CN113243401A - Batch feeder of moon crust production usefulness - Google Patents

Abstract

The invention relates to a batch feeder, in particular to a batch feeder for moon crisp production. The invention aims to provide a feeder for producing moon-shaped pastas, which can ensure that the moon-shaped pastas are completely demoulded and has high production efficiency. A batch feeder of moon crust production usefulness, including: a box body; the box cover is arranged on the box body; the at least two blanking pipes are uniformly arranged on the box body at intervals; the annular pipe is arranged between the blanking pipes; at least two clapboards are arranged on the annular pipe; at least two piston plates are slidably mounted on the annular tube; a sliding block mounted on the piston plate; the discharge pipes are uniformly arranged on the annular pipe at intervals, at least two arc-shaped holes are uniformly arranged on the annular pipe at intervals, and the arc-shaped holes are matched with the sliding blocks in a sliding mode. The invention is provided with the internal moving assembly, so that the moon bar can fall off without manually and manually controlling the special-shaped sliding rod, and further, the trouble of manual operation is reduced.

Description

Batch feeder of moon crust production usefulness

Technical Field

The invention relates to a batch feeder, in particular to a batch feeder for moon crisp production.

Background

Patent No. CN105028539A discloses an automatic production line of moon bars, which comprises an injection system, a heating system, a transmission system and a control system; although the device only needs to add thick liquid and peanut or beans respectively in first funnel and second funnel, can realize moon's full automatization fried production, automatic slip casting and throw the material, guaranteed slip casting and throw the material even to improved production efficiency, reduced manufacturing cost, nevertheless can not guarantee the whole drawing of patterns of moon's production back, and then can lead to part moon's not drawing of patterns, thereby influence the production of moon's.

Therefore, a batch feeder for producing the moon-shaped pastries, which can ensure that the moon-shaped pastries are completely demoulded and has high production efficiency, is urgently needed to be designed.

Disclosure of Invention

In order to overcome the defect that the production of the moon bars is affected because the complete demoulding of the moon bars cannot be guaranteed after the moon bars are produced and further part of the moon bars are not demoulded, the invention aims to provide the feeder for producing the moon bars, which can guarantee the complete demoulding of the moon bars and has high production efficiency.

The technical scheme is as follows: a batch feeder of moon crust production usefulness, including: a box body; the box cover is arranged on the box body; the at least two blanking pipes are uniformly arranged on the box body at intervals; the annular pipe is arranged between the blanking pipes; at least two clapboards are arranged on the annular pipe; at least two piston plates are slidably mounted on the annular tube; a sliding block mounted on the piston plate; the discharge pipes are uniformly arranged on the annular pipe at intervals, at least two arc-shaped holes are uniformly arranged on the annular pipe at intervals, and the arc-shaped holes are in sliding fit with the sliding blocks; the power assembly is arranged between the sliding block and the box body; the lifting component is arranged on the box body; the material containing assembly is arranged on the lifting assembly.

As an improvement of the scheme, the power assembly comprises: the first circular ring is arranged between the sliding blocks and is connected with the box body in a sliding manner; the torsion spring is arranged between the first circular ring and the box body; the arc-shaped rack is arranged on the first circular ring; the speed reducing motor is arranged on the box body; and the sector gear is arranged on an output shaft of the speed reducing motor and is matched with the arc-shaped rack.

As an improvement of the above scheme, the lifting assembly comprises: at least two cylinder bodies are uniformly arranged on the box body at intervals; the telescopic rods are arranged on the box body at intervals; the second ring is installed between the telescopic ends of the cylinder body and connected with the telescopic ends of the telescopic rods.

As an improvement of the scheme, the material containing component comprises: the hollow rod is arranged on the telescopic end of the telescopic rod; the special-shaped sliding rod is slidably mounted on the hollow rod; the concave rod is slidably mounted on the special-shaped sliding rod; the first spring is arranged between the special-shaped sliding rod and the concave rod; a first semicircular frame installed on the concave rod; the second semicircular frame is arranged on the special-shaped sliding rod and matched with the first semicircular frame; and the second spring is arranged between the special-shaped sliding rod and the hollow rod.

As an improvement of the above scheme, the mobile device further comprises an inner mobile assembly, wherein the inner mobile assembly comprises: the special-shaped column is arranged on the box body; and the sliding shaft is arranged on the special-shaped sliding rod and is in sliding fit with the special-shaped column.

As an improvement of the above scheme, the device further comprises an outer moving assembly, wherein the outer moving assembly comprises: the push rod is arranged on the special-shaped slide rod; a mounting rod mounted on the hollow rod; the swinging rod is rotatably installed on the installation rod, linear holes are formed in the two sides of the swinging rod, the linear hole in one side is in sliding fit with the push rod, and the linear hole in the other side is in sliding fit with the concave rod.

As the improvement of above-mentioned scheme, still including the blowing subassembly, the blowing subassembly including: the at least two storage pipes are uniformly arranged on the box body at intervals; the communicating pipe is arranged on the storage pipe; and the annular frame is arranged between the communicating pipe and the adjacent blanking pipe.

As the improvement of above-mentioned scheme, still including accuse material subassembly, accuse material subassembly includes: the compression bar is arranged on two sides of the concave bar; a third annular plate mounted on the annular frame; at least two L-shaped rods are slidably mounted on the third annular plate; the convex plate is arranged between the L-shaped rods; a third spring mounted between the L-shaped bar and the third annular plate; the sliding rod is arranged on the L-shaped rod in a sliding mode and matched with the pressure rod; and the fourth spring is arranged between the L-shaped rod and the sliding rod.

The invention has the beneficial effects that: 1. the invention is provided with the internal moving assembly, so that the moon bar can fall off without manually and manually controlling the special-shaped sliding rod, and further, the trouble of manual operation is reduced.

2. The invention is provided with the outer moving assembly, so that the second semicircular frame and the first semicircular frame can be separated further, the moon bar can be completely separated, and further, the phenomenon that part of the moon bar is not separated is prevented, and the production effect of the moon bar is influenced.

3. The feeding assembly is arranged, so that the peanut or bean can fall into the first semicircular frame and the second semicircular frame along with the slurry, manual placement of the peanuts or the beans in the slurry is not needed, and the trouble of manual operation is further reduced.

4. The invention is provided with the material control assembly, so that peanuts or beans can fall into the slurry uniformly, and the moon cake can be better produced into a finished product.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a perspective view of a third embodiment of the present invention.

Fig. 5 is a schematic perspective view of the power module of the present invention.

Fig. 6 is a schematic perspective view of the lifting assembly of the present invention.

Fig. 7 is a schematic perspective view of the material accommodating assembly of the present invention.

Fig. 8 is a schematic perspective view of the moving assembly of the present invention.

Fig. 9 is a perspective view of a fourth embodiment of the present invention.

Fig. 10 is an enlarged schematic view of part a of the present invention.

Fig. 11 is a schematic perspective view of the discharging assembly of the present invention.

FIG. 12 is a schematic view of a fifth partial body structure according to the present invention.

Fig. 13 is an enlarged view of part B of the present invention.

Labeled as: 1-box body, 2-box cover, 3-discharge pipe, 4-annular pipe, 5-partition plate, 6-piston plate, 7-sliding block, 8-discharge pipe, 9-arc hole, 10-power component, 101-first ring, 102-torsion spring, 103-arc rack, 104-speed reducing motor, 105-sector gear, 11-lifting component, 111-cylinder body, 112-telescopic rod, 113-second ring, 12-material containing component, 121-hollow rod, 122-special-shaped sliding rod, 123-concave rod, 124-first spring, 125-first semi-circular frame, 126-second semi-circular frame, 127-second spring, 13-inner moving component, 131-special-shaped column, 132-sliding shaft, 14-outer moving component, 141-push rod, 142-mounting rod, 143-swinging rod, 144-slotted hole, 15-discharging component, 151-storage pipe, 152-communicating pipe, 153-annular frame, 16-material control component, 161-pressure rod, 162-third annular plate, 163-L-shaped rod, 164-convex plate, 165-third spring, 166-sliding rod and 167-fourth spring.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings to which the invention is attached.

Example 1

A batch feeder for moon-crust production is disclosed, as shown in figures 1-7, comprising a box body 1, a box cover 2, a blanking pipe 3, a ring pipe 4, a baffle plate 5, a piston plate 6, a sliding block 7, discharging pipes 8, a power assembly 10, a lifting assembly 11 and a material containing assembly 12, wherein the box cover 2 is arranged on the upper side of the box body 1, six blanking pipes 3 are uniformly connected on the lower side of the box body 1 at intervals, the ring pipe 4 is connected between the lower sides of the blanking pipes 3, six baffle plates 5 are arranged on the ring pipe 4, six piston plates 6 are slidably arranged on the ring pipe 4, the sliding block 7 is connected on the left side of each piston plate 6, six discharging pipes 8 are uniformly connected on the lower side of the ring pipe 4 at intervals, six arc holes 9 are uniformly arranged on the upper side of the ring pipe 4 at intervals, the arc holes 9 are slidably matched with the sliding block 7, the power assembly 10 is arranged between the sliding block 7 and the box body 1, the lifting assembly 11 is arranged on the lower side of the box body 1, the lifting component 11 is provided with a material containing component 12.

When the moon bars are required to be produced, slurry for manufacturing the moon bars is placed in the box body 1, then the box cover 2 is controlled to cover the box body 1, the slurry can enter the annular pipe 4 along the discharging pipe 3, then the power assembly 10 is controlled to operate, further the sliding block 7 is moved, further the piston plate 6 is moved, further the extruded slurry flows out of the discharging pipe 8 and further enters the material containing assembly 12, then the sliding block 7 and the piston plate 6 can automatically move reversely, then the lifting assembly 11 is started, the lifting assembly 11 can drive the material containing assembly 12 to move downwards, further the material containing assembly 12 enters the oil pan, the moon bars are produced, after the moon bars are formed, the material containing assembly 12 is controlled, further the moon bars fall off and float in the oil pan, then the lifting assembly 11 and the material containing assembly 12 are controlled to operate reversely, further the material containing assembly 12 moves upwards and resets, then the sliding block 7 and the piston plate 6 automatically move in the positive direction, the process is repeated, and after the moon-like crispy rice production is finished, the power assembly 10 and the lifting assembly 11 are closed.

The power assembly 10 comprises a first circular ring 101, a torsion spring 102, an arc-shaped rack 103, a speed reduction motor 104 and a sector gear 105, the first circular ring 101 is connected between the outer sides of the sliding blocks 7, the first circular ring 101 is connected with the box body 1 in a sliding mode, the torsion spring 102 is connected between the first circular ring 101 and the box body 1, the arc-shaped rack 103 is arranged on the right side of the first circular ring 101, the speed reduction motor 104 is arranged on the right side of the box body 1, the sector gear 105 is connected to an output shaft of the speed reduction motor 104, and the sector gear 105 is matched with the arc-shaped rack 103.

When needing to carry out moon bar production, start gear motor 104, gear motor 104 just can drive sector gear 105 and rotate, and then make arc rack 103 remove, thereby make first ring 101 rotate, torsion spring 102 takes place deformation, and then drive sliding block 7 and remove, thereby make piston plate 6 extrusion thick liquids flow out from discharging pipe 8, thereby get into and hold in the material subassembly 12, when sector gear 105 rotates to no longer with arc rack 103 meshing, torsion spring 102 recovers and drives first ring 101 and carry out the reverse rotation and reset, thereby make sliding block 7 and piston plate 6 reverse movement reset, can repeat above-mentioned process afterwards, after all moon bar productions are accomplished, it can to close gear motor 104.

The lifting assembly 11 comprises a cylinder body 111, an expansion rod 112 and a second circular ring 113, wherein the lower side of the box body 1 is uniformly provided with three cylinder bodies 111 at intervals, the lower side of the box body 1 is uniformly provided with six expansion rods 112 at intervals, the second circular ring 113 is connected between the expansion ends of the cylinder bodies 111, and the second circular ring 113 is connected with the expansion end of the expansion rod 112.

After the thick liquids flowed into and held material subassembly 12, start cylinder body 111, cylinder body 111 just can drive second ring 113 and move down, thereby make the extension end extension of telescopic link 112, and then make and hold material subassembly 12 and move down, thereby make and hold material subassembly 12 and get into in the oil pan, thereby produce moon crust, control and hold material subassembly 12 after moon crust formed, and then make moon crust drop and float in the oil pan, control cylinder body 111 and hold material subassembly 12 reverse operation afterwards, and then make above-mentioned each part reverse movement reset, repeat above-mentioned process afterwards, after moon crust production is accomplished, close cylinder body 111 can.

The material accommodating component 12 comprises a hollow rod 121, a special-shaped sliding rod 122, a concave rod 123, a first spring 124, a first semicircular frame 125, a second semicircular frame 126 and a second spring 127, the telescopic ends of the telescopic rods 112 are connected with the hollow rod 121, the hollow rod 121 is connected with the special-shaped sliding rod 122 in a sliding manner, the special-shaped sliding rod 122 is connected with the concave rod 123 in a sliding manner, the first spring 124 is connected between the special-shaped sliding rod 122 and the concave rod 123, the outer end of the concave rod 123 is connected with the first semicircular frame 125, the outer lower side of the special-shaped sliding rod 122 is connected with the second semicircular frame 126, the second semicircular frame 126 is matched with the first semicircular frame 125, and the second spring 127 is connected between the special-shaped sliding rod 122 and the hollow rod 121.

When the device is in a normal state, the second spring 127 is in a compressed state, slurry can flow between the first semicircular frame 125 and the second semicircular frame 126, when the telescopic end of the telescopic rod 112 extends, the hollow rod 121, the special-shaped slide rod 122, the concave rod 123, the first spring 124, the first semicircular frame 125, the second semicircular frame 126 and the second spring 127 can move downwards, the slurry can enter the oil pan, thereby producing the moon-shaped bars, when the moon-shaped bars are formed, the special-shaped slide rod 122 is not limited, the second spring 127 rebounds to drive the special-shaped slide rod 122 to move inwards, the second semicircular frame 126 is driven to move inwards, the second semicircular frame 126 is further separated from the first semicircular frame 125, the moon-shaped bars fall off and float in the oil pan, when the telescopic rod 112 is restored, the special-shaped slide rod 122 is controlled to move outwards to reset, the second spring 127 is compressed, and then the processes are repeated, after the moon crisp production is finished, the special-shaped sliding rod 122 is not controlled any more.

Example 2

On the basis of the embodiment 1, as shown in fig. 3, 8, 9, 10, 11, 12 and 13, the mobile device 13 further comprises a mobile component 13, the mobile component 13 comprises a special-shaped column 131 and a sliding shaft 132, the special-shaped column 131 is arranged on the lower side of the box body 1, the sliding shafts 132 are arranged at the upper ends of the special-shaped sliding rods 122, and the sliding shafts 132 are in sliding fit with the special-shaped column 131.

When special-shaped slide bar 122 moves down, can make sliding shaft 132 move down, when sliding shaft 132 moves to special-shaped post 131 downside, can make second spring 127 kick-back automatically, when special-shaped slide bar 122 upward movement, can make sliding shaft 132 upward movement, and then can cooperate with special-shaped post 131, thereby make sliding shaft 132 and special-shaped slide bar 122 automatic outside move the reset, and then make second spring 127 compressed automatically, thereby it makes moon bar drop to need not artifical manual control special-shaped slide bar 122, and then reduce manual operation's trouble.

Still including outer mobile assembly 14, outer mobile assembly 14 is including push rod 141, installation pole 142 and swinging arms 143, all is connected with push rod 141 on the dysmorphism slide bar 122, and installation pole 142 has all been welded to the upside of hollow pole 121, and equal rotary type is connected with swinging arms 143 on the installation pole 142, and the upper and lower both sides of swinging arms 143 all have a word hole 144, and an upside word hole 144 is with push rod 141 sliding type cooperation, and an downside word hole 144 is with concave pole 123 sliding type cooperation.

When the special-shaped sliding rod 122 moves inwards, the pushing rod 141 is also driven to move inwards, so that the swinging rod 143 rotates, the concave rod 123 moves outwards, the first spring 124 is compressed, the first semicircular frame 125 moves outwards, the second semicircular frame 126 and the first semicircular frame 125 can be further separated, the moon bar can completely fall off, and then a part of the moon bar is prevented from not falling off, so that the production effect of the moon bar is influenced.

Still including blowing subassembly 15, blowing subassembly 15 is equipped with six storage tubes 151 including storage tube 151, communicating pipe 152 and annular frame 153 on the box 1 evenly spaced, and storage tube 151's downside all is connected with communicating pipe 152, all is connected with annular frame 153 between communicating pipe 152 and the close unloading pipe 3.

When moon bars need to be produced, peanuts or beans are placed in the storage pipe 151, and then enter the annular frame 153 through the communicating pipe 152, so that the peanuts or the beans can fall into the first semicircular frame 125 and the second semicircular frame 126 along with the slurry, the peanuts or the beans do not need to be placed in the slurry manually, and the trouble of manual operation is further reduced.

Still including accuse material subassembly 16, accuse material subassembly 16 is including depression bar 161, third annular plate 162, L shape pole 163, flange 164, third spring 165, slide bar 166 and fourth spring 167, depression bar 161 has all been welded to the both sides of concave pole 123, be equipped with third annular plate 162 on the annular frame 153, third annular plate 162 upper sliding type is connected with three L shape pole 163, be connected with flange 164 between the downside of L shape pole 163, all be connected with third spring 165 between L shape pole 163 and the third annular plate 162, the upside of L shape pole 163 all is sliding type to be equipped with slide bar 166, slide bar 166 and the cooperation of depression bar 161, all be connected with fourth spring 167 between L shape pole 163 and the slide bar 166.

When the concave rod 123 moves downwards, the pressing rod 161 can move downwards, and then can be in contact with the sliding rod 166, so that the sliding rod 166 and the L-shaped rod 163 move downwards, the third spring 165 is compressed, and further the convex plate 164 moves downwards, and further peanuts or beans can fall into the slurry uniformly, when the third spring 165 is compressed to the utmost, the sliding rod 166 moves inwards, the fourth spring 167 is compressed, at the moment, the third spring 165 rebounds to drive the sliding rod 166 and the L-shaped rod 163 to move upwards and reset, and further the convex plate 164 moves upwards to further block the peanuts or the beans from falling again, when the concave rod 123 moves upwards and resets, the pressing rod 161 moves upwards, and when the pressing rod 161 moves to be not in contact with the sliding rod 166 any more, the fourth spring 167 rebounds to drive the sliding rod 166 to move outwards and reset.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. A batch feeder of moon crust production usefulness, characterized by including:

a box body (1);

the box cover (2) is arranged on the box body (1);

the discharging pipes (3), at least two discharging pipes (3) are uniformly arranged on the box body (1) at intervals;

the annular pipe (4) is arranged between the blanking pipes (3);

the at least two partition plates (5) are arranged on the annular pipe (4);

the piston plates (6), at least two piston plates (6) are slidably arranged on the annular pipe (4);

a sliding block (7) mounted on the piston plate (6);

the discharge pipes (8), at least two discharge pipes (8) are uniformly installed on the annular pipe (4) at intervals, at least two arc-shaped holes (9) are uniformly formed in the annular pipe (4) at intervals, and the arc-shaped holes (9) are in sliding fit with the sliding block (7);

the power assembly (10) is arranged between the sliding block (7) and the box body (1);

the lifting assembly (11) is arranged on the box body (1);

the material containing component (12) is arranged on the lifting component (11).

2. A feeder for moon bars production, according to claim 1, characterised in that the power unit (10) comprises:

the first circular ring (101) is arranged between the sliding blocks (7), and the first circular ring (101) is connected with the box body (1) in a sliding manner;

a torsion spring (102) installed between the first ring (101) and the case (1);

the arc-shaped rack (103) is arranged on the first circular ring (101);

the speed reducing motor (104) is arranged on the box body (1);

and the sector gear (105) is arranged on an output shaft of the speed reducing motor (104), and the sector gear (105) is matched with the arc-shaped rack (103).

3. A feeder for moon bars production, according to claim 2, characterised in that the lifting assembly (11) comprises:

the cylinder bodies (111), at least two cylinder bodies (111) are uniformly arranged on the box body (1) at intervals;

the telescopic rods (112), at least two telescopic rods (112) are installed on the box body (1) at uniform intervals;

and the second circular ring (113) is arranged between the telescopic ends of the cylinder body (111), and the second circular ring (113) is connected with the telescopic end of the telescopic rod (112).

4. A feeder for moon bars production, according to claim 3, characterised in that the containing assembly (12) comprises:

a hollow rod (121) mounted on the telescopic end of the telescopic rod (112);

the special-shaped sliding rod (122) is slidably mounted on the hollow rod (121);

the concave rod (123) is slidably mounted on the special-shaped sliding rod (122);

a first spring (124) installed between the profiled slide bar (122) and the concave bar (123);

a first semicircular frame (125) mounted on the concave rod (123);

the second semicircular frame (126) is installed on the special-shaped sliding rod (122), and the second semicircular frame (126) is matched with the first semicircular frame (125);

and the second spring (127) is arranged between the special-shaped sliding rod (122) and the hollow rod (121).

5. A batch feeder for moon bars production, according to claim 4, characterised by further comprising an internal moving assembly (13), the internal moving assembly (13) comprising:

the special-shaped column (131) is arranged on the box body (1);

and the sliding shaft (132) is arranged on the special-shaped sliding rod (122), and the sliding shaft (132) is in sliding fit with the special-shaped column (131).

6. A batch feeder for moon bars production, according to claim 5, characterised by further comprising an outer mobile assembly (14), the outer mobile assembly (14) comprising:

the push rod (141) is arranged on the special-shaped slide rod (122);

a mounting rod (142) mounted on the hollow rod (121);

the swinging rod (143) is rotatably installed on the installation rod (142), the two sides of the swinging rod (143) are respectively provided with a straight hole (144), the straight hole (144) on one side is in sliding fit with the push rod (141), and the straight hole (144) on the other side is in sliding fit with the concave rod (123).

7. The batch feeder for producing moon bars as claimed in claim 6, characterized in that it further comprises a discharge assembly (15), the discharge assembly (15) comprising:

the storage pipes (151), at least two storage pipes (151) are uniformly arranged on the box body (1) at intervals;

a connection pipe (152) attached to the storage pipe (151);

and an annular frame (153) installed between the connection pipe (152) and the adjacent discharge pipe (3).

8. A batch feeder for moon bars production, according to claim 7, characterized by further comprising a material control assembly (16), the material control assembly (16) comprising:

a pressing rod (161) installed at both sides of the concave rod (123);

a third annular plate (162) mounted on the annular frame (153);

l-shaped rods (163), at least two L-shaped rods (163) being slidably mounted on the third annular plate (162);

a lug plate (164) mounted between the L-shaped bars (163);

a third spring (165) mounted between the L-shaped bar (163) and the third annular plate (162);

a sliding rod (166) which is slidably mounted on the L-shaped rod (163), wherein the sliding rod (166) is matched with the pressure rod (161);

and a fourth spring (167) mounted between the L-shaped lever (163) and the slide lever (166).

Images