CN210453456U - Maintenance storehouse of foam composite sheet production usefulness - Google Patents

Abstract

The utility model discloses a maintenance storehouse of foam composite sheet production usefulness belongs to foam composite sheet production facility technical field, and the maintenance storehouse includes maintenance storehouse body and sets up at this internal temperature control system of maintenance storehouse, and the key lies in: the maintenance warehouse is characterized in that the maintenance warehouse body is internally divided into a heating station warehouse, a constant-temperature station warehouse and a cooling station warehouse which are sequentially arranged along the length direction by means of a partition door, temperature control systems are arranged in the heating station warehouse and the constant-temperature station warehouse, each temperature control system comprises a group of hollow cooling fins fixed on the side wall of the maintenance warehouse body, all the cooling fins are connected in series to form a heat conduction loop, one end of the heat conduction loop is connected with a hot oil inlet, and the other end of the heat conduction loop is connected with a cold oil outlet. The temperature control is more accurate, the quality of the product can be better ensured, the heat efficiency is higher, and the production cost of the foam composite board can be reduced.

Description

Maintenance storehouse of foam composite sheet production usefulness

Technical Field

The utility model belongs to the technical field of foam composite sheet production facility, a maintenance storehouse of foam composite sheet production usefulness is related to.

Background

In the process of producing the foam composite board, after slurry is sprayed into the mould and the upper cover is pressed, the foam composite board needs to be conveyed into a curing warehouse for curing, and the temperature setting in the curing warehouse is directly related to the quality of the finally obtained foam composite board. Most of the existing curing storehouses rely on steam pipelines to control the internal temperature, so that the heat efficiency is low and the cost is high.

Disclosure of Invention

The utility model discloses an overcome prior art's defect, designed a maintenance storehouse of foam composite sheet production usefulness, the accuse temperature is more accurate, can guarantee the quality of product better, and the thermal efficiency is higher moreover, can reduce foam composite sheet's manufacturing cost.

The utility model adopts the following specific technical proposal: the utility model provides a maintenance storehouse of foam composite sheet production usefulness, includes maintenance storehouse body and sets up at this internal temperature control system of maintenance storehouse, and the key lies in: the maintenance warehouse is characterized in that the maintenance warehouse body is internally divided into a heating station warehouse, a constant-temperature station warehouse and a cooling station warehouse which are sequentially arranged along the length direction by means of a partition door, temperature control systems are arranged in the heating station warehouse and the constant-temperature station warehouse, each temperature control system comprises a group of hollow cooling fins fixed on the side wall of the maintenance warehouse body, all the cooling fins are connected in series to form a heat conduction loop, one end of the heat conduction loop is connected with a hot oil inlet, and the other end of the heat conduction loop is connected with a cold oil outlet.

The maintenance storehouse body include braced frame, fix a set of heated board on braced frame, set up the warehouse entry door at braced frame entrance point and set up the warehouse exit door at the braced frame exit end, be provided with the sealing layer between the adjacent heated board, the fin is fixed at the heated board inboard or is inlayed and is adorned inside the heated board, warehouse entry door, warehouse exit door and partition door have the lift degree of freedom with the help of the electric block who sets up in its top respectively, electric block and braced frame fixed connection.

The hot oil inlet and the cold oil outlet of each heat conduction loop are positioned on the same side wall of the curing warehouse body.

All be provided with mould conveyor on intensification station storehouse, constant temperature station storehouse and cooling station storehouse, adjacent mould conveyor links up in proper order and forms the mould conveying mechanism in maintenance storehouse, the both sides in every station storehouse all are provided with ground strutting arrangement and arrange along the length direction in this station storehouse with all ground strutting arrangement of one side, every station storehouse all is furnished with actuating mechanism, it is connected with actuating mechanism to have at least one ground strutting arrangement in every station storehouse, actuating mechanism forms mould conveyor with ground strutting arrangement cooperation.

The maintenance warehouse also comprises a control device, a mold detection device is arranged in each station warehouse, the output end of the mold detection device is connected with the input end of the control device, and the output end of the control device is connected with the controlled end of the driving mechanism.

The length of the constant-temperature station library is N times of that of the temperature-rising station library, N is not less than 1 and is an integer, and the length of the temperature-rising station library is equal to that of the temperature-reducing station library.

The utility model has the advantages that: become intensification station storehouse, constant temperature station storehouse and cooling station storehouse with maintenance storehouse body internal partitioning, all be provided with temperature control system in intensification station storehouse and the constant temperature station storehouse, independent temperature control system can control the temperature in intensification station storehouse and the constant temperature station storehouse respectively, and the accuse temperature is more accurate, and intensification, heat preservation and cooling process are all accomplished in the maintenance storehouse in addition, can not receive external environment's influence, can guarantee the quality of product better. The heat conduction medium of the curing warehouse adopts heat conduction oil, the heat conduction oil circularly flows between a heat conduction loop formed by serially connecting radiating fins and the heating device to play a role in heating and heat preservation of the curing warehouse, compared with steam heating, the heat conduction oil has higher heat efficiency, and the production cost of the foam composite board can be reduced.

Drawings

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

Fig. 2 is a top view of fig. 1.

Fig. 3 is a schematic view of a first connection structure of the middle heat conduction loop of the present invention.

Fig. 4 is a schematic view of a second connection structure of the middle heat conduction loop of the present invention.

In the attached drawings, 1 represents a separation door, 2 represents a temperature-increasing station warehouse, 3 represents a constant-temperature station warehouse, 4 represents a temperature-decreasing station warehouse, 5 represents a cooling fin, 6 represents a hot oil inlet, 7 represents a cold oil outlet, 8 represents a support frame, 9 represents a heat-insulating plate, 10 represents a warehouse-in door, 11 represents a warehouse-out door, 12 represents an electric hoist, 13 represents a ground support device, 14 represents a driving mechanism, and 15 represents a connecting shaft.

Detailed Description

The present invention will be described in detail with reference to the following drawings and specific embodiments:

in a specific embodiment, as shown in fig. 1 to 4, a curing warehouse for producing foam composite boards includes a curing warehouse body and a temperature control system disposed in the curing warehouse body, the curing warehouse body is internally divided into a heating station warehouse 2, a constant temperature station warehouse 3 and a cooling station warehouse 4 by a partition door 1, the heating station warehouse 2, the constant temperature station warehouse 3 and the cooling station warehouse 4 are sequentially arranged along a length direction, the temperature control system is disposed in each of the heating station warehouse 2 and the constant temperature station warehouse 3, the temperature control system includes a set of hollow cooling fins 5 fixed on a side wall of the curing warehouse body, all the cooling fins 5 are connected in series to form a heat conduction loop, one end of the heat conduction loop is connected with a hot oil inlet 6, and the other end of the heat conduction. A hot oil inlet 6 of the heat conduction loop is connected with an oil outlet of the heating device, and a cold oil outlet 7 of the heat conduction loop is connected with an oil return port of the heating device. The heating device can be a heat exchanger or a device with a heating element. The length of the constant temperature station library 3 is N times of the length of the temperature-increasing station library 2, N is not less than 1 and is an integer, and the length of the temperature-increasing station library 2 is equal to that of the temperature-reducing station library 4. In order to prolong the flowing time of the heat conduction oil in the radiating fin 5, a flow guide pipe is connected between an inlet and an outlet of the radiating fin 5 and arranged in an S shape in the radiating fin 5.

The maintenance storehouse body includes braced frame 8, fix a set of heated board 9 on braced frame 8, the setting is at the entering door 10 of braced frame 8 entrance point, and set up the delivery door 11 at braced frame 8 exit end, be provided with the sealing layer between the adjacent heated board 9, fin 5 is fixed at heated board 9 inboard or inlay the dress inside heated board 9, enter the storehouse door 10, delivery door 11 and division door 1 have the lift degree of freedom with the help of setting up electric block 12 in its top respectively, electric block 12 and braced frame 8 fixed connection. The braced frame 8 is formed by square pipe welding, and the heated board is the rock wool composite sheet, and the material of sealing layer is high temperature resistant polyurethane material. The mold enters from one end of the curing warehouse and exits from the other end of the curing warehouse, and the warehouse entering door 10, the warehouse exiting door 11 and the partition door 1 are automatically lifted by the electric hoist 12, so that time and labor are saved.

As right the utility model discloses a further improvement, every heat conduction return circuit's hot oil import 6 and cold oil export 7 all are located the same lateral wall of maintenance storehouse body. Facilitating the connection of the heating device with the hot oil inlet 6 and the cold oil outlet 7. In order to avoid the influence of the heat generated by the heating device on the temperature inside the curing warehouse, the heating device is arranged outside the curing warehouse.

As right the utility model discloses a further improvement, in intensification station storehouse 2, all be provided with mould conveyor on constant temperature station storehouse 3 and the cooling station storehouse 4, adjacent mould conveyor links up the mould conveying mechanism who forms into the maintenance storehouse in proper order, the both sides in every station storehouse all are provided with ground strutting arrangement 13 and arrange along the length direction in this station storehouse with all ground strutting arrangement 13 of one side, every station storehouse is furnished with actuating mechanism 14 all, it is connected with actuating mechanism 14 to have at least one ground strutting arrangement 13 in every station storehouse, actuating mechanism 14 forms into mould conveyor with the cooperation of ground strutting arrangement 13. Need not operating personnel and enter into the maintenance storehouse, utilize mould conveying mechanism to realize the mould in the maintenance storehouse between the adjacent station storehouse shift, mechanized operation, labour saving and time saving can improve production efficiency, can reduce the influence to the temperature in the maintenance storehouse simultaneously. When the length of the constant temperature station library 3 is an integral multiple of the length of the temperature rise station library 2, the number of the corresponding mold conveying devices is multiplied by the corresponding integer.

The maintenance warehouse also comprises a control device, a mold detection device is arranged in each station warehouse, the output end of the mold detection device is connected with the input end of the control device, and the output end of the control device is connected with the controlled end of the driving mechanism 14. The control device is a controller, the mold detection device is a photoelectric sensor, taking the length of the heating station library 2, the length of the constant temperature station library 3 and the length of the cooling station library 4 as an example, when the constant temperature station library 3 is in an empty state, the mold detection device in the constant temperature station library 3 outputs signals to the control device, when the temperature of the mold in the heating station library 2 is finished, the control device outputs signals to the driving mechanisms 14 of the heating station library 2 and the constant temperature station library 3 to enable the molds to operate, the driving mechanisms 14 are matched with the ground supporting device 13 to convey the molds 21 from the heating station library 2 to the constant temperature station library 3, when the molds reach the set position of the constant temperature station library 3, the mold detection device of the constant temperature station library 3 outputs signals to the control device, the control device outputs signals to the driving mechanisms 14 of the heating station library 2 and the constant temperature station library 3 to enable the molds to stop operating, the automatic conveying of the die from the previous station warehouse to the next station warehouse is completed, the mechanical operation is realized, and the time and the labor are saved.

The ground supporting devices 13 comprise supporting wheels erected on the support, and the supporting wheels of the two ground supporting devices 13 symmetrically arranged in the width direction of the curing warehouse are fixedly connected through a connecting shaft 15 which is coaxially arranged. The supporting wheels on two sides are connected together by the connecting shaft 15, so that the supporting wheels on two sides rotate synchronously, and the deviation of the die in the conveying process can be avoided.

The utility model discloses when specifically using to the length of constant temperature station storehouse 3 is the twice of intensification station storehouse 2 length for the example. The connection mode of the heat dissipation fins 5 in the warming station storage 2 is as shown in fig. 3, for the reason that four heat dissipation fins 5 are respectively arranged on the left side wall and the right side wall of the maintenance storage body, the top/bottom of one end of each heat dissipation fin 5 is provided with an inlet, the bottom/top of the other end of each heat dissipation fin 5 is provided with an outlet, the four heat dissipation fins 5 on the left side wall are respectively a left front upper fin, a left front lower fin, a left rear upper fin and a left rear lower fin, the four heat dissipation fins 5 on the right side wall are respectively a right front upper fin, a right front lower fin, a right rear upper fin and a right rear lower fin, the inlet at the top of the left rear upper fin is connected with the hot oil inlet 6, the outlet at the bottom of the left rear upper fin, the inlet at the top of the left rear lower fin, the outlet at the bottom of the left rear lower fin, the inlet at the bottom of the right rear lower fin, the outlet at the top of the right rear upper fin, the outlet, The inlet at the top of the right front lower sheet, the outlet at the bottom of the right front lower sheet, the inlet at the bottom of the left front lower sheet, the outlet at the top of the left front lower sheet, the inlet at the bottom of the left front upper sheet, the outlet at the top of the left front upper sheet and the cold oil outlet 7 are connected in sequence.

Assuming that eight heat dissipation fins 5 in the temperature-raising station library 2 are one heat dissipation unit, when the length of the constant-temperature station library 3 is twice the length of the temperature-raising station library 2, two heat dissipation units are arranged in the constant-temperature station library 3, that is, the number ratio of the heat dissipation units is equal to the length ratio of the two heat dissipation units, and the two heat dissipation units are arranged along the length direction, that is, the front-back direction, as shown in fig. 4. The connection mode between all the cooling fins 5 of each cooling unit in the constant temperature station library 3 is the same as that in the warming station library 2, and the difference is that an inlet at the top of a left upper back sheet of the cooling unit positioned at the rear is connected with a hot oil inlet 6, an outlet at the top of a left upper front sheet of the cooling unit positioned at the rear is connected with an inlet at the top of a left upper back sheet of the cooling unit positioned at the front, and an outlet at the top of a left upper front sheet of the cooling unit positioned at the front is connected with a cold oil outlet 7.

The utility model discloses utilize independent temperature control system to control the temperature in intensification station storehouse 2 and constant temperature station storehouse 3 respectively, the accuse temperature is more accurate, and intensification, heat preservation and cooling process are accomplished in the maintenance storehouse in addition, can not receive external environment's influence, can guarantee the quality of product better. The heat conducting medium of the curing warehouse adopts heat conducting oil, the heat conducting oil circularly flows between a heat conducting loop formed by serially connecting the radiating fins 5 and the heating device to play a role in heating and heat preservation of the curing warehouse, compared with steam heating, the heat conducting oil has higher heat efficiency, and the production cost of the foam composite board can be reduced.

Claims (7)

1. The utility model provides a maintenance storehouse of foam composite sheet production usefulness, includes maintenance storehouse body and sets up at this internal temperature control system of maintenance storehouse, its characterized in that: maintenance storehouse body inside separate into with the help of division door (1) and become along the intensification station storehouse (2) that length direction arranged in proper order, constant temperature station storehouse (3) and cooling station storehouse (4), all be provided with temperature control system in intensification station storehouse (2) and the constant temperature station storehouse (3), temperature control system is including fixing a set of hollow fin (5) on maintenance storehouse body lateral wall, all fin (5) establish ties and form the heat conduction return circuit, the one end in heat conduction return circuit is connected with hot oil import (6), the other end is connected with cold oil export (7).

2. The curing barn for producing the foam composite board according to claim 1, wherein the curing barn comprises: maintenance storehouse body include braced frame (8), fix a set of heated board (9) on braced frame (8), set up entering storehouse door (10) at braced frame (8) entrance point, and set up exit door (11) at braced frame (8) exit end, be provided with the sealing layer between adjacent heated board (9), fin (5) are fixed at heated board (9) inboard or are inlayed inside heated board (9), enter storehouse door (10), exit door (11) and division door (1) have the lift degree of freedom with the help of electric block (12) that set up in its top respectively, electric block (12) and braced frame (8) fixed connection.

3. The curing barn for producing the foam composite board according to claim 1, wherein the curing barn comprises: the hot oil inlet (6) and the cold oil outlet (7) of each heat conduction loop are positioned on the same side wall of the curing warehouse body.

4. The curing barn for producing the foam composite board according to claim 1, wherein the curing barn comprises: all be provided with mould conveyor on intensification station storehouse (2), constant temperature station storehouse (3) and cooling station storehouse (4), adjacent mould conveyor links up in proper order and forms the mould conveying mechanism of maintenance storehouse, the both sides of every station storehouse all are provided with ground strutting arrangement (13) and arrange along the length direction in this station storehouse with all ground strutting arrangement (13) of one side, every station storehouse all is furnished with actuating mechanism (14), it is connected with actuating mechanism (14) to have at least one ground strutting arrangement (13) in every station storehouse, actuating mechanism (14) and ground strutting arrangement (13) cooperation form into mould conveyor.

5. A curing store for foam composite board production according to claim 4, wherein: the maintenance warehouse also comprises a control device, a mold detection device is arranged in each station warehouse, the output end of the mold detection device is connected with the input end of the control device, and the output end of the control device is connected with the controlled end of the driving mechanism (14).

6. A curing store for foam composite board production according to claim 4, wherein: the ground supporting devices (13) comprise supporting wheels erected on the support, and the supporting wheels of the two ground supporting devices (13) symmetrically arranged in the width direction of the curing warehouse are fixedly connected through a connecting shaft (15) which is coaxially arranged.

7. The curing barn for producing the foam composite board according to claim 1, wherein the curing barn comprises: the length of the constant-temperature station library (3) is N times of the length of the temperature-increasing station library (2), N is not less than 1 and is an integer, and the length of the temperature-increasing station library (2) is equal to that of the temperature-reducing station library (4).

Images