CN216004119U - Prevent cereal vibration loading attachment that material loading bullet jumped - Google Patents

Abstract

The utility model provides a grain vibration feeding device capable of preventing feeding bounce, which comprises: the vibrator and by the feed cell body that the vibrator provided the vibration and carried out the linear feed work of vibration, wherein: the port department of the output end of feed cell body is equipped with the connection board, and the connection board is connected with dismantling of feed cell body, and the last face of connection board links up with the tank bottom of feed cell body. The utility model can achieve the purpose of reducing the sample bounce phenomenon by reducing the thickness of the output end port, and simultaneously, reduce the processing difficulty of the feeding groove body.

Description

Prevent cereal vibration loading attachment that material loading bullet jumped

Technical Field

The utility model relates to the technical field of grain detection equipment, in particular to a grain vibration feeding device capable of preventing feeding bouncing.

Background

Imperfect grains are important standards reflecting the quality of raw grains; at present, the grain warehousing is carried out with a grading determination and can not reach the warehousing standard, wherein the grade of the grain is mainly divided by the proportion of imperfect grains, and the imperfect grain types such as wormhole grains, scab grains, damaged grains, sprouting grains, mildew grains and the like regularly detect and accurately master the content of the imperfect grains during the grain warehousing and storage period, thereby playing an important guiding role in ensuring the grain storage safety. Present cereal check out test set mainly by loading attachment on the market at present, pass the detection device that carries the flitch and be used for carrying out image acquisition to the sample on carrying the flitch with receiving sample cereal by loading attachment discharge end below, and its loading attachment receives the restriction of its structure and processing technology, the port thickness that causes its discharge end is general all thicker, and then cause the discharge end and carry the high fall between the flitch great, grain is by the discharge end when falling to carry on the flitch bullet jump comparatively badly, it jumps away from carrying the flitch bullet easily.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems in the prior art, the utility model provides a grain vibration feeding device capable of preventing feeding from bouncing.

The utility model provides a grain vibration feeding device capable of preventing feeding bounce, which comprises: the vibrator and by the feed cell body that the vibrator provided the vibration and carried out the linear feed work of vibration, wherein:

the port department of the output end of feed cell body is equipped with the connection board, and the connection board is connected with dismantling of feed cell body, and the last face of connection board links up with the tank bottom of feed cell body.

Preferably, the trough bottom of the feed trough comprises a sloping section sloping towards the connector tiles.

Preferably the connector tiles are planar tiles.

Preferably, at the output end of the feed chute body, the chute bottom of the feed chute body is shorter than the side walls on both sides thereof to form a notch at the output end, and the adapter plate is mounted in the notch.

Preferably, the connection plate comprises a bottom plate, a first side plate and a second side plate, the first side plate and the second side plate are oppositely arranged on two sides of the bottom plate, the bottom plate is connected with the bottom of the feed tank body, the first side plate is fixed to the side wall of one side of the feed tank body, and the second side plate is fixed to the side wall of the other side of the feed tank body.

Preferably, one side of the connecting plate, which is far away from the feeding groove body, is provided with a first material blocking part and a second material blocking part, and the first material blocking part and the second material blocking part are oppositely arranged on two sides of the output end to form a feeding area between the first material blocking part and the second material blocking part.

Preferably, the material loading plate is positioned below the connecting plate, and the material loading plate is connected with the driving mechanism and is driven by the driving mechanism to horizontally move towards the feeding area.

Preferably, the first material blocking part, the second material blocking plate and the feeding groove body are integrally formed.

Preferably, a side wall of one side of the feed chute body extends towards the direction of the connecting plate and extends to the other side of the connecting plate to form a first material blocking part, and a side wall of the other side of the feed chute body, which is opposite to the first material blocking part, extends towards the direction of the connecting plate and extends to the other side of the connecting plate to form a second material blocking part.

Preferably, the first blocking portion and the second blocking portion are integrally formed with the connecting joint plate.

Preferably, one side of the first side plate, which is close to the output end of the feed trough body, extends to the outer end of the feed trough body to form a first material blocking part; one side of the second side plate close to the output end of the feeding trough body extends to the outer end of the feeding trough body to form a second material blocking part.

According to the utility model, the connecting plate detachably connected with the output end of the feeding groove body is arranged at the output end of the feeding groove body, so that the connecting plate can vibrate along with the vibration of the feeding groove body, the upper plate surface of the connecting plate is connected with the groove bottom of the feeding groove body, the connecting plate becomes a part of the groove bottom of the feeding groove body, when feeding is carried out, materials enter the connecting plate through the bottom of the feeding groove body and are finally discharged from the connecting plate, and the plate body is easily processed into a thin body, so that the processing difficulty of the feeding groove body is reduced while the thickness of the port of the output end is smaller. And further, the drop height is reduced by reducing the thickness of the output end port, the bounce phenomenon of the sample is reduced, and the processing is easy. In addition, the connecting plate can be detachably assembled and is convenient to replace.

Drawings

Fig. 1 is a schematic structural diagram of a grain vibration feeding device for preventing feeding bounce according to the present invention.

Fig. 2 is a front view of fig. 1.

FIG. 3 is a schematic view of the installation of the storage trough in the anti-bouncing feeding device for grain.

Fig. 4 is a schematic structural diagram of a grain vibration feeding device for preventing feeding bounce according to the present invention.

Fig. 5 is a front view of fig. 4.

The reference numerals in fig. 1-5 are illustrated as follows:

1-a vibrator; 2-feeding trough body, 21-inclined plane section; 3-connecting the fishplate bar; 4-a feeding area; 5-carrying plate; 6-a storage tank; 7-striker plate.

Detailed Description

Referring to fig. 1-2, the present invention provides a grain vibration feeding device for preventing feeding and bouncing, which comprises: vibrator 1 and feed chute body 2 that is provided with vibration by vibrator 1 and carries out the work of vibration linear feeding, wherein:

the port department of the output end of the feed trough body 2 is provided with a connection plate 3, the connection plate 3 is detachably connected with the feed trough body 2, and the upper plate surface of the connection plate 3 is connected with the trough bottom of the feed trough body 2, so that the connection plate 3 becomes a part of the trough bottom of the feed trough body 2.

Referring to fig. 3, in order to describe the specific implementation process of the embodiment in detail, the embodiment further includes a storage chute 6, the storage chute 6 is located above the feed chute body 2, a discharge opening is arranged at the bottom of the storage chute 6, and a striker plate 7 is arranged on one side of the discharge opening close to the discharge end. On discharging the sample to feed cell body 2 with the bin outlet by stock chest 6, when feed cell body 2 vibrates, drive the sample and pass to 3 directions of link plate by striker plate 7 below and remove to make the sample even removal under the blockking of striker plate 7 to link plate 3, avoid the problem that feed in-process sample piled up.

Therefore, when the feeding device is used for feeding materials, the materials enter the connecting plate 3 through the bottom of the feeding groove body 2 and are finally discharged from the connecting plate 3, and the plate body is easily processed into a thin body, so that the processing difficulty of the feeding groove body 2 is reduced while the thickness of an output end port is smaller. Further, the thickness of the port of the output end can be processed to an extremely thin state according to the requirement to reduce the fall and reduce the bounce phenomenon of the sample. In addition, the connecting plate 3 can be detachably assembled and is convenient to replace.

In addition, in this embodiment, the bottom of the feed chute body 2 includes a slope section 21 inclined toward the connecting end plate 3, so that the thickness of the connecting end of the bottom of the chute with the connecting end plate 3 is small, and the height difference between the connecting end and the connecting end plate 3 is reduced, thereby preventing the sample from bouncing when falling from the bottom of the chute to the connecting end plate 3. Meanwhile, the material advancing speed at the section is accelerated by virtue of the inclination of the inclined surface section 21, and the feeding speed is increased.

The connecting plates 3 are flat plates, and when materials enter the connecting plates 3, the rolling trend of the materials is reduced, so that the materials are finally and stably output, and the bouncing is reduced; at the same time, the sample may be resting on the connector tile 3 when the feed is stopped.

In this embodiment, one side that feed cell body 2 was kept away from to link up plate 3 is equipped with first fender material portion and second fender material portion, and first fender material portion and second fender material portion are arranged relatively the both sides of output are in order to form material loading district 4 between the two, and the material loading in-process utilizes first fender material portion and second fender material portion to form in the both sides of output and protects the fender to prevent that the sample from rolling from both sides and falling away.

Because the channel of feed cell body 2 mainly adopts the mode of milling flutes processing, in this embodiment, at the output of feed cell body 2, the tank bottom of feed cell body 2 is shorter than the lateral wall of its both sides in order to form the breach at the output, and link up fishplate bar 3 is installed in the breach to reduce the processing length of tank bottom, reduce the processing degree of difficulty of feed cell body 2. Meanwhile, the side walls on the two sides of the feeding trough body 2 are utilized to form a protective block on the connecting plate 2.

Specifically, the connection plate 3 comprises a bottom plate, a first side plate and a second side plate, wherein the first side plate and the second side plate are arranged on two sides of the bottom plate in an opposite mode, the bottom plate is connected with the bottom of the feed tank body 2, the first side plate is fixed to the side wall of one side of the feed tank body 2, and the second side plate is fixed to the side wall of the other side of the feed tank body 2.

In the embodiment, the feeding device also comprises a material carrying plate 5 and a driving mechanism, wherein the material carrying plate 5 is positioned below the connecting plate 3, the material carrying plate 5 is connected with the driving mechanism and is driven by the driving mechanism to horizontally move towards the direction of a feeding area 4, when in feeding, the feeding groove body 2 vibrates to enable the material to move towards the output end of the feeding groove body, the material carrying plate 5 is driven by the driving mechanism to move towards the feeding area 4 from the lower part of the connecting plate 3 along the moving direction of the material so as to be uniformly spread on the material carrying plate 5,

in this embodiment, the first material blocking portion, the second material blocking plate and the feeding tank body 2 are integrally formed.

Specifically, the method comprises the following steps: the lateral wall of feed cell body 2 one side extends to 3 directions of linkage plate and extends to the opposite side of linkage plate 3 in order to form first fender material portion, and the lateral wall of feed cell body 2 and the opposite side of first fender material portion extends to 3 directions of linkage plate and extends to the opposite side of linkage plate 3 in order to form second fender material portion.

The first material blocking part and the second material blocking part are respectively fixed with the connecting plate 3.

Referring to fig. 4-5, in another embodiment, the first dam portion and the second dam portion are integrally formed with the connector tile 3.

Specifically, the method comprises the following steps: one side of the first side plate, which is close to the output end of the feed trough body 2, extends to the outer end of the feed trough body 2 to form a first material blocking part; one side of the second side plate close to the output end of the feed trough body 2 extends to the outer end of the feed trough body 2 to form a second material blocking part.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (11)

1. The utility model provides a prevent cereal vibration loading attachment that material loading bullet jumped which characterized in that includes: vibrator (1) and by vibrator (1) provide the vibration and carry out the feed cell body (2) of the linear feed work of vibration, wherein:

the port department of the output end of feed cell body (2) is equipped with linkage plate (3), and linkage plate (3) is connected with dismantling of feed cell body (2), and the last face of linkage plate (3) links up with the tank bottom of feed cell body (2).

2. A feeding bounce prevention grain vibration feeding device according to claim 1, characterized in that the bottom of the feed chute body (2) comprises a slope section (21) inclined towards the adapter plate (3).

3. A feeding bounce prevention grain vibrating feeder according to claim 2, characterized in that the connector plates (3) are plane plates.

4. A feeding bounce prevention grain vibration feeding device according to claim 1, characterized in that at the output end of the feed chute body (2), the chute bottom of the feed chute body (2) is shorter than the side walls at both sides thereof to form a gap at the output end, and the adapter plate (3) is installed in the gap.

5. A feeding bounce prevention grain vibration feeding device according to claim 4, characterized in that the connection plate (3) comprises a bottom plate, a first side plate and a second side plate which are oppositely arranged at two sides of the bottom plate, the bottom plate is connected with the bottom of the feeding trough body (2), the first side plate is fixed with the side wall of one side of the feeding trough body (2), and the second side plate is fixed with the side wall of the other side of the feeding trough body (2).

6. A feeding bounce prevention grain vibration feeding device according to claim 4, characterised in that one side of the connecting plate (3) away from the feeding chute body (2) is provided with a first material blocking part and a second material blocking part which are oppositely arranged on both sides of the output end to form a feeding area (4) therebetween.

7. A feeding and bouncing prevention grain vibrating feeder according to claim 6, further comprising a material carrying plate (5) and a driving mechanism, wherein the material carrying plate (5) is located below the connecting plate (3), and the material carrying plate (5) is connected with the driving mechanism and is driven by the driving mechanism to move horizontally towards the feeding area (4).

8. A feeding bounce prevention grain vibration feeding device according to claim 6, wherein the first material blocking part and the second material blocking plate are integrally formed with the feeding tank body (2).

9. A feeding bounce prevention grain vibration feeding device according to claim 8, wherein the side wall of one side of the feeding trough body (2) extends towards the connecting plate (3) and extends to the other side of the connecting plate (3) to form a first material blocking part, and the side wall of the other side of the feeding trough body (2) opposite to the first material blocking part extends towards the connecting plate (3) and extends to the other side of the connecting plate (3) to form a second material blocking part.

10. A feeding bounce prevention grain vibrating feeding device according to claim 6, wherein the first and second stop portions are integrally formed with the connecting plate (3).

11. The anti-feed bounce grain vibrating feeding device according to claim 10, wherein one side of the first side plate close to the output end of the feeding trough body (2) extends to the outer end of the feeding trough body (2) to form a first blocking part; one side of the second side plate close to the output end of the feeding trough body (2) extends to the outer end of the feeding trough body (2) to form a second material blocking part.

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