CN218223457U - Raw materials screening plant for ceramic manufacture - Google Patents

Abstract

The utility model relates to a screening plant especially relates to a raw materials screening plant for ceramic manufacture. The utility model provides a firm effectual raw materials screening plant for ceramic manufacture. The utility model provides a raw materials screening plant for ceramic manufacture, is including base, shell and first guide frame etc. and the top of base is connected with the shell, and the lower part front and back symmetry formula of shell is connected with first guide frame. Through with four support frame antiport resets, makes four support frames and ground contact, inserts back the base to four gag lever posts again on, at the in-process that carries out the screening operation, the support frame can support fixedly to this device for this device can not take place the displacement at will, and the non slipping spur can also increase the frictional force between support frame and the ground, makes placing that this device is more firm subaerial, reaches the effect of firm this device with this.

Description

Raw materials screening plant for ceramic manufacture

Technical Field

The utility model relates to a screening plant especially relates to a raw materials screening plant for ceramic manufacture.

Background

Ceramic product is before processing, generally need sieve ceramic product's granule material, makes granule material be sieved for suitable particle size, sieves granule material to present need use screening plant to sieve granule material usually when sieving.

According to patent grant publication No. CN 210474617U's automatic screening plant of ceramic raw material, including feeder hopper and screening storehouse, the bottom of feeder hopper is provided with movable bottom plate, the screening storehouse is located the below of feeder hopper, and the bottom in screening storehouse installs driving motor, the outside evenly distributed of drive shaft has supporting lug, the inside in screening storehouse has first movable screening board, second movable screening board and third movable screening board from last to distributing in proper order down, and the below of first movable screening board is provided with supporting spring, activity spring and shock dynamo, the lower extreme of activity spring is connected with movable support seat, and the middle part of activity support seat has seted up movable spread groove, the upper end outside of drive shaft is provided with the stirring rake, and the below of stirring rake is provided with movable lug.

Although above-mentioned patent can be through the rotation of drive shaft upper end (mixing) shaft for the feed opening constantly moves about and opens and shuts, makes things convenient for the even whereabouts of intermittent type nature of material, prevents that the unloading from blockking up unevenly, but above-mentioned patent does not possess firm mechanism, at the during operation of screening, the body of above-mentioned patent can take place the shake, thereby lead to the unable firm placing of above-mentioned patent subaerial, make above-mentioned patent can take place the displacement at will, influence the normal clear of screening work easily like this.

In order to solve the problems in the prior art, a raw material screening device for ceramic production with good stabilizing effect is needed to be designed, so that the effect of preventing the screening device from displacing is achieved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the shortcoming that present screening plant takes place the displacement when screening easily, the technical problem of the utility model is that: the raw material screening device for ceramic production is good in stabilizing effect.

The technical scheme is as follows: the utility model provides a raw materials screening plant for ceramic manufacture, which comprises a base, a housing, first guide frame, second guide frame, third guide frame, fourth guide frame, the direction top, the lug, first mount, the screen cloth, vibration mechanism and stabilizing mechanism, the top of base is connected with the shell, the symmetry formula is connected with first guide frame around the lower part of shell, the lower part bilateral symmetry formula of shell is connected with second guide frame, two second guide frames all are located the upside of two first guide frames, the symmetry formula is connected with third guide frame around the upper portion of shell, the upper portion bilateral symmetry formula of shell is connected with fourth guide frame, two fourth guide frames all are located the upside of two third guide frames, the direction top has been placed to the interior bottom of shell, the bottom on direction top is connected with the lug, the inside slidingtype of shell is connected with first mount, be connected with three screen cloth on the first mount evenly at an interval, the inside of base is equipped with vibration mechanism, be equipped with stabilizing mechanism on the base.

More preferably, the vibration mechanism comprises a second fixing frame, a motor and a connecting block, the second fixing frame is connected to the inside of the base, the motor is mounted on the second fixing frame, the connecting block is connected to an output shaft of the motor, and the connecting block is in contact with the bump.

More preferably, the stabilizing mechanism is connected with solid fixed ring including solid fixed ring, bull stick, support frame, non slipping spur and gag lever post in the outside of base, gu be connected with four bull sticks on the fixed ring evenly at an interval, equal rotary type is connected with the support frame on four bull sticks, peg graft evenly at an interval on the base has four gag lever posts, and four gag lever posts are connected with four support frame joints respectively, and the bottom of four support frames all is connected with the non slipping spur.

More preferably, still including protection machanism, protection machanism is connected with the dead lever including dead lever, flip, connecting rod and stopper, the preceding upside of shell, and the upper portion of dead lever runs through there is the connecting rod, and the last rotation type of connecting rod is connected with flip, and flip covers the top of shell, and flip's top is closed type soon and is connected with the stopper.

More preferred, still including guiding mechanism, guiding mechanism is including the slide rail piece, the slide bar, a spring, press from both sides tight frame and guide cylinder, both sides and the left and right sides all are connected with the slide rail piece around the shell, two slide rail pieces of front and back both sides are located the slide rail piece downside of the left and right sides, four slide rail piece insides all are connected with the slide bar, equal sliding connection has two tight frames of clamp on four slide bars, the guide cylinder has all been placed between two adjacent tight frames of clamp, two guide cylinders of downside are located two third guide material frame belows respectively, two guide cylinders of upside are located the below of two fourth guide material frames respectively, all be connected with the spring between eight tight frames of clamp and the adjacent slide rail piece, two springs of preceding downside all overlap on the slide bar of preceding downside, two springs of back downside all overlap on the slide bar of back, two springs of upper left side all overlap on the slide bar of upper left side, two springs of upper right side all overlap on the slide bar of upper right side.

More preferably, there is a friction force between the support frame and the rotating rod.

The utility model discloses possess following beneficial effect: 1. through with four support frame antiport reset, make four support frames and ground contact, insert back the base to four gag lever posts on again, at the in-process that carries out the screening operation, the support frame can support this device fixedly for this device can not take place the displacement at will, and the non slipping spur can also increase the frictional force between support frame and the ground, makes placing that this device is more firm subaerial, reaches the effect of firm this device with this.

2. Through using the motor as drive power, can make first mount drive three screen cloth and carry out reciprocating motion from top to bottom to this when three screen cloth sieves particulate material, three screen cloth can shake particulate material, reaches the effect that the shake was sieved, sieves effectually.

3. In-process to the material screening, flip can block and prevent that the granule material from trembling out in this device to this can prevent that the material from trembling out in this device and causing the waste.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a first partial sectional view of the present invention.

Fig. 3 is a second partial sectional view of the present invention.

Fig. 4 is a schematic perspective view of the vibration mechanism of the present invention.

Fig. 5 is a schematic view of the three-dimensional structure of the protection mechanism of the present invention.

Fig. 6 is a schematic perspective view of the guiding mechanism of the present invention.

Fig. 7 is a partial sectional view of the guide mechanism of the present invention.

Fig. 8 is a schematic view of the three-dimensional structure of the stabilizing mechanism of the present invention.

Fig. 9 is a partial sectional view of the securing mechanism of the present invention.

The parts are labeled as follows: 1. the device comprises a base, 2, a shell, 3, a first guide frame, 31, a second guide frame, 32, a third guide frame, 33, a fourth guide frame, 4, a guide top, 5, a bump, 6, a first fixing frame, 7, a screen, 8, a vibration mechanism, 81, a second fixing frame, 82, a motor, 83, a connecting block, 9, a protection mechanism, 91, a fixing rod, 92, a flip cover, 93, a connecting rod, 94, a plug, 10, a guide mechanism, 101, a sliding rail block, 102, a sliding rod, 103, a spring, 104, a clamping frame, 105, a guide cylinder, 11, a stabilizing mechanism, 111, a fixing ring, 112, a rotating rod, 113, a supporting frame, 114, an anti-slip block, 115 and a limiting rod.

Detailed Description

It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.

Example 1

A raw material screening device for ceramic production is disclosed, please look at figure 1, figure 2, figure 3, figure 4, figure 8 and figure 9, which comprises a base 1, a shell 2, a first guide frame 3, a second guide frame 31, a third guide frame 32, a fourth guide frame 33, a guide top 4, a lug 5, a first fixing frame 6, a screen 7, a vibrating mechanism 8 and a stabilizing mechanism 11, wherein the top of the base 1 is welded with the shell 2, the lower part of the shell 2 is connected with the first guide frame 3 in a front-back symmetrical manner, the lower part of the shell 2 is connected with the second guide frame 31 in a left-right symmetrical manner, the two second guide frames 31 are both positioned at the upper sides of the two first guide frames 3, the upper part of the shell 2 is connected with the third guide frame 32 in a front-back symmetrical manner, the upper portion bilateral symmetry formula of shell 2 is connected with fourth guide frame 33, two fourth guide frames 33 all are located the upside of two third guide frames 32, direction top 4 has been placed to the interior bottom of shell 2, the bottom welding of direction top 4 has lug 5, the inside sliding type of shell 2 is connected with first mount 6, be connected with three screen cloth 7 on the first mount 6 evenly at interval, the space size of three screen cloth 7 is from last to arranging by big-to-small down, fourth guide frame 33 is located upside screen cloth 7 upside, third guide frame 32 is located the upside of screen cloth 7 in the middle of, second guide frame 31 is located the upside of downside screen cloth 7, the inside of base 1 is equipped with vibration mechanism 8, be equipped with firm mechanism 11 on the base 1.

Referring to fig. 2 and 4, the vibration mechanism 8 includes a second fixing frame 81, a motor 82 and a connecting block 83, the second fixing frame 81 is welded inside the base 1, the motor 82 is mounted on the second fixing frame 81, the connecting block 83 is connected to an output shaft of the motor 82, and the connecting block 83 contacts with the bump 5.

Referring to fig. 1, 8 and 9, the fixing mechanism 11 includes a fixing ring 111, rotating rods 112, support frames 113, anti-slip blocks 114 and limiting rods 115, the fixing ring 111 is welded on the outer side of the base 1, the fixing ring 111 is connected with four rotating rods 112 at uniform intervals, the four rotating rods 112 are connected with the support frames 113 in a rotating manner, friction exists between the support frames 113 and the rotating rods 112, the support frames 113 can be prevented from rotating randomly, the base 1 is inserted with four limiting rods 115 at uniform intervals, the four limiting rods 115 are respectively connected with the four support frames 113 in a clamping manner, and the anti-slip blocks 114 are connected to the bottoms of the four support frames 113.

When the device needs to be used, firstly, the motor 82 is started, the output shaft of the motor 82 drives the connecting block 83 to rotate, the connecting block 83 pushes the lug 5 upwards after rotating, the lug 5 drives the guide top 4, the first fixing frame 6 and the three screens 7 to move upwards, then the connecting block 83 is separated from the lug 5 in the rotating process, under the action of gravity, the guide top 4 drives the lug 5, the first fixing frame 6 and the three screens 7 to move downwards and reset, then the connecting block 83 can be contacted with the lug 5 again in the continuous rotating process, so that the three screens 7 can repeat the above operations to move up and down in a reciprocating manner, then a worker places a collecting container below the first guide frame 3, the second guide frame 31, the third guide frame 32 and the fourth guide frame 33, then places the granular materials into the shell 2, and the granular materials can fall onto the upper screens 7, under the action of the up-and-down reciprocating movement of the three screens 7, smaller materials in the particle materials fall downwards onto the middle screen 7, larger materials are blocked on the upper screen 7, smaller materials in the particle materials on the middle screen 7 fall downwards onto the lower screen 7, larger materials are blocked on the middle screen 7, then smaller materials in the particle materials on the lower screen 7 fall downwards onto the guide top 4, larger materials are blocked on the lower screen 7, the materials falling on the guide top 4 slide into the first guide frame 3 along the guide top 4, the materials in the first guide frame 3 slide into the collection container along the first guide frame 3, and meanwhile, in the process of repeated up-and-down reciprocating movement of the three screens 7, the materials blocked on the three screens 7 all move respectively under the action of continuous up-and-down movement of the three screens 7 When the device is not required to be fixed, the four limit rods 115 are pulled out in the direction away from each other, the four limit rods 115 are not clamped by the adjacent support frames 113 any more, then the four support frames 113 are rotated upwards by 90 degrees, the four support frames 113 are contacted with the ground, when the device is not required to be fixed, the four support frames 113 are not reversely rotated any more, the four support frames 113 are contacted with the ground, the four support frames 113 are reset to be clamped with the ground, and the four support frames 113 are respectively used by the four limit rods 113 after being respectively inserted into the adjacent support frames 113, so that the four limit rods 113 can be reset to be in place.

Example 2

On the basis of embodiment 1, please look over fig. 1 and 5, still include protection mechanism 9, protection mechanism 9 is including dead lever 91, flip 92, connecting rod 93 and stopper 94, the welding of the preceding upside of shell 2 has dead lever 91, the upper portion of dead lever 91 has run through connecting rod 93, the last rotation type of connecting rod 93 is connected with flip 92, flip 92 covers the top of shell 2, flip 92's top is the formula of revolving and is connected with stopper 94.

When particle materials need to be added into the shell 2, a worker twists the plug 94 down from the flip cover 92, then pours the particle materials into the flip cover 92, the particle materials enter the shell 2 through the flip cover 92, and when the particle materials do not need to be added, the plug 94 is twisted back onto the flip cover 92, then in the process of screening the materials, the flip cover 92 can block and prevent the particle materials from shaking out of the device, so that the materials can be prevented from shaking out of the device to cause waste, when the upper side screen 7 needs to be cleaned, the worker rotates the flip cover 92 towards the front upper side to open, the flip cover 92 drives the plug 94 on the flip cover 92 to rotate together, then the worker cleans the residual materials or other impurities on the upper side screen 7, and after the cleaning work is completed, the flip cover 92 rotates reversely to close, and the flip cover 92 drives the plug 94 on the flip cover 92 to rotate together.

Example 3

On the basis of embodiment 2, please look at fig. 1, fig. 6 and fig. 7, further include a guide mechanism 10, the guide mechanism 10 includes a slide rail block 101, a slide rod 102, springs 103, clamping frames 104 and guide cylinders 105, the slide rail block 101 is welded to both the front and back sides and the left and right sides of the housing 2, the two slide rail blocks 101 on the front and back sides are located at the lower side of the slide rail block 101 on the left and right sides, the slide rods 102 are welded inside the four slide rail blocks 101, the two clamping frames 104 are connected to the four slide rods 102 in a sliding manner, the guide cylinders 105 are placed between the two adjacent clamping frames 104, the two guide cylinders 105 on the lower side are located below the two third guide frames 32 respectively, the two guide cylinders 105 on the upper side are located below the two fourth guide frames 33 respectively, the springs 103 are connected between the eight clamping frames 104 and the adjacent slide rail blocks 101, the two springs 103 on the front lower side are all sleeved on the slide rods 102 on the front lower side, the two springs 103 on the rear lower side are all sleeved on the rear slide rod 102 on the rear lower side, the two springs 103 on the left side are all sleeved on the slide rod 102 on the left side, and the right side, the two springs 103 on the upper side.

When a collecting container needs to be placed below the third guide frame 32 and the fourth guide frame 33, the collecting container is located below the guide cylinder 105, and then after materials enter the third guide frame 32 and the fourth guide frame 33, the materials slide into the adjacent guide cylinder 105 through the third guide frame 32 and the fourth guide frame 33, the materials in the guide cylinder 105 slide into the collecting container through the guide cylinder 105, so that the materials can be guided, the materials slide into the collecting container more smoothly and accurately, when the guide cylinder 105 needs to be replaced, the guide cylinder 105 needing to be replaced is held, the adjacent two clamping frames 104 are pulled away from each other, the spring 103 is compressed, the adjacent two clamping frames 104 loosen the guide cylinder 105, the guide cylinder 105 is taken away, a new guide cylinder 105 is placed between the adjacent two clamping frames 104, the two clamping frames 104 are loosened, the spring 103 resets and drives the two clamping frames 104 to move towards each other, and the two clamping frames 104 move towards each other, so as to replace the guide cylinder 105, and then the guide cylinder 105 can be replaced.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. A raw material screening device for ceramic production comprises a base (1), a shell (2), a first guide frame (3), a second guide frame (31), a third guide frame (32), a fourth guide frame (33), a guide top (4), a lug (5), a first fixing frame (6) and a screen (7), wherein the top of the base (1) is connected with the shell (2), the lower part of the shell (2) is connected with the first guide frame (3) in a front-back symmetrical mode, the lower part of the shell (2) is connected with the second guide frame (31) in a left-right symmetrical mode, the two second guide frames (31) are both positioned at the upper sides of the two first guide frames (3), the upper part of the shell (2) is connected with the third guide frame (32) in a front-back symmetrical mode, the upper part of the shell (2) is connected with the fourth guide frame (33) in a left-right symmetrical mode, the two fourth guide frames (33) are both positioned at the upper sides of the two third guide frames (32), the inner bottom of the shell (2) is connected with the guide top (4), the bottom of the guide top (4), the shell (5) is connected with the first fixing frame (6) which is used for evenly screening, and a screening mechanism which is connected with the first fixing frame (7) at intervals and is characterized in that the three screening mechanism, the vibrating mechanism (8) for driving the three screens (7) to reciprocate up and down is arranged in the base (1), and the stabilizing mechanism (11) for fixing the base (1) on the ground is arranged on the base (1).

2. The raw material screening device for ceramic production as claimed in claim 1, wherein the vibration mechanism (8) comprises a second fixing frame (81), a motor (82) and a connecting block (83), the second fixing frame (81) is connected inside the base (1), the motor (82) is installed on the second fixing frame (81), the connecting block (83) used for pushing the bump (5) is connected to an output shaft of the motor (82), and the connecting block (83) is in contact with the bump (5).

3. The raw material screening device for the ceramic production as claimed in claim 2, wherein the stabilizing mechanism (11) comprises a fixing ring (111), rotating rods (112), supporting frames (113), anti-slip blocks (114) and limiting rods (115), the fixing ring (111) is connected to the outer side of the base (1), four rotating rods (112) are uniformly connected to the fixing ring (111) at intervals, the supporting frames (113) are rotatably connected to the four rotating rods (112) uniformly, four limiting rods (115) used for clamping the supporting frames (113) are inserted into the base (1) at uniform intervals, the four limiting rods (115) are respectively connected with the four supporting frames (113) in a clamping manner, and the anti-slip blocks (114) are connected to the bottoms of the four supporting frames (113).

4. The raw material screening device for the ceramic production as claimed in claim 3, further comprising a protection mechanism (9), wherein the protection mechanism (9) comprises a fixing rod (91), a flip cover (92), a connecting rod (93) and a plug (94), the fixing rod (91) is connected to the front upper side of the housing (2), the connecting rod (93) penetrates through the upper portion of the fixing rod (91), the flip cover (92) is rotatably connected to the connecting rod (93), the flip cover (92) covers the top of the housing (2), and the plug (94) is rotatably connected to the top of the flip cover (92).

5. The raw material screening device for ceramic production as claimed in claim 4, further comprising a guide mechanism (10), wherein the guide mechanism (10) comprises a slide rail block (101) and a slide rod (102), spring (103), clamping frame (104) and guide cylinder (105), the front and back both sides and the left and right sides of shell (2) all are connected with slide rail piece (101), two slide rail pieces (101) of front and back both sides are located the slide rail piece (101) downside of the left and right sides, four slide rail piece (101) inside all is connected with slide bar (102), all sliding connection has two clamping frame (104) on four slide bars (102), guide cylinder (105) that are used for leading to the granule material have all been placed between two adjacent clamping frame (104), two guide cylinder (105) of downside are located two third guide material frames (32) below respectively, two guide cylinder (105) of upside are located the below of two fourth guide material frames (33) respectively, all be connected with spring (103) between eight clamping frame (104) and adjacent slide rail piece (101), two spring (103) of preceding downside all overlap on slide bar (102) of preceding downside, two spring (103) of back downside all overlap on back slide bar (102), two spring (103) of left side all overlap on the upside of left side upside, two upper side upside (102) all overlap on the right side slide bar (102).

6. A raw material screening device for ceramic production as claimed in claim 5, characterized in that there is a friction force between the support frame (113) and the rotating rod (112).

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