CN116039147B

CN116039147B - Juice extracting equipment for pear syrup production

Info

Publication number: CN116039147B
Application number: CN202310322838.1A
Authority: CN
Inventors: 宋昌荣; 宋怡静; 宋怡晓
Original assignee: Laiyang Changrong Food Co ltd
Current assignee: Laiyang Changrong Food Co ltd
Priority date: 2023-03-30
Filing date: 2023-03-30
Publication date: 2023-05-30
Anticipated expiration: 2043-03-30
Also published as: CN116039147A

Abstract

The invention belongs to the technical field of pear syrup production, in particular to juice extracting equipment for pear syrup production, which comprises a machine case, an extruding device and a filtering device; the heart removing device is also included; a discharge pipe is arranged at the bottom of the case; the machine case is internally provided with evenly arranged heart removing devices; the coring device includes two opposing -shaped cartridges; a gap is reserved between the two -shaped bins and connected through a connecting sheet; a first inserted link is fixedly connected above the connecting sheet; two mounting blocks are fixedly connected to the end surfaces of two sides of the bin; the mounting blocks which are opposite to each other are rotatably connected with a chain wheel; two adjacent chain wheels are meshed with chains; the outer surfaces of the two chains are fixedly connected with uniformly arranged pressing plates through connecting blocks; a cylinder is arranged below the coring barrel; a packing auger is arranged in the cylinder; an extrusion device is arranged below the cylinder; a filtering device is arranged below the extrusion device; the pear heart removing device is mainly used for improving the heart removing efficiency of the pear.

Description

Juice extracting equipment for pear syrup production

Technical Field

The invention belongs to the technical field of pear syrup production, and particularly relates to juice extracting equipment for pear syrup production.

Background

Pear syrup was a special medicine in palace in the past, and pear syrup was not flowed in the folk until the clear dynasty was transferred out of palace by the imperial doctor. The existing pear syrup preparation method at present mainly takes selected autumn pears (or pears and snowflake pears) as main raw materials, presses pear juice, and is matched with other drugs for relieving cough, eliminating phlegm, promoting fluid production and moistening lung to be carefully decocted to obtain the medicated diet drink.

In the process of producing the pear syrup, if the pear cores are not removed, the taste of the pear syrup is affected, so that in order to remove the pear cores of the pears and then produce the pear syrup, after being developed and designed by the present department and obtaining the results, a patent with the application number of CN202121181278.5 and the subject name of a pear juicer for producing the pear syrup is provided, and the patent is mainly used for realizing the heart removing work of the pears produced and processed;

however, in the subsequent work of this company, it was found that after the removal of the pear inserted on the coring cone, the equipment needs to be stopped, and then the worker takes out the pear core, inserts a new pear on the coring cone, and removes the remaining pear core, which reduces the coring efficiency.

Disclosure of Invention

The technical scheme adopted for solving the technical problems is as follows: the invention relates to juice extracting equipment for pear syrup production, which comprises a machine case, an extruding device, a filtering device and a control system; the heart removing device is also included;

support legs are arranged at the bottom of the case; a discharge pipe is arranged at the bottom of the case, and a control valve is arranged in the discharge pipe; the machine case is internally provided with evenly arranged heart removing devices;

the coring device includes two opposing -shaped cartridges; a gap is reserved between the two -shaped bins and connected through a connecting sheet; a first inserted link is fixedly connected above the connecting sheet and is positioned at the center position of the two -shaped bins opposite to each other;

the end faces of the opposite sides of the two -shaped bins are fixedly connected with mounting plates, and the mounting plates are fixed on the chassis through bolts; two mounting blocks are fixedly connected to the end surfaces of two sides of the bin; the mounting blocks which are opposite to each other are rotatably connected with a chain wheel, and the chain wheels are driven by a first motor; the adjacent two chain wheels are meshed with chains, and the chains are positioned in a gap reserved between the two opposite -shaped bins;

the outer surfaces of the two chains are fixedly connected with uniformly arranged pressing plates through connecting blocks, and the pressing plates on the two chains correspond to each other; the width of the connecting block is smaller than the width of a gap reserved between the two -shaped bins;

a conveyor belt is arranged above the coring device, and the conveyor belts are fixedly connected with second inserted bars;

a heart removing cylinder is arranged below the first inserted link and is a stainless steel cylinder; the surface of the outer ring of the coring barrel is fixedly connected with a cross piece, and the cross piece is fixedly connected with the chassis;

a cylinder is arranged below the coring barrel, and a cylinder part extends out of the case; an auger is arranged in the cylinder and driven by a second motor;

an extrusion device is arranged below the cylinder and is used for extruding juice; the filter device is arranged below the extrusion device and is used for filtering pear residues.

Preferably, each pressing plate is provided with a semicircular groove, and the radius of the semicircular groove is larger than that of the heart removing cylinder;

the cross piece and the connecting piece are sharp stainless steel pieces.

Preferably, the opposite side of the -shaped bin is fixedly connected with the slice at the inner end face of the -shaped bin, and the slice is perpendicular to the pressing plate.

Preferably, the bottom of the cylinder is provided with evenly arranged leakage holes;

limiting plates are arranged on two sides of the cylinder, and the limiting plates are fixedly connected with the case.

Preferably, an L-shaped plate is fixedly connected to the -shaped bin far away from the conveyor belt, and a guide plate is arranged on the end face of one side of the L-shaped plate, which is opposite to the conveyor belt;

the guide plate is connected with the L-shaped plate through a spring.

The beneficial effects of the invention are as follows:

1. the juicing equipment for pear syrup production is characterized in that the juicing equipment is gradually close to the heart-removing cylinder when the pear is moved, the pear passes through the connecting sheet after the pear contacts with the heart-removing cylinder, then gradually enters the heart-removing cylinder through the connecting sheet, meanwhile, the pear pulp also passes through the connecting sheet, the pear is firstly cut into two halves, then the pear pulp continues to move downwards on the surface of the heart-removing cylinder, then the pear pulp passes through the cross piece, after the pear passes through the cross piece, the pear pulp is divided into four halves and then falls downwards, meanwhile, the pear pulp is left in the heart-removing cylinder, when the next pear is subjected to heart-removing operation, the pear pulp left in the heart-removing cylinder is pushed into the cylinder, and then is discharged under the rotation of the auger, in the process, the pear is continuously subjected to heart-removing treatment without stopping, and meanwhile, the pear pulp is not required to be manually removed, so that the heart-removing efficiency of the pear can be improved.

2. According to the juicing equipment for pear syrup production, the radius of the semicircular groove formed in the pressing plate is larger than that of the heart-removing cylinder, when the pressing plate moves to the bottommost part of the chain and rotates, the semicircular groove can prevent the pressing plate from colliding with the heart-removing cylinder, so that the rotation process of the pressing plate is affected, and the cross piece and the connecting piece are sharp stainless steel pieces, so that the pear can be better cut and separated, and the pear is prevented from being excessively high in resistance.

3. According to the juicing equipment for pear syrup production, when the pear inserted on the second inserting rod moves, the pear is contacted with the guide plate when the pear moves to the tail of the conveying belt and rotates, the guide plate can squeeze the pear, so that the pear is completely inserted on the second inserting rod, the pear is prevented from sliding off in the rotating process, meanwhile, in the rotating process of the pear, the guide plate is connected with the L-shaped plate through the spring, so that the pear can rotate along the guide plate, the pear can be further prevented from sliding off in the rotating process, and when the second inserting rod inserted with the pear is gradually opposite to the first inserting rod, the pear can be pressed down onto the first inserting rod under the rotation of the pressing plate.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the entire present invention;

FIG. 2 is an internal block diagram of the present invention;

FIG. 3 is a perspective view of the coring device of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3A in accordance with the present invention;

FIG. 5 is a cross-sectional view taken at B-B of FIG. 3 in accordance with the present invention;

FIG. 6 is a cross-sectional view taken at C-C of FIG. 3 in accordance with the present invention;

fig. 7 is a partial enlarged view of fig. 6 at D in accordance with the present invention.

In the figure:

1. a chassis; 11. an extrusion device; 12. a filtering device; 13. a discharge pipe; 14. a conveyor belt; 15. a second plunger; 2. a coring device; 21. shaped bin; 22. a connecting sheet; 23. a first plunger; 24. a mounting plate; 25. a mounting block; 26. a sprocket; 27. a first motor; 28. a chain; 29. a pressing plate; 291. a semicircular groove; 3. a heart removing cylinder; 31. cross pieces; 32. a cylinder; 33. an auger; 34. a second motor; 35. slicing; 36. a limiting plate; 37. an L-shaped plate; 38. and a guide plate.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As can be seen from the structural composition shown in fig. 1 to 7, the juice extracting device for pear syrup production according to the present invention comprises a case 1, an extruding device 11, a filtering device 12 and a control system; also comprises a heart removing device 2;

support legs are arranged at the bottom of the case 1; a discharge pipe 13 is arranged at the bottom of the case 1, and a control valve is arranged in the discharge pipe 13; the machine case 1 is internally provided with a center removing device 2 which is uniformly arranged;

the coring device 2 includes two opposing -shaped cartridges 21; a gap is reserved between the two -shaped bins 21 and connected through a connecting sheet 22; a first inserted link 23 is fixedly connected above the connecting piece 22, and the first inserted link 23 is positioned at the center position of the two -shaped bins 21 opposite to each other;

the end faces of the opposite sides of the bins 21 are fixedly connected with mounting plates 24, and the mounting plates 24 are fixed on the case 1 through bolts; two mounting blocks 25 are fixedly connected to the end surfaces of two sides of the bin 21; the mounting blocks 25 which are opposite to each other are rotatably connected with a chain wheel 26, and the chain wheel 26 is driven by a first motor 27; the adjacent two chain wheels 26 are meshed with chains 28, and the chains 28 are positioned in a gap reserved between two opposite -shaped bins 21;

the outer surfaces of the two chains 28 are fixedly connected with uniformly arranged pressing plates 29 through connecting blocks, and the pressing plates 29 on the two chains 28 correspond to each other; the width of the connecting block is smaller than the width of a gap reserved between the two -shaped bins 21;

a conveyor belt 14 is arranged above the coring device 2, and the conveyor belt 14 is fixedly connected with a second inserted link 15;

a heart removing cylinder 3 is arranged below the first inserted link 23, and the heart removing cylinder 3 is a stainless steel cylinder; the surface of the outer ring of the coring barrel 3 is fixedly connected with a cross piece 31, and the cross piece 31 is fixedly connected with the case 1;

a cylinder 32 is arranged below the coring barrel 3, and part of the cylinder 32 extends out of the case 1; an auger 33 is arranged in the cylinder 32, and the auger 33 is driven by a second motor 34;

a squeezing device 11 is arranged below the cylinder 32, and the squeezing device 11 is used for squeezing juice; a filtering device 12 is arranged below the extrusion device 11, and the filtering device 12 is used for filtering pear residues;

specifically, when juicing pears, the staff opens the equipment, the control system controls the conveyer belt 14 to rotate at a constant speed, simultaneously controls the first motor 27 and the second motor 34 to rotate, and in the slow constant speed rotation process of the conveyer belt, the second inserted bars 15 which are uniformly arranged can be driven to circularly rotate along with the conveyer belt 14, and in the slow rotation process of the conveyer belt 14, the staff inserts the center of the pears on the second inserted bars 15, and then the second inserted bars 15 drive the pears to move, so that the pears move to the lower part of the conveyer belt 14.

In the process of rotating the first motor 27, the chain wheels 26 are driven to rotate in the same direction, so that the two chains 28 are driven to move downwards in the two -shaped bins 21 from top to bottom, the second inserting rod 15 with the pear inserted therein is gradually opposite to the first inserting rod 23, the pressing plates 29 on the two chains 28 are gradually rotated into the two -shaped bins 21, in the process, the two pressing plates 29 are firstly contacted with the pear on the second inserting rod 15, the two pressing plates 29 are gradually moved into the -shaped bins 21, the pear on the second inserting rod 15 is pushed into the -shaped bins 21 and inserted into the first inserting rod 23, then in the process of continuously moving downwards the two pressing plates 29, the pear is continuously moved downwards on the first inserting rod 23, then when the next second inserting rod 15 on the conveyer 14 is moved downwards, the next pear is gradually rotated to the lower part of the conveyer 14, the second inserting rod 15 is gradually opposite to the first inserting rod 23, the two pressing plates 29 are gradually moved into the first inserting rod 23, the two pressing plates are gradually moved upwards into the two pressing plates 3728 are gradually moved downwards into the first inserting rod 21, and then the pear is pushed into the first inserting rod is gradually moved downwards, and in the first inserting rod 21 is pushed downwards, and then in the second inserting rod 21 is pushed downwards;

when the pears are in contact with the heart-removing cylinder 3, the pears pass through the connecting sheet 22 and then enter the heart-removing cylinder 3 gradually through the connecting sheet 22, meanwhile, the pears are cut into two parts by the connecting sheet 22, then the pears continue to move downwards on the surface of the heart-removing cylinder 3, then the pears pass through the cross piece 31, after the pears pass through the cross piece 31, the pears are divided into four parts and then drop downwards, meanwhile, the pears are left in the heart-removing cylinder 3, when the next pears are subjected to heart-removing operation, the pears left in the heart-removing cylinder 3 are pushed into the cylinder 32, and then the pears are discharged under the rotation of the auger 33.

When the pear pulp after the heart is removed falls down, the extruding device 11 can juice the pear pulp, meanwhile, the filtering device 12 filters pear residues, and then the pear juice is discharged from the discharging pipe 13 through the discharging pipe 13.

As a specific embodiment of the present invention, each pressing plate 29 is provided with a semicircular groove 291, and the radius of the semicircular groove 291 is larger than that of the coring barrel 3;

the cross piece 31 and the connecting piece 22 are sharp stainless steel sheets;

specifically, because the radius of the semicircular groove 291 formed in the pressing plate 29 is larger than the radius of the heart-shaped cylinder 3, when the pressing plate 29 moves to the bottommost part of the chain 28 and rotates, the pressing plate 29 can be prevented from colliding with the heart-shaped cylinder 3 due to the existence of the semicircular groove 291, so that the rotation process of the pressing plate 29 is affected, and the cross piece 31 and the connecting piece 22 are all sharp stainless steel pieces, so that the pear can be better cut and separated, and the pear is prevented from being excessively large in resistance.

As a specific embodiment of the present invention, the opposite side of the -shaped bin 21 is fixedly connected with a slice 35 at the inner end surface of the -shaped bin 21, and the slice 35 is perpendicular to the pressing plate 29;

specifically, since the bin 21 is fixedly connected with the slice 35, when the pear enters the bin 21 and moves downwards, the slice 35 can cut the pear pulp, so that when the pear passes through the connecting piece 22, the pressure of the connecting piece 22 when cutting the pear can be reduced.

As a specific embodiment of the present invention, the bottom of the cylinder 32 is provided with evenly arranged holes;

limiting plates 36 are arranged on two sides of the cylinder 32, and the limiting plates 36 are fixedly connected with the case 1;

specifically, because the leak is offered to drum 32 bottom, when the heart of pears removes in drum 32, the pear juice that produces when the heart is removed to the pears can flow into in drum 32, and the pear juice in the drum 32 can follow the leak that evenly arranges afterwards and flow out to prevent the extravagant condition of pear juice, simultaneously because drum 32 both sides are equipped with limiting plate 36, limiting plate 36's existence can lead to the pear flesh that drops, thereby makes the pear flesh accurate fall to on the extrusion device 11.

As a specific embodiment of the present invention, an L-shaped plate 37 is fixedly connected to the -shaped bin 21 far from the conveyor belt 14, and a guide plate 38 is arranged on the end surface of the L-shaped plate 37 opposite to the conveyor belt 14;

the guide plate 38 is connected with the L-shaped plate 37 through a spring;

specifically, when the pear inserted on the second inserted link 15 is moving, when the pear moves to the tail of the conveyor belt 14 and rotates, the pear will contact with the guide plate 38, the guide plate 38 will squeeze the pear, thereby the pear is completely inserted on the second inserted link 15, the pear is prevented from sliding down in the rotating process, meanwhile, in the rotating process of the pear, the pear can rotate along the guide plate 38 due to the fact that the guide plate 38 is connected with the L-shaped plate 37 through the spring, in this process, the pear can be further prevented from sliding down, when the second inserted link 15 inserted with the pear is gradually opposite to the first inserted link 23, the pear can be pressed down on the first inserted link 23 under the rotation of the pressing plate 29.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The juicing equipment for pear syrup production comprises a machine case (1), an extrusion device (11), a filtering device (12) and a control system; characterized in that the device also comprises a heart removing device (2);

supporting legs are arranged at the bottom of the case (1); a discharge pipe (13) is arranged at the bottom of the case (1), and a control valve is arranged in the discharge pipe (13); the machine case (1) is internally provided with a heart removing device (2) which is uniformly arranged;

the coring device (2) comprises two opposing -shaped cartridges (21); a gap is reserved between the two -shaped bins (21) and connected through a connecting sheet (22); a first inserted link (23) is fixedly connected above the connecting sheet (22), and the first inserted link (23) is positioned at the center position of the two -shaped bins (21) opposite to each other;

the end faces of one side of the two -shaped bins (21) which are opposite are fixedly connected with mounting plates (24), and the mounting plates (24) are fixed on the chassis (1) through bolts; two mounting blocks (25) are fixedly connected to the end surfaces of two sides of the bin (21); the mounting blocks (25) which are opposite to each other are rotatably connected with a chain wheel (26), and the chain wheel (26) is driven by a first motor (27); the adjacent two chain wheels (26) are meshed with chains (28), and the chains (28) are positioned in a gap reserved between two opposite -shaped bins (21);

the outer surfaces of the two chains (28) are fixedly connected with uniformly arranged pressing plates (29) through connecting blocks, and the pressing plates (29) on the two chains (28) correspond to each other; the width of the connecting block is smaller than the width of a gap reserved between the two -shaped bins (21);

a conveyor belt (14) is arranged above the coring device (2), and the conveyor belt (14) is fixedly connected with a second inserted link (15);

a heart removing cylinder (3) is arranged below the first inserted link (23), and the heart removing cylinder (3) is a stainless steel cylinder; the surface of the outer ring of the core removing cylinder (3) is fixedly connected with a cross piece (31), and the cross piece (31) is fixedly connected with the case (1);

a cylinder (32) is arranged below the coring barrel (3), and part of the cylinder (32) extends out of the case (1); an auger (33) is arranged in the cylinder (32), and the auger (33) is driven by a second motor (34);

an extrusion device (11) is arranged below the cylinder (32), and the extrusion device (11) is used for extruding juice; a filtering device (12) is arranged below the extrusion device (11), and the filtering device (12) is used for filtering pear residues.

2. The juicing device for pear syrup production of claim 1, wherein: each pressing plate (29) is provided with a semicircular groove (291), and the radius of the semicircular groove (291) is larger than that of the coring barrel (3).

3. The juicing device for pear syrup production of claim 1, wherein: the cross piece (31) and the connecting piece (22) are sharp stainless steel sheets.

4. The juicing device for pear syrup production of claim 1, wherein: the opposite sides of the -shaped bin (21) are fixedly connected with the sections (35) on the inner end surfaces of the -shaped bin (21), and the sections (35) are perpendicular to the pressing plate (29).

5. The juicing device for pear syrup production of claim 1, wherein: the bottom of the cylinder (32) is provided with evenly arranged leak holes.

6. The juicing device for pear syrup production of claim 5, wherein: limiting plates (36) are arranged on two sides of the cylinder (32), and the limiting plates (36) are fixedly connected with the case (1).

7. The juicing device for pear syrup production of claim 1, wherein: an L-shaped plate (37) is fixedly connected to the -shaped bin (21) far away from the conveyor belt (14), and a guide plate (38) is arranged on the end face of one side, opposite to the conveyor belt (14), of the L-shaped plate (37).

8. The juicing device for pear syrup production of claim 7, wherein: the guide plate (38) is connected with the L-shaped plate (37) through a spring.