CN202781415U

CN202781415U - Cement maintenance box

Info

Publication number: CN202781415U
Application number: CN 201220398611
Authority: CN
Inventors: 张金根
Original assignee: WUJIANG WSD WATERPROOF BUILDING MATERIAL CO Ltd
Current assignee: WUJIANG WSD WATERPROOF BUILDING MATERIAL CO Ltd
Priority date: 2012-08-13
Filing date: 2012-08-13
Publication date: 2013-03-13
Anticipated expiration: 2022-08-13

Abstract

The utility model provides a cement maintenance box which comprises a main box body, wherein the main box body is provided with an heat insulation outer shell, and a humidification device and a humidity sensor coupled with the humidification device are arranged in an inner cavity of the main box body. A heat preservation water tank is further arranged on the outer portion of the main box body, and an electric heat pipe is arranged in the main box body. A guide pipe communicated with water in the water tank is arranged at the bottom of the heat preservation water tank. The guide pipe extends on the surface of the inner cavity of the main box body in a zigzag mode, and is connected with a flow limit device in a series mode. The flow limit device is used for controlling hot water flow in the guide pipe, and is coupled with a temperature sensor in the inner cavity of the main box body. The cement maintenance box not only enables the environment of the inner cavity to be evenly heated to improve the environmental simulation effect, but also is low in cost.

Description

Cement protecting box

Technical field

The utility model relates to the building building cement care equipment field, particularly, is a kind of cement protecting box with heating function.

Background technology

In civil engineering test field, need to detect various engineering material test blocks, observe its physicochemical characteristics, whether reach standard, this process is carried out in cement protecting box usually; In cement protecting box, casing makes inner chamber and external environment isolated, be provided with heater and damping device in the casing, in inner chamber, to simulate the environment that meets test request, and this kind environment is kept for a long time, allow test specimen continuously maintenance tens hours in inner chamber, and then observe the test specimen situation.

The heater that present cement protecting box uses generally is installed in the inner chamber, consisted of by heat-generating pipe or heating wire, owing to limited by the shape restriction of heat-generating pipe and the Electrothermal Properties of heating wire, in order to save the curing box cost, usually can only make heat-generating pipe or heating wire be arranged in the part of curing box inner chamber, therefore, at adstante febre, the curing box internal environment can not homogeneous heating, so the environmental simulation effect is short of to some extent; And, in the curing box inner chamber, arrange pyrotoxin, because pyrotoxin is electrical body, and humid environment in the inner chamber, easily electric leakage needs it is taked complicated protection structural measure, and cost is larger.

Summary of the invention

For the problems referred to above, the purpose of this utility model is to provide a kind of cement protecting box, and this cement protecting box not only can make the environment homogeneous heating in the inner chamber, and with raising environmental simulation effect, and cost is lower.

The technical scheme that its technical problem that solves the utility model adopts is: this cement protecting box comprises main box, and described main box has lagging casing; The humidity sensor that is provided with damping device in the inner chamber of described main box and is coupled with damping device; Described main box outside also is provided with an attemperater, is provided with electrothermal tube in it, and the conduit of water body in the joining water box is drawn in described attemperater bottom, and described conduit wriggles and extends each surface of described main box inner chamber; Be serially connected with the current-limiting apparatus of hot water flow in the control conduit in the described conduit, this current-limiting apparatus is coupled with the temperature sensor of being located in the described main box inner chamber.

As preferably, described conduit is located at described main box inner cavity and is divided into metal tube, and stretching out the main box inner chamber and passing into described attemperater partly is the pe pipe, conducts to suppress directly to carry out heat by conduit between attemperater and the main box inner chamber.

Described conduit has two kinds of optimal ways, and one, described conduit are the blister copper pipe, diameter is 8mm-16mm, forms the single channel extended structure between described attemperater and main box, and namely the top of described conduit is communicated with described attemperater, end is in the described main box inner chamber, is a blind end; At this moment, described current-limiting apparatus is an automatically controlled on-off valve; Its two, described conduit is thin copper pipe, diameter is 3mm-7mm, forms a loop structure between described attemperater and main box, at this moment, described current-limiting apparatus is a circulating pump; As the improvement of circulating pump, can be provided with an on-off switch with the circulating pump synchronous opening/closing in this circulating pump.

As preferably, respectively the closing on part of described conduit in described main box inner chamber connect by fin, to promote heat radiation.

The beneficial effects of the utility model are: this cement protecting box in use, can heat the water body in the attemperater first, make it remain on a higher temperature, because the specific heat capacity of water body is larger, can store larger heat, and by described conduit with heat delivery to main box; Because conduit is distributed in each surface of main box inner chamber, therefore can make the environment homogeneous heating in the inner chamber, to improve the environmental simulation effect; When temperature reaches predetermined temperature in the main box inner chamber, by hot water flow in the described current-limiting apparatus restricted conduit, can limit heating.

Description of drawings

Fig. 1 is the schematic diagram of this cement protecting box embodiment one;

Fig. 2 is the schematic diagram of this cement protecting box embodiment two.

Among the figure 1, main box; 2, attemperater; 3, conduit; 4, automatically controlled on-off valve; 5, temperature sensor; 6, circulating pump; 21, electrothermal tube.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is further specified:

In embodiment shown in Figure 1, this cement protecting box comprises main box 1, and described main box 1 has lagging casing; The humidity sensor that is provided with damping device in the inner chamber of described main box 1 and is coupled with damping device (the non-improvement part of this part, not shown); Described main box 1 outside also is provided with an attemperater 2, be provided with electrothermal tube 21 in it, the conduit 3 of water body in the joining water box is drawn in described attemperater 2 bottoms, described conduit 3 wriggles and extends each surface (in schematic diagram shown in Figure 1, only illustrating the catheter segment in main box 1 inner chamber) of described main box 1 inner chamber; In the present embodiment, described conduit 3 is the blister copper pipe, and diameter is 8mm-16mm, between described attemperater 2 and main box 1, form the single channel extended structure, the top that is described conduit 3 is communicated with described attemperater 2, and end is in described main box 1 inner chamber, is a blind end; Be serially connected with the automatically controlled on-off valve 4 of control conduit 3 interior hot water flows in the described conduit 3, this automatically controlled on-off valve 4 is coupled with the temperature sensor 5 of being located in described main box 1 inner chamber, when the temperature that senses main box 1 inner chamber when temperature sensor 5 does not reach preset temperature, automatically controlled on-off valve 4 is opened, otherwise closed automatically controlled on-off valve 4; When automatically controlled on-off valve 4 is opened because conduit 3 is thicker, the water body in the attemperater 2 will with main box 1 in conduit 3 in water body convection current occurs fast, thereby heat is evenly diffused in the main box 1.

Described conduit 3 is located at described main box 1 inner cavity and is divided into metal tube, can be copper pipe or aluminum pipe, stretching out main box 1 inner chamber and passing into described attemperater 2 parts is the pe pipe, to suppress directly to carry out the heat conduction by conduit 3 between attemperater 2 and main box 1 inner chamber; Respectively the close on part of described conduit 3 in described main box 1 inner chamber connect by fin (not shown), to promote heat radiation.

Above-mentioned cement protecting box can be first heat the water bodys in the attemperater 2 in use, makes it remain on a higher temperature, because the specific heat capacity of water body is larger, can store larger heat, and by described conduit 3 with heat delivery to main box 1; Because conduit 3 is distributed in each surface of main box 1 inner chamber, therefore can make the environment homogeneous heating in the inner chamber, to improve the environmental simulation effect; When temperature reaches predetermined temperature in main box 1 inner chamber, by described automatically controlled on-off valve 4 restricted conduit 3 interior hot water flows, can limit heating.

Figure 2 shows that the embodiment two of this cement protecting box, in this embodiment, mainly be conduit 3 parts with the difference of embodiment one, here, described conduit 3 is thin copper pipe, diameter is 3mm-7mm, between described attemperater 2 and main box 1, form a loop structure, at this moment, adopt an automatically controlled on-off valve in circulating pump 6 alternate embodiments one, by the hot water flow in these circulating pump 6 control conduits 3, its mechanism is: when the temperature in sensor 5 senses main box 1 does not reach preset temperature, start described circulating pump 6 operations, make hot water continuously in conduit 3 interior circulations, thereby fast heat is evenly diffused in the main box 1, otherwise close described circulating pump 6; When circulating pump 6 cuts out because described conduit 3 diameters are very little, so capacity of heat transmission a little less than, substantially not with main box 1 interior generation heat exchange; As improvement, can make this circulating pump 6 carry an on-off valve, this on-off valve and circulating pump 6 synchronous opening/closings, thus when circulating pump 6 cuts out, further cut off the closed circuit of conduit 3.

The above only is preferred embodiment of the present utility model, and is in order to limit the utility model, not all within spirit of the present utility model and principle, any modification of doing, is equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims

1. a cement protecting box comprises main box (1), and described main box (1) has lagging casing; The humidity sensor that is provided with damping device and is coupled with damping device in the inner chamber of described main box (1), it is characterized in that: described main box (1) outside also is provided with an attemperater (2), be provided with electrothermal tube (21) in it, the conduit (3) of water body in the joining water box is drawn in described attemperater (2) bottom, and described conduit (3) wriggles and extends each surface of described main box (1) inner chamber; Be serially connected with the current-limiting apparatus of hot water flow in the control conduit in the described conduit (3), this current-limiting apparatus is coupled with the temperature sensor (5) of being located in described main box (1) inner chamber.

2. cement protecting box according to claim 1, it is characterized in that: described conduit (3) is located at described main box (1) inner cavity and is divided into metal tube, stretches out main box (1) inner chamber and passes into described attemperater (2) part and manage for pe.

3. cement protecting box according to claim 1 and 2, it is characterized in that: described conduit (3) is the blister copper pipe, diameter is 8mm-16mm, between described attemperater (2) and main box (1), form the single channel extended structure, the top that is described conduit (3) is communicated with described attemperater (2), end is in described main box (1) inner chamber, is a blind end; Described current-limiting apparatus is an automatically controlled on-off valve (4).

4. cement protecting box according to claim 1 and 2, it is characterized in that: described conduit (3) is thin copper pipe, diameter is 3mm-7mm, forms a loop structure between described attemperater (2) and main box (1), and described current-limiting apparatus is a circulating pump (6).

5. cement protecting box according to claim 4 is characterized in that: be provided with an on-off switch with the circulating pump synchronous opening/closing in this circulating pump (6).

6. cement protecting box according to claim 3 is characterized in that: respectively the closing on part of described conduit (3) in described main box (1) inner chamber connect by fin.

7. cement protecting box according to claim 4 is characterized in that: respectively the closing on part of described conduit (3) in described main box (1) inner chamber connect by fin.