CN210585791U - Ceramic chip screening and separating equipment - Google Patents

Abstract

The utility model relates to the technical field of ceramic chip processing equipment, in particular to ceramic chip screening and separating equipment, which comprises a frame, a screening component and a driving component, wherein the frame is provided with a connecting rod, the screening component is provided with a bracket which is movably connected with the connecting rod, the driving component is arranged on the connecting rod, the screening component is also provided with a screening bottom plate, a screening plate, an enclosing cloth and an enclosing cloth fixing strip, the screening bottom plate is respectively connected with the bracket and the driving component, the enclosing cloth is arranged around the screening bottom plate, the enclosing cloth fixing strip is arranged at each side edge of the enclosing cloth far away from the screening plate, the screening plate is detachably arranged on the screening bottom plate, when the ceramic chip is screened, the driving component can drive the screening component to do reciprocating motion respectively along the direction of the connecting rod and the direction vertical to the connecting rod, the utility model adopts the driving component to drive the screening component to screen and separate the ceramic chip, the driving component, the ceramic chip screening and separating device has the advantages of high automation degree, high ceramic chip screening efficiency and good screening effect.

Description

Ceramic chip screening and separating equipment

Technical Field

The utility model relates to a ceramic chip processing equipment technical field especially relates to a ceramic chip screening splitter.

Background

The ceramic chip is an important component of the annular piezoresistor, is a thin sheet for keeping a given distance between two parts of the annular piezoresistor, is made of a plate-shaped material through processes of cutting, stamping, cutting and the like, and is used for sealing connection between annular piezoresistor workpieces.

In the production process of the annular piezoresistor, the used ceramic chips are required to be firstly screened and separated and arranged on the screening plate, so that the subsequent processing and assembly of the annular piezoresistor are facilitated, but the current ceramic chips are screened and separated manually, because the ceramic chips are small parts, on one hand, the screening difficulty is large, the long-time use of eyes is required, and on the other hand, the manual screening and separation efficiency is extremely low.

In view of the above technical problems, there is a need for a tile screening and separating apparatus to better solve the above technical problems.

Disclosure of Invention

In order to solve the problem, the utility model provides a ceramic chip screening splitter, its degree of automation is high, and it is efficient to screen the ceramic chip, and it is effectual to screen the ceramic chip.

The utility model adopts the technical proposal that: the utility model provides a ceramic chip screening splitter, which comprises a frame, still include sieve material subassembly and drive assembly, the frame is equipped with the connecting rod, sieve material subassembly is equipped with the support, support and connecting rod swing joint, drive assembly installs in the connecting rod, sieve material subassembly still is equipped with sieve material bottom plate, the sieve flitch, enclose cloth and enclose the cloth fixed strip, sieve material bottom plate is connected with support and drive assembly respectively, enclose the cloth and enclose and locate sieve material bottom plate around, enclose the cloth fixed strip and set up in each side of enclosing cloth and keeping away from sieve flitch one side, sieve material bottom plate is detachable to be located to the sieve flitch, during the screening ceramic chip, drive assembly can drive sieve material subassembly and follow the connecting rod direction respectively and do reciprocating motion with the connecting rod vertical direction.

The further improvement to the technical scheme is that the surface of the connecting rod is provided with a chromium layer, the joint of the support and the connecting rod is provided with a sliding part, the sliding part is provided with a through hole matched with the connecting rod, and when the support is connected with the connecting rod, the connecting rod penetrates through the through hole.

The technical scheme is further improved in that a plurality of circular grooves used for containing the ceramic chips are uniformly distributed on the screening plate, and the circular grooves are matched with the ceramic chips in size.

The technical proposal is further improved in that the enclosure cloth is made of flexible materials.

The further improvement to above-mentioned technical scheme does, and drive assembly is equipped with motor, pivot and cylinder, and the motor is connected with the connecting rod, and pivot one end is connected with the motor, and the pivot other end is connected with the sieve material bottom plate, and cylinder one end is connected with the motor, and the cylinder other end is connected with the wall cloth fixed strip.

The further improvement to the above technical scheme is that the driving assembly is further provided with a motor fixing frame, the motor is arranged on the motor fixing frame, and the motor fixing frame is connected with the connecting rod.

The further improvement to above-mentioned technical scheme is that, the motor is established to servo motor, and the cylinder is equipped with two, and two cylinders are close to the cloth fixed strip that encloses of pay-off subassembly one side with the sieve material subassembly respectively and enclose the cloth fixed strip with this side is parallel to be connected.

The further improvement of the technical scheme is that the screening device further comprises a feeding assembly, wherein the feeding assembly is arranged on the rack, and the feeding assembly is arranged above the screening assembly.

The further improvement to the technical scheme is that the feeding component is provided with a material storage box, a feeding groove and a vibrator, the material storage box and the vibrator are respectively installed on the rack, the material storage box is arranged above the vibrator, the material storage box is arranged close to the vibrator, and the feeding groove is arranged on one side, close to the screening component, of the bottom of the material storage box.

The technical proposal is further improved to include a foot cup which is arranged on the frame.

The utility model has the advantages as follows:

the utility model comprises a frame, a feeding component, a screening component and a driving component, wherein the feeding component is arranged on the frame, the feeding component is arranged above the screening component, the frame is provided with a connecting rod, the screening component is provided with a bracket which is movably connected with the connecting rod, the driving component is arranged on the connecting rod, and the driving component is in driving connection with the screening component, when the ceramic chip is screened, the driving component can drive the screening component to do reciprocating motion along the direction of the connecting rod and the direction vertical to the connecting rod respectively, the utility model screens and separates the ceramic chip by driving the screening component to do reciprocating swing up and down and left and right, the enclosing cloth arranged by the screening component can not only meet the flexible moving requirement, but also can avoid the ceramic chip from excessively impacting and splashing out of the screening component in the moving process, the ceramic chip screening and separating equipment has high automation degree, the ceramic chip screening and separating efficiency is high, and the screening effect is good.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the connecting rod, the material sieving bottom plate and the driving assembly of the present invention;

FIG. 3 is a schematic structural view of a material sieving plate according to the present invention;

description of reference numerals: 1. the automatic feeding device comprises a rack, 11 connecting rods, 2 feeding components, 21 material storage boxes, 22 material feeding grooves, 23 vibrators, 3 material screening components, 31 supports, 311 sliding parts, 312 through holes, 32 material screening bottom plates, 33 material screening plates, 331 circular grooves, 34 enclosing cloth, 35 enclosing cloth fixing strips, 4 driving components, 41 motors, 42 rotating shafts, 43 air cylinders, 44 motor fixing frames and 5 foot cups.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in FIGS. 1-2, the ceramic chip screening and separating device of the present invention comprises a frame 1, a screening assembly 3 and a driving assembly 4, wherein the frame 1 is provided with a connecting rod 11, the screening assembly 3 is provided with a support 31, the support 31 is movably connected with the connecting rod 11, the driving assembly 4 is mounted on the connecting rod 11, the screening assembly 3 is further provided with a screening bottom plate 32, a screening plate 33, a surrounding cloth 34 and a surrounding cloth fixing strip 35, the screening bottom plate 32 is respectively connected with the support 31 and the driving assembly 4, the surrounding cloth 34 is surrounded around the screening bottom plate 32, the surrounding cloth fixing strip 35 is arranged at each side edge of the surrounding cloth 34 far away from the screening plate 33, the screening plate 33 is detachably arranged on the screening bottom plate 32, the driving assembly 4 can drive the screening assembly 3 to reciprocate along the connecting rod 11 direction and the direction perpendicular to the connecting rod 11, the driving assembly 4 drives the screening assembly 3 to reciprocate in the up-down and left directions, screening and separation ceramic chip, at the sieve material in-process, the cloth 34 that encloses that sieve material subassembly 3 was equipped with combines to enclose the mode of cloth fixed strip 35, not only can satisfy the flexibility of about activity from top to bottom, and it can avoid the ceramic chip to carry out excessive striking and spill sieve material subassembly in the motion process, at sieve material bottom plate 32 and support 31 junction, also can set up the buffer layer, for example foam blanket etc. to the efficiency and the effect of promotion screening ceramic chip that can be better, the utility model discloses a ceramic chip screening separation equipment degree of automation is high, and the screening separation ceramic chip is efficient, and it is effectual to filter.

In some embodiments, the surface of the connecting rod 11 is provided with a chromium layer, such a setting can increase the wear resistance of the connecting rod 11, on the other hand, the chromium layer is provided, the friction between the bracket 31 and the connecting rod 11 can be reduced, the stability of the ceramic chip screening process can be further ensured, thereby improving the efficiency and the effect of the ceramic chip screening, the connecting part 311 is provided at the joint of the bracket 31 and the connecting rod 11, the through hole 312 matched with the connecting rod 11 is provided on the sliding part 311, when the bracket 31 is connected with the connecting rod 11, the connecting rod 11 penetrates through the through hole 312, such a setting is also for improving the ceramic chip screening process, when the bracket 31 reciprocates along the direction of the connecting rod 11, the stability and the smoothness are improved, and further the efficiency.

In some alternative embodiments, the screen plate 33 has a plurality of circular grooves 331 uniformly distributed therein for receiving tiles, the circular grooves 331 matching the tile size arrangement, mainly to facilitate better receiving and screening of tiles.

In some specific examples, the enclosing cloth 34 is made of a flexible material, so that the enclosing cloth 34 made of the flexible material has high flexibility, the ceramic tile screening process is convenient to perform, and meanwhile, the flexible design can better protect the appearance of the ceramic tile from being damaged, and the quality of the produced product can be better ensured.

In another embodiment, the driving assembly 4 is provided with a motor 41, a rotating shaft 42 and a cylinder 43, the motor 41 is connected with the connecting rod 11, one end of the rotating shaft 42 is connected with the motor 41, the other end of the rotating shaft 42 is connected with the sieving bottom plate 32, one end of the cylinder 43 is connected with the motor 41, and the other end of the cylinder 43 is connected with the surrounding cloth fixing strip 35.

In another specific example, the driving assembly 4 is further provided with a motor fixing frame 44, the motor 41 is mounted on the motor fixing frame 44, and the motor fixing frame 44 is connected with the connecting rod 11.

In another embodiment, the motor 41 is a servo motor 41, two air cylinders 43 are provided, and the two air cylinders 43 are respectively connected with the cloth surrounding fixing strip 35 on one side of the material sieving component 3 close to the feeding component 2 and the cloth surrounding fixing strip 35 parallel to the side, so that when ceramic tiles are sieved, the two air cylinders 43 simultaneously act and drive the cloth surrounding fixing strips 35 on the two sides of the material sieving plate 33 to synchronously reciprocate along the direction perpendicular to the connecting rod 11, and the material sieving effect is good.

In some optional embodiments, still include pay-off subassembly 2, pay-off subassembly 2 is installed in frame 1, and pay-off subassembly 2 locates the sieve material subassembly 3 top, and such setting can further improve the convenience of pay-off, thereby improves the utility model discloses an efficiency of whole screening separation ceramic chip.

In another optional embodiment, the feeding assembly 2 is provided with a storage box 21, a feeding groove 22 and a vibrator 23, the storage box 21 and the vibrator 23 are respectively installed on the frame 1, the storage box 21 is arranged above the vibrator 23, the storage box 21 is arranged close to the vibrator 23, the feeding groove 22 is arranged at the bottom of the storage box 21 and close to one side of the screening assembly 3, the vibrator 23 in this embodiment can be a light piezoelectric vibrator 23, and in such an arrangement, the vibrator 23 drives the storage box 21 to vibrate, and the ceramic chips in the storage box 21 are vibrated and fall into the feeding groove 22, and then the ceramic chips are fed into the screening assembly 3 through the feeding groove 22.

In an alternative example, the ceramic tile screening machine further comprises a foot cup 5, wherein the foot cup 5 is mounted on the frame 1, and the arrangement is such that the frame 1 is not easy to shift due to vibration in the ceramic tile screening process, and meanwhile, the effect of preventing noise generated due to movement of the frame 1 is achieved.

The utility model discloses a theory of operation does:

directly by manpower or by the feeding component 2 of the utility model, the ceramic chips to be screened and separated are fed into the screening component 3, the motor 41 of the driving component 4 is started, the driving component 4 drives the screening component 3 to do reciprocating swing in the up-down and left-right directions, in the process of swinging, the ceramic tiles gradually fall into the circular grooves 331 distributed on the screen plate 33, in the process that the ceramic chips fall into the circular groove 331, the surrounding cloth 34 swings up and down and left and right along with the screening bottom plate 32, the surrounding cloth 34 accommodates the ceramic chips to be screened and avoids the excessive impact and splashing of the screening components during the movement of the ceramic chips, in the process that the ceramic chips continuously swing up, down, left and right along with the screening component 3, the ceramic chips fall into all the circular grooves 331 on the surface of the screening plate 33, therefore, the fallen ceramic chips are screened and separated, the screened and separated ceramic chips are completed, the motor can be turned off at the moment, and the screened and separated ceramic chips can be removed.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a ceramic chip screening splitter, which comprises a frame, a serial communication port, still include sieve material subassembly and drive assembly, the frame is equipped with the connecting rod, sieve material subassembly is equipped with the support, support and connecting rod swing joint, drive assembly installs in the connecting rod, sieve material subassembly still is equipped with sieve material bottom plate, sieve the flitch, enclose the cloth and enclose cloth fixed strip, sieve material bottom plate is connected with support and drive assembly respectively, it encloses to locate sieve material bottom plate around to enclose the cloth, it sets up in each side of enclosing cloth and keeping away from sieve flitch one side to enclose the cloth fixed strip, sieve material bottom plate is detachable to be located to sieve the flitch, during the screening ceramic chip, drive assembly can drive sieve material subassembly and follow the connecting rod direction respectively and do reciprocating motion with the connecting rod.

2. The ceramic chip screening and separating apparatus of claim 1, wherein the connecting rod has a chrome layer on a surface thereof, a sliding portion is provided at a connection portion of the bracket and the connecting rod, the sliding portion has a through hole matching with the connecting rod, and the connecting rod penetrates the through hole when the bracket is connected to the connecting rod.

3. The ceramic tile screening and separating device of claim 1, wherein the screening plate has a plurality of circular grooves uniformly distributed therein for receiving the ceramic tiles, the circular grooves being sized to match the ceramic tiles.

4. The ceramic tile screening and separating apparatus of claim 1, wherein the enclosure is made of a flexible material.

5. The ceramic chip screening and separating device of claim 1, wherein the driving assembly comprises a motor, a rotating shaft and a cylinder, the motor is connected with the connecting rod, one end of the rotating shaft is connected with the motor, the other end of the rotating shaft is connected with the material sieving bottom plate, one end of the cylinder is connected with the motor, and the other end of the cylinder is connected with the cloth surrounding fixing strip.

6. The ceramic chip screening and separating device of claim 5, wherein the driving assembly further comprises a motor fixing frame, the motor is mounted on the motor fixing frame, and the motor fixing frame is connected with the connecting rod.

7. The ceramic chip screening and separating device of claim 5, wherein the motor is a servo motor, and the number of the cylinders is two, and the two cylinders are respectively connected with the cloth surrounding fixing strip on one side of the screening assembly close to the feeding assembly and the cloth surrounding fixing strip parallel to the side.

8. The ceramic chip screening and separating device of claim 1, further comprising a feeding assembly, wherein the feeding assembly is mounted on the frame, and the feeding assembly is disposed above the screening assembly.

9. The ceramic chip screening and separating device according to claim 8, wherein the feeding assembly comprises a storage box, a feeding groove and a vibrator, the storage box and the vibrator are respectively mounted on the frame, the storage box is disposed above the vibrator, the storage box is disposed adjacent to the vibrator, and the feeding groove is disposed at the bottom of the storage box on the side adjacent to the screening assembly.

10. The ceramic tile screening and separating device of claim 1, further comprising a foot cup, wherein the foot cup is mounted to the frame.

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