CN210358358U - Dislocation type tile pushing device - Google Patents

Abstract

The utility model discloses a dislocation type tile pushing device, which comprises a first platform, a transverse propelling device, a longitudinal propelling device, a second platform and an ultrasonic cleaning channel; the first dislocation tile pushing plate is located on one side of the first platform and points to the rear end of the first platform, the second dislocation tile pushing plate is located at the front end of the second platform, a transverse connecting plate is arranged at the rear section of the first platform and the front end of the second platform, and the ultrasonic cleaning channel is located above the rear end of the second platform. The magnetic shoes are changed into two rows from one row through a grinding outlet through a first dislocation type propelling device; and then the ultrasonic cleaning is carried out by pushing the cleaning liquid into a double-row cleaning machine intermittently by a longitudinal pushing device. Due to the time pause of the dislocation type transverse pushing and the longitudinal pushing back and forth, the high end surface of the shaft of the magnetic shoe on the track of the ultrasonic cleaner is naturally loosened under the vibration of ultrasonic waves to form a certain gap, so that the dirt on the end surface of the magnetic shoe can be smoothly cleaned.

Description

Dislocation type tile pushing device

Technical Field

The utility model relates to a permanent magnetic ferrite wet pressure magnetic shoe production facility field, concretely relates to dislocation formula pushes away tile device.

Background

In the production process of the permanent magnetic ferrite wet-pressing magnetic shoe, one process is grinding, a large amount of magnetic mud and dirt are adhered to the magnetic shoe after grinding, the magnetic shoe is difficult to clean by a common cleaning method, and the method generally adopted for cleaning the magnetic shoe at present is cleaning by an ultrasonic cleaner. The cleaning method is characterized in that magnetic shoes are randomly and manually placed on a crawler-type chain net to continuously pass through a cleaning pool of the cleaning machine, an ultrasonic transducer is arranged in the cleaning pool, the principle of the cleaning machine is mainly that sound energy of a power ultrasonic frequency source is converted into mechanical vibration through the transducer, and ultrasonic waves are radiated to cleaning liquid in the tank through a cleaning tank wall. The micro-bubbles in the liquid in the tank can keep vibrating under the action of the sound wave because of the radiation of the ultrasonic wave. The adsorption of the dirt and the surface of the cleaning piece is damaged, the dirt layer is damaged by fatigue and is separated, and the vibration of the gas bubbles cleans the solid surface. Because the crawler-type chain net continuously passes through the ultrasonic transducer, the inner arc surface of the magnetic shoe faces upwards, and the magnetic shoe cannot be cleaned completely, because the inner arc surface is concave, some magnetic mud cannot be cleaned completely in a short time, if all the magnetic mud is arranged manually one by one, workers for placing the shoe on one cleaning line need at least more than two workers, and the production cost is obviously improved; the production efficiency will also decrease.

In order to reduce labor and reduce cost, most magnetic shoe manufacturers adopt an automatic production line, namely a cleaning line is configured on a grinding machine, and the cleaning line is connected without intervals. The invention relates to a pushing device which is pushed and pushed forwards by two rubber wheels with opposite rotating directions, so that automation is realized by solving the manual problem, but the problem that the end surfaces of magnetic shoes are squeezed mutually due to continuous pushing of the magnetic shoes, so that the end surfaces of the magnetic shoes are not cleaned cleanly also occurs. Thereby influencing the product quality, and the magnetic shoe extrudes through the rubber wheel by force, and some magnetic shoes are cracked to make the product defective rate rise obviously.

SUMMERY OF THE UTILITY MODEL

For overcoming the problems in the prior art, the utility model provides a dislocation formula pushes away the device of making tiles.

The utility model discloses the technical problem that will solve adopts following technical scheme to realize:

dislocation formula pushes away tile device includes:

the first platform is a flat plate, the front end of the flat plate is provided with a notch, a belt conveyor is arranged in the notch, a motor-driven belt conveyor is arranged below the flat plate, and the rear end of the flat plate is provided with a baffle plate;

the transverse propelling device comprises a transverse propelling cylinder and a first staggered tile pushing plate, wherein one side of the first staggered tile pushing plate is connected with the transverse propelling cylinder and is controlled to move by the transverse propelling cylinder, the other side of the first staggered tile pushing plate is a step surface, and the fall height of the step is greater than the width of one magnetic tile;

the longitudinal propulsion device comprises a longitudinal propulsion cylinder and a second staggered tile pushing plate, one side of the second staggered tile pushing plate is connected with the longitudinal propulsion cylinder and is controlled to move by the longitudinal propulsion cylinder, and the other side of the second staggered tile pushing plate is a step surface;

a second platform;

cleaning the channel by ultrasonic waves;

the ultrasonic cleaning device comprises a first platform, a second platform, a first dislocation tile pushing plate, a second dislocation tile pushing plate, a transverse connecting plate, a second platform front end, a first platform rear section, a second platform rear end and an ultrasonic cleaning channel, wherein the first dislocation tile pushing plate is located on one side of the first platform and points to the rear end of the first platform, the second dislocation tile pushing plate is located at the front end of the second platform, the transverse connecting plate is arranged at the front end of the first platform and the front end of the second platform, two magnetic tiles at the rear end of the first platform are pushed into the second platform through the first dislocation tile pushing plate, the second dislocation tile pushing plate pushes two magnetic.

The utility model discloses further technique:

preferably, baffles are arranged on two sides of the flat plate, a notch is formed in the position, located at the rear end of the flat plate, of each baffle, and the width of each notch is equal to that of the first staggered tile pushing plate and is equal to that of each magnetic tile.

Preferably, three vertical plates are arranged on the second platform in the ultrasonic cleaning channel and are respectively positioned on two sides and the middle of the second platform.

Preferably, the length of the longitudinal propulsion cylinder propulsion is at least the length of one magnetic shoe.

Preferably, the step surface of the first dislocation tile pushing plate is provided with an arc plate which is transversely parallel to the magnetic tile.

The utility model has the advantages that:

the magnetic shoes are changed into two rows from one row through a grinding outlet through a first dislocation type propelling device; and then the ultrasonic cleaning is carried out by pushing the cleaning liquid into a double-row cleaning machine intermittently by a longitudinal pushing device. Due to the time pause of the dislocation type transverse pushing and the longitudinal pushing back and forth, the high end surface of the shaft of the magnetic shoe on the track of the ultrasonic cleaner is naturally loosened under the vibration of ultrasonic waves to form a certain gap, so that the dirt on the end surface of the magnetic shoe can be smoothly cleaned.

Therefore, the problem that the magnetic shoe shaft is manually put on the cleaning machine is solved, and the problem that the high end face of the magnetic shoe shaft is not cleaned completely is also solved. Thereby realizing the automatic innovation from grinding to cleaning.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts;

FIG. 1 is a schematic drawing of a lateral pushing device;

FIG. 2 is a schematic view of the longitudinal pushing device;

fig. 3 is a schematic assembly diagram of a modified front magnetic shoe pushing device.

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the embodiment shown in fig. 3, it can be seen that the single-row push-show new feeding device before improvement is a set of simpler propulsion system, which is composed of feeding wheels and rails, and the principle is that the motor drives the feeding wheels made of upper and lower rubber through a speed reducer, the directions of the feeding wheels are mutually reverse, the magnetic shoes are pushed into the ultrasonic cleaner by the friction force of the rubber wheels, and the feeding wheels are continuously fed, so the magnetic shoes are mutually extruded on the high surfaces of the shafts on the rails of the cleaner without gaps. Therefore, the dirt on the high two end faces of the magnetic shoe shaft cannot be cleaned.

Referring to fig. 1-2, the present embodiment provides an offset tile pushing apparatus, including:

the device comprises a first platform, a second platform and a third platform, wherein the first platform is a flat plate 1, the front end of the flat plate is provided with a notch 2, a belt conveyor 3 is arranged in the notch, a motor 4 is arranged below the flat plate to drive the belt conveyor, and the rear end of the flat plate is provided with a first baffle plate 5;

the first baffle is used for pushing the magnetic shoe out of the first platform by the brush ink leather belt conveyor;

and second baffles 12 are arranged on two sides of the flat plate, a notch is arranged at the rear end of the flat plate, and the width of the notch is the same as that of the first staggered tile pushing plate and is the length of two magnetic tiles.

The transverse propelling device comprises a transverse propelling cylinder 6 and a first staggered tile pushing plate 7, wherein one side of the first staggered tile pushing plate is connected with the transverse propelling cylinder and is controlled to move by the transverse propelling cylinder, the other side of the first staggered tile pushing plate is a step surface, and the height of the step is greater than the width of one magnetic tile;

changing the magnetic tiles from one row to two rows by the dislocation type propulsion device shown in figure 1;

meanwhile, the second baffle plate with the notch has the function of preventing the magnetic shoes queued behind from being taken out of the flat plate when being pushed out or recovered, and pushing out every two magnetic shoes in sequence;

the longitudinal propulsion device comprises a longitudinal propulsion cylinder 8 and a second staggered tile pushing plate 9, one side of the second staggered tile pushing plate is connected with the longitudinal propulsion cylinder and is controlled to move by the longitudinal propulsion cylinder, and the other side of the second staggered tile pushing plate is a step surface;

a second platform 10;

an ultrasonic cleaning channel 11; and three vertical plates 13 are arranged on the second platform in the ultrasonic cleaning channel and are respectively positioned at the two sides and the middle of the second platform.

The ultrasonic cleaning was carried out by intermittently advancing the cleaning liquid from the vertical pushing device shown in FIG. 2 to a double row cleaning machine.

The ultrasonic cleaning device comprises a first platform, a second platform, a first dislocation tile pushing plate, a second dislocation tile pushing plate, a transverse connecting plate, a second platform front end, a first platform rear section, a second platform rear end and an ultrasonic cleaning channel, wherein the first dislocation tile pushing plate is located on one side of the first platform and points to the rear end of the first platform, the second dislocation tile pushing plate is located at the front end of the second platform, the transverse connecting plate is arranged at the front end of the first platform and the front end of the second platform, two magnetic tiles at the rear end of the first platform are pushed into the second platform through the first dislocation tile pushing plate, the second dislocation tile pushing plate pushes two magnetic.

Preferably, the length of the longitudinal propulsion cylinder propulsion is at least the length of one magnetic shoe.

Preferably, the step surface of the first dislocation tile pushing plate is provided with an arc plate 14 which is transversely parallel to the magnetic tile

When the magnetic shoe is pushed out, the magnetic shoe can be pressed, the magnetic shoe is prevented from turning over, and the consistency is kept.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

In the present invention, unless explicitly specified or limited, features are not necessarily present independently, but are interleaved with each other. The foregoing shows and describes the principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention to become the only choice. The utility model discloses under the spirit and the scope requirement of utility model, the utility model discloses still can further change and optimize, right the utility model discloses the improvement optimization that goes on all gets into the utility model that claims, the utility model discloses claim the specific scope and be defined by attached claim and equivalent.

Claims (5)

1. Dislocation formula pushes away a device made of baked clay, its characterized in that: the method comprises the following steps:

the first platform is a flat plate, the front end of the flat plate is provided with a notch, a belt conveyor is arranged in the notch, a motor-driven belt conveyor is arranged below the flat plate, and the rear end of the flat plate is provided with a baffle plate;

the transverse propelling device comprises a transverse propelling cylinder and a first staggered tile pushing plate, wherein one side of the first staggered tile pushing plate is connected with the transverse propelling cylinder and is controlled to move by the transverse propelling cylinder, the other side of the first staggered tile pushing plate is a step surface, and the fall height of the step is greater than the width of one magnetic tile;

the longitudinal propulsion device comprises a longitudinal propulsion cylinder and a second staggered tile pushing plate, one side of the second staggered tile pushing plate is connected with the longitudinal propulsion cylinder and is controlled to move by the longitudinal propulsion cylinder, and the other side of the second staggered tile pushing plate is a step surface;

a second platform;

cleaning the channel by ultrasonic waves;

the ultrasonic cleaning device comprises a first platform, a second platform, a first dislocation tile pushing plate, a second dislocation tile pushing plate, a transverse connecting plate, a second platform front end, a first platform rear section, a second platform rear end and an ultrasonic cleaning channel, wherein the first dislocation tile pushing plate is located on one side of the first platform and points to the rear end of the first platform, the second dislocation tile pushing plate is located at the front end of the second platform, the transverse connecting plate is arranged at the front end of the first platform and the front end of the second platform, two magnetic tiles at the rear end of the first platform are pushed into the second platform through the first dislocation tile pushing plate, the second dislocation tile pushing plate pushes two magnetic.

2. The offset tile pusher of claim 1, wherein: the two sides of the flat plate are provided with baffle plates, the baffle plates are positioned at the rear ends of the flat plate and provided with notches, and the width of each notch is the same as that of the first staggered tile pushing plate and is the length of each two magnetic tiles.

3. The offset tile pusher of claim 1, wherein: and three vertical plates are arranged on the second platform in the ultrasonic cleaning channel and are respectively positioned at the two sides and the middle of the second platform.

4. The offset tile pusher of claim 1, wherein: the length of the longitudinal propulsion cylinder is at least the length of one magnetic shoe.

5. The offset tile pusher of claim 1, wherein: the step surface of the first dislocation tile pushing plate is provided with an arc plate which is transversely parallel to the magnetic tile.

Images