CN210880181U - Feeding system for machining prefabricated heat-insulation boards - Google Patents

Abstract

The utility model relates to a feeding system for processing prefabricated heat-insulation boards, which belongs to the technical field of the production and the manufacture of prefabricated heat-insulation boards; the full premixing is carried out before feeding, the mixing process is reduced, and the mixing quality is improved; a feed system for processing prefabricated insulation panels, comprising: the device comprises a cement feeding mechanism, an aggregate feeding mechanism, a polystyrene particle feeding mechanism and a mixing mechanism; the cement feeding mechanism comprises a main spiral feeding pipe, the diameter of the main spiral feeding pipe from a feeding end to a discharging end is gradually enlarged, the aggregate feeding mechanism comprises an aggregate spiral feeding pipe, the aggregate spiral feeding pipe is arranged above the main spiral feeding pipe and communicated with the main spiral feeding pipe, the polystyrene particle feeding mechanism comprises a polystyrene spiral feeding pipe, the polystyrene spiral feeding pipe is arranged above the main spiral feeding pipe and communicated with the main spiral feeding pipe, and a mixing mechanism is arranged at the outlet end of the main spiral feeding pipe; the utility model discloses but wide application in polystyrene and dry-mixed mortar mix the field.

Description

Feeding system for machining prefabricated heat-insulation boards

Technical Field

The utility model relates to a feed system for processing prefabricated insulation board belongs to prefabricated insulation board manufacturing technical field.

Background

The prefabricated external wall heat-insulating board is a new building energy-saving and structure-integrating technology, and has the characteristics of good heat-insulating and fire-resisting property, safe and reliable quality, simple design and construction, same service life with buildings and the like. The cement-based double-faced composite insulation board is used as a permanent outer template, concrete is poured on the inner side of the permanent outer template, an anti-crack mortar protective layer is smeared on the outer side of the permanent outer template, and the double-faced composite insulation board and the concrete are firmly connected together through a connecting piece to form a composite insulation structure system. The process adopts synchronous construction of structure and heat preservation, effectively avoids fire during or after construction, greatly shortens construction period, saves templates, reduces supports, reduces construction cost, has simple design and construction technology, and has better economic and social benefits when being popularized and applied.

When the cement mortar mixed with polystyrene is stirred, polystyrene particles are light, and the polymerization and bonding phenomena are easy to occur when water is added for stirring, so that the dry-mixed mortar and the polystyrene particles need to be fully mixed before stirring, a long-time mixing process is needed, the time is relatively wasted, and the production efficiency is relatively low.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes prior art exists not enough, provides one kind and fully mixes before reinforced, reduces the mixing process, and improves and mix the quality.

In order to solve the technical problem, the utility model discloses a technical scheme be:

a feed system for processing prefabricated insulation panels, comprising: the device comprises a cement feeding mechanism, an aggregate feeding mechanism, a polystyrene particle feeding mechanism and a mixing mechanism; the cement feeding mechanism comprises a main spiral feeding pipe, the diameter of the main spiral feeding pipe from a feeding end to a discharging end is gradually enlarged, the aggregate feeding mechanism comprises an aggregate spiral feeding pipe, the aggregate spiral feeding pipe is arranged above the main spiral feeding pipe and communicated with the main spiral feeding pipe, the polystyrene particle feeding mechanism comprises a polystyrene spiral feeding pipe, the polystyrene spiral feeding pipe is arranged above the main spiral feeding pipe and communicated with the main spiral feeding pipe, and a mixing mechanism is arranged at the outlet end of the main spiral feeding pipe;

the mixing mechanism comprises an oval shell with two open tips and a middle shaft arranged in the shell, wherein one open end of the shell is communicated with a discharge hole of the main spiral feeding pipe, the middle shaft rotates relative to the shell, a spiral blade is fixed on the middle shaft and is adaptive to the shell, and a mixture of cement, aggregate and polystyrene particles can be pushed out of the shell by the spiral blade.

The cement feeding mechanism further comprises a cement storage tank, the aggregate feeding mechanism further comprises an aggregate storage tank, and the polystyrene particle feeding mechanism further comprises a polystyrene storage tank;

the cement storage tank is communicated with the inlet of the main spiral feeding pipe, the aggregate storage tank is communicated with the inlet of the aggregate spiral feeding pipe, and the polystyrene storage tank is communicated with the inlet of the polystyrene spiral feeding pipe.

The feeding system for processing the prefabricated heat-insulation plate further comprises a motor and a speed reducer; the motor and the speed reducer are fixedly arranged relative to the main spiral feeding pipe, and the motor drives the screw rod of the main spiral feeding pipe to rotate through the speed reducer.

The middle shaft is coaxially and fixedly connected with a screw rod of the main spiral feeding pipe.

And a damping gasket is arranged at the communication position of the main spiral feeding pipe and the aggregate feeding mechanism and the polystyrene particle feeding mechanism.

The aggregate feeding mechanism is provided with an aggregate feeding motor for driving the screw to rotate, and the polystyrene particle feeding mechanism is provided with a polystyrene particle feeding motor for driving the screw to rotate.

The motor, the aggregate feeding motor and the polystyrene particle feeding motor are all stepping motors.

The motor, the aggregate feeding motor and the polystyrene particle feeding motor are stepping motors which are respectively connected with stepping motor controllers, the three stepping motor controllers are all connected with the single chip microcomputer, and the single chip microcomputer is further connected with a touch screen.

The feeding system for processing the prefabricated heat-insulation boards further comprises a power supply, and the power supply provides power for the whole feeding system for processing the prefabricated heat-insulation boards.

The outlet end of the shell is communicated with the inlet of the stirring device.

Compared with the prior art, the utility model has the beneficial effect of being.

One, the utility model discloses an aggregate spiral inlet pipe and polystyrene spiral inlet pipe continuously add the mode to main spiral inlet pipe, realize the preliminary premixing of material, compare in cement, aggregate and polystyrene granule mixed mode in the agitator tank have the mixing velocity fast, characteristics that the mixing quality is high.

Two, the utility model discloses a mixing mechanism, mixing mechanism is unanimous with the cement agitator tank principle, can realize the material intensive mixing, provides suitable prerequisite for adding water stirring.

Drawings

The present invention will be further described with reference to the accompanying drawings.

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

Fig. 2 is a sectional view of the aggregate spiral feeding pipe of the utility model.

Fig. 3 is a sectional view of the main spiral feeding pipe of the present invention.

Fig. 4 is a cross-sectional view of the mixing mechanism of the present invention.

In the figure: 1 is cement feed mechanism, 2 is aggregate feed mechanism, 3 is polystyrene granule feed mechanism, 4 is the mixing mechanism, 5 is the motor, 6 is the reduction gear, 11 is main spiral inlet pipe, 12 is the cement storage tank, 21 is aggregate spiral inlet pipe, 22 is the aggregate storage tank, 31 is polystyrene spiral inlet pipe, 32 is the polystyrene storage tank, 41 is the shell, 42 is the axis, 43 is helical blade.

Detailed Description

As shown in fig. 1 to 4, the utility model relates to a feed system for processing prefabricated insulation board, include: the device comprises a cement feeding mechanism 1, an aggregate feeding mechanism 2, a polystyrene particle feeding mechanism 3 and a mixing mechanism 4; the cement feeding mechanism 1 comprises a main spiral feeding pipe 11, the diameter of the main spiral feeding pipe 11 from a feeding end to a discharging end is gradually enlarged, the aggregate feeding mechanism 2 comprises an aggregate spiral feeding pipe 21, the aggregate spiral feeding pipe 21 is arranged above the main spiral feeding pipe 11 and communicated with each other, the polystyrene particle feeding mechanism 3 comprises a polystyrene spiral feeding pipe 31, the polystyrene spiral feeding pipe 31 is arranged above the main spiral feeding pipe 11 and communicated with each other, and a mixing mechanism 4 is arranged at the outlet end of the main spiral feeding pipe 11;

the mixing mechanism 4 comprises an oval shell 41 with two open tips and a middle shaft 42 arranged in the shell 41, wherein one open end of the shell 41 is communicated with a discharge hole of the main spiral feeding pipe 11, the middle shaft 42 rotates relative to the shell 41, a spiral blade 43 is fixed on the middle shaft 42, the spiral blade 43 is matched with the shell 41, and the mixture of cement, aggregate and polystyrene particles can be pushed out from the shell 41 by the spiral blade 43.

The cement feeding mechanism 1 further comprises a cement storage tank 12, the aggregate feeding mechanism 2 further comprises an aggregate storage tank 22, and the polystyrene particle feeding mechanism 3 further comprises a polystyrene storage tank 32;

the cement storage tank 12 is communicated with the inlet of the main spiral feeding pipe 11, the aggregate storage tank 22 is communicated with the inlet of the aggregate spiral feeding pipe 21, and the polystyrene storage tank 32 is communicated with the inlet of the polystyrene spiral feeding pipe 31.

The feeding system for processing the prefabricated heat-insulation board further comprises a motor 5 and a speed reducer 6; the motor 5 and the speed reducer 6 are fixedly arranged relative to the main spiral feeding pipe 11, and the motor 5 drives the screw rod of the main spiral feeding pipe 11 to rotate through the speed reducer 6.

The middle shaft 42 is coaxially and fixedly connected with a screw rod of the main spiral feeding pipe 11.

And a damping gasket is arranged at the communication part of the main spiral feeding pipe 11 and the aggregate feeding mechanism 2 and the polystyrene particle feeding mechanism 3.

The aggregate feeding mechanism 2 is provided with an aggregate feeding motor for driving a screw to rotate, and the polystyrene particle feeding mechanism 3 is provided with a polystyrene particle feeding motor for driving the screw to rotate.

The motor 5, the aggregate feeding motor and the polystyrene particle feeding motor are all stepping motors.

The motor 5, the aggregate feeding motor and the polystyrene particle feeding motor are stepping motors which are respectively connected with stepping motor controllers, the three stepping motor controllers are all connected with a single chip microcomputer, and the single chip microcomputer is further connected with a touch screen.

The feeding system for processing the prefabricated heat-insulation boards further comprises a power supply, and the power supply provides power for the whole feeding system for processing the prefabricated heat-insulation boards.

The outlet end of the shell 41 is communicated with the inlet of the stirring device.

The utility model discloses specific operation process as follows:

control motor 5, aggregate feeding motor and polystyrene granule feeding motor rotational speed realize controlling screw rod feed rate, aggregate spiral inlet pipe 21 and polystyrene spiral inlet pipe 31 are all stable adds aggregate and polystyrene granule to the main spiral inlet pipe 11 of operation, and cement, aggregate and polystyrene granule realize preliminary mixing at main spiral inlet pipe 11, through mixing mechanism 4, realize mixing according to the principle of cement agitator tank.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (9)

1. The utility model provides a feed system for processing prefabricated heated board which characterized in that: the method comprises the following steps: the device comprises a cement feeding mechanism (1), an aggregate feeding mechanism (2), a polystyrene particle feeding mechanism (3) and a mixing mechanism (4); the cement feeding mechanism (1) comprises a main spiral feeding pipe (11), the diameter of the main spiral feeding pipe (11) from a feeding end to a discharging end is gradually enlarged, the aggregate feeding mechanism (2) comprises an aggregate spiral feeding pipe (21), the aggregate spiral feeding pipe (21) is arranged above the main spiral feeding pipe (11) and communicated with each other, the polystyrene particle feeding mechanism (3) comprises a polystyrene spiral feeding pipe (31), the polystyrene spiral feeding pipe (31) is arranged above the main spiral feeding pipe (11) and communicated with each other, and a mixing mechanism (4) is arranged at the outlet end of the main spiral feeding pipe (11);

the mixing mechanism (4) comprises an oval shell (41) with two open tips and a middle shaft (42) arranged in the shell (41), one open end of the shell (41) is communicated with a discharge hole of the main spiral feeding pipe (11), the middle shaft (42) rotates relative to the shell (41), a spiral blade (43) is fixed on the middle shaft (42), the spiral blade (43) is adaptive to the shell (41), and a mixture of cement, aggregate and polystyrene particles can be pushed out from the shell (41) by the spiral blade (43).

2. The feeding system for processing the prefabricated heat-insulation board as claimed in claim 1, is characterized in that: the cement feeding mechanism (1) further comprises a cement storage tank (12), the aggregate feeding mechanism (2) further comprises an aggregate storage tank (22), and the polystyrene particle feeding mechanism (3) further comprises a polystyrene storage tank (32);

cement storage tank (12) and main screw feed pipe (11) import intercommunication, aggregate storage tank (22) and aggregate screw feed pipe (21) import intercommunication, polystyrene storage tank (32) and polystyrene screw feed pipe (31) import intercommunication.

3. The feeding system for processing the prefabricated heat-insulation board as claimed in claim 1 or 2, wherein: the feeding system for processing the prefabricated heat-insulation plate further comprises a motor (5) and a speed reducer (6); the motor (5) and the speed reducer (6) are fixedly arranged relative to the main spiral feeding pipe (11), and the motor (5) drives the screw rod of the main spiral feeding pipe (11) to rotate through the speed reducer (6).

4. The feeding system for processing the prefabricated heat-insulation board as claimed in claim 3, characterized in that: the middle shaft (42) is coaxially and fixedly connected with a screw rod of the main spiral feeding pipe (11).

5. The feeding system for processing the prefabricated heat-insulation board as claimed in any one of claims 1, 2 or 4, wherein: and a damping gasket is arranged at the communication part of the main spiral feeding pipe (11) and the aggregate feeding mechanism (2) and the polystyrene particle feeding mechanism (3).

6. The feeding system for processing the prefabricated heat-insulation board as claimed in claim 3, characterized in that: an aggregate feeding motor used for driving the screw rod to rotate is arranged on the aggregate feeding mechanism (2), and a polystyrene particle feeding motor used for driving the screw rod to rotate is arranged on the polystyrene particle feeding mechanism (3).

7. The feeding system for processing the prefabricated heat-insulation board as claimed in claim 6, is characterized in that: the motor (5), the aggregate feeding motor and the polystyrene particle feeding motor are all stepping motors.

8. The feeding system for processing the prefabricated heat-insulation board as claimed in claim 7, is characterized in that: the motor (5), the aggregate feeding motor and the polystyrene particle feeding motor are stepping motors which are respectively connected with stepping motor controllers, the three stepping motor controllers are all connected with the single chip microcomputer, and the single chip microcomputer is further connected with a touch screen.

9. The feeding system for processing the prefabricated heat-insulation board as claimed in claim 8, wherein: the feeding system for processing the prefabricated heat-insulation boards further comprises a power supply, and the power supply provides power for the whole feeding system for processing the prefabricated heat-insulation boards.

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