CN219479171U - Grass Feed Machine - Google Patents

Abstract

The utility model discloses a forage grass fodder machine, comprising: the upper part of the shell is provided with a forage feed inlet and an auxiliary material feed inlet, and the lower part of the shell is provided with a discharge outlet; the first crushing mechanism is arranged inside the shell and is positioned below the forage feed inlet and the auxiliary material feed inlet, and the first crushing mechanism is provided with a first crushing blade; the second crushing mechanism is arranged inside the shell and is positioned below the first crushing mechanism, the second crushing mechanism is provided with a second crushing blade, and the rotation direction of the second crushing blade is perpendicular to the rotation direction of the first crushing blade. The utility model can improve the crushing effect on pasture.

Description

Grass Feed Machine

technical field

The utility model relates to pasture processing equipment. More specifically, the utility model relates to a forage feed machine.

Background technique

Processing forage grass to prepare forage feed can improve the utilization rate of forage grass and reduce the waste of forage grass. However, the existing forage processing equipment usually adopts a simple crushing mechanism composed of a motor, a blade, and a tool holder, which has a poor crushing effect on forage. For example, the utility model patent with the patent name "Forage Grinder" with the application number The guillotine blade and the crushing knife cut the pasture in sequence, and the cutting direction is single, so it is impossible to cut the pasture below well. Therefore, it is necessary to design a technical solution capable of overcoming the above defects.

Utility model content

One purpose of the utility model is to provide a pasture feed machine, which can improve the effect of crushing pasture.

In order to achieve these objects and other advantages of the present utility model, according to one aspect of the present utility model, a pasture feed machine is provided, comprising: a housing, the upper part of which is provided with a pasture feeding port and an auxiliary material feeding port, and the lower part of the housing A discharge port is provided; a first crushing mechanism is arranged inside the housing, and is located below the pasture feeding port and the auxiliary material feeding port, and the first crushing mechanism has a first crushing blade; Two crushing mechanisms, which are arranged inside the housing and located below the first crushing mechanism, the second crushing mechanism has a second crushing blade, and the rotation direction of the second crushing blade is the same as that of the first crushing mechanism. The direction of rotation of the blade is vertical.

Further, a first chamber is formed in the housing, and the first chamber is in a horizontal cylindrical structure. A first rotating shaft is axially arranged in the first chamber, and a plurality of shafts are connected to the first rotating shaft. The first pulverizing blade.

Further, the pasture feed inlet is arranged on the side wall of the first chamber and is roughly parallel to the tangential direction of the first chamber.

Further, a second chamber is also formed in the housing, the second chamber is in a vertical cylindrical structure, the top of the second chamber communicates with the bottom of the first chamber, and the second chamber A second rotating shaft is arranged axially in the chamber, and a plurality of second crushing blades are connected to the second rotating shaft.

Further, the second pulverizing mechanism further includes a cutting disc, the cutting disc is arranged on the second rotating shaft, the outer diameter of the cutting disc is smaller than the inner diameter of the second chamber, and the cutting disc is located on the Below the second crushing blade, the edge of the cutting disc is provided with serrations.

Further, there are two second crushing mechanisms, which are arranged at intervals up and down.

Further, a screen is arranged between the two second crushing mechanisms, and the screen is in the shape of a conical structure with a large top and a small bottom, and the upper edge of the screen is connected to the inner wall of the second chamber, so that The screen corresponds to the position of the gap between the cutting disc and the inner wall of the second chamber.

The utility model provides a pasture feed machine, comprising: a casing, the top of which is provided with a pasture feeding port and an auxiliary material feeding port, the bottom part of the casing is provided with a discharge port, and the casing is provided with a first chamber and a second chamber, the first chamber has a horizontal cylindrical structure, and the second chamber has a vertical cylindrical structure; a first crushing mechanism is arranged in the first chamber, The first crushing mechanism has a first crushing blade; two second crushing mechanisms, the two second crushing mechanisms are arranged in the second chamber, the second crushing mechanism has a second crushing blade, the The rotation direction of the second crushing blade is perpendicular to the rotation direction of the first crushing blade, and the second crushing mechanism further includes a cutting disc, the outer diameter of the cutting disc is smaller than the inner diameter of the second chamber, the The cutting disk is located below the second crushing blade, the edge of the cutting disk is provided with sawtooth, and a screen is provided between the two second crushing mechanisms, and the screen is in the shape of a conical structure with a large upper part and a smaller lower part. The upper edge of the screen is connected to the inner wall of the second chamber, and the screen corresponds to the position of the gap between the cutting disc and the inner wall of the second chamber.

The utility model at least includes the following beneficial effects:

The utility model comprises a casing, a first crushing mechanism and a second crushing mechanism. After entering the casing, pasture is cut by the first crushing mechanism and the second crushing mechanism in sequence. The cutting directions of the first crushing mechanism and the second crushing mechanism are vertical. It can fully cut the pasture and reduce the residue of long sections of pasture.

Other advantages, objectives and features of the utility model will partly be embodied through the following descriptions, and partly will be understood by those skilled in the art through the research and practice of the utility model.

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is a structural schematic diagram of the second crushing mechanism of the present invention.

Detailed ways

The utility model will be described in further detail below in conjunction with the accompanying drawings, so that those skilled in the art can implement it by referring to the description.

It should be understood that terms such as "having", "comprising" and "including" used herein do not exclude the presence or addition of one or more other elements or combinations thereof.

As shown in Figures 1 and 2, the embodiment of the present application provides a forage feed machine, including: a housing 1, the upper part of which is provided with a pasture feeding port 1011 and an auxiliary material feeding port 1012, and the lower part of the housing 1 is provided with an outlet feed port 1021; the first crushing mechanism 2, which is arranged inside the housing 1, and is located below the forage feeding port 1011 and the auxiliary material feeding port 1012, and the first crushing mechanism 2 has a first crushing mechanism Blade 202; the second crushing mechanism 3, which is arranged inside the housing 1 and below the first crushing mechanism 2, the second crushing mechanism 3 has a second crushing blade 302, and the second crushing blade The rotation direction of 302 is perpendicular to the rotation direction of the first crushing blade 202;

In the above-mentioned embodiment, the casing 1 is arranged vertically, and the pasture feed inlet 1011, the first crushing mechanism 2, the second crushing mechanism 3, and the discharge port are arranged sequentially from top to bottom; the pasture feed inlet 1011 is used to input pasture , the auxiliary material inlet 1012 is used to input auxiliary materials, such as corn, soybean meal, fermentation agent, salt, etc., and the outlet is used to collect the crushed finished products; the first crushing mechanism 2 is arranged below the grass inlet 1011, and the second Two crushing mechanisms 3 are arranged below the first crushing mechanism 2, and the first crushing mechanism 2 has a first crushing blade 202, and the second crushing mechanism 3 has a second crushing blade 302, and the first crushing blade 202 is used for longitudinally cutting grass, The second crushing blade 302 is used to cut the pasture horizontally, and the two cutting methods are performed in sequence and cooperate with each other, so that the pasture can be fully cut and the residue of long sections of pasture can be reduced.

In another embodiment, a first chamber 101 is formed in the housing 1, and the first chamber 101 is in a horizontal cylindrical structure, and a first rotating shaft 201 is axially arranged in the first chamber 101. , the first rotating shaft 201 is connected with a plurality of the first pulverizing blades 202; the first chamber 101 is arranged laterally below the pasture feeding port 1011, and the size of the first pulverizing blades 202 matches the first chamber 101, Thus, the pasture entering the first chamber 101 is fully cut longitudinally.

In another embodiment, the forage feeding port 1011 is arranged on the side wall of the first chamber 101, and is roughly parallel to the tangential direction of the first chamber 101; parallel to the tangent, the grass can enter the second chamber. After a chamber 101 can be cut as quickly as possible.

In another embodiment, a second chamber 102 is formed in the housing 1, the second chamber 102 is a vertical cylindrical structure, and the top of the second chamber 102 is connected to the first chamber. The bottom of the chamber 101 is connected, and the second chamber 102 is axially provided with a second rotating shaft 301, and a plurality of second crushing blades 302 are connected to the second rotating shaft 301; the second chamber 102 is connected to the first chamber The chamber 101 is vertically arranged, and the forage treated by the first chamber 101 falls to the second chamber 102, and is cut horizontally by the second crushing blade 302, and the size of the second crushing blade 302 matches the second chamber 102; optionally, The power ends of the first rotating shaft 201 and the second rotating shaft 301 pass through the casing, and are driven by a motor arranged outside the casing.

In another embodiment, the second crushing mechanism 3 further includes a cutting disc 303, the cutting disc 303 is arranged on the second rotating shaft 301, and the outer diameter of the cutting disc 303 is smaller than that of the second chamber. The inner diameter of 102, the cutting disc 303 is located below the second crushing blade 302, the edge of the cutting disc 303 is provided with sawtooth 3031; After the grass is blocked by the middle part of the cutting disc 303, it gathers around and is further ground and pulverized by the saw teeth 3031; preferably, the cutting disc 303 has a slope from the center to the surroundings, so as to facilitate the gathering of pastures around.

As shown in FIG. 1 , in another embodiment, there are two second crushing mechanisms 3 arranged at intervals up and down. The two second crushing mechanisms 3 perform cutting and grinding to improve the grass crushing effect.

In another embodiment, a screen 4 is arranged between the two second pulverizing mechanisms 3, and the screen 4 has a conical structure with a large top and a small bottom, and the upper edge of the screen 4 is connected to the The inner wall of the second chamber 102, the screen 4 corresponds to the position of the gap between the cutting disc 303 and the inner wall of the second chamber 102; the screen 4 is arranged between the two second crushing mechanisms 3, The herbage processed by the last second crushing mechanism 3 is sieved, and the fine particles directly fall from the screen 4 into the gap between the next second crushing mechanism 3 and the second chamber 102, and then enter the discharge port, while the coarser particles fall from the screen 4 The sieve 4 slides down to the middle of the cutting disc 303 of the next second crushing mechanism 3, and is processed by the second crushing blade 302 and the sawtooth 3031 again, thereby improving the uniformity of this part of pasture cutting and reducing the ineffective cutting of fine particles.

The embodiment of the present application further provides a pasture forage machine, comprising: a housing 1, the upper part of which is provided with a pasture feeding port 1011 and an auxiliary material feeding port 1012, the lower part of the housing 1 is provided with a discharge port 1021, the housing The body 1 is provided with a first chamber 101 and a second chamber 102 from top to bottom, the first chamber 101 has a horizontal cylindrical structure, and the second chamber 102 has a vertical cylindrical structure; the first Pulverizing mechanism 2, it is arranged in described first chamber 101, and described first pulverizing mechanism 2 has first pulverizing blade 202; Two second pulverizing mechanisms 3, two described second pulverizing mechanisms 3 are arranged on the In the second chamber 102, the second crushing mechanism 3 has a second crushing blade 302, the rotation direction of the second crushing blade 302 is perpendicular to the rotation direction of the first crushing blade 202, and the second crushing blade 302 is The crushing mechanism 3 also includes a cutting disc 303, the outer diameter of the cutting disc 303 is smaller than the inner diameter of the second chamber 102, the cutting disc 303 is located below the second crushing blade 302, and the edge of the cutting disc 303 is arranged There are sawtooth 3031, and a screen 4 is arranged between the two second crushing mechanisms 3, the screen 4 is a conical structure with a large top and a small bottom, and the upper edge of the screen 4 is connected to the second The inner wall of the chamber 102, the screen 4 corresponds to the position of the gap between the cutting disc 303 and the inner wall of the second chamber 102;

In the above embodiment, the casing 1 is vertically arranged, and the forage feed inlet 1011, the first chamber 101, the second chamber 102 and the discharge outlet are arranged sequentially from top to bottom, and the first pulverizing mechanism 2 is arranged at the first In the chamber 101, the second crushing mechanism 3 is arranged in the second chamber 102, the first crushing mechanism 2 has a first crushing blade 202, the second crushing mechanism 3 has a second crushing blade 302, and the first crushing blade 202 is used for The pasture is cut longitudinally, and the second crushing blade 302 is used to cut the pasture horizontally. The two cutting methods are carried out sequentially and cooperate with each other, so that the pasture can be fully cut and the residue of long sections of pasture can be reduced; the second crushing mechanism 3 includes There are two upper and lower ones, and the screen 4 is set between the two second crushing mechanisms 3. The forage treated by the last second crushing mechanism 3 is screened, and the fine particles fall directly from the screen 4 into the next second crushing mechanism. 3 and the second chamber 102, and then enter the discharge port, the coarser particles slide from the screen 4 to the middle of the cutting disc 303 of the next second crushing mechanism 3, and then pass through the gap between the second crushing blade 302 and the sawtooth 3031 treatment, so as to improve the uniformity of this part of the pasture cutting and reduce ineffective cutting.

The number of devices and the scale of processing described here are used to simplify the description of the present invention. It is obvious to those skilled in the art that the application, modification and change of the utility model pasture feed machine.

Although the embodiment of the present utility model has been disclosed as above, it is not limited to the use listed in the description and the implementation, and it can be applied to various fields suitable for the present utility model. For those familiar with the art, Further modifications can be readily effected, so the invention is not limited to the specific details and examples shown and described herein without departing from the general concept defined by the claims and their equivalents.

Claims (8)

1. Forage feed machine, characterized in that it includes: A shell, the upper part of which is provided with a forage feeding port and an auxiliary material feeding port, and the lower part of the housing is provided with a discharge port; A first crushing mechanism, which is arranged inside the housing and located below the pasture feed inlet and the auxiliary material feed inlet, the first crushing mechanism has a first crushing blade; The second crushing mechanism is arranged inside the housing and located below the first crushing mechanism, the second crushing mechanism has a second crushing blade, and the rotation direction of the second crushing blade is the same as that of the first crushing mechanism. The direction of rotation of the crushing blades is vertical. 2. The forage feed machine according to claim 1, characterized in that, a first chamber is formed in the housing, the first chamber is in a horizontal cylindrical structure, and the first chamber is axially provided with A first rotating shaft, on which a plurality of first crushing blades are connected. 3. The pasture feed machine according to claim 2, characterized in that, the pasture feed inlet is arranged on the side wall of the first chamber and is roughly parallel to the tangential direction of the first chamber. 4. The forage feed machine according to claim 3, wherein a second chamber is also formed in the housing, the second chamber is in a vertical cylindrical structure, and the top of the second chamber is connected to the top of the second chamber. The bottom of the first chamber is connected, and a second rotating shaft is arranged axially in the second chamber, and a plurality of second crushing blades are connected to the second rotating shaft. 5. The forage machine according to claim 4, wherein the second crushing mechanism further comprises a cutting disc, the cutting disc is arranged on the second rotating shaft, and the outer diameter of the cutting disc is smaller than the The inner diameter of the second chamber, the cutting disc is located below the second crushing blade, and the edge of the cutting disc is provided with serrations. 6. The forage machine according to claim 5, characterized in that there are two second crushing mechanisms, which are arranged at intervals up and down. 7. The forage feed machine according to claim 6, characterized in that, a screen is arranged between the two second crushing mechanisms, and the screen is a conical structure with a large top and a small bottom, and the screen is The upper edge of the upper edge of the second chamber is connected to the inner wall of the second chamber, and the screen mesh corresponds to the position of the gap between the cutting disc and the inner wall of the second chamber. 8. Forage feed machine, characterized in that it includes: The upper part of the casing is provided with a pasture feeding port and an auxiliary material feeding port, the lower part of the casing is provided with a discharge port, and the inside of the casing is provided with a first chamber and a second chamber from top to bottom, so The first chamber has a horizontal cylindrical structure, and the second chamber has a vertical cylindrical structure; a first crushing mechanism, which is arranged in the first chamber, the first crushing mechanism has a first crushing blade; Two second crushing mechanisms, the two second crushing mechanisms are arranged in the second chamber, the second crushing mechanism has a second crushing blade, the rotation direction of the second crushing blade is the same as that of the first crushing blade The rotation direction of the crushing blade is vertical, and the second crushing mechanism also includes a cutting disc, the outer diameter of the cutting disc is smaller than the inner diameter of the second chamber, and the cutting disc is located below the second crushing blade, the The edge of the cutting disc is provided with sawtooth, and a screen is provided between the two second crushing mechanisms. The inner wall, the screen mesh corresponds to the position of the gap between the cutting disc and the inner wall of the second chamber.