CN214512819U - Ultrasonic propolis extractor of high propolis utilization ratio - Google Patents

Abstract

The utility model discloses an ultrasonic propolis extractor with high propolis utilization rate, which is provided with a feeding device, the feeding device comprises a feeding hopper (1), the bottom of the feeding hopper (1) is provided with a feeding pipe (2), a stirrer (3) is arranged in the feeding pipe (2), the stirrer (3) is connected with a driving motor (4) through an output shaft, the feeding pipe (2) is a rectangular pipe, the stirrer (3) is arranged at the joint of the feeding pipe (2) and the feeding hopper (1), a first roller (5), a second roller (6), a third roller (7) and a fourth roller (8) which are sequentially arranged on the horizontal direction are arranged below the stirrer (3), a driving mechanism is arranged on the first roller (5), the first roller (5) is connected with the third roller (7) through a belt wheel mechanism, and scraping plates (9) connected with the feeding pipe (2) are arranged at the bottoms of the first roller (5) and the third roller (7). The utility model has the advantage of higher propolis utilization ratio.

Description

Ultrasonic propolis extractor of high propolis utilization ratio

Technical Field

The utility model belongs to ultrasonic wave propolis extractor field especially relates to an ultrasonic wave propolis extractor of high propolis utilization ratio.

Background

The existing propolis extraction process comprises the following steps: freezing and crushing propolis → soaking in alcohol in several times → filtering → naturally settling and concentrating → recovering alcohol to obtain purified propolis. The propolis extraction process makes the device be an ultrasonic propolis extractor. The existing ultrasonic propolis extractor as application No. 201120221115.5 is developed by the applicant in 2011, is obtained by improving the traditional ultrasonic propolis extractor, comprises an extraction tank, a feeding device, a liquid inlet pipe and a liquid outlet pipe are arranged above the extraction tank, a slag outlet is arranged at the tail end of the extraction tank, the feeding device comprises a feeding hopper, a cylindrical feeding pipe is arranged at the bottom of the feeding hopper, a stirrer is arranged in the feeding pipe, and the stirrer is connected with a driving motor through an output shaft.

Present ultrasonic wave propolis extractor is the improvement of making on the basis of traditional ultrasonic wave propolis extractor, the agitator has been increased, the agitator passes through the output shaft and is fixed with the driving motor who is located the feed arrangement outside, driving motor passes through the output shaft and drives the agitator and stir the propolis through feed arrangement, thereby reduce the consistency of propolis, make feed arrangement can not blockked up by sticky propolis, it is abundant to make propolis can dissolve mutually with alcohol, improve the utilization ratio of propolis.

After years of use of the existing ultrasonic propolis extractor, the applicant finds that a feeding device of the existing ultrasonic propolis extractor is not blocked by propolis indeed, and the compatibility degree of the propolis and alcohol is improved, but solid particles (the diameter can reach more than 1 cm) formed by coagulation of propolis components exist in the propolis, and the solid particles are difficult to be completely crushed under the action of a stirrer and difficult to dissolve in the alcohol, so that the utilization rate of the propolis is still low.

Therefore, the existing ultrasonic propolis extractor has the defect of low propolis utilization rate.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ultrasonic wave propolis extractor of high propolis utilization ratio. The utility model has the advantage of higher propolis utilization ratio.

The technical scheme of the utility model: the utility model provides an ultrasonic wave propolis extractor of high propolis utilization ratio, is equipped with feed arrangement on the propolis extractor, and feed arrangement includes feeding hopper, and feeding hopper bottom is equipped with the inlet pipe, is equipped with the agitator in the inlet pipe, and the agitator links to each other with driving motor through the output shaft, the inlet pipe is the rectangular pipe, the agitator sets up in the handing-over department of inlet pipe and feeding hopper, and the below of agitator is equipped with first roller, second roller, third roller and the fourth roller of upwards arranging in proper order at the level, is equipped with actuating mechanism on the first roller, and first roller passes through band pulley mechanism and connects the third roller, and the bottom of first roller and third roller all is equipped with the scraper blade of being connected with the inlet pipe.

In the ultrasonic propolis extractor of high propolis utilization ratio, the both sides of inlet pipe all are equipped with the splint parallel with first roller, are equipped with the screw rod between two splint.

In the ultrasonic wave propolis extractor of aforementioned high propolis utilization ratio, the both ends of first roller, second roller, third roller and fourth roller all are equipped with the pivot of passing the inlet pipe, are equipped with the sealing washer between pivot and the inlet pipe, and the pivot is fixed through the lateral wall of rolling bearing and inlet pipe.

In the ultrasonic wave propolis extractor of aforementioned high propolis utilization ratio, actuating mechanism is including setting up the motor on being close to the splint of first roller, and the output of motor is equipped with first action wheel, and first action wheel passes through first drive belt and connects first driven wheel, and one of them pivot on first driven wheel and the first roller is fixed.

In the ultrasonic propolis extractor with a high propolis utilization rate, the belt wheel mechanism comprises a second driving wheel connected with one of the rotating shafts on the first roller, the second driving wheel is connected with a second driven wheel through a second transmission belt, and the second driven wheel is fixed with one of the rotating shafts on the third roller.

In the ultrasonic propolis extractor with high propolis utilization rate, the first roller, the second roller, the third roller and the fourth roller are all thin-wall hollow structures.

Compared with the prior art, the utility model discloses feed arrangement to current ultrasonic wave propolis extractor has improved, has mainly increased four rollers in the below of agitator, utilizes the roller to pulverize the solid-state granule in the propolis, makes it easily dissolve in alcohol to improve the utilization ratio of propolis. The utility model discloses still set up the scraper blade in the bottom of two wherein rollers, scrape the propolis of adhesion on the roller down through the scraper blade, avoid propolis input speed's excessive reduction, ensure that the input speed of propolis is enough to follow the extraction speed of propolis extraction machine, guarantee that the extraction efficiency of propolis extraction machine can not reduce. The first roller and the third roller of the utility model are driven by the same motor and have power, the number of the motors is small, and the equipment cost can be reduced; first roller and third roller all have power, can avoid appearing when only a roller possesses power, because the clearance is great between the adjacent roller of installation error, only power roller can roll propolis rather than adjacent roller, and all the other rollers can not rotate to the propolis that leads to rolls the problem of insufficient, propolis utilization ratio reduction. Therefore, the utility model has the advantage of high propolis utilization ratio.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a top view at a-a of fig. 1.

Fig. 3 is a left side view of the squeegee.

The labels in the figures are: 1-a feeding hopper, 2-a feeding pipe, 3-a stirrer, 4-a driving motor, 5-a first roller, 6-a second roller, 7-a third roller, 8-a fourth roller, 9-a scraper, 10-a clamping plate, 11-a screw, 12-a rotating shaft, 13-a sealing ring, 14-a bearing with a seat, 15-a motor, 16-a first driving wheel, 17-a first driving belt, 18-a first driven wheel, 19-a second driving wheel, 20-a second driving belt and 21-a second driven wheel.

Detailed Description

The following description is made with reference to the accompanying drawings and examples, but not to be construed as limiting the invention.

Examples are given. An ultrasonic propolis extractor with high propolis utilization rate is provided with a feeding device as shown in figure 1, the feeding device comprises a feeding hopper 1, a feeding pipe 2 is arranged at the bottom of the feeding hopper 1, a stirrer 3 is arranged in the feeding pipe 2, the stirrer 3 is connected with a driving motor 4 through an output shaft, the driving motor 4 is fixed with the outer side wall of the feeding pipe 2, the inlet pipe 2 is the rectangular pipe, agitator 3 sets up in inlet pipe 2 and the handing-over department of magazine 1, and the below of agitator 3 is equipped with the first roller 5, the second roller 6, third roller 7 and the fourth roller 8 of upwards arranging in proper order at the level, is equipped with actuating mechanism on the first roller 5, and first roller 5 passes through band pulley mechanism and connects third roller 7, and the bottom of first roller 5 and third roller 7 all is equipped with the scraper blade 9 of being connected with inlet pipe 2, and scraper blade 9 adopts elastic steel plate, and the upper end butt of scraper blade 9 is in the bottom of first roller 5.

The both sides of inlet pipe 2 all are equipped with the splint 10 parallel with first roller 5, are equipped with screw rod 11 between two splint 10, and screw rod 11 has four, all is located the outside of inlet pipe 2, and screw rod 11 passes splint 10, and screw rod 11's tip is equipped with the nut, can make two splint be close to each other through swivel nut to press from both sides tightly on inlet pipe 2, prevent that inlet pipe 2 from warping outwards bloating under the roller effect.

The two ends of the first roller 5, the second roller 6, the third roller 7 and the fourth roller 8 are provided with rotating shafts 12 penetrating through the feeding pipes 2, sealing rings 13 are arranged between the rotating shafts 12 and the feeding pipes 2, and the rotating shafts 12 are fixed with the outer side walls of the feeding pipes 2 through bearings 14 with seats.

The driving mechanism comprises a motor 15 arranged on the clamping plate 10 close to the first roller 5, a first driving wheel 16 is arranged at the output end of the motor 15, the first driving wheel 16 is connected with a first driven wheel 18 through a first transmission belt 17, and the first driven wheel 18 is fixed with one of the rotating shafts 12 on the first roller 5.

The belt wheel mechanism comprises a second driving wheel 19 connected with one of the rotating shafts 12 on the first roller 5, the second driving wheel 19 is connected with a second driven wheel 21 through a second transmission belt 20, and the second driven wheel 21 is fixed with one of the rotating shafts 12 on the third roller 7.

The first roller 5, the second roller 6, the third roller 7 and the fourth roller 8 are all thin-wall hollow structures, so that the weight of the rollers is reduced, and the power consumption of the propolis extractor is low. The gap between adjacent rollers should be controlled to be 0.1-0.3 mm.

The working principle is as follows: propolis is thrown from hopper 1, and driving motor 4 drives agitator 3 and rotates, stirs and breaks up propolis, makes propolis viscosity reduce, can smooth downward flow, enters into feed pipe 2. The motor 15 drives the first driving wheel 16 to rotate, the first driving wheel 16 drives the first driven wheel 18 to rotate through the first transmission belt 17, the first driven wheel 18 drives the first roller 5 to rotate through the corresponding rotating shaft 12, the rotating shaft 12 drives the second driving wheel 19 to rotate, the second driving wheel 19 drives the second driven wheel 21 to rotate through the second transmission belt 20, and the second driven wheel 21 drives the third roller 7 to rotate through the corresponding rotating shaft 12. The propolis falls on four rollers and is squeezed, solid particles in the propolis are broken by squeezing, and then the solid particles flow downwards and enter a propolis extractor.

The utility model has the advantage of higher propolis utilization ratio.

Claims (6)

1. The utility model provides an ultrasonic wave propolis extractor of high propolis utilization ratio is equipped with feed arrangement on the propolis extractor, and feed arrangement includes batch hopper (1), and batch hopper (1) bottom is equipped with inlet pipe (2), is equipped with agitator (3) in inlet pipe (2), and agitator (3) link to each other its characterized in that through output shaft and driving motor (4): the feeding pipe (2) is a rectangular pipe, the stirrer (3) is arranged at the joint of the feeding pipe (2) and the feeding hopper (1), a first roller (5), a second roller (6), a third roller (7) and a fourth roller (8) which are sequentially arranged on the horizontal direction are arranged below the stirrer (3), a driving mechanism is arranged on the first roller (5), the first roller (5) is connected with the third roller (7) through a belt wheel mechanism, and scraping plates (9) connected with the feeding pipe (2) are arranged at the bottoms of the first roller (5) and the third roller (7).

2. The ultrasonic propolis extractor with high propolis utilization rate as claimed in claim 1, wherein: both sides of the feeding pipe (2) are provided with clamping plates (10) parallel to the first roller (5), and a screw rod (11) is arranged between the two clamping plates (10).

3. The ultrasonic propolis extractor with high propolis utilization rate as claimed in claim 2, wherein: the two ends of the first roller (5), the second roller (6), the third roller (7) and the fourth roller (8) are provided with rotating shafts (12) penetrating through the feeding pipes (2), sealing rings (13) are arranged between the rotating shafts (12) and the feeding pipes (2), and the rotating shafts (12) are fixed with the outer side walls of the feeding pipes (2) through bearings (14).

4. The ultrasonic propolis extractor with high propolis utilization rate as claimed in claim 3, wherein: the driving mechanism comprises a motor (15) arranged on a clamping plate (10) close to the first roller (5), the output end of the motor (15) is provided with a first driving wheel (16), the first driving wheel (16) is connected with a first driven wheel (18) through a first transmission belt (17), and the first driven wheel (18) is fixed with one of the rotating shafts (12) on the first roller (5).

5. The ultrasonic propolis extractor with high propolis utilization rate as claimed in claim 3, wherein: the belt wheel mechanism comprises a second driving wheel (19) connected with one of the rotating shafts (12) on the first roller (5), the second driving wheel (19) is connected with a second driven wheel (21) through a second transmission belt (20), and the second driven wheel (21) is fixed with one of the rotating shafts (12) on the third roller (7).

6. The ultrasonic propolis extractor with high propolis utilization rate as claimed in claim 1, wherein: the first roller (5), the second roller (6), the third roller (7) and the fourth roller (8) are all thin-wall hollow structures.

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