CN214293873U - Banburying granulation cools off collection device fast - Google Patents

Abstract

The utility model belongs to the technical field of tire preparation, a banburying granulation cools off collection device fast is related to. The device comprises a cooler, a cooling system and a dust removal system which are connected in sequence, wherein the cooling system comprises a sleeve body and a stirring part, the top and the bottom of the sleeve body are both provided with openings, the top of the sleeve body is provided with a feed inlet connected with the dust removal system, and the bottom of the sleeve body is provided with a particle outlet; and a circulating water outlet pipe and a circulating water inlet pipe of the cooler are communicated with the stirring part. The device has realized the dust removal and the quick cooling of granulation and has collected, improves the production efficiency of tire trade, reduces the content of talcum powder in the air, improves operational environment quality, but greatly reduced dust is to the harm of human body.

Description

Banburying granulation cools off collection device fast

Technical Field

The utility model belongs to the technical field of tire preparation, a banburying granulation cools off collection device fast is related to.

Background

The current 90E banburying granulation collection device adopts vibrating air cooling to collect, and the cooling process has a large amount of talcum powder dust to get into the air, arouses air pollution. The harm of air pollution to human body is manifold, mainly manifested by respiratory diseases and physiological dysfunction, and the disease caused by stimulation of mucous membrane tissues such as eyes, noses and the like, so the air pollution is a chronic factor causing senile asthma. At present, the public pays great attention to the environmental problems, and relevant laws strictly control the environmental problems, so that the problem of reducing the emission of the talcum powder is the problem which needs to be solved urgently at present.

In addition, the vibration type air cooling collection mode adopts air cooling, the cooling speed of air in summer is low, the production efficiency is low, and along with the improvement of the automation degree, the requirement on granulation is increasingly greater. Therefore, there is a trend of increasing the granulation productivity.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a banburying granulation cools off collection device fast, the device comprises cooling system and dust pelletizing system, has realized that the dust removal and the quick cooling of granulation are collected, improves the production efficiency of tire trade, reduces the content of talcum powder in the air, improves operational environment quality, but greatly reduced dust is to the harm of human body.

In order to achieve the purpose, the utility model is realized by adopting the following technical scheme:

the utility model provides a banburying granulation rapid cooling and collecting device, which comprises a cooler, a cooling system and a dust removal system which are connected in sequence, wherein the cooling system comprises a sleeve body and a stirring part, the top part of the sleeve body is provided with a feed inlet connected with the dust removal system, and the bottom part of the sleeve body is provided with a particle outlet; a circulating water outlet pipe and a circulating water inlet pipe of the cooler are communicated with the stirring part;

the stirring part comprises a power device and a rotating device which are respectively arranged above and in the sleeve body; the power device comprises a motor, a driving shaft and a driving wheel which are driven by the motor, and the rotating device comprises a driven wheel, a driven shaft and a helical blade arranged on the side surface of the driven shaft; the upper part of the driven shaft is arranged parallel to the driving shaft, and the driving wheel drives the driven wheel to rotate through the synchronous belt; the lower part of the driven shaft is arranged at the bottom of the sleeve body through a bearing; a cavity is formed between the driven shaft and the spiral blade, and the top and the bottom of the cavity of the driven shaft are communicated with a circulating cooling water path of a cooling machine to realize cooling water circulation;

the dust removal system comprises a dust removal chamber, a blowing part and an induced air part, wherein the side wall of the dust removal chamber is provided with an air inlet and an air outlet which are communicated with a feed inlet, the bottom of the dust removal chamber is provided with an ash discharge port, and a plurality of filter bags are arranged in the dust removal chamber; the opening of each filter bag is communicated with the blowing part and the air inducing part, a switch valve is arranged on the communication pipeline, and the air inducing part is arranged at the air outlet.

Furthermore, the motor is fixed on the upper support frame through a motor locking screw, an output shaft of the motor is connected with a driving shaft through a coupler, the driving shaft is arranged on the upper support frame through a first angular contact ball bearing, and the driving wheel is fixed on the driving shaft through a first flat key; the upper end of the driven shaft is arranged on the upper supporting frame through a second angular contact ball bearing, the lower end of the driven shaft is arranged on the lower supporting frame through a third angular contact ball bearing, and the lower supporting frame is fixed at the bottom of the sleeve body; the driven wheel is fixed on the driven shaft through a second flat key.

Furthermore, a first sleeve is sleeved on the driving shaft and arranged above the driving wheel; the driven shaft is sleeved with a second sleeve, and the second sleeve is arranged above the driven wheel.

Furthermore, the blowing part comprises a pulse valve and a blowing pipe which are connected with the air bag, the air inducing part comprises an induced draft fan, and the induced draft fan and the blowing pipe are communicated with the opening of the filter bag.

Furthermore, the air inlet is arranged at the upper part of the dust removal chamber, a baffle is arranged in the dust removal chamber in a hanging manner, and the baffle is arranged right opposite to the air inlet.

Further, a feeding plate is obliquely arranged inside the sleeve body, and the bottom end of the feeding plate is arranged at a particle outlet of the sleeve body.

Further, the helical blade is made of stainless steel.

Adopt above-mentioned technical scheme, the beneficial effects of the utility model are that:

the utility model provides a banburying granulation cools off collection device fast utilizes cooling system and dust pelletizing system's cooperation, has realized the dust removal and the quick cooling of banburying granulation and has collected, has reduced the emission of talcum powder in the air, improves operational environment quality, reduces air pollution to human harm, improves production efficiency scheduling problem. According to the dust removal system, the filter bag is used for removing the talc powder introduced in granulation, and the talc powder can be recycled in the dust removal process. The cooling system of the scheme finishes the rapid cooling of granulation through rotary cooling, and improves the production efficiency.

The utility model discloses a dust pelletizing system and cooling system, through PLC control, can effectively reduce the emission of talcum powder, improve production efficiency, have higher practical value and economic value.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic view of the overall structure of a banburying granulation rapid cooling and collecting device of the present invention;

FIG. 2 is an assembly view of the dust removal system of the present invention;

FIG. 3 is an assembly view of the cooling system of the present invention;

the respective symbols in the figure are as follows:

1: a cooling machine;

2: cooling system, 201: a motor, 202: motor locking screw, 203: coupling, 204: upper support frame, 205: drive shaft, 206: seal, 207: first angular contact ball bearing, 208: first bearing ring, 209: first sleeve, 2010: driving wheel, 2011: first flat key, 2012: synchronous belt, 2013: third bearing retainer ring, 2014: third angle contact ball bearing, 2015: lower support, 2016: flange, 2017: flange locking screw, 2018: the cover body, 2019: driven wheel, 2020: second flat key, 2021: second sleeve, 2022: second bearing retainer, 2023: second angular contact ball bearing, 2024: locking screw, 2025: a driven shaft;

3: dust removal system, 301: an air inlet and 302: a filter bag, 303: pulse valve, 304: blowing pipe, 305: induced draft fan, 306: ash discharge port, 307: and a baffle plate.

Detailed Description

In the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

The present invention will be further explained with reference to fig. 1 to 3.

The utility model discloses a banburying granulation rapid cooling and collecting device, which comprises a cooling machine 1, a cooling system 2 and a dust removal system 3 which are connected in sequence, wherein the cooling machine 1 provides circulating cooling water for the cooling system 2; the cooling system 2 realizes rapid cooling of granulation; the dedusting system 3 realizes the adsorption of the talcum powder in granulation, and realizes the recycling of the talcum powder through the dust cleaning process.

The cooling system 2 comprises a sleeve body 2018 and a stirring part, wherein the top and the bottom of the sleeve body 2018 are both provided with openings, the top of the sleeve body 2018 is provided with a feed inlet connected with the dust removal system 3, and the bottom of the sleeve body 2018 is provided with a particle outlet. And a circulating water outlet pipe and a circulating water inlet pipe of the cooler 1 are communicated with the stirring part.

The stirring part comprises a power device and a rotating device which are respectively arranged above and inside the sleeve body 2018. The power device comprises a motor 201, a driving shaft 205 driven by the motor and a driving wheel 2010. The rotating device comprises a driven wheel 2019, a driven shaft 2025 and a stainless steel helical blade arranged on the side surface of the driven shaft 2025. The upper part of the driven shaft 2025 is arranged in parallel with the driving shaft 205, and the driving wheel 2010 drives the driven wheel 2019 to rotate through the synchronous belt 2012, so that the transmission of the rotary motion is realized.

The motor 201 is fixed on the upper support frame 204 through a motor locking screw 202, and the output shaft of the motor 201 is connected with the driving shaft 205 through a coupler 203. The driving shaft 205 is arranged on the upper supporting frame 204 through a first angular contact ball bearing 207, the driving shaft 205 and the first angular contact ball bearing 207 are in transition through a sealing piece 206, the first angular contact ball bearing 207 can bear radial force and small axial force when the driving shaft 205 rotates, and the first angular contact ball bearing 207 is fixed through the upper supporting frame 204 and a first bearing retainer ring 208. The driver 2010 is secured to the drive shaft 205 by a first flat key 2011. The driving shaft 205 is sleeved with a first sleeve 209, and the first sleeve 209 is arranged above the driving wheel 2010 to prevent the driving wheel 2010 from moving.

The upper end of the driven shaft 2025 is disposed on the upper support bracket 204 through a second angular contact ball bearing 2023. The second angular ball bearing 2023 is fixed at the upper side to the upper support frame 204 by a locking screw 2024 and at the lower side to the second bearing retainer 2022. The driven wheel 2019 is fixed to the driven shaft 2025 by a second flat key 2020. The driven shaft 2025 is sleeved with a second sleeve 2021, and the second sleeve 2021 is arranged above the driven wheel 2019 to prevent the driven wheel 2019 from moving.

The lower end of the driven shaft 2025 is arranged on a lower support bracket 2015 through a third angular contact ball bearing 2014, and the lower support bracket 2015 is fixed at the bottom of the sleeve body 2018. The third corner contacts ball bearing 2014 upside and passes through third end ring 2013 fixed, and the downside passes through flange 2016 fixed, and flange 2016 passes through flange lock screw 2017 to be fixed on lower carriage 2015.

The driven shaft 2025 and the interior of the helical blade are provided with a connected cavity, and the top and the bottom of the cavity of the driven shaft 2025 are communicated with a circulating cooling water path of the cooling machine 1, so that cooling water circulation is realized.

The inside slope of the cover body 2018 is provided with the delivery sheet, and the delivery sheet bottom sets up in the granule exit of the cover body 2018.

The dust removing system 3 comprises a dust removing chamber, a blowing part and an induced draft part. An air inlet 301 and an air outlet which are communicated with the feed inlet are formed in the side wall of the dust removing chamber, and an ash discharging port 306 is formed in the bottom of the dust removing chamber for recovering the talcum powder; a plurality of filter bags 302 are arranged inside. The opening of each filter bag 302 is communicated with the blowing part and the induced air part, and a switch valve is arranged on the communication pipeline. The blowing part comprises a pulse valve 303 and a blowing pipe 304 which are connected with the air bag, the induced air part comprises an induced draft fan 305, and the induced draft fan 305 and the blowing pipe 304 are communicated with the opening of the filter bag 302. The air inlet 301 is arranged at the upper part of the dust removing chamber, the baffle 307 is arranged in the dust removing chamber in a hanging manner, the baffle 307 is arranged right opposite to the air inlet 301, and a closed space is provided in the dust removing process. The induced draft fan 305 is arranged at the air outlet to provide power for dust flow.

The using process comprises three parts:

(1) and (3) cooling: the particles fall into the helical blade through the feeding hole, the driving shaft is driven to rotate through the motor, the transmission of rotary motion is realized, the transmission of motion is realized through the driving wheel, the driven wheel and the synchronous belt, and the rotary cooling process is completed. The cooling water is introduced into the hollow driven shaft and the helical blades, so that the granulation is rapidly cooled. The cooled pellets fall through a bottom feed plate into a pellet outlet.

(2) And (3) a dust removal process: the draught fan is connected to the air outlet through a bolt, dust-containing gas enters from the air inlet, most of coarse particle dust in the gas is separated out under the action of inertia through the collision baffle, and directly falls into the dust discharging port. The gas after pre-dedusting enters the filter bag chamber along the baffle plate, the gas passes through the filter bag with the bag cage inside at different heights, the particulate matters are trapped on the surface of the filter bag to form a dust layer, and the filtered gas is discharged from the air outlet through the induced draft fan.

(3) Dust removal process: and closing the air inlet to enable the dust removal chamber to be in an off-line state. And opening the pulse valve to enable compressed air in the air bag to enter the filter bag through the injection pipe, and peeling off the dust layer attached to the surface of the filter bag under the scouring action of air flow and the vibration action generated by expansion and deformation of the filter bag, and discharging the dust layer from the dust discharge port.

It is to be understood that the present invention has been described in detail with reference to the foregoing embodiments, and that modifications and equivalents of the various embodiments described above may be made by those skilled in the art, or some of the technical features may be substituted. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A rapid cooling and collecting device for banburying granulation is characterized by comprising a cooler (1), a cooling system (2) and a dust removal system (3) which are sequentially connected, wherein the cooling system (2) comprises a sleeve body (2018) and a stirring part, the top of the sleeve body (2018) is provided with a feed inlet connected with the dust removal system (3), and the bottom of the sleeve body (2018) is provided with a particle outlet; a circulating water outlet pipe and a circulating water inlet pipe of the cooler (1) are communicated with the stirring part;

the stirring part comprises a power device and a rotating device which are respectively arranged above and inside the sleeve body (2018); the power device comprises a motor (201), a driving shaft (205) and a driving wheel (2010) which are driven by the motor, and the rotating device comprises a driven wheel (2019), a driven shaft (2025) and a helical blade arranged on the side surface of the driven shaft (2025); the upper part of the driven shaft (2025) is arranged in parallel with the driving shaft (205), and the driving wheel (2010) drives the driven wheel (2019) to rotate through the synchronous belt (2012); the lower part of the driven shaft (2025) is arranged at the bottom of the sleeve body (2018) through a bearing; a cavity is formed between the driven shaft (2025) and the interior of the helical blade, and the top and the bottom of the cavity of the driven shaft (2025) are communicated with a circulating cooling water channel of the cooling machine (1) to realize cooling water circulation;

the dust removal system (3) comprises a dust removal chamber, a blowing part and an induced air part, wherein the side wall of the dust removal chamber is provided with an air inlet (301) and an air outlet which are communicated with a feed inlet, the bottom of the dust removal chamber is provided with an ash discharge port (306), and a plurality of filter bags (302) are arranged in the dust removal chamber; the opening of each filter bag (302) is communicated with the blowing part and the induced air part, a switch valve is arranged on the communication pipeline, and the induced air part is arranged at the air outlet.

2. The banburying granulation rapid cooling collection device as claimed in claim 1, wherein said motor (201) is fixed on the upper support frame (204) by a motor locking screw (202), the output shaft of the motor (201) is connected with the driving shaft (205) by a coupling (203), the driving shaft (205) is arranged on the upper support frame (204) by a first angular contact ball bearing (207), and the driving wheel (2010) is fixed on the driving shaft (205) by a first flat key (2011); the upper end of a driven shaft (2025) is arranged on the upper support frame (204) through a second angular contact ball bearing (2023), the lower end of the driven shaft is arranged on a lower support frame (2015) through a third angular contact ball bearing (2014), and the lower support frame (2015) is fixed at the bottom of the sleeve body (2018); the driven wheel (2019) is fixed on the driven shaft (2025) through a second flat key (2020).

3. The banburying granulation rapid cooling collection device as claimed in claim 2, wherein a first sleeve (209) is sleeved on the driving shaft (205), the first sleeve (209) is arranged above the driving wheel (2010); the driven shaft (2025) is sleeved with a second sleeve (2021), and the second sleeve (2021) is arranged above the driven wheel (2019).

4. The banburying granulation rapid cooling collection device as claimed in claim 3, wherein said blowing part comprises a pulse valve (303) and a blowing pipe (304) connected with an air bag, said air inducing part comprises an induced draft fan (305), said induced draft fan (305) and said blowing pipe (304) are communicated with the opening of the filter bag (302).

5. The banburying granulation rapid cooling collection device as claimed in claim 4, wherein said air inlet (301) is disposed at the upper part of a dust removal chamber, a baffle (307) is suspended in the dust removal chamber, and the baffle (307) is disposed opposite to the air inlet (301).

6. The banburying granulation rapid cooling collection device as claimed in claim 1, wherein a feeding plate is obliquely arranged inside the sleeve body (2018), and the bottom end of the feeding plate is arranged at the particle outlet of the sleeve body (2018).

7. An internal mixing granulation rapid cooling collection device as claimed in claim 1, wherein the helical blades are made of stainless steel.

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