CN212655161U - Foam particle cooling and scattering machine - Google Patents

Abstract

The utility model discloses a foam particle cooling scattering machine relates to energy-conserving and material preparation technical field for the new forms of energy. The utility model discloses a break-up box that is provided with the top cap, the lateral wall intercommunication of break-up box has first intake pipe, the axis level of first intake pipe sets up, just the axis of first intake pipe with the axis staggered arrangement of break-up box, the downside intercommunication of break-up box has the second intake pipe, the axis orientation of second intake pipe the top cap setting, the intercommunication has the inlet pipe on the top cap, set up on the top cap and communicate the exhaust passage that has the filter screen, first intake pipe with the second intake pipe communicates first air feed pump and second air feed pump respectively; the problem how to completely avoid the foam particles from being damaged by the stirring shaft is to improve the working effect of the scattering machine and improve the quality of finished products is to be solved urgently.

Description

Foam particle cooling and scattering machine

Technical Field

The utility model relates to an energy-conserving and material preparation technical field for the new forms of energy, specific foam particle cools off machine of breaing up that says so.

Background

In the preparation process flow of the rock wool board, foam board particles produced by a foaming machine have certain temperature and are easy to adhere to each other, a stirring machine is required to stir and break up the particles, the adhesion is prevented, and the foam board particles cannot be damaged by a stirring shaft during stirring.

But because present breaker all adopts the (mixing) shaft to stir to break up the foam, because of its structure reason like this, the (mixing) shaft is at the pivoted in-process, and its hardness is far more than the foam board granule, thereby also can inevitably cause the foam granule to be stirred the damage. How to completely avoid the foam particles from being damaged by the stirring shaft is one of the problems to be solved urgently for improving the working effect of the scattering machine and improving the quality of finished products.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a foam particle cooling machine of breaing up to solve the problem that relates to in the background art.

In order to solve the above problem, the utility model discloses a following technical means:

the utility model provides a machine of breaing up foam particle cooling, is including the case of breaing up that is provided with the top cap, the lateral wall intercommunication of the case of breaing up has first intake pipe, the axis level of first intake pipe sets up, just the axis of first intake pipe with the staggered setting of the axis of the case of breaing up, the downside intercommunication of the case of breaing up has the second intake pipe, the axis orientation of second intake pipe the top cap sets up, the intercommunication has the inlet pipe on the top cap, it has the exhaust passage who has the filter screen to set up the intercommunication on the top cap, first intake pipe with the second intake pipe communicates first air feed pump and second air feed pump respectively.

Preferably, a soft rubber scattering rod is mounted on the bottom surface of the top cover.

Furthermore, the number of the first air inlet pipes is at least two, and the first air inlet pipes are vertically and sequentially arranged on the side wall of the scattering box.

Furthermore, the bottom surface of the scattering box is arranged to be an inverted cone box wall, the second air inlet pipe is communicated with the inverted cone box wall, and a blocking net is installed at an air outlet end of the second air inlet pipe.

Furthermore, at least two second air inlet pipes are arranged around the axis of the scattering box.

Furthermore, the bottom end of the inverted cone box wall is communicated with a horizontal conveying pipe, a conveying auger is installed in the conveying pipe, and a rotating shaft of the conveying auger extends out of one end of the conveying pipe and is connected with a power motor.

Furthermore, the number of the soft rubber scattering rods is at least two, and the soft rubber scattering rods are arranged around the axis of the scattering box.

The utility model discloses compare with common machine of breaing up, have following beneficial effect:

the second air supply pump is firstly opened to adjust the input intensity of air supply, so that after the materials to be scattered enter the scattering box from the feeding pipe, the materials can float in the scattering box in the state that the second air inlet pipe sprays air upwards, after the materials are added, the feeding pipe is closed, the first air supply pump is opened, so that the first air inlet pipe sprays air towards the scattering box, the air flow sprayed into the scattering box by the first air inlet pipe is inclined, namely the air flow sprayed into the scattering box by the first air inlet pipe can form annular air flow in the scattering box, so that the materials in the scattering box start to rotate, redundant air flow can be discharged from the exhaust channel, so that the materials are cooled while being stirred and scattered by the air flow, the cooling and the stirring are carried out simultaneously in the scattering process, and no stirring paddle structure exists, namely the condition that the materials are damaged by the stirring paddles does not occur in the stirring process, the qualification rate of the scattered finished product is effectively increased.

Drawings

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

Fig. 2 is a schematic view of the top view structure of the scattering box of the present invention.

Wherein, 1-a scattering box, 2-a first air inlet pipe, 3-a second air inlet pipe, 4-a top cover, 5-a feed pipe, 6-an exhaust channel, 7-a filter screen, 8-a soft rubber scattering rod, 9-a feed delivery pipe, 10-a feed delivery auger and 11-a power motor.

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 below with reference to the following embodiments and accompanying drawings. 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

Please refer to fig. 1 and 2, a foam particle cooling and scattering machine, which comprises a scattering box 1 provided with a top cover, wherein a side wall of the scattering box 1 is communicated with a first air inlet pipe 2, an axis of the first air inlet pipe 2 is horizontally arranged, an axis of the first air inlet pipe 2 and an axis of the scattering box 1 are arranged in a staggered manner, a lower side of the scattering box 1 is communicated with a second air inlet pipe 3, the axis of the second air inlet pipe 3 faces the top cover 4, the top cover 4 is communicated with an inlet pipe 5, the top cover 4 is provided with an exhaust passage 6 communicated with a filter screen 7, and the first air inlet pipe 2 and the second air inlet pipe 3 are respectively communicated with a first air supply pump and a second air supply pump.

In this embodiment, the second air supply pump is turned on first to adjust the input intensity of the air supply, so that after the material to be scattered enters the scattering box 1 from the feeding pipe 5, the material can float in the scattering box 1 in the state that the second air inlet pipe 3 sprays air upwards, after the material is added, the feeding pipe 5 is turned off, the first air supply pump is turned on, so that the first air inlet pipe 2 sprays air towards the scattering box 1, and the air flow sprayed into the scattering box 1 by the first air inlet pipe 2 is inclined, that is, the air flow sprayed into the scattering box 1 by the first air inlet pipe 2 can form annular air flow in the scattering box 1, so that the material in the scattering box 1 starts to rotate, and the redundant air flow can be discharged from the exhaust passage 6, so that the material is cooled while being stirred and scattered by the air flow, and the cooling and the stirring are performed simultaneously in the scattering process, and no stirring paddle structure is provided, that is to say, the condition that the stirring rake destroys the material can not appear at the in-process that realizes the stirring, the effectual qualification rate that has increased the finished product after breaing up.

Example 2

In example 1, a soft rubber scattering rod 8 was attached to the bottom surface of the top cover 4.

In this embodiment, break up stick 8 through setting up soft rubber at top cap 4 to stick 8 downwardly extending is broken up to aforementioned soft rubber stretches into and breaks up incasement 1 inside, and the rotatory pivoted in-process of material in breaking up incasement 1 like this utilizes soft rubber to break up stick 8 and can let the material rather than bumping on the one hand, thereby better breaks up the material, and on the other hand, the soft stick of breaking up also can not lead to the fact the damage to the foam particle.

Example 3

On the basis of embodiment 2, the number of the first air inlet pipes 2 is at least two, and the first air inlet pipes are vertically and sequentially arranged on the side wall of the scattering box 1.

Example 4

On the basis of embodiment 3, the bottom surface of the scattering box 1 is arranged to be an inverted cone box wall, the second air inlet pipe 3 is communicated with the inverted cone box wall, and a blocking net is installed at the air outlet end of the second air inlet pipe 3.

In this embodiment, the situation that the second air supply pipe 3 is blocked or the material is wasted due to the fact that the material falls into the second air supply pipe 3 in the falling process after the material needs to be discharged, that is, the first air supply pump and the second air supply pump are turned off is avoided.

Example 5

On the basis of embodiment 4, at least two second air inlet pipes 3 are arranged around the axis of the scattering box 1.

Example 6

On the basis of embodiment 5, the bottom intercommunication of back taper tank wall has horizontally conveying pipeline 9, install defeated material auger 10 in the conveying pipeline 9, the pivot of defeated material auger 10 is followed stretch out and connect power motor 11 in the one end of conveying pipeline 9.

In this embodiment, the material can enter the material conveying pipe 9 after falling, and then the material is discharged under the action of the material conveying auger 10, and then the material enters the next process.

Example 7

In example 6, at least two soft rubber scattering rods 8 were provided around the axis of the scattering box 1.

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 and claims of this application. 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 utility model provides a foam particle cooling machine of breaing up which characterized in that: including scattering case (1) that is provided with top cap (4), the lateral wall intercommunication of scattering case (1) has first intake pipe (2), the axis level of first intake pipe (2) sets up, just the axis of first intake pipe (2) with the staggered setting of the axis of scattering case (1), the downside intercommunication of scattering case (1) has second intake pipe (3), the axis orientation of second intake pipe (3) top cap (4) set up, the intercommunication has inlet pipe (5) on top cap (4), it has exhaust passage (6) that have filter screen (7) to set up the intercommunication on top cap (4), first intake pipe (2) with second intake pipe (3) communicate first air feed pump and second air feed pump respectively.

2. A foam pellet cooling and dispersing machine as claimed in claim 1, wherein: and a soft rubber scattering rod (8) is arranged on the bottom surface of the top cover (4).

3. A foam pellet cooling and dispersing machine as claimed in claim 1, wherein: the number of the first air inlet pipes (2) is at least two, and the first air inlet pipes are vertically and sequentially arranged on the side wall of the scattering box (1).

4. A foam pellet cooling and dispersing machine as claimed in claim 1, wherein: the bottom surface of the scattering box (1) is arranged on the wall of the inverted cone, the second air inlet pipe (3) is communicated with the wall of the inverted cone, and the air outlet end of the second air inlet pipe (3) is provided with a blocking net.

5. A foam pellet cooling and scattering machine as claimed in claim 4, wherein: the number of the second air inlet pipes (3) is at least two, and the second air inlet pipes are arranged around the axis of the scattering box (1).

6. A foam pellet cooling and scattering machine as claimed in claim 4, wherein: the bottom intercommunication of back taper tank wall has horizontally conveying pipeline (9), install defeated material auger (10) in conveying pipeline (9), the pivot of defeated material auger (10) is followed the one end of conveying pipeline (9) is stretched out and is connected power motor (11).

7. A foam pellet cooling and dispersing machine as claimed in claim 2, wherein: the number of the soft rubber scattering rods (8) is at least two, and the soft rubber scattering rods are arranged around the axis of the scattering box (1).

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