CN211362826U - Clean type filler device - Google Patents

Abstract

The utility model relates to the field of compression molding equipment, in particular to a clean type packing device, which comprises a packing box and a turntable platform, wherein the turntable platform is provided with the packing box, the top of the packing box is provided with a packing box feeding channel, and a side wall of a rotating shaft extending into the packing box is provided with a stirring blade; the dust collection cover comprises a connecting plate, a second communicating pipe, a third communicating pipe, a fourth communicating pipe and a fifth communicating pipe; the connecting plate is a plate with a through hole, the bottom of a fourth communicating pipe is communicated with the top of the feed channel of the stuffing box, the top of the fourth communicating pipe is communicated with the bottom of a third communicating pipe, the top of the third communicating pipe is communicated with the bottom of a second communicating pipe, the top of the second communicating pipe is fixedly connected with the side face of the connecting plate, the top of a fifth communicating pipe is fixedly connected with the side face of the connecting plate, the fifth communicating pipe is positioned in the second communicating pipe, and the bottom of the fifth communicating pipe points to the feed channel of the hopper; an opening on the side wall of the second communicating pipe is communicated with one end of the dust removing pipe.

Description

Clean type filler device

Technical Field

The utility model relates to a press forming equipment field, concretely relates to clean type filler device's technical field of structure.

Background

The turntable type brick press is commonly used for pressing unfired adobes, and is widely applied in the press forming industry due to the advantage of continuous press forming operation. In the using process, when the turntable type brick press is used for filling materials, the materials in the stuffing box need to be continuously stirred by the stirring blades, and the materials in the stuffing box are filled into the die cavity on the turntable platform, so that the filling of the materials is completed; but because the continuous stirring of stirring leaf can lead to the material in the stuffing box to produce certain raise dust, and also has the problem of raise dust pollution when carrying out the feed supplement for the stuffing box.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a clean type filler device to reduce the raise dust pollution that the stuffing box produced at operation and feed supplement in-process.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the cleaning type packing device comprises a packing box and a turntable platform, wherein the turntable platform is provided with the packing box, the top of the packing box is provided with a packing box feeding channel, and the side wall of a rotating shaft extending into the packing box is provided with a stirring blade; the dust collection cover comprises a connecting plate, a second communicating pipe, a third communicating pipe, a fourth communicating pipe and a fifth communicating pipe; the connecting plate is a plate with a through hole, the bottom of a fourth communicating pipe is communicated with the top of the feed channel of the stuffing box, the top of the fourth communicating pipe is communicated with the bottom of a third communicating pipe, the top of the third communicating pipe is communicated with the bottom of a second communicating pipe, the top of the second communicating pipe is fixedly connected with the side face of the connecting plate, the top of a fifth communicating pipe is fixedly connected with the side face of the connecting plate, the fifth communicating pipe is positioned in the second communicating pipe, and the bottom of the fifth communicating pipe points to the feed channel of the stuffing box; an opening on the side wall of the second communicating pipe is communicated with one end of the dust removing pipe, and the other end of the dust removing pipe is positioned outside the dust collecting cover.

Further, the stirring blade is a downward-turning stirring blade.

Further, from top to bottom, the aperture of the third communication pipe, the aperture of the fourth communication pipe, and the aperture of the fifth communication pipe decrease in sequence.

Furthermore, a filter screen is arranged at the communication position of the second communicating pipe and the dust removing pipe, the top of the filter screen is fixedly connected with the side face of the connecting plate, and the side edge and the bottom of the filter screen are respectively fixedly connected with the inner wall of the second communicating pipe.

Further, the bottom of the fifth communication pipe is higher than the bottom of the fourth communication pipe.

Furthermore, a sixth communicating pipe is arranged on the dust collecting cover, one end of the sixth communicating pipe is communicated with the top of the fifth communicating pipe, and a valve is arranged on the sixth communicating pipe.

Furthermore, the stirring blade comprises an inclined blade and a scraper, one end of the inclined blade is fixedly connected with the rotating shaft, and the other end of the inclined blade is close to the inner side wall of the stuffing box; the upper part of the inclined paddle inclines along the rotating direction of the rotating shaft; the bottom of the inclined paddle blade is provided with a scraper blade, the top of the scraper blade is fixedly connected with the bottom of the inclined paddle blade, the bottom of the scraper blade inclines along the rotating direction of the rotating shaft, and the bottom of the scraper blade is close to the inner bottom wall of the stuffing box.

Compared with the prior art, the utility model discloses can reach one of following beneficial effect at least:

1. the dust collection cover is arranged on the stuffing box, so that the influence on the environment during the operation and material supplement of the stuffing box is reduced, and the cleanness during the operation of the stuffing box is improved.

2. The third communicating pipe, the fourth communicating pipe and the fifth communicating pipe which are of variable diameters are arranged, so that the dust collecting effect of the device can be improved.

3. The filter screen is arranged, so that the loss of ingredients during dust removal can be reduced.

4. The inclined blades and the scraper are arranged, so that the rapid and efficient filling operation of the die cavity can be realized.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of an embodiment of the stirring blade of the present invention.

Fig. 3 is a schematic view of another viewing angle of the present invention.

In the figure: 1-a stuffing box; 11-stuffing box feed channel; 12-a rotating shaft; 13-stirring blade; 131-oblique blades; 132-a squeegee; 2-dust collection cover; 20-a dust hood feed channel; 21-a connecting plate; 22-a second communication tube; 23-a third communicating tube; 24-a fourth communication pipe; 25-a fifth communicating tube; 3-a sixth communicating pipe; 31-a valve; 4-a dust removal pipe; 5, filtering the filter screen; 6-a turntable table; 61-mold cavity.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1:

as shown in fig. 1-3, the clean-type packing device comprises a packing box 1 and a turntable table 6, wherein the packing box 1 is arranged on the turntable table 6, a packing box feeding channel 11 is arranged at the top of the packing box 1, and a stirring blade 13 is arranged on the side wall of a rotating shaft 12 extending into the packing box 1; the dust collection device also comprises a dust collection cover 2 and a dust removal pipe 4, wherein the dust collection cover 2 comprises a connecting plate 21, a second communicating pipe 22, a third communicating pipe 23, a fourth communicating pipe 24 and a fifth communicating pipe 25; the connecting plate 21 is a plate with a through hole, the bottom of the fourth communicating pipe 24 is communicated with the top of the stuffing box feeding channel 11, the top of the fourth communicating pipe 24 is communicated with the bottom of the third communicating pipe 23, the top of the third communicating pipe 23 is communicated with the bottom of the second communicating pipe 22, the top of the second communicating pipe 22 is fixedly connected with the side face of the connecting plate 21, the top of the fifth communicating pipe 25 is fixedly connected with the side face of the connecting plate 21, the fifth communicating pipe 25 is positioned in the second communicating pipe 22, and the bottom of the fifth communicating pipe 25 points to the stuffing box feeding channel 11; the opening on the side wall of the second communicating pipe 22 is communicated with one end of the dust removing pipe 4, and the other end of the dust removing pipe 4 is positioned outside the dust collecting cover 2. The direction indicated by the straight line arrow in the figure is the feeding direction of the materials; the curve arrow indicates the direction of negative pressure when the dust remover works.

A plurality of die cavities 61 for compression molding are arranged on the turntable 6, materials are filled in the stuffing box 1, the top of the rotating shaft 12 is in transmission connection with a driving motor, and the driving motor drives the rotating shaft 12 and the stirring blades 13 to rotate; the bottom of stuffing box 1 is provided with a discharge hole for filling of die cavity 61, when die cavity 61 on turntable table 6 is rotated to the bottom of stuffing box 1, the material in stuffing box 1 is filled into die cavity 61 through the rotation of stirring blades 13, and the filling operation of die cavity 61 is completed.

One end of the dust removal pipe 4 extending out of the dust collection cover 2 is communicated with an air collection port of the dust remover and is used for extracting dust in the dust collection cover 2 for treatment; the connecting plate 21 can be a circular steel plate with a circular through hole, and a communication channel formed between the connecting plate 21 and the fifth communication pipe 25 is a dust hood feeding channel 20; the stuffing box feeding channel 11, the second communicating pipe 22, the third communicating pipe 23, the fourth communicating pipe 24 and the fifth communicating pipe 25 are all steel pipes, and the mutual connection mode is welding, so that the sealing effect of the device can be improved.

One operating state is: when stuffing box 1 packs for carousel platform 6, because stirring leaf 13 is continuously rotating, can cause the material in stuffing box 1 to produce certain raise dust, this moment, make the dust shaker with the 4 intercommunications of dust removal pipe with the low power operation, the raise dust that produces in stuffing box 1, through the suction of dust shaker, in stuffing box feedstock channel 11 and the dust collecting cover 2 of edge, by the dust shaker suction away processing, reduce the environmental impact of 1 operation in-process of stuffing box.

The other working state is as follows: when the material is supplemented into the stuffing box 1, the prepared material enters from the dust collection cover feeding channel 20 and enters into the stuffing box 1 through the stuffing box feeding channel 11, and then the material falls into the stuffing box 1 and the dust collection cover 2 and the stuffing box feeding channel 11, large dust raising can be generated; set up fifth communicating pipe 25, and dust removal pipe 3 keeps away from the discharge gate of fifth communicating pipe 25 for when the feeding, dust shaker during operation, dust removal pipe 3 can directly take powder and aggregate when the feeding out, and influence the ratio of aggregate and powder, promoted the practicality of this device.

Preferably, the working power of the dust remover is controlled, the dust leakage to the surrounding environment is reduced, and meanwhile, the influence of the dust remover on the material ratio is reduced as much as possible.

Preferably, considering that the device can cause influence on material proportioning in the use process and has larger influence on powder, when the proportioning of ingredients is set, the dust recovered by the dust remover in the normal working process of the device can be calculated and compared with the proportioning materials, when the proportioning of ingredients is configured, the proportioning of corresponding ingredients is properly increased, and the influence on the proportioning of ingredients when the device is used can be overcome; and the dust recovered by the dust remover can be recycled to prepare refractory bricks, so that the overall use effect of the device is improved.

Example 2:

as shown in fig. 1-3, the present embodiment optimizes the stuffing box structure for the above-described embodiments.

The stirring blade 13 in the cleaning type filling device is a downward-turning stirring blade. As shown in fig. 2, the stirring blade 13 is a downward-turning type and inclined stirring blade, and when the stirring blade 13 rotates, the stirring blade can stir the material and press the material at the bottom of the stuffing box 1 into the mold cavity 61, so as to improve the filling effect of the stuffing box 1.

Example 3:

as shown in fig. 1 to 3, the present embodiment optimizes the dust collection cover structure for the above embodiments.

In the clean-type filling device, the caliber of the third communicating pipe 23, the caliber of the fourth communicating pipe 24 and the caliber of the fifth communicating pipe 25 are sequentially reduced from top to bottom.

The diameter-variable fourth communicating pipe 24 is arranged, so that on one hand, materials can fall into the feed channel 11 of the stuffing box along the inner wall of the fourth communicating pipe 24 when being fed; on the other hand, can increase the raise dust space that forms in the dust cage 2 for the raise dust is when lifting along with the negative pressure, and partial dust particle falls on the inner wall in the dust cage 2 through the mutual collision between self gravity or the material, then falls back into in stuffing box 1 again along the inner wall of tilting, can reduce the loss of material.

The reducing third communicating pipe 23 is arranged, so that on one hand, materials can fall into the feed channel 11 of the stuffing box along the inner wall of the third communicating pipe 23 when being fed; on the other hand, can increase the raise dust space that forms in the dust cage 2 for the raise dust is when lifting along with the negative pressure, and partial dust particle falls on the inner wall in the dust cage 2 through the mutual collision between self gravity or the material, then falls back into in stuffing box 1 again along the inner wall of tilting, can reduce the loss of material.

The diameter-variable fifth communicating pipe 25 is arranged, so that on one hand, materials can fall into the feed channel 11 of the stuffing box along the outer wall of the fifth communicating pipe 25 when being fed, and in addition, the materials on the upper part of the fifth communicating pipe 25 can generate larger extrusion force on the materials on the lower part when being fed, so that the materials are in a relatively ceramic state at the discharge port of the fifth communicating pipe 25, and the leakage amount of raised dust generated in the dust collection cover 2 from the outside of the fifth communicating pipe 25 can be reduced; on the other hand, when the raised dust is lifted along with the negative pressure, part of dust particles fall on the inner wall of the fifth communicating pipe 25 through self gravity or mutual collision among materials, and then fall back into the dust collection cover 2 and the stuffing box 1 along the inclined inner wall, so that the loss of the materials can be reduced.

Example 4:

as shown in fig. 1 to 3, the present embodiment optimizes the dust collection cover structure for the above embodiments.

In the cleaning type filling device, the filter screen 5 is arranged at the communication position of the second communicating pipe 22 and the dust removing pipe 4, the top of the filter screen 5 is fixedly connected with the side surface of the connecting plate 21, and the side edge and the bottom of the filter screen 5 are respectively fixedly connected with the inner wall of the second communicating pipe 22. The filter screen 5 is made of an iron filter screen with the aperture slightly smaller than the average particle size of the powder, and the periphery of the filter screen 5 is welded and connected with the inner wall of the dust collection cover 2, so that the raised dust in the dust collection cover 2 is filtered by the filter screen 5 and then enters the dust removal pipe 3 for recovery treatment; can be detained the dust of great granule in dust cage 2, fall into in gland packing feed channel 11 again, reduce the loss of dust removal in-process batching.

Preferably, the filter screen 5, as shown in fig. 3, is arranged obliquely in the dust hood 2, so that dust particles trapped on the filter screen 5 fall into the stuffing box feed channel 11.

Example 5:

as shown in fig. 1 and 3, the dust collection cover structure is optimized for the above embodiment.

The bottom of the fifth communicating pipe 25 in the clean-type packing device is higher than the bottom of the fourth communicating pipe 24. Meanwhile, the bottom of the fifth communicating pipe 25 is lower than the lowest position of the communicating position of the dust removing pipe 3 and the second communicating pipe 22, so that the influence of the dust removing pipe 3 on materials in blanking is reduced, and generated raised dust and the materials can be separated in two areas, so that the working power of the dust remover can be properly increased, and the dust collecting effect of the device is improved.

Example 6:

as shown in fig. 1 and 3, the present embodiment optimizes the scrap recycling structure for the above-described embodiment.

In the cleaning type filling device, the dust hood 2 is provided with the sixth communicating pipe 3, one end of the sixth communicating pipe 3 is communicated with the top of the fifth communicating pipe 25, and the sixth communicating pipe 3 is provided with the valve 31. The valve 31 is a rotary valve or a flashboard type valve, the sixth communicating pipe 3 is a feeding channel made of a dust collecting bag, the valve 31 is arranged at the communication position of the sixth communicating pipe 3 and the fifth communicating pipe 25, when the stuffing box 1 needs to be supplemented, the top of the sixth communicating pipe 3 is communicated with a discharge hole of a stuffing hopper, materials enter the stuffing box 1 through the sixth communicating pipe 3 and the dust collecting cover 2, and the operation cleanness during the stuffing is improved.

Example 7:

as shown in fig. 1 and 2, the present embodiment optimizes the stirring vane structure for the above embodiment.

The stirring blade 13 in the cleaning type filling device comprises an inclined blade 131 and a scraper 132, one end of the inclined blade 131 is fixedly connected with the rotating shaft 12, and the other end of the inclined blade is close to the inner side wall of the filling box 1; the upper portion of the tilting blade 131 is tilted in the rotation direction of the rotation shaft 12; the bottom of the inclined paddle 131 is provided with a scraper 132, the top of the scraper 132 is fixedly connected with the bottom of the inclined paddle 131, the bottom of the scraper 132 is inclined along the rotation direction of the rotating shaft 12, and the bottom of the scraper 132 is close to the inner bottom wall of the stuffing box 1.

The during operation, place the packing feed supplement in hopper 1, the driving motor of hopper is related with the slew velocity of carousel formula brick press, make the carousel once rotate every time, an empty die cavity 81 just in time is located the below of the discharge gate of hopper 1, and make at least one stirring leaf 13 through the top of discharge gate, fill die cavity 61 through oblique paddle leaf 131 and scraper blade 132 with the material in the hopper 1 in, and can be through the rotation of pivot 12, make oblique paddle leaf 131 and scraper blade 132 carry out preliminary compaction to the material in the die cavity 61, with the packing of guaranteeing the material volume, high efficiency is swift, thereby promote the suppression effect.

The inclined blades 131 and the scraper 132 are made of stainless steel, and the service life of the scraper 132 is prolonged.

Or the scraper 132 is made of wear-resistant hard rubber and is fixed at the bottom of the inclined blade 131 through nails or strong glue, so that the friction damage of the scraper 132 to the inner bottom wall of the filling hopper 1 in the operation process is reduced, the rubber is convenient to replace after being worn and is easier to recycle.

Preferably, the scraper 132 is a concave plate, and the concave surface of the scraper 132 is arranged along the rotation direction of the rotating shaft 12. The concave plate can improve the material receiving effect of the stirring blades 13 in the rotating process so as to improve the filling efficiency of the die cavity 61.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (7)

1. The cleaning type packing device comprises a packing box (1) and a turntable platform (6), wherein the packing box (1) is arranged on the turntable platform (6), a packing box feeding channel (11) is arranged at the top of the packing box (1), and stirring blades (13) are arranged on the side wall of a rotating shaft (12) extending into the packing box (1); the method is characterized in that: the dust collection device is characterized by further comprising a dust collection cover (2) and a dust removal pipe (4), wherein the dust collection cover (2) comprises a connecting plate (21), a second communicating pipe (22), a third communicating pipe (23), a fourth communicating pipe (24) and a fifth communicating pipe (25); the connecting plate (21) is a plate with a through hole, the bottom of a fourth communicating pipe (24) is communicated with the top of the feed channel (11) of the stuffing box, the top of the fourth communicating pipe (24) is communicated with the bottom of a third communicating pipe (23), the top of the third communicating pipe (23) is communicated with the bottom of a second communicating pipe (22), the top of the second communicating pipe (22) is fixedly connected with the side face of the connecting plate (21), the top of a fifth communicating pipe (25) is fixedly connected with the side face of the connecting plate (21), the fifth communicating pipe (25) is positioned in the second communicating pipe (22), and the bottom of the fifth communicating pipe (25) points to the feed channel (11) of the stuffing box; an opening on the side wall of the second communicating pipe (22) is communicated with one end of the dust removing pipe (4), and the other end of the dust removing pipe (4) is positioned outside the dust collecting cover (2).

2. The clean-type stuffing apparatus according to claim 1, wherein: the stirring blade (13) is a downward-turning stirring blade.

3. The clean-type stuffing apparatus according to claim 1, wherein: from top to bottom, the caliber of the third communicating pipe (23), the caliber of the fourth communicating pipe (24) and the caliber of the fifth communicating pipe (25) are reduced in sequence.

4. The clean-type stuffing apparatus according to claim 1, wherein: the second communicating pipe (22) is communicated with the dust removing pipe (4) to form a filter screen (5), the top of the filter screen (5) is fixedly connected with the side face of the connecting plate (21), and the side edge and the bottom of the filter screen (5) are fixedly connected with the inner wall of the second communicating pipe (22) respectively.

5. The clean-type stuffing apparatus according to claim 1, wherein: the bottom of the fifth communicating pipe (25) is higher than that of the fourth communicating pipe (24).

6. The clean-type stuffing apparatus according to claim 1, wherein: the dust collection cover (2) is provided with a sixth communicating pipe (3), one end of the sixth communicating pipe (3) is communicated with the top of the fifth communicating pipe (25), and the sixth communicating pipe (3) is provided with a valve (31).

7. The clean-type stuffing apparatus according to claim 1, wherein: the stirring blade (13) comprises an inclined blade (131) and a scraper (132), one end of the inclined blade (131) is fixedly connected with the rotating shaft (12), and the other end of the inclined blade is close to the inner side wall of the stuffing box (1); the upper part of the inclined blade (131) inclines along the rotating direction of the rotating shaft (12); the bottom of the inclined paddle (131) is provided with a scraper (132), the top of the scraper (132) is fixedly connected with the bottom of the inclined paddle (131), the bottom of the scraper (132) inclines along the rotating direction of the rotating shaft (12), and the bottom of the scraper (132) is close to the inner bottom wall of the stuffing box (1).

Images