CN211709844U - A cooling body for nylon plastics - Google Patents

Abstract

The utility model discloses a cooling body for nylon plastics includes: the base, with base fixed connection's support is installed transportation frame on the support sets up cooling assembly on the transportation frame, and with transportation frame fixed connection's top air-cooled subassembly and bottom air-cooled subassembly. The utility model discloses design cooling assembly on the transportation frame, through last cooling section of thick bamboo and the cooling down section of thick bamboo when feeding nylon plastics, let the cover have the cavernosum extrusion nylon plastics of moisture on last cooling section of thick bamboo and the cooling down section of thick bamboo, and then carry out the rapid cooling work to nylon plastics by the moisture in the cavernosum, designed the forced air cooling subassembly simultaneously from top to bottom of cooling assembly, use water-cooling and forced air cooling simultaneously to nylon plastics's cooling, and then make nylon plastics rapid cooling.

Description

A cooling body for nylon plastics

Technical Field

The utility model relates to a fixed rotary device specifically is a cooling body for nylon plastics.

Background

Cooling, which refers to a process of reducing the temperature of a hot object without phase change; wind cooling is a common simple cooling method and an effective cooling method.

Air cooling is one type of cooling method, i.e. using air as a medium to cool an object to be cooled. Typically, either the surface area of the object to be cooled is increased, or the rate of air flow through the object per unit time is increased, or both.

However, when the blowing fan is used for cooling, the requirement on the environment is high, because the conventional air cooling assembly is basically designed to drive peripheral airflow to flow by the fan, the blowing effect is further achieved, and when nylon plastics are just heated and extruded, the temperature of the workshop is relatively high, so that the cooling speed is greatly reduced by only using the air cooling.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: a cooling mechanism for nylon plastic is provided to solve the above problems in the prior art.

The technical scheme is as follows: a cooling mechanism for nylon plastic comprising:

the cooling device comprises a base, a support fixedly connected with the base, a transportation frame arranged on the support, a cooling assembly arranged on the transportation frame, and a top air cooling assembly and a bottom air cooling assembly fixedly connected with the transportation frame;

the cooling assembly comprises a front end fixing plate and a tail end fixing plate which are fixedly connected with the transport frame, an upper rotating shaft and a lower rotating shaft which are inserted into the front end fixing plate and the tail end fixing plate and are arranged in parallel up and down, an upper cooling cylinder sleeved on the upper rotating shaft, a lower cooling cylinder sleeved on the lower rotating shaft and a transmission gear group sleeved on the upper rotating shaft; the upper cooling cylinder and the lower cooling cylinder are sleeved with sponges; the sponge body is soaked with a proper amount of water.

In a further embodiment, the air-cooled subassembly in top and the air-cooled subassembly in bottom are the mirror image unit that two sets of symmetries set up, every group mirror image unit include with transportation frame fixed connection's frame, fixed mounting be in fan housing on the frame, with fan housing fixed connection's filter screen is installed fan motor on the filter screen, and with fan motor coaxial rotation just installs flabellum in the fan housing, design air-cooled subassembly mainly in order to carry out the air-dry cooling to nylon plastics, when cooling nylon plastics, carries out to air-dry the moisture that nylon plastics top layer is glued, and then reaches nylon plastics's air-dry cooling effect.

In a further embodiment, the transmission gear set is sleeved with the upper gear of the upper rotating shaft, the lower gear of the lower rotating shaft is sleeved, and the transmission gear set is designed to mainly enable the upper cooling cylinder and the lower cooling cylinder to rotate relatively so as to extrude and cool nylon plastic and perform feeding work on the nylon plastic.

In a further embodiment, a transport roller is mounted at the end of the transport frame, an input motor is arranged on one side of the transport roller, the input motor is fixedly connected with the transport frame, and the input motor and the transport roller rotate coaxially; the other side of the transportation roller is sleeved with a transmission gear, and the transportation roller is designed to mainly feed nylon plastics, so that the movement of the nylon plastics on the transportation frame is completed.

In a further embodiment, a pinion is arranged on the side portion of the meshing gear, the transmission gear is in transmission connection with the pinion, a transmission chain is arranged between the transmission gear and the pinion, the transmission chain is designed to be attached to the transmission gear, and the transmission chain and a traditional transmission belt have the advantages that transmission connection is stable in transmission and slipping does not occur.

In a further embodiment, be equipped with predetermined interval between last cooling section of thick bamboo and the cooling section of thick bamboo that falls, mainly for the entering of supplying nylon plastics, and then extrude nylon plastics for the sponge with water on last cooling section of thick bamboo and the cooling section of thick bamboo that falls contacts with nylon plastics, and then reaches the effect of cooling nylon plastics.

Has the advantages that: the utility model discloses a cooling body for nylon plastics, design cooling subassembly on the transportation frame, when feeding nylon plastics through last cooling section of thick bamboo and a cooling down section of thick bamboo, let the cover have the cavernosum extrusion nylon plastics of moisture on a cooling down section of thick bamboo and a cooling down section of thick bamboo, and then carry out the rapid cooling work to nylon plastics by the moisture in the cavernosum, air-cooled subassembly has been designed simultaneously from top to bottom of cooling subassembly, use water-cooling and air-cooled simultaneously to nylon plastics's cooling, and then make nylon plastics rapid cooling.

Drawings

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

Figure 2 is the top air-dry subassembly of the utility model schematically.

Fig. 3 is a schematic view of the cooling assembly of the present invention.

Fig. 4 is a schematic view of the transmission gear set of the present invention.

The reference signs are: the cooling device comprises a base 1, a support 2, a bottom air cooling assembly 3, a transportation frame 4, a top air cooling assembly 5, a fan motor 51, a filter screen 52, fan blades 53, a frame 54, a fan shell 55, a cooling assembly 6, an upper cooling cylinder 61, a lower cooling cylinder 62, a front end fixing plate 63, a transmission gear set 64, an upper gear 641, a meshing gear 642, a lower gear 643, an end fixing plate 65, an upper rotating shaft 66, a lower rotating shaft 67, a transportation roller 7 and an input motor 8.

Detailed Description

Through the research and analysis of the applicant, the reason for the problem (the cooling efficiency of nylon plastics in a production workshop is lower) is that the traditional method needs to have higher requirement on the environment when air blowing is used for cooling, because the basic design of the traditional air cooling component uses a fan to drive peripheral air flow to flow so as to achieve the effect of air blowing, and when the nylon plastics are just heated and extruded, the temperature in the workshop is relatively higher, so the cooling speed is greatly reduced only by using air cooling, but the invention designs the cooling component on the transportation frame, and when the nylon plastics are fed through the upper cooling cylinder and the lower cooling cylinder, the sponge body sleeved on the upper cooling cylinder and the lower cooling cylinder and provided with moisture extrudes the nylon plastics, so that the moisture in the sponge body is used for rapidly cooling the nylon plastics, and simultaneously designs the air cooling component above and below the cooling component, and simultaneously cools the nylon plastics by using water cooling and air cooling, thereby enabling the nylon plastic to be rapidly cooled.

A cooling mechanism for nylon plastic comprising: the cooling device comprises a base 1, a support 2, a bottom air cooling assembly 3, a transportation frame 4, a top air cooling assembly 5, a fan motor 51, a filter screen 52, fan blades 53, a frame 54, a fan shell 55, a cooling assembly 6, an upper cooling cylinder 61, a lower cooling cylinder 62, a front end fixing plate 63, a transmission gear set 64, an upper gear 641, a meshing gear 642, a lower gear 643, an end fixing plate 65, an upper rotating shaft 66, a lower rotating shaft 67, a transportation roller 7 and an input motor 8.

Wherein, 2 fixed mounting of support are in 1 top of base, 4 fixed mounting of transportation frame are in 2 tops of support, install cooling assembly 6 on the transportation frame 4, cooling assembly 6's top is equipped with top air-cooled subassembly 5, cooling assembly 6's below is equipped with bottom air-cooled subassembly 3, top air-cooled subassembly 5 and bottom air-cooled subassembly 3 with 4 fixed connection of transportation frame.

The cooling assembly 6 comprises a front end fixing plate 63 and a tail end fixing plate 65 which are fixedly connected with the transportation frame 4, an upper rotating shaft 66 and a lower rotating shaft 67 which are inserted into the front end fixing plate 63 and the tail end fixing plate 65 and are arranged in parallel up and down, an upper cooling cylinder 61 which is sleeved on the upper rotating shaft 66, a lower cooling cylinder 62 which is sleeved on the lower rotating shaft 67, and a transmission gear group 64 which is sleeved on the upper rotating shaft 66; the upper cooling cylinder 61 and the lower cooling cylinder 62 are sleeved with sponge bodies; the sponge body is soaked with a proper amount of water.

The air-cooled subassembly in top 5 and bottom air-cooled subassembly 3 are the mirror image unit that two sets of symmetries set up, every group mirror image unit include with transportation frame 4 fixed connection's frame 54, fixed mounting be in fan housing 55 on the frame 54, with fan housing 55 fixed connection's filter screen 52 is installed fan motor 51 on the filter screen 52, and with fan motor 51 coaxial rotation just installs flabellum 53 in the fan housing 55, the air-cooled subassembly of design mainly in order to carry out the air-dry cooling to nylon plastics, when cooling nylon plastics, air-dries the moisture that nylon plastics top layer is glued, and then reaches the air-dry cooling effect of nylon plastics.

The transmission gear set 64 is sleeved on the upper gear 641 of the upper rotating shaft 66, sleeved on the lower gear 643 of the lower rotating shaft 67, and meshed with the upper gear 641 and the lower gear 643, and the transmission gear set 64 is designed to make the upper cooling cylinder 61 and the lower cooling cylinder 62 rotate relatively, so that feeding work of nylon plastics is performed while nylon plastics is extruded and cooled.

A conveying roller 7 is mounted at the end part of the conveying frame 4, an input motor 8 is arranged on one side of the conveying roller 7, the input motor 8 is fixedly connected with the conveying frame 4, and the input motor 8 and the conveying roller 7 rotate coaxially; the other side of the transportation roller 7 is sleeved with a transmission gear, and the transportation roller 7 is designed to mainly feed nylon plastics, so that the movement of the nylon plastics on the transportation frame 4 is completed.

The transmission gear is in transmission connection with the meshing gear 642, a transmission chain is arranged between the transmission gear and the meshing gear 642 and is designed to be attached to the transmission gear, and the transmission chain and a traditional transmission belt thereof have the advantages that the transmission connection is stable, and the slipping phenomenon cannot occur.

Go up and cool down and be equipped with predetermined interval between section of thick bamboo 61 and the section of thick bamboo 62 that falls, be equipped with predetermined interval between last cooling section of thick bamboo 61 and the section of thick bamboo 62 that falls, mainly for the entering of supplying with nylon plastic, and then extrude nylon plastic for go up cooling section of thick bamboo 61 and fall and take water sponge and nylon plastic contact on the section of thick bamboo 62 that cools down, and then reach the effect of cooling nylon plastic.

Description of the working principle: when the nylon plastic needs to be cooled in a forming workshop, the formed nylon plastic is placed on the conveying roller 7 at the moment, one end of the nylon plastic is inserted into the cooling assembly 6, the nylon plastic is clamped by the upper cooling roller 61 and the lower cooling roller 62 in the cooling assembly 6 at the moment, the conveying roller 7 is driven to rotate by the input motor 8 at the moment, the transmission gear is driven to rotate, the transmission chain is driven to move, the pinion is driven to rotate, the meshing gear 642 is driven to rotate, the upper gear 641 is driven to rotate clockwise, the lower gear 643 is driven to rotate anticlockwise, the nylon plastic is driven to extrude and feed, the nylon plastic is water-cooled by the soaked sponge on the upper cooling roller 61 and the lower cooling roller 62 while the water cooling of the nylon plastic is started, the top air cooling assembly 5 and the bottom air cooling assembly 3 are started, at this time, the fan motor 51 moves to drive the fan blades 53 to rotate, so as to drive the airflow to move, and then the air is blown to cool the nylon plastic, thereby completing the cooling process of the nylon plastic.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be modified to perform various equivalent transformations, which all belong to the protection scope of the present invention.

Claims (6)

1. A cooling mechanism for nylon plastics, characterized by comprising:

the cooling device comprises a base, a support fixedly connected with the base, a transportation frame arranged on the support, a cooling assembly arranged on the transportation frame, and a top air cooling assembly and a bottom air cooling assembly fixedly connected with the transportation frame;

the cooling assembly comprises a front end fixing plate and a tail end fixing plate which are fixedly connected with the transport frame, an upper rotating shaft and a lower rotating shaft which are inserted into the front end fixing plate and the tail end fixing plate and are arranged in parallel up and down, an upper cooling cylinder sleeved on the upper rotating shaft, a lower cooling cylinder sleeved on the lower rotating shaft and a transmission gear group sleeved on the upper rotating shaft; the upper cooling cylinder and the lower cooling cylinder are sleeved with sponges; the sponge body is soaked with a proper amount of water.

2. The cooling mechanism for nylon plastic as claimed in claim 1, wherein: the top air cooling assembly and the bottom air cooling assembly are mirror image units which are symmetrically arranged in two groups, each mirror image unit comprises a frame fixedly connected with the transportation frame, a fan shell fixedly arranged on the frame, a filter screen fixedly connected with the fan shell, a fan motor arranged on the filter screen, and fan blades coaxially rotating and arranged in the fan shell.

3. The cooling mechanism for nylon plastic as claimed in claim 1, wherein: the transmission gear set is sleeved with the upper gear of the upper rotating shaft, sleeved with the lower gear of the lower rotating shaft and meshed with the upper gear and the lower gear.

4. The cooling mechanism for nylon plastic as claimed in claim 3, wherein: the end part of the transportation frame is provided with a transportation roller, one side of the transportation roller is provided with an input motor, the input motor is fixedly connected with the transportation frame, and the input motor and the transportation roller rotate coaxially; and the other side of the transportation roller is sleeved with a transmission gear.

5. The cooling mechanism for nylon plastic as claimed in claim 4, wherein: the side part of the meshing gear is provided with a small gear, the transmission gear is in transmission connection with the small gear, and a transmission chain is arranged between the transmission gear and the small gear.

6. The cooling mechanism for nylon plastic as claimed in claim 1, wherein: and a preset space is arranged between the upper cooling cylinder and the lower cooling cylinder.

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