CN211977381U - A fresh corn cooling device - Google Patents

Abstract

The utility model relates to a fresh corn cooling device, which belongs to the technical field of fresh corn processing machinery. The cleaning device includes a filter plate whose bottom end extends into the water surface above the conveyor belt, and the filter plate is evenly distributed with leakage holes. The utility model solves the troublesome problem that the impurities on the corn float on the water surface, requiring staff to use long struts to clean at all times, and has the effects of automatically removing the impurities on the water surface and improving work efficiency.

Description

A fresh corn cooling device

technical field

The utility model relates to the technical field of fresh corn processing machinery, in particular to a fresh corn cooling device.

Background technique

Fresh corn is deeply loved by urban and rural residents for its delicious taste and rich nutrition. With the continuous development of technology in this field, people have developed a corn preservation processing method, which is to wash the corn after peeling and shaving, then cooking, cooling, and finally adopting steps such as vacuum sealing. The corn product processed by this method has a long shelf life. , does not destroy nutrients, and is convenient to eat.

Referring to FIG. 1 , there is currently a fresh corn cooling device, which includes a frame 1, and a conveyor belt 2 is driven in the frame 1. The conveyor belt 2 starts to drive from one end of the frame 1, and is driven to the other end along the frame 1. Above Rack 1. In the frame 1, there are partitions 3 erected on both sides of the conveyor belt 2, the partitions 3 are evenly distributed with leak holes 4, and there is a certain gap between the partitions 3 and the side walls of the frame 1 to form a compartment 5. The rack 1 is filled with water, and the water immerses the conveyor belt 2 through the partition 3 . The cooked corn is dropped onto the conveyor belt 2 by the cooking machine, so it is immersed in water to cool down, and the cooled corn is transported out from the conveyor belt 2 .

The above-mentioned prior art solutions have the following defects: when the scalded corn is put into the cooling device, the impurities on the corn will be washed off by the water and float on the water surface. In actual production, it is more troublesome to require staff to use long struts to clean up at all times.

Utility model content

In view of the deficiencies in the prior art, the purpose of the present utility model is to provide a fresh corn cooling device, which has the effects of automatically removing impurities on the water surface and improving work efficiency.

The above-mentioned utility model purpose of the present utility model is achieved through the following technical solutions:

A fresh corn cooling device includes a frame and a conveyor belt driven in the frame, the conveyor belt includes a horizontal section, the frame is provided with a removal device that slides above the horizontal section of the conveyor belt, and the removal device includes a bottom end extending above the conveyor belt The filter plate of the water surface, the filter plate is evenly distributed with leaks.

By adopting the above technical solution, when the corn is soaked by the water in the rack, the impurities float on the water surface. When cleaning the impurities, the cleaning device is made to slide above the conveyor belt, so the filter plate moves the water surface to slide, and the water flows from the filter plate. The leaking holes of the water flow out, so that the impurities on the water surface are intercepted by the filter plate, and then the impurities on the filter plate can be cleaned up.

In a preferred example of the present invention, the filter plate can be further configured as follows: the filter plate is driven by the transmission assembly to reciprocate along the conveying direction of the conveyor belt, the filter plate is fixed on a cross bar suspended above the conveyor belt, and the two ends of the cross bar are respectively It is fixed on the first support frame and the second support frame, the first support frame is fixed on the transmission assembly, and the second support frame slides on the frame.

By adopting the above technical solution, the transmission assembly drives the first support frame to slide along the transmission belt, and the first support frame pulls the cross bar and the filter plate to slide, so the second support frame slides on the frame under the drive of the first support frame, so that the The filter plate is stable on the water surface and slides automatically.

In a preferred example of the present invention, it can be further configured as follows: the transmission assembly includes a lead screw driven by a deceleration motor, a slider is fixed on the lead screw, and the bottom end of the first support frame is fixed on the slider.

By adopting the above technical solution, the output end of the deceleration motor drives the lead screw to rotate, so the slider slides on the lead screw, so the first support frame slides with the slider, so that the filter plate slowly slides on the water surface above the conveyor belt, so that impurities better blocked. And when the gear motor rotates in the reverse direction, the filter plate slides in the reverse direction to clean the impurities on one side.

In a preferred example of the present invention, a chute is fixed on the other side of the frame opposite to the transmission assembly, a pulley is rotatably connected to the bottom end of the second support frame, and the pulley slides in the chute.

By adopting the above technical solution, when the second support frame is driven to slide by the first support frame, the pulley slides in the chute, so that the second support frame slides more smoothly and runs stably.

In a preferred example of the present invention, it can be further configured that: the bottom end of the second support frame is provided with a support block, and at least two pulleys are fixed at the bottom end of the support block.

By adopting the above technical solution, the support block is at the bottom end of the second support frame, and the plurality of pulleys make the second support frame more stable, and will not tilt when sliding, so the filter plate is more stable when sliding.

In a preferred example of the present invention, the first support frame and the second support frame are both inner sleeve rods and outer sleeve rods that are sleeved with each other, and the outer sleeve rods pass through bolts that press against the inner sleeve rods.

By adopting the above technical solution, the lengths of the first support frame and the second support frame can be adjusted according to the height of the water surface, so that the bottom end of the filter plate is always immersed in the water surface. During operation, loosen the bolt and slide the inner sleeve relatively or oppositely. rod and jacket rod, after determining the height of the filter plate, tighten the bolts.

In a preferred example of the present invention, the filter plate can be further configured as follows: the bottom edge of the filter plate has receiving portions that are curled toward both sides.

By adopting the above technical solution, when the filter plate is walking in the water, the receiving part can better carry and clean the impurities on the water surface, so that most of the impurities are trapped in the receiving part.

In a preferred example of the present invention, it can be further configured as follows: the removal device further comprises a sliding rod arranged on the filter plate, a sliding paddle on the sliding rod, the paddle is attached to the surface of the filter plate and the receiving portion, and the paddle is A pull rod is attached to the top.

By adopting the above technical solution, after the filter plate slides in the frame once, hold the pull rod to make the paddle slide along the surface of the filter plate from one end of the filter plate to the other end, so the impurities on the filter plate are collected to the The edge of one side of the filter plate can be concentrated to clean the impurities at this time.

To sum up, the present utility model includes at least one of the following beneficial technical effects:

1. The filter plate moves the water surface to slide, and the water flows out from the leak holes on the filter plate, so that the impurities on the water surface are intercepted by the filter plate, and then the impurities on the filter plate can be cleaned up centrally;

2. After the filter plate slides in the frame once, hold the pull rod to make the paddle slide along the surface of the filter plate from one end of the filter plate to the other end, so the impurities on the filter plate are collected on one side of the filter plate. At this time, you can focus on cleaning impurities.

Description of drawings

Fig. 1 is the structural representation of the background technology of the present utility model;

Fig. 2 is the overall structure schematic diagram of the present utility model;

Fig. 3 is the structural representation of the cleaning device in the present utility model;

4 is a schematic structural diagram of the second support frame sliding in the chute in the present invention;

FIG. 5 is a schematic structural diagram of a filter plate in the present invention.

In the figure, 1, frame; 2, conveyor belt; 21, baffle plate; 22, horizontal section; 23, lifting section; 3, clapboard; 4, leakage hole; 5, compartment; 6, removal device; 61, support 611, the first support frame; 612, the second support frame; 613, the inner sleeve rod; 614, the outer sleeve rod; 615, the bolt; 62, the cross rod; 63, the filter plate; 64, the transmission assembly; 642, lead screw; 643, support buckle; 644, slider; 65, chute; 66, pulley; 67, support block; 68, receiving part; 69, paddle; 691, pulling rod; 692, sliding rod.

Detailed ways

The present utility model will be described in further detail below in conjunction with the accompanying drawings.

2, it is a fresh corn cooling device disclosed by the utility model, including a frame 1, the frame 1 is a box body supported on the ground, a conveyor belt 2 is driven in the frame 1, and the conveyor belt 2 is driven by the frame 1 One end starts to drive, drives along the frame 1 to the other end, and then lifts to the top of the frame 1. In the frame 1, there are partitions 3 erected on both sides of the conveyor belt 2, the partitions 3 are evenly distributed with leak holes 4, and there is a certain gap with the side wall of the frame 1 to form a compartment 5. The upper end of the side wall of the rack 1 is provided with a water inlet, and the bottom end is provided with a water outlet. The water is added into the compartment 5 from the water inlet, and immerses the conveyor belt 2 through the partition 3 . The cooked corn is dropped onto the conveyor belt 2 by the cooking machine, so it is immersed in water to cool down.

Leakage holes 4 are evenly distributed on the surface of the conveyor belt 2 , and there are upright baffles 21 on the surface, including a horizontal section 22 and a lifting section 23 . When the conveyor belt 2 is driving, it drives the water flow, and the corn is sent from the horizontal section 22 to the lifting section 23 with the water flow in the water or under the toggle of the baffle 21. When the corn reaches the handover of the horizontal section 22 and the lifting section 23 At the time, the baffle 21 picks up the corn from the water and sends it out of the cooling device.

Referring to FIG. 3 , a removal device 6 is provided on the frame 1 , and the removal device 6 includes a support frame 61 arranged on both sides of the frame 1 , a cross bar 62 is fixed between the two support frames 61 , and an extension rod 62 is fixed on the cross bar 62 . The filter plate 63 between the two partition plates 3 is evenly distributed on the filter plate 63, and the bottom end of the filter plate 63 extends under the water surface.

The support frame 61 includes a first support frame 611 and a second support frame 612. The first support frame 611 and the second support frame 612 are inner sleeve rods 613 and outer sleeve rods 614 that are sleeved with each other. The bolt 615 of the sleeve rod 613. Slide the inner sleeve rod 613 and the outer sleeve rod 614 toward or in the opposite direction, and tighten the bolt 615, the height of the support frame 61 is determined, so the distance between the filter plate 63 and the water surface is determined, and the height of the support frame 61 is adjusted according to the height of the water surface, so that the filter plate The bottom end of the 63 is always below the water. The first support frame 611 is driven by the transmission assembly 64 on the frame 1 to slide along the conveying direction of the conveyor belt 2 , and the second support frame 612 slides on the other side of the frame 1 .

Referring to FIG. 2 , the transmission assembly 64 includes a geared motor 641 fixed on the frame 1 , a lead screw 642 is fixed at the output end of the geared motor 641 , and both ends of the lead screw 642 are supported by the support buckles 643 on the frame 1 . 642 extends along the conveying direction of the conveyor belt 2, and a slider 644 slides on the lead screw 642. Therefore, when the deceleration motor 641 rotates, the slider 644 is driven to slide slowly along the lead screw 642, and the deceleration motor 641 is reversed, and the slider 644 is sufficient. Make a reciprocating sliding motion. Referring to FIG. 2 , the first support frame 611 is fixed on the top surface of the slider 644 , and the first support frame 611 drives the cross bar 62 and the second support frame 612 to slide.

3 and 4 , a chute 65 is fixed on the other side of the rack 1 , a support block 67 is fixed at the bottom end of the second support frame 612 , and a pulley 66 is arranged at the bottom end of the support block 67 , and the pulley 66 is in the chute 65 Swipe in. At least two pulleys 66 are rotated at the bottom end of the support block 67 , thereby maintaining the stability of the second support frame 612 . When the first support frame 611 slides, the second support frame 612 is driven to slide in the chute 65 . The filter plate 63 reciprocates on the water surface in the frame 1 .

Referring to FIG. 5, the bottom edge of the filter plate 63 has a receiving portion 68 that is bent and rolled up to both sides. When the filter plate 63 is walking in the water, the receiving portion 68 can better clean up the impurities on the water surface, so that the large Part of the impurities are trapped in the receiving portion 68 .

Referring to FIG. 5 , paddles 69 are provided on both sides of the filter plate 63 . The paddles 69 are made of soft rubber, and are bent and attached to both sides of the filter plate 63 , and the bottom ends extend to the receiving portion 68 . A sliding rod 692 is fixed on the top of the filter plate 93 , the top of the paddle 69 slides on the sliding rod 692 , and a pulling rod 691 is fixed on the paddle 69 . After the filter plate 63 slides in the frame 1 once, hold the pull rod 691 by hand to make the paddle 69 slide along the surface of the filter plate 63 from one end of the filter plate 63 to the other end, so the impurities on the filter plate 63 are collected To one side edge of the filter plate 63, at this time, it is enough to concentrate the cleaning of impurities. At the same time, during the sliding process of the filter plate 63, the bottom end of the receiving part 68 is smooth, so the filter plate 63 will not scratch the surface of the corn, and also has the effect of paving the corn, so that the corn is more stably conveyed when the lifting section 23 (refer to figure 2).

The implementation principle of this embodiment is as follows: the rack 1 is filled with water from the water inlet, and the water does not pass the conveyor belt 2 . The conveyor belt 2 starts to drive. After the corn is steamed, it is sent to one end of the conveyor belt 2. The corn is soaked in cold water to cool down, and is transported from the horizontal section 22 to the lifting section 23 with the conveyor belt 2.

There are impurities floating on the water surface, start the deceleration motor 641, the lead screw 642 rotates, the slider moves horizontally along the lead screw 642, the receiving part 68 on the filter plate 63 slides over the water surface, and collects the floating impurities on the water surface.

After the filter plate 63 walks slowly above the frame 1, hold the pull rod 691 in hand to make the paddle 69 slide along the filter plate 63, hang the impurities on the filter plate 63 to the side close to the staff, and then clean it up Concentrated impurities can be.

The deceleration motor 641 is reversed, and the filter plate 63 slides in the reverse direction, continuing to clean the impurities on the water surface.

When the temperature of the water in the rack 1 is high and it is difficult to achieve the purpose of cooling, open the drain and replace the water.

The embodiments of this specific embodiment are all preferred embodiments of the present invention, and are not intended to limit the protection scope of the present invention, therefore: all equivalent changes made according to the structure, shape and principle of the present invention are It should be covered within the protection scope of the present invention.

Claims (8)

1. A fresh corn cooling device, comprising a frame (1) and a conveyor belt (2) driven in the frame (1), the conveyor belt (2) comprising a horizontal section (22), characterized in that: the frame ( 1) A removal device (6) sliding over the horizontal section (22) of the conveyor belt (2) is provided on the removal device (6), and the removal device (6) includes a filter plate (63) whose bottom end extends into the water surface above the conveyor belt (2). (63) uniformly distributed leak holes (4). 2. A fresh corn cooling device according to claim 1, characterized in that: the filter plate (63) is driven by the transmission assembly (64) to reciprocate along the conveying direction of the conveyor belt (2), and the filter plate (63) ) is fixed on a cross bar (62) suspended above the conveyor belt (2), the two ends of the cross bar (62) are respectively fixed on the first support frame (611) and the second support frame (612), the first support frame (611) is fixed on the transmission assembly (64), and the second support frame (612) (61) slides on the frame (1). 3 . The fresh corn cooling device according to claim 2 , wherein the transmission assembly ( 64 ) comprises a lead screw ( 642 ) driven by a deceleration motor ( 641 ), and a slide screw ( 642 ) is fixed on the lead screw ( 642 ). 4 . Block (644), the bottom end of the first support frame (611) is fixed on the slider (644). 4 . The fresh corn cooling device according to claim 2 , wherein a chute ( 65 ) is fixed on the other side of the frame ( 1 ) opposite to the transmission assembly ( 64 ). The second support frame (612) A pulley (66) is rotatably connected to the bottom end, and the pulley (66) slides in the chute (65). 5. The fresh corn cooling device according to claim 4, characterized in that: the bottom end of the second support frame (612) is provided with a support block (67), and at least two support blocks (67) are fixed at the bottom end of the support block (67). Pulley (66). 6 . The fresh corn cooling device according to claim 2 , wherein the first support frame ( 611 ) and the second support frame ( 612 ) are inner sleeve rods ( 613 ) and The outer sleeve rod (614) is penetrated by a bolt (615) which is pressed against the inner sleeve rod (613). 7 . The fresh corn cooling device according to claim 1 , wherein the bottom edge of the filter plate ( 63 ) has receiving portions ( 68 ) that are curled toward both sides. 8 . 8 . The fresh corn cooling device according to claim 7 , wherein the removing device ( 6 ) further comprises a sliding rod ( 692 ) arranged on the filter plate ( 63 ), and the sliding rod ( 692 ) slides on the sliding rod ( 692 ). The paddle (69) is attached to the surface of the filter plate (63) and the receiving part (68), and a pulling rod (691) is fixed on the top of the paddle (69).

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