CN210171604U - Rubbing machine for producing animal leftover grease crude oil - Google Patents

Abstract

The utility model discloses a rubbing machine is used in production of animal leftover grease crude oil relates to a rubbing machine field. The device comprises an upper box body, a feeding port, a first reamer, a second reamer, a conveying port, a lower box body, a third reamer, a fourth reamer, a conveying belt, a feeding hopper, a screening net, a discharging port and a guide plate; the upper box body is located on the upper portion of the lower box body, a material conveying port is arranged at the joint of the upper box body and the lower box body, the first reamer and the second reamer are located inside the upper box body and tangent to the first reamer and the second reamer, the first reamer and the second reamer jointly form a first mincing component, the feeding port is located on the upper portion of the upper box body and located right above the first mincing component, and the third reamer and the fourth reamer are located inside the lower box body and form a second mincing component.

Description

Rubbing machine for producing animal leftover grease crude oil

Technical Field

The utility model relates to a pulverizer field, concretely relates to animal leftover fat crude oil production is with pulverizer.

Background

Offal refers to the leftover or waste material that is separated as residue during processing. That is, the waste is not used up, for example, a good steel plate is used and then a piece of scrap is left, which is called scrap. Animal leftovers are needed in the process of manufacturing the animal fat crude oil, wherein the animal leftovers comprise hard matters such as a plurality of bone chips, so that the scrap residues ground by the conventional grinding machine are large and cannot reach the required fineness, and the qualified rate cannot reach the standard.

Disclosure of Invention

For solving prior art's not enough, the utility model aims to provide an animal leftover bits and pieces grease crude oil production is with rubbing machine can effectual improvement rub efficiency, qualification rate.

In order to achieve the above object, the utility model adopts the following technical scheme:

a mincing machine for producing animal waste grease crude oil comprises an upper box body, a feeding port, a first reamer, a second reamer, a conveying port, a lower box body, a third reamer, a fourth reamer, a conveying belt, a feeding hopper, a screening net, a discharging port and a guide plate; the upper box body is positioned on the upper portion of the lower box body, a material conveying port is arranged at the connecting position, the first reamer and the second reamer are positioned in the upper box body and are tangent to each other, the first reamer and the second reamer jointly form a first mincing component, the material conveying port is positioned on the upper portion of the upper box body and is positioned right above the first mincing component, the third reamer and the fourth reamer are positioned in the lower box body and form a second mincing component, an included angle formed by a connecting line of the circle centers of the third reamer and the fourth reamer and the upper end face of the lower box body is 35-70 degrees, the screen mesh is positioned right below the second mincing component and is 40-65 degrees with the lower surface of the lower box body, one end of the guide plate is connected with one end of the screen mesh close to the lower box body, the conveyor belt is positioned right above the guide plate and is arranged at an angle of 10-170 degrees with the side of the lower box body, one end of the conveyor belt is located above the second rubbing component, a discharge port is arranged right below the screening hopper, and a plurality of feeding hoppers are arranged on the conveyor belt.

Furthermore, a feeding plate is arranged in the lower box body, one end of the feeding plate is located right below the material conveying port, the other end of the feeding plate is located right above the second rubbing component and forms an included angle of 30-70 degrees with the upper surface of the lower box body, a water inlet is arranged on the upper surface of the lower box body and located right above the second rubbing component, and leftovers can be diluted by the arrangement of the water inlet, so that splashing of the leftovers is reduced, the temperature of the reamer is reduced, and the service life of the reamer is prolonged.

Furthermore, first garrulous subassembly of mincing becomes to be equipped with three groups in line at least, the second is minced the subassembly and is become to be equipped with two sets of in line at least, and the multiseriate setting can improve and rub efficiency.

Furthermore, the feeding plate is of a belt transmission structure, so that the material can be transmitted more rapidly through belt transmission, and the speed is easy to control.

Furthermore, the material screening net is of a net structure, and a plurality of small holes are formed in the surface of the material screening net.

Furthermore, the rotating directions of the first reamer and the second reamer are opposite, and the rotating directions of the third reamer and the fourth reamer are opposite.

Further, the guide plate is L type structure to sieve material net is kept away from to L type lower extreme, and the L type sets up can prevent that the leftover bits and pieces that fall from splashing, improves device life.

The utility model discloses an useful part lies in:

the utility model discloses a to the setting that first hank garrulous subassembly and second ground the subassembly, can make the leftover bits and pieces first hank garrulous subassembly carry out rough machining earlier again and rub subassembly finish machining by the second again, improve and rub efficiency and qualification rate, and the leftover bits and pieces after rubbing are seen off by the discharge gate via the aperture on the screen cloth, sieve material net whereabouts to the guide plate that the leftover bits and pieces that do not filter by the aperture set up by the slope, the conveyer belt rotates and rubs the leftover bits and pieces that will not filter by the feeding funnel on the conveyer belt once more, until screening from sieve material net, with this improvement rub the yield, improve and rub efficiency, the qualification rate.

Drawings

Fig. 1 is a schematic structural view of embodiment 1 of the present invention;

fig. 2 is a schematic structural diagram of embodiment 2 of the present invention;

FIG. 3 is a schematic structural view of the screen mesh of the present invention;

figure 4 is a cross-sectional view of the hopper of the present invention;

figure 5 is a front view of the hopper of the present invention;

the meaning of the reference symbols in the figures:

1 is an upper box body, 2 is a feeding port, 3 is a first reamer, 4 is a second reamer, 5 is a conveying port, 6 is a lower box body, 7 is a third reamer, 8 is a fourth reamer, 9 is a conveying belt, 10 is a feeding hopper, 11 is a screening net, 12 is a discharging port, 13 is a guide plate, 14 is a water inlet, and 15 is a feeding plate.

Detailed Description

The invention will be further described and illustrated with reference to the following examples and figures, without restricting the invention in any way.

Example 1

As shown in the attached drawing 1, the mincing machine for producing the animal waste grease crude oil comprises an upper box body 1, a feeding port 2, a first reamer 3, a second reamer 4, a material conveying port 5, a lower box body 6, a third reamer 7, a fourth reamer 8, a conveyor belt 9, a feeding hopper 10, a screen mesh 11, a discharging port 12 and a guide plate 13; the upper box body 1 is positioned on the upper part of the lower box body 2, a material conveying port 5 is arranged at the joint of the upper box body and the lower box body, the first reamer 3 and the second reamer 4 are positioned in the upper box body 1, the first reamer 3 and the second reamer 4 are tangent to each other, the first reamer 3 and the second reamer 4 jointly form a first mincing component, the material conveying port 2 is positioned on the upper part of the upper box body 1 and is positioned right above the first mincing component, the third reamer 7 and the fourth reamer 8 are positioned in the lower box body 6 and form a second mincing component, an included angle formed by a connecting line of the circle center of the third reamer 7 and the circle center of the fourth reamer 8 and the upper end surface of the lower box body 6 is 35 degrees, the screen mesh 11 is positioned right below the second mincing component and is 40 degrees with the lower surface of the lower box body 6, one end of the flow guide plate 13 is connected with one end of the screen mesh 11 close to the lower box body 6, the conveyor belt 9 is located right above the guide plate 13 and is arranged at an angle of 10 degrees with the side surface of the lower box body 6, one end of the conveyor belt 9 is located above the second mincing component, the discharge hole 12 is arranged right below the screening hopper 11, and the conveyor belt 9 is provided with a plurality of feeding hoppers 10 shown in the attached drawings 4 and 5.

Secondly, the first mincing components are provided with three groups in a row, the second mincing components are provided with two groups in a row, the screen mesh 11 is of a net structure and is provided with a plurality of small holes on the surface as shown in the attached drawing 3, the rotating directions of the first reamer 3 and the second reamer 4 are opposite, the rotating directions of the third reamer 7 and the fourth reamer 8 are opposite, and finally the guide plate 13 is of an L-shaped structure, and the lower end of the L-shaped structure is far away from the screen mesh 11.

The utility model discloses the during operation, the starter makes the first garrulous subassembly of hank, the second rubs subassembly and conveyer belt 9 and rotates, the leftover bits and pieces are got into by pay-off mouth 2, and rub by the garrulous subassembly of first hank, leftover bits after rubbing fall to the second and rub the work of continuing rubbing in the subassembly, and rub the subassembly by the second and fall into sieve material net 11, sieve through the aperture on sieve material net 11 and fall, the leftover bits that do not sieve fall flows into guide plate 13 in sieve material net 11 that the slope set up because the action of gravity, thereby conveying hopper 10 on the conveyer belt 9 shovels the leftover bits and pieces in the guide plate 13 because the rotation of conveyer belt 9 plays, and rub the effect because the action of gravity falls into the second once more when conveyer belt 9 conveys it to the peak, thereby fall into sieve material net 11 once more, until the sieve falls.

Example 2

As shown in the attached figure 2, the mincing machine for producing the animal waste grease crude oil comprises an upper box body 1, a feeding port 2, a first reamer 3, a second reamer 4, a material conveying port 5, a lower box body 6, a third reamer 7, a fourth reamer 8, a conveyor belt 9, a feeding hopper 10, a screen mesh 11, a discharging port 12 and a guide plate 13; the upper box body 1 is positioned on the upper part of the lower box body 2, a material conveying port 5 is arranged at the joint of the upper box body and the lower box body, the first reamer 3 and the second reamer 4 are positioned in the upper box body 1, the first reamer 3 and the second reamer 4 are tangent to each other, the first reamer 3 and the second reamer 4 jointly form a first mincing component, the material conveying port 2 is positioned on the upper part of the upper box body 1 and is positioned right above the first mincing component, the third reamer 7 and the fourth reamer 8 are positioned in the lower box body 6 and form a second mincing component, an included angle formed by a connecting line of the circle center of the third reamer 7 and the circle center of the fourth reamer 8 and the upper end surface of the lower box body 6 is 35 degrees, the screen mesh 11 is positioned right below the second mincing component and is 40 degrees with the lower surface of the lower box body 6, one end of the flow guide plate 13 is connected with one end of the screen mesh 11 close to the lower box body 6, the conveyor belt 9 is located right above the guide plate 13 and is arranged at an angle of 10 degrees with the side face of the lower box body 6, one end of the conveyor belt 9 is located above the second rubbing component, a discharge port 12 is arranged right below the screening hopper 11, a plurality of feed hoppers 10 are arranged on the conveyor belt 9, a feed plate 15 is arranged inside the lower box body 6, one end of the feed plate 15 is located right below the material conveying port 5, the other end of the feed plate 15 is located right above the second rubbing component and forms an included angle of 70 degrees with the upper surface of the lower box body 6, a water inlet 14 is arranged on the upper surface of the lower box body 6, and the water inlet 14 is located right above the second rubbing component.

Wherein, the feeding plate 15 can also be a belt transmission structure.

Secondly, the first mincing components are arranged in four groups in a row, the second mincing components are arranged in three groups in a row, the screen mesh 11 is of a net structure, the surface of the screen mesh is provided with a plurality of small holes, the rotating directions of the first reamer 3 and the second reamer 4 are opposite, the rotating directions of the third reamer 7 and the fourth reamer 8 are opposite, and finally the guide plate 13 is of an L-shaped structure, and the lower end of the L-shaped structure is far away from the screen mesh 11.

The utility model discloses the during operation, the starting machine makes first hank garrulous subassembly, second rubs subassembly and conveyer belt 9 and rotates, the leftover bits and pieces are got into by pay-off mouth 2, and rub by first hank garrulous subassembly, leftover bits and pieces after rubbing fall into in pay-off board 15, and send into the second by pay-off board 15 and rub the subassembly in, can pour into appropriate amount of water into to its inside by water inlet 14 this moment, the second rubs the subassembly and continues rubbing work, and fall into sieve material net 11 by second and rub the subassembly, sieve through the aperture on sieve material net 11, the leftover bits and pieces that do not sieve flow into guide plate 13 from the sieve material net 11 that the slope set up because of the effect of gravity, thereby conveying hopper 10 on the conveyer belt 9 shovels the leftover bits and pieces in guide plate 13 because of rotation of conveyer belt 9, and rub the effect because the action of gravity falls into second once more when conveyer belt 9 conveys it to the peak, and thus falls again into the screen mesh 11 until it is screened off.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by adopting equivalent replacement or equivalent transformation fall within the protection scope of the present invention.

Claims (6)

1. The utility model provides an animal leftover bits and pieces grease crude oil production is with rubbing machine which characterized in that: the device comprises an upper box body, a feeding port, a first reamer, a second reamer, a conveying port, a lower box body, a third reamer, a fourth reamer, a conveying belt, a feeding hopper, a screening net, a discharging port and a guide plate; the upper box body is positioned on the upper portion of the lower box body, a material conveying port is arranged at the connecting position, the first reamer and the second reamer are positioned in the upper box body and are tangent to each other, the first reamer and the second reamer jointly form a first mincing component, the material conveying port is positioned on the upper portion of the upper box body and is positioned right above the first mincing component, the third reamer and the fourth reamer are positioned in the lower box body and form a second mincing component, an included angle formed by a connecting line of the circle centers of the third reamer and the fourth reamer and the upper end face of the lower box body is 35-70 degrees, the screen mesh is positioned right below the second mincing component and is 40-65 degrees with the lower surface of the lower box body, one end of the guide plate is connected with one end of the screen mesh close to the lower box body, the conveyor belt is positioned right above the guide plate and is arranged at an angle of 10-170 degrees with the side of the lower box body, one end of the conveyor belt is positioned above the second rubbing component, a discharge port is arranged right below the material screening net, and a plurality of feed hoppers are arranged on the conveyor belt;

the inside feed plate that is equipped with of lower box, feed plate one end be located the material conveying mouth under, the feed plate other end be located second and rub subassembly directly over to form 30 ~70 contained angles with lower box upper surface, lower box upper surface is equipped with the water inlet, the water inlet is located second and rubs the subassembly directly over.

2. The mincing machine for producing the crude oil of the animal offal fat according to claim 1, wherein the first mincing components are at least provided with three groups in a row, and the second mincing components are at least provided with two groups in a row.

3. The mincing machine for producing the crude oil of the animal waste grease of claim 1, wherein the feeding plate has a belt transmission structure.

4. The mincing machine for producing the crude oil of the animal waste grease of claim 1, wherein the screen mesh is of a net structure and is provided with a plurality of small holes on the surface.

5. The mincing machine for producing crude oil of animal waste grease according to claim 1, wherein the first reamer and the second reamer rotate in opposite directions, and the third reamer and the fourth reamer rotate in opposite directions.

6. The mincing machine for producing the crude oil of the animal waste grease of claim 1, wherein the guide plate is of an L-shaped structure, and the lower end of the L-shaped structure is far away from the screen mesh.

Images