shown in fig. 3, the finishing section 8 further includes an electromagnetic driver 8-2, and the electromagnetic driver 8-2 and the lifting mechanism 8-3 are sequentially disposed below the conveying mechanism 8-1 along the conveying direction of the conveying mechanism 8-1. In order to ensure that the lifting mechanism 8-3 can smoothly jack up the bowl body 6 from the conveying mechanism 8-1, the conveying mechanism 8-1 in the embodiment is a roller type conveying mechanism 8-1, and when the lifting mechanism 8-3 is jacked in place, the lifting mechanism 8-3 passes through a gap between rollers of the conveying mechanism 8-1 and is positioned above a conveying surface of the conveying mechanism 8-1.

Further, in this embodiment, the conveying section is further provided in sections, specifically, the conveying section includes a conveying section A9 and a conveying section B10, and the sorting section 8 is located between the conveying section A9 and the conveying section B10.

The concrete working process of the device for leveling the mortar of the powder material provided in the embodiment is as follows:

in the initial state, the sliding unit drives the clamping unit to be positioned above the conveying mechanism 8-1, namely above the lifting mechanism 8-3, the empty bowl body 6 is conveyed to the conveying mechanism 8-1 through the conveying part A9, when the empty bowl body 6 moves to the upper part of the lifting mechanism 8-3, the conveying mechanism 8-1 pauses conveying, the lifting mechanism 8-3 pushes up, the bowl body 6 is lifted from the conveying surface of the conveying mechanism 8-1, after the clamping unit clamps the bowl body 6, the sliding unit drives the bowl body 6 to slide to the lower part of a discharge hole of the electromagnetic vibration feeder 5, at the moment, an execution valve of the electromagnetic vibration feeder 5 is opened, the electromagnetic vibration feeder 5 starts vibrating and conveys materials into the bowl body 6, a weight sensor 7-2 monitors the weight of the materials in the bowl body 6 in real time, when the weight in the bowl body 6 reaches the set weight, the electromagnetic vibration feeder 5 stops vibrating, meanwhile, the execution valve on the electromagnetic vibration feeder is closed, the sliding unit drives the bowl body 6 to slide to the top of the lifting mechanism 8-3, the clamping unit is loosened after the lifting mechanism 8-3 clamps the bowl body 6, the bowl body 6 falls down to the lifting mechanism 8-3, the execution valve is driven to the position 8-1, the electromagnetic vibration feeder is driven to the position 8-1 is started, the position is stopped after the bowl body 6 falls to the position 8-1, the position is driven to the position is stopped, the position is started, the position is conveyed to the position is finished, the position is conveyed by the electromagnetic vibration feeder 2B is conveyed, and the position is finished, and the position is conveyed by the station position 2, and the position is conveyed by the position 2-10, and the position is stopped.

It will be understood that the utility model has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (8)

1. The device for leveling a powder particle material paving pot is characterized by comprising a material storage feeding part, a pot loading part, a sorting part (8) and a conveying part, wherein the pot loading part comprises a pot body (6) and a sliding table (7-5) mechanism (7), the sliding table (7-5) mechanism (7) is arranged between the material storage feeding part and the sorting part (8) and comprises a sliding unit and a clamping unit arranged on the sliding unit, the sorting part (8) comprises a conveying mechanism (8-1) and a lifting mechanism (8-3), the lifting mechanism (8-3) is arranged below the conveying mechanism (8-1), and the pot body (6) has the degree of freedom in the conveying mechanism (8-1) which moves back and forth above a discharge hole of the material storage feeding part and the lifting mechanism (8-3) under the clamping of the clamping unit; the conveying part is connected with a conveying mechanism (8-1) of the arranging part (8) and is used for conveying the bowl bodies (6).

2. A powder material leveling pot apparatus according to claim 1, wherein: the storage feeding portion comprises a storage bin support (3), a storage bin (1), a weighing sensor (2) and an electromagnetic vibration feeder (5) which are arranged on the storage bin support (3), wherein the storage bin (1) is arranged on the weighing sensor (2), the electromagnetic vibration feeder (5) is hung below a discharge hole of the storage bin (1) through a feeder hanging bracket (4), and the discharge hole of the electromagnetic vibration feeder (5) extends out of the storage bin support (3).

3. A powder material leveling pot apparatus according to claim 1, wherein: the sliding unit of the sliding table (7-5) mechanism (7) comprises a supporting frame, a sliding table (7-5) and a connecting piece (7-1), wherein the supporting frame is erected between the arranging part (8) and the material storage feeding part, the sliding table (7-5) is fixed on the supporting frame through a mounting plate (7-6), and the connecting piece (7-1) is arranged on the sliding table (7-5) and fixedly connected with the clamping unit.

4. A powder material leveling pot apparatus according to claim 3, wherein: the clamping unit comprises a clamping executing piece (7-3), clamping arms (7-4) and a weight sensor (7-2), wherein the clamping executing piece (7-3) is arranged on the connecting piece (7-1), the clamping arms (7-4) are arranged at two ends of the clamping executing piece (7-3), and the weight sensor (7-2) is arranged between the clamping executing piece (7-3) and the connecting piece (7-1).

5. A powder material leveling pot apparatus according to claim 1, wherein: the arrangement part (8) further comprises an electromagnetic driver (8-2), and the electromagnetic driver (8-2) and the lifting mechanism (8-3) are sequentially arranged below the conveying mechanism (8-1) along the conveying direction of the conveying mechanism (8-1).

6. A powder material leveling pot apparatus according to claim 1, wherein: the conveying mechanism (8-1) is a roller type conveying mechanism (8-1), and the lifting mechanism (8-3) penetrates through gaps among rollers of the conveying mechanism (8-1) and is positioned above a conveying surface of the conveying mechanism (8-1) when being pushed in place.

7. A powder material leveling pot apparatus according to claim 2, wherein: an execution valve is arranged at the discharge end of the electromagnetic vibration feeder (5).

8. A powder material leveling pot apparatus according to claim 1, wherein: the conveying part comprises a conveying part A (9) and a conveying part B (10), and the sorting part (8) is positioned between the conveying part A (9) and the conveying part B (10).