CN217528635U - DMC is with reducing mechanism who handles useless silica gel - Google Patents

Abstract

The utility model discloses a DMC is with reducing mechanism's of processing waste silica gel structure belongs to waste silica gel processing technology field. This DMC is with reducing mechanism who handles waste silica gel includes base and takes out dirt subassembly. The base is including handling case, base, crushing roller and screening box, it installs the feeder hopper to handle roof portion intercommunication, it is provided with the water conservancy diversion piece to smash the roller bottom, screening box externally mounted has vibrating motor, take out the dirt subassembly including taking out dirt pipe and support frame, take out dirt pipe surface intercommunication and install the honeycomb duct, operating personnel can extract the dust that produces among the crushing process through the support frame of feeder hopper top installation with take out dirt pipe, avoid the dust to pile up in a large number and handling incasement portion and crushing roller surface, reduce operating personnel and need carry out clear frequency to the device, reduce operating personnel work load, improve the reducing mechanism crushing effect simultaneously, and then improve useless silica gel power crushing unit life.

Description

DMC is with reducing mechanism who handles useless silica gel

Technical Field

The utility model belongs to the technical field of useless silica gel processing, more specifically relates to a DMC is with reducing mechanism's of processing useless silica gel structure.

Background

Its main raw materials of DMC is by chopped glass fiber, unsaturated polyester, the material group form prepreg that filler and various additives formed through the intensive mixing, DMC material fire resistance and tracking resistance are good, have very high dielectric strength, corrosion resistance and stain resistance, it is excellent to have mechanical properties simultaneously, the shrinkage is low and the stable advantage of color and luster, at present, the reducing mechanism of traditional useless silica gel, when shearing crushing to useless silica gel, the device feeding region lacks the collection structure to smashing the dust, lead to smashing the easy a large amount of accumulations in operating area of dust, lead to operating personnel to need regularly clean the device, increase operating personnel work load, reduce the reducing mechanism crushing effect simultaneously, influence useless silica gel reducing mechanism life.

SUMMERY OF THE UTILITY MODEL

For solving the defect that exists in the above-mentioned technique, the utility model provides a DMC is with reducing mechanism who handles useless silica gel's structure, its essence aims at improving the above-mentioned problem that appears.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the embodiment of the utility model provides a DMC is with reducing mechanism who handles useless silica gel, include the base and take out the dirt subassembly.

The base is including handling case, base, crushing roller and screening box, it installs the feeder hopper to handle roof portion intercommunication, it is provided with and gets the silo to handle case one side, the pedestal mounting in handle the bottom of the case portion, crushing roller install in handle incasement portion, the feeder hopper with crushing roller corresponds the setting, screening box set up in crushing roller bottom, crushing roller bottom is provided with the water conservancy diversion piece, the water conservancy diversion piece with screening box top corresponds the setting, screening box externally mounted has vibrating motor, take out the dirt subassembly including taking out dirt pipe and support frame, the support frame is installed the feeder hopper top, take out the dirt union coupling and install the support frame both sides, take out dirt pipe surface intercommunication and install the honeycomb duct, the honeycomb duct link up support frame one side, the honeycomb duct with the feeder hopper top corresponds the setting.

In a specific embodiment, a flow guide plate is arranged on the inner wall of the treatment box, and the bottom of the flow guide plate is arranged corresponding to the crushing roller.

In the above-mentioned implementation process, handle incasement wall and install the guide plate, the guide plate bottom with crushing roller corresponds the setting, and through the guide plate that sets up, the material that conveniently gets into the feeder hopper carries out the water conservancy diversion, and the material of being convenient for smoothly contacts with crushing roller.

In a specific embodiment, a driving motor is installed on one side of the treatment box, and the output end of the driving motor is fixed with the crushing roller.

In the implementation process, a driving motor is installed on one side of the treatment box, the output end of the driving motor is fixed to the crushing roller, and the driving motor is arranged to conveniently drive the crushing roller to crush.

In a specific embodiment, the bottom of the treatment box is provided with a discharge hopper in a communicating mode.

In the implementation process, the bottom of the treatment box is communicated with the discharge hopper, and the discharge hopper is arranged, so that the discharge and flow guide of the screened materials are facilitated.

In a specific implementation scheme, a storage box is installed at the top of the base, the discharging hopper is arranged corresponding to the storage box, and a cover plate is installed on one side of the material taking groove.

In the implementation process, the storage box is installed at the top of the base, the blanking hopper corresponds to the storage box, the cover plate is installed on one side of the material taking groove, and the materials processed are conveniently collected and stored through the set storage box.

In a specific embodiment, a sliding rod is installed at the bottom of the flow guide block, a limiting block is installed at one end of the sliding rod, and a spring is sleeved on the surface of the sliding rod.

In the above-mentioned realization process, the slide bar is installed to water conservancy diversion piece bottom, the stopper is installed to slide bar one end, the spring has been cup jointed on the slide bar surface, and through the stopper that sets up, the convenience is fixed a position the spring, avoids slider and spring slippage from the slide bar.

In a specific implementation scheme, one end of the spring is fixed to one side of the limiting block, and a sliding block is sleeved on the surface of the sliding rod and is in an L shape.

In the implementation process, one end of the spring is fixed to one side of the limiting block, the sliding block is sleeved on the surface of the sliding rod and is arranged in an L shape, and the screening box is convenient to carry out vibratory screening through the arranged sliding block.

In a specific embodiment, the surface of the sliding block is provided with a concave groove, and a fastening bolt is arranged outside the concave groove.

In the above-mentioned realization process, the slider surface is provided with concave groove, concave groove outside is provided with fastening bolt, and through the fastening bolt who sets up, the convenience is installed protruding type piece inside concave groove, and convenient to detach sieves the box simultaneously, will be detained the material and carry out the recutting operation.

In a specific embodiment, protruding blocks are installed at two ends of the screening box, the protruding blocks are inserted into the concave grooves, and the fastening bolts rotate to tightly push the protruding blocks.

In the implementation process, the screening box is provided with the convex blocks at two ends, the convex blocks are inserted into the concave grooves, the fastening bolts rotate to push the convex blocks tightly, and the screening box is convenient to install and detach through the arranged convex blocks.

In a specific embodiment, the dust exhaust pipes are arranged into a plurality of groups, a guide pipe is arranged between every two adjacent dust exhaust pipes, a fan is arranged on one side of the treatment box, one end of the fan is communicated with a filter pipe, and one end of the filter pipe is communicated with the dust exhaust pipes.

In the above-mentioned realization process, take out the dirt pipe and set up to a plurality of groups, it is adjacent take out and install the pipe between the dirt pipe, handle case one side and install the fan, fan one end intercommunication has the filter tube, filter tube one end with take out dirt pipe intercommunication, through the fan and the filter tube that set up, the convenience is filtered the extraction to the dust air.

This DMC is with reducing mechanism's of processing useless silica gel beneficial effect: the utility model discloses a rubber powder grinding device, including processing case top, crushing roller, screening subassembly, support frame, guide pipe, guide hopper and crushing roller, processing case top intercommunication is installed the feeder hopper, processing case one side is provided with the silo of getting, the base install in processing bottom of the case portion, crushing roller install in processing incasement portion, the feeder hopper with crushing roller corresponds the setting, the screening box with crushing roller, the screening box sets up in crushing roller bottom, crushing roller bottom is provided with the guide piece, the guide piece with screening box top corresponds the setting, screening box externally mounted has vibrating motor, the dust extraction subassembly is including taking out dirt pipe and support frame, the support frame is installed the feeder hopper top, it installs to take out the dirt pipe the support frame both sides, it installs the honeycomb duct to take out dirt pipe surface intercommunication, the honeycomb duct link up support frame one side, the honeycomb duct with the feeder hopper top corresponds the setting, when needs to cut crushing to waste silica gel, puts into processing incasement portion through the feeder hopper after the preliminary treatment to carry out shredding to waste silica gel through the crushing roller that sets up, when smashing, operating personnel can extract the dust that produces in crushing process through the feeder hopper and take out the dust extraction, avoid a large amount of dust to the inside processing case and crushing roller surface, reduce the operating personnel and carry out the cleaning device, and then reduce the operating personnel's frequency, smash the rubber powder crushing device, and improve the service life-time.

Drawings

FIG. 1 is a schematic view showing the construction of a crushing apparatus for waste silica gel for DMC treatment according to an embodiment of the present invention,

figure 2 is a schematic view of a baffle portion configuration provided in accordance with an embodiment of the present application,

figure 3 is a schematic structural view of a base portion provided in an embodiment of the present application,

fig. 4 is a schematic structural diagram of a portion of a flow guide block provided in an embodiment of the present application.

In the figure:

the device comprises a base 100, a treatment box 110, a feed hopper 111, a material taking groove 113, a guide plate 114, a guide block 115, a sliding rod 1151, a spring 1152, a limit block 1153, a sliding block 1154, a concave groove 1155, a fastening bolt 1156, a discharging hopper 116, a cover plate 120, a base 130, a storage box 131, a crushing roller 140, a driving motor 141, a screening box 150, a convex block 151, a vibrating motor 152, a dust extraction component 200, a dust extraction pipe 210, a guide pipe 211, a filter pipe 212, a fan 213, a guide pipe 214 and a support frame 220.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following 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.

In the examples, the means used are conventional in the art unless otherwise specified.

Referring to fig. 1-4, the present application provides a crushing apparatus for DMC processing waste silica gel, which comprises a base 100 and a dust extraction assembly 200.

Referring to fig. 1-4, the base 100 includes a processing box 110, a base 130, a crushing roller 140 and a sieving box 150, the top of the processing box 110 is connected to a feed hopper 111, a material taking groove 113 is disposed on one side of the processing box 110, the base 130 is mounted at the bottom of the processing box 110, the crushing roller 140 is mounted inside the processing box 110, the feed hopper 111 is disposed corresponding to the crushing roller 140, the sieving box 150 is disposed at the bottom of the crushing roller 140, a flow guide block 115 is disposed at the bottom of the crushing roller 140, the flow guide block 115 is disposed corresponding to the top of the sieving box 150, and a vibration motor 152 is mounted outside the sieving box 150.

In some specific embodiments, a flow guide plate 114 is installed on the inner wall of the treatment box 110, the bottom of the flow guide plate 114 is arranged corresponding to the crushing roller 140, and the flow guide plate 114 is arranged to guide the material entering the feed hopper 111 conveniently, so that the material can be in contact with the crushing roller 140 smoothly.

In some specific embodiments, a driving motor 141 is installed at one side of the treatment box 110, the output end of the driving motor 141 is fixed with the crushing roller 140, and the crushing roller 140 is conveniently driven to perform crushing processing by the driving motor 141.

In some specific embodiments, the bottom of the processing box 110 is provided with a discharging hopper 116 in a communicating manner, and the discharging flow guide of the screened materials is facilitated through the arranged discharging hopper 116.

In some specific embodiments, a storage box 131 is installed on the top of the base 130, the discharge hopper 116 is arranged corresponding to the storage box 131, the cover plate 120 is installed on one side of the material taking groove 113, and the processed materials are conveniently collected and stored through the arranged storage box 131.

In some specific implementation schemes, a sliding rod 1151 is installed at the bottom of the flow guide block 115, a limiting block 1153 is installed at one end of the sliding rod 1151, a spring 1152 is sleeved on the surface of the sliding rod 1151, the spring 1152 is conveniently positioned through the arranged limiting block 1153, and the sliding block 1154 and the spring 1152 are prevented from slipping off from the sliding rod 1151.

In some specific embodiments, one end of the spring 1152 is fixed to one side of the limit block 1153, the sliding block 1154 is sleeved on the surface of the sliding rod 1151, the sliding block 1154 is set to be L-shaped, and the screening box 150 can be conveniently subjected to vibratory screening through the set sliding block 1154.

In some specific embodiments, the surface of the sliding block 1154 is provided with a concave groove 1155, a fastening bolt 1156 is arranged outside the concave groove 1155, and the convex block 151 is conveniently installed inside the concave groove 1155 through the arranged fastening bolt 1156, and meanwhile, the screening box 150 is convenient to disassemble, so that the retained material is subjected to repeated cutting operation.

In some specific embodiments, the screening box 150 has convex blocks 151 mounted at both ends, the convex blocks 151 are inserted into the concave grooves 1155, the fastening bolts 1156 rotate to tightly push the convex blocks 151, and the installation and the disassembly of the screening box 150 are facilitated by the arrangement of the convex blocks 151.

Referring to fig. 1-4, the dust exhaust assembly 200 includes a dust exhaust pipe 210 and a support frame 220, the support frame 220 is installed on the top of the feeding hopper 111, the dust exhaust pipe 210 is installed on both sides of the support frame 220, a guide pipe 211 is installed on the surface of the dust exhaust pipe 210 in a communicating manner, the guide pipe 211 penetrates one side of the support frame 220, and the guide pipe 211 is disposed corresponding to the top of the feeding hopper 111.

In some specific embodiments, the dust exhaust pipes 210 are arranged in a plurality of groups, a guide pipe 214 is installed between adjacent dust exhaust pipes 210, a fan 213 is installed at one side of the processing box 110, one end of the fan 213 is communicated with a filter pipe 212, one end of the filter pipe 212 is communicated with the dust exhaust pipe 210, and the dust air is conveniently extracted and filtered through the arranged fan 213 and the filter pipe 212.

This DMC is with reducing mechanism's of processing waste silica gel theory of operation: during the use, when needs are cuted waste silica gel and are smashed, waste material after the preliminary treatment is put into through feeder hopper 111 and is handled incasement 110 inside, and crushing roller 140 through the setting carries out shredding to waste silica gel, when smashing, operating personnel can pass through the support frame 220 of feeder hopper 111 top installation and take out dirt pipe 210, extract the dust that produces among the crushing process, avoid the dust to pile up in a large number and handle 110 insidely and crushing roller 140 surfaces of case, it needs to carry out clear frequency to the device to reduce operating personnel, reduce operating personnel work load, improve reducing mechanism crushing effect simultaneously, and then improve waste silica gel crushing apparatus life.

It should be noted that the specific model specifications of the spring 1152, the pulverizing roller 140, the driving motor 141, the vibration motor 152, the filter pipe 212, and the fan 213 need to be determined by type selection according to the actual specification of the device, and the specific type selection calculation method adopts the prior art in the field, so detailed description is omitted.

The power supply of the driving motor 141, the vibration motor 152 and the fan 213 and the principle thereof will be apparent to those skilled in the art and will not be described in detail herein.

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. A crushing device for DMC waste silica gel treatment is characterized by comprising

The grinding device comprises a base (100), the base (100) comprises a processing box (110), a base (130), a grinding roller (140) and a screening box (150), the top of the processing box (110) is communicated with and provided with a feed hopper (111), one side of the processing box (110) is provided with a material taking groove (113), the base (130) is installed at the bottom of the processing box (110), the grinding roller (140) is installed inside the processing box (110), the feed hopper (111) and the grinding roller (140) are correspondingly arranged, the screening box (150) is arranged at the bottom of the grinding roller (140), the bottom of the grinding roller (140) is provided with a flow guide block (115), the flow guide block (115) is correspondingly arranged at the top of the screening box (150), and the outside of the screening box (150) is provided with a vibration motor (152);

take out dirt subassembly (200), take out dirt subassembly (200) is including taking out dirt pipe (210) and support frame (220), support frame (220) are installed feeder hopper (111) top, take out dirt pipe (210) and install support frame (220) both sides, take out dirt pipe (210) surface intercommunication and install honeycomb duct (211), honeycomb duct (211) link up support frame (220) one side, honeycomb duct (211) with feeder hopper (111) top corresponds the setting.

2. The crushing device for DMC waste silica gel treatment according to claim 1, wherein a deflector (114) is installed on the inner wall of the treatment tank (110), and the bottom of the deflector (114) is arranged corresponding to the crushing roller (140).

3. The crushing device for DMC waste silica gel treatment according to claim 2, characterized in that a driving motor (141) is installed on one side of the treatment box (110), and the output end of the driving motor (141) is fixed to the crushing roller (140).

4. The crushing device for DMC waste silica gel processing according to claim 3, characterized in that the bottom of the processing box (110) is connected to a discharge hopper (116).

5. The crushing device for DMC waste silica gel treatment according to claim 4, characterized in that, a storage box (131) is installed on top of the base (130), the discharge hopper (116) is disposed corresponding to the storage box (131), and a cover plate (120) is installed on one side of the material taking groove (113).

6. The crushing device for DMC waste silica gel treatment according to claim 5, wherein the bottom of the deflector block (115) is installed with a slide bar (1151), one end of the slide bar (1151) is installed with a limit block (1153), and the surface of the slide bar (1151) is sleeved with a spring (1152).

7. The crushing device for DMC waste silica gel treatment according to claim 6, wherein one end of the spring (1152) is fixed to one side of the limit block (1153), a slide block (1154) is sleeved on the surface of the slide bar (1151), and the slide block (1154) is L-shaped.

8. The crushing device for DMC waste silica gel processing according to claim 7, characterized in that, the surface of the slide block (1154) is provided with a concave groove (1155), and the outside of the concave groove (1155) is provided with a fastening bolt (1156).

9. The pulverizing apparatus for waste silica gel for DMC treatment according to claim 8, wherein said sieving box (150) is provided with male blocks (151) at both ends, said male blocks (151) are inserted into said concave groove (1155), and said fastening bolt (1156) is rotated to tighten said male blocks (151).

10. The crushing device for DMC waste silica gel treatment according to claim 9, wherein the dust extraction pipes (210) are arranged in several groups, a conduit (214) is installed between adjacent dust extraction pipes (210), a fan (213) is installed on one side of the treatment box (110), one end of the fan (213) is communicated with a filter pipe (212), and one end of the filter pipe (212) is communicated with the dust extraction pipe (210).

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