CN218610316U - Three-dimensional rotary vibration sieve ultrasonic net rack - Google Patents

Abstract

The utility model discloses a cubic element is sieve ultrasonic wave rack that shakes soon relates to the ultrasonic wave rack technical field of circular sieve. The utility model discloses an ultrasonic wave outer loop, connecting rod, ultrasonic wave inner ring and ultrasonic guide, it is fixed with a plurality of connecting rods to be the rectangular array in the ultrasonic wave outer loop, and the one end that the ultrasonic wave outer loop was kept away from to the connecting rod is fixed with the ultrasonic wave inner ring, and ultrasonic wave outer loop and ultrasonic wave inner ring below one side are provided with the ultrasonic guide, and the connecting rod includes first buffer block and second buffer block. The utility model discloses a set up ultrasonic wave outer loop, connecting rod, ultrasonic wave inner ring and ultrasonic wave guide arm, solved ultrasonic wave rack inner ring and outer loop and used for a long time and receive easily to strike and cause fracture and inner ring and outer loop constantly move and strike and probably cause between it the connecting rod receive strike cracked problem, the utility model discloses have well impact resistance, can prevent the connecting rod fracture between the inner ring outer loop better.

Description

Three-dimensional rotary vibration sieve ultrasonic net rack

Technical Field

The utility model belongs to the technical field of the ultrasonic wave rack of circular sieve, especially, relate to a cubic element is sieve ultrasonic wave rack that shakes soon.

Background

The three-dimensional rotary vibration sieve is a universal vibration sieving and filtering device, has good application in the production and processing of powder, small particles and liquid materials, has a complex spatial three-dimensional curve in a vibration motion track, is a high-precision fine-grain and micro-powder sieving machine, is widely applied to dry and wet sieving of materials and separation and recovery of solids in liquid in the industries such as mining industry, building materials, metallurgy, chemical industry, food, medicine, light industry, abrasive materials, cement, casting, glass, coating and the like, and can also be used for sieving, filtering and recovery of wastewater. This series of screen (ing) machine screening efficiency is high, the screening precision can reach more than 95%, the discharge gate can be at 360 degrees circumference positions adjustable wantonly, it is totally closed, no dust pollution, it clears the net device to be equipped with the bounce ball, it is convenient to have the change screen cloth, small, light in weight, the installation is simple, easy maintenance's characteristics, the screen cloth of three-dimensional rotary vibration sieve is connected wherein through the ultrasonic wave rack, traditional ultrasonic wave rack is the outer loop (P type pipe/square pipe) with the bonding rack, with 10 type pipe 20 a 2mm (thick) rectangular pipe or with the square steel that the rectangular pipe size is close as inner ring (resonance ring), then through energy transmission that sends on guided wave pole and the connecting rod with ultrasonic transducer to whole rack above, thereby reach the mesh of material cleaning or passing through the sieve, but it still has following drawback in the in-service use:

1. in the using process of the ultrasonic net rack, because the ultrasonic waves are always in high-frequency vibration motion for long-time uninterrupted use (the use time of the ultrasonic waves in an actual production field is more than 20 hours a day), the inner ring or the outer ring of the net rack is easy to break, and the condition that the screened materials are polluted to cause the unqualified finished products is generated;

2. in-process of ultrasonic wave rack work, on ultrasonic vibration transmitted inner ring and outer loop through the guided wave pole, connecting rod between inner ring and the outer loop was in the vibration, because guided wave pole transmission vibration needs time, vibration between inner ring and the outer loop can produce deformation impact to the connecting rod between inner ring and the outer loop, long-time back of using, the connecting rod breaks easily, needs to change, and life is shorter.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cubic element sieve ultrasonic wave rack that shakes soon, through setting up ultrasonic wave outer loop, connecting rod, ultrasonic wave inner ring and ultrasonic guide arm, solved ultrasonic wave rack inner ring and outer loop and used for a long time to receive easily to strike and cause fracture and inner ring and outer loop constantly move to strike and probably cause between it the connecting rod receive the cracked problem of impact.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a cubic element sieve ultrasonic wave rack that shakes soon, including ultrasonic wave outer loop, connecting rod, ultrasonic wave inner ring and ultrasonic wave guide arm, it is fixed with a plurality of connecting rods to be rectangular array in the ultrasonic wave outer loop, the one end that the ultrasonic wave outer loop was kept away from to the connecting rod is fixed with the ultrasonic wave inner ring, ultrasonic wave outer loop and ultrasonic wave inner ring below one side are provided with the ultrasonic wave guide arm, the connecting rod includes first buffer block and second buffer block, first buffer block is fixed with the ultrasonic wave inner ring, the second buffer block is fixed with the ultrasonic wave outer loop, when using, the utility model discloses an ultrasonic wave outer loop and ultrasonic wave inner ring cooperate, on transmitting the ultrasonic wave outer loop and the ultrasonic wave inner ring with the ultrasonic wave vibration of ultrasonic wave guide arm transmission, link together ultrasonic wave outer loop and ultrasonic wave inner ring through the connecting rod.

Furthermore, an outer ring filling material is filled in the ultrasonic outer ring, an outer rope is fixed in the outer ring filling material, an outer connecting ring is fixed on the outer side of the ultrasonic outer ring, and the ultrasonic outer ring absorbs part of the deformation impact of the ultrasonic outer ring through the outer ring filling material and slows down the deformation impact.

Further, the connecting rod still includes the body of rod and connecting block, the both ends of the body of rod all are fixed with the connecting block, one side that the body of rod was kept away from to the connecting block at body of rod both ends is fixed with ultrasonic wave outer loop and ultrasonic wave inner ring respectively, and the connecting rod passes through the connecting block and links together with ultrasonic wave outer loop and ultrasonic wave inner ring respectively.

Furthermore, a connecting block close to the ultrasonic outer ring is fixed in the first buffer block, and a connecting block close to the ultrasonic inner ring is fixed in the second buffer block, so that the impact received on the connecting block is relieved by the first buffer block and the second buffer block.

Furthermore, an inner ring buffer layer is fixed in the ultrasonic inner ring, an inner ring filling material is fixed in the inner ring buffer layer, an inner rope is fixed in the inner ring filling material, and the inner ring absorbs a part of deformation impact of the inner ring through the inner filling material, so that the structural strength of the inner ring is improved.

Further, a fixing hole is formed in one end of the ultrasonic guide rod, a connecting pad is fixed to one end, away from the fixing hole, of the ultrasonic guide rod, the top of the connecting pad is fixed to the ultrasonic inner ring, a connecting frame is fixed to the middle of the periphery of the ultrasonic guide rod, the upper portion of the connecting frame is fixed to the ultrasonic outer ring, the ultrasonic guide rod is fixed to an output shaft of the ultrasonic generator through the fixing hole, fixed to the ultrasonic inner ring through the connecting pad, and fixed to the ultrasonic outer ring through the connecting frame.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up the ultrasonic wave outer loop, ultrasonic wave inner ring and ultrasonic wave guide arm, it receives the impact easily and causes cracked problem to have solved ultrasonic wave rack inner ring and the long-time use of outer loop, in ultrasonic wave outer loop vibration, the deformation impact that receives on it transmits inside, slow down through the outer loop stopping, in ultrasonic wave inner ring vibration, the deformation impact that receives on it at first transmits wherein through the inner ring buffer layer, the rethread inner ring stopping cushions, the impact that makes inner ring and outer loop receive can slow down greatly, be difficult to the fracture more, the durability is better.

2. The utility model discloses a set up the ultrasonic wave outer loop, the connecting rod, ultrasonic wave inner ring and ultrasonic guide arm, ultrasonic wave rack inner ring and outer loop constantly move the impact and probably cause between it that the connecting rod receives the cracked problem of impact, in the time of ultrasonic wave outer loop and ultrasonic wave inner ring vibration, vibration makes ultrasonic wave outer loop and ultrasonic wave inner ring pass through the connecting block and transmit on the body of rod, drive the body of rod vibration, this in-process, ultrasonic wave outer loop and ultrasonic wave inner ring lead on the body of rod again after slowing down through first buffer block and second buffer block to the impact of the body of rod, make the impact greatly reduced that the connecting rod received, make ultrasonic wave rack durability greatly increased during the use.

Drawings

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

FIG. 2 is a perspective view of the ultrasonic outer ring, the connecting rod and the ultrasonic inner ring of the present invention;

FIG. 3 is a cross-sectional view of the ultrasonic outer ring of the present invention;

FIG. 4 is a perspective view of the connecting rod structure of the present invention;

FIG. 5 is a cross-sectional view of the ultrasonic inner ring of the present invention;

fig. 6 is a perspective view of the ultrasonic guide bar structure of the present invention.

Reference numerals are as follows:

100. an ultrasonic outer ring; 101. an outer connecting ring; 102. outer ring filling material; 103. an outer rope; 200. a connecting rod; 201. a rod body; 202. connecting blocks; 203. a first buffer block; 204. a second buffer block; 300. an ultrasonic inner ring; 301. an inner ring buffer layer; 302. inner ring filling material; 303. an inner rope; 400. an ultrasonic guide rod; 401. a fixing hole; 402. a connection pad; 403. and a connecting frame.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Please refer to fig. 1-6, the utility model relates to a cubic unit sieve ultrasonic wave rack that shakes soon, including ultrasonic outer ring 100, connecting rod 200, ultrasonic inner ring 300 and ultrasonic guide 400, it is fixed with a plurality of connecting rods 200 to be rectangular array in the ultrasonic outer ring 100, ultrasonic outer ring 100 assists ultrasonic inner ring 300 ultrasonic vibration together, connecting rod 200 links together ultrasonic outer ring 100 and ultrasonic inner ring 300, the one end that connecting rod 200 keeps away from ultrasonic outer ring 100 is fixed with ultrasonic inner ring 300, ultrasonic inner ring 300 carries out ultrasonic vibration under the drive of ultrasonic guide 400, ultrasonic outer ring 100 and ultrasonic inner ring 300 below one side are provided with ultrasonic guide 400, ultrasonic guide 400 is with the last energy transmission who sends of ultrasonic transducer to whole rack above, thereby reach the mesh of material cleaning or sieve-passing, connecting rod 200 includes first buffer 203 and second buffer 204, first buffer 203 is fixed with ultrasonic inner ring 300, second buffer 204 is fixed with ultrasonic outer ring 100, cooperate through first buffer 203 and second buffer 204, make ultrasonic outer ring 100 and ultrasonic inner ring 300 when vibration together, the connecting rod is impacted the buffer 204 by first buffer 204 and second buffer 204 and the shock absorption piece 204.

As shown in fig. 1 to 3, an outer ring filler 102 is filled in an ultrasonic outer ring 100, the ultrasonic outer ring 100 absorbs deformation impact applied to the ultrasonic outer ring 100 through the outer ring filler 102, an outer rope 103 is fixed in the outer ring filler 102, after the ultrasonic outer ring 100 is broken, the broken positions are connected together through the outer rope 103, strength of the ultrasonic outer ring 100 is increased, an outer connecting ring 101 is fixed on the outer side of the ultrasonic outer ring 100, the outer connecting ring 101 fastens the outer side of the ultrasonic outer ring 100, and deformation of the ultrasonic outer ring 100 during operation is reduced.

Wherein as shown in fig. 1, 3, 4, connecting rod 200 still includes the body of rod 201 and connecting block 202, and the both ends of the body of rod 201 all are fixed with connecting block 202, and the body of rod 201 will pass through the vibration transmission of connecting rod 200, and the connecting block 202 of the body of rod 201 both ends is kept away from one side of the body of rod 201 and is fixed with ultrasonic outer ring 100 and ultrasonic inner ring 300 respectively for when using, the vibration that ultrasonic outer ring 100 and ultrasonic inner ring 300 produced passes through connecting block 202 and transmits to the body of rod 201.

As shown in fig. 1, 3, and 4, the connecting block 202 near the ultrasonic outer ring 100 is fixed in the first buffer block 203, and the connecting block 202 near the ultrasonic inner ring 300 is fixed in the second buffer block 204, so that when the ultrasonic outer ring 100 and the ultrasonic inner ring 300 vibrate, the vibration is transmitted to the connecting rod 200, and a part of the impact on the connecting block 202 at the connecting position of the connecting rod 200, the ultrasonic outer ring 100, and the ultrasonic inner ring 300 is absorbed by the first buffer block 203 and the second buffer block 204.

As shown in fig. 1, 2, and 5, an inner ring buffer layer 301 is fixed in the ultrasonic inner ring 300, the inner ring buffer layer 301 reduces the impact of the ultrasonic inner ring 300 on the inner ring when working, an inner ring filling material 302 is fixed in the inner ring buffer layer 301, the inner ring filling material 302 fills the inner ring buffer layer 301, and absorbs a part of the deformation impact on the ultrasonic inner ring 300 and the inner ring buffer layer 301, an inner rope 303 is fixed in the inner ring filling material 302, the strength of the ultrasonic inner ring 300 is increased by the inner rope 303, the cross section of the ultrasonic inner ring 300 is a top circle and a bottom circle, and when the ultrasonic inner ring 300 is subjected to vibration impact, the vibration strength can be better ensured.

As shown in fig. 1 and 6, a fixing hole 401 is formed at one end of the ultrasonic guide rod 400, the ultrasonic guide rod 400 is fixed to an output shaft of the ultrasonic generator through the fixing hole 401, a connecting pad 402 is fixed to one end of the ultrasonic guide rod 400, which is away from the fixing hole 401, the top of the connecting pad 402 is fixed to the ultrasonic inner ring 300, the connecting pad 402 fixes the ultrasonic guide rod 400 and the ultrasonic inner ring 300, a connecting frame 403 is fixed to the middle of the peripheral side of the ultrasonic guide rod 400, the upper portion of the connecting frame 403 is fixed to the ultrasonic outer ring 100, and the connecting frame 403 connects the ultrasonic guide rod 400 and the ultrasonic outer ring 100 together.

The utility model discloses a concrete theory of operation does: when the ultrasonic vibration damping device is used, the ultrasonic guide rod 400 is fixed with an output shaft of the ultrasonic generator through the fixing hole 401, when the ultrasonic generator works, the ultrasonic guide rod 400 is driven to vibrate ultrasonically and is transmitted to the ultrasonic inner ring 300 through the connecting pad 402 to drive the ultrasonic inner ring 300 to vibrate, the vibration of the ultrasonic guide rod 400 is transmitted to the ultrasonic outer ring 100 through the connecting frame 403 to drive the ultrasonic outer ring 100 to vibrate, when the ultrasonic outer ring 100 and the ultrasonic inner ring 300 vibrate, the vibration enables the ultrasonic outer ring 100 and the ultrasonic inner ring 300 to be transmitted to the rod body 201 through the connecting block 202 to drive the rod body 201 to vibrate, in the process, the impact of the ultrasonic outer ring 100 and the ultrasonic inner ring 300 on the rod body 201 is relieved through the first buffer block 203 and the second buffer block 204 and then is transmitted to the rod body 201, when the ultrasonic outer ring 100 vibrates, the deformation impact received on the ultrasonic outer ring is transmitted to the inside of the ultrasonic guide rod body and is relieved through the outer ring filler 102, and when the ultrasonic inner ring 300 vibrates, the impact received on the ultrasonic inner ring is firstly transmitted to the buffer filler 301, and then is buffered by the filler 302.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a three-dimensional sieve ultrasonic wave rack that shakes soon, includes ultrasonic wave outer loop (100), connecting rod (200), ultrasonic wave inner ring (300) and ultrasonic guide pole (400), its characterized in that: be the rectangular array in ultrasonic wave outer loop (100) and be fixed with a plurality of connecting rods (200), the one end that ultrasonic wave outer loop (100) were kept away from in connecting rod (200) is fixed with ultrasonic wave inner ring (300), ultrasonic wave outer loop (100) and ultrasonic wave inner ring (300) below one side are provided with ultrasonic guide pole (400), connecting rod (200) include first buffer block (203) and second buffer block (204), first buffer block (203) are fixed with ultrasonic wave inner ring (300), second buffer block (204) are fixed with ultrasonic wave outer loop (100).

2. The three-dimensional rotary vibration sieve ultrasonic net rack according to claim 1, characterized in that: the ultrasonic outer ring (100) is filled with outer ring filling material (102), an outer rope (103) is fixed in the outer ring filling material (102), and an outer connecting ring (101) is fixed on the outer side of the ultrasonic outer ring (100).

3. The three-dimensional rotary vibration sieve ultrasonic net rack according to claim 1, characterized in that: the connecting rod (200) further comprises a rod body (201) and a connecting block (202), the two ends of the rod body (201) are both fixed with the connecting block (202), and one side, away from the rod body (201), of the connecting block (202) at the two ends of the rod body (201) is fixed with the ultrasonic outer ring (100) and the ultrasonic inner ring (300) respectively.

4. The three-dimensional rotary vibration sieve ultrasonic net rack according to claim 3, characterized in that: the connecting block (202) close to the ultrasonic outer ring (100) is fixed in the first buffer block (203), and the connecting block (202) close to the ultrasonic inner ring (300) is fixed in the second buffer block (204).

5. The three-dimensional rotary vibration sieve ultrasonic net rack according to claim 1, characterized in that: an inner ring buffer layer (301) is fixed in the ultrasonic inner ring (300), inner ring filling materials (302) are fixed in the inner ring buffer layer (301), and inner ropes (303) are fixed in the inner ring filling materials (302).

6. The three-dimensional rotary vibration sieve ultrasonic net rack according to claim 1, characterized in that: a fixing hole (401) is formed in one end portion of the ultrasonic guide rod (400), a connecting pad (402) is fixed to one end, away from the fixing hole (401), of the ultrasonic guide rod (400), the top of the connecting pad (402) is fixed to the ultrasonic inner ring (300), a connecting frame (403) is fixed to the middle of the peripheral side of the ultrasonic guide rod (400), and the upper portion of the connecting frame (403) is fixed to the ultrasonic outer ring (100).

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