RU2495212C1 - Sliding forms - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: sliding forms comprising jacking frames, including stands connected to each other by crossbars, on which jacks are fixed with jacking rods, shields installed on form beams, additionally it comprises support beams installed horizontally and in parallel to the shields and hingedly fixed on stands of the jacking frames. On the support beams there are brackets installed as capable of longitudinal and transverse displacement and equipped with infrared radiators.

EFFECT: provision of even heating of concrete.

1 dwg

Description

The invention relates to the field of construction and can be used in the construction of vertical structures from monolithic reinforced concrete.

The construction of high-rise buildings and structures with a minimum number of openings and embedded parts is most effective in sliding formwork. The construction of monolithic reinforced concrete buildings and structures in the climatic conditions of Russia is associated with the need for heat treatment of concrete to provide conditions for hardening and curing. This is especially important during periods of the year with outdoor temperatures below + 5 ° C.

A technical solution is known for sliding formwork, consisting of jack frames, hydraulic jacks, shields, scaffolds and suspended external thermoactive elements coated with hydrophobic panels (French Patent No. 1536338, E04D 9/10, 1967).

The disadvantage of this technical solution is the damage to hydrophobic panels and thermoactive elements. There is a need to stop the sliding formwork, which leads to reduced productivity.

The prototype of the claimed technical solution is a sliding formwork, consisting of jack frames with jacks, shields mounted on jack frames of cylindrical hollow channel formers, in which thermoactive elements are movably mounted, and channel formers are connected to jack frames using horizontal telescopic beams. (Sliding formwork. USSR AS No. 754026, E04G 11/12, 1980).

The disadvantage of the prototype is that the placement of thermoactive elements in hollow channel formers connected to jack frames by means of horizontal telescopic beams does not provide uniform heating of concrete in the formwork, since the thermoactive elements are installed not close to each other, but at some distance between each other. In the immediate vicinity of the thermosetting element, the temperature is much higher than at a certain distance from it. As you move away from the thermoactive element, the temperature effect on concrete decreases, reaching a minimum value in the middle of the distance between adjacent thermoactive elements. Uneven heating creates different conditions for chemical reactions in concrete of the same structure. As a result of such heat treatment, concrete unevenly gains strength, which leads to increased cracking in the walls of a finished or already in operation structure.

The technical result is to ensure uniform heating of concrete.

The technical result is achieved in that the sliding formwork containing jack frames, including racks interconnected by crossbars, on which jacks are fixed with jack rods, boards installed on formwork beams, further comprises support beams mounted horizontally and parallel to the boards and pivotally mounted on racks of jack frames, and on the support beams mounted with the possibility of longitudinal and transverse movement of the brackets equipped with infrared emitters.

Support beams are necessary for mounting brackets on them, equipped with infrared emitters (thermoactive elements).

The support beams are pivotally mounted on the racks of the jack frames. When moving the sliding formwork, some distortions always form, as a result of which deformation or destruction of the support beams is possible, despite the operation of the control and regulation of the vertical lift. If the support beams are fixed rigidly (on welding), then due to distortions of the formwork during its lifting, additional forces may appear in them under the action of additional loads caused by the redistribution of forces due to distortions.

The support beams are installed horizontally and parallel to the formwork panels, which allows for the movement of the brackets with infrared emitters along the formwork panels to install them to the place of heating. The support beams are equipped with clamps on which brackets are mounted with installed infrared emitters.

Support beams are installed on both sides of the structure being constructed, which allows for efficient heat treatment of concrete by means of heat radiation from thermoactive elements (infrared emitters) mounted on brackets.

The brackets are mounted on the support beams with the ability to move along and across the boards. Moving along the boards is necessary for installing infrared emitters to the place of concrete heating. The number of infrared emitters depends on the area of the heated concrete in order to ensure uniform heat treatment. The emitters are mounted on brackets that can be moved across the formwork panels to provide a change in the intensity of heating of the concrete surface area.

Infrared emitters are designed to heat the laid concrete. Concrete is heated through the formwork panels. On the irradiated surface of the formwork panel or on the surface of concrete, the absorbed infrared energy is converted into thermal energy. Due to the property of thermal conductivity of the formwork shield, thermal energy is distributed deep into the heated concrete.

Infrared emitters are installed on the outer and inner sides of the reinforced concrete structure being constructed. This allows you to provide effective heat treatment of concrete simultaneously with its laying and hardening in a sliding formwork.

Infrared emitters are mounted on brackets mounted on the support beams by means of clamps, so that it is possible to move them along the support beams and across the formwork panels.

For heating concrete coming out from under the formwork panels, it is provided that infrared emitters are fixed by means of clamps and brackets on racks installed on internal and external suspended scaffolds.

Figure 1 presents a drawing of one of the jack frames included in the set of sliding formwork.

The sliding formwork consists of a jack frame containing racks 1 connected to each other in the upper part by the bolt 2. On the bolt 2 there is a jack 3 through which the jack rod 4 is passed. The formwork beams 5 are mounted on the racks 1 of the jack frame, on which the formwork panels 6 are fixed. . The formwork beams 5 are installed on racks 1 in two tiers along the height of the boards 6. On the formwork beams 5 a working floor is installed 7. To the racks 1 on the suspensions 8 are fixed internal scaffolds 9 and external scaffolds 10. On the racks 1 parallel to the shields 6, support beams 11 are installed, on which brackets 13 are fixed by means of clamps 12. Infrared emitters 14 are mounted on brackets 13.

Sliding formwork works as follows.

When erecting a monolithic reinforced concrete structure, the formwork is lifted using jacks 3 installed on the crossbars of 2 jack frames. The jacks 3 are supported by jack rods 4 and lift the entire complex of sliding formwork, during the movement of which reinforcement is installed between the shields 6 and the concrete is laid. The movement speed of the formwork corresponds to the rate of hardening of concrete. On the racks 1 of the jack frames, formwork beams 5 are installed, on which formwork panels 6 are fixed. Work deck 7 is installed on shuttering beams 5. Internal scaffolds 9 and outer scaffolds 10 are fixed to the racks 1 of the jack frames by means of suspensions 8, intended for non-destructive testing of the strength and quality of concrete, as well as for eliminating minor defects in concrete leaving the formwork. On the racks 1 of the jack frames, support beams 11 are installed, provided with clamps 12. On the support beams 11 by means of clamps 12, brackets 13 with infrared emitters 14 are installed. Infrared emitters 14 are installed so that the radiation is directed to the formwork panels 6 (if the panels are metal) or to concrete coming out from under the shields 6 (if the shields are wooden or wood-metal). The distance from the infrared emitters 14 to the heated surface is established by moving the brackets 13 perpendicular to the heated surface. Infrared rays on the surface of the shield 6 are converted into thermal energy, which, thanks to the thermal conductivity of the shields, is transferred to the thickness of the hardening concrete. If the shields 6 are made of wood or wood-metal, it is advisable to direct infrared rays onto concrete coming out from under the shields 6 of the formwork. Infrared emitters 14 mounted on the outer and inner sides of the sliding formwork uniformly heat concrete throughout its thickness. The temperature of the heated concrete is regulated by changing the distance from the infrared emitters to the irradiated surface, as well as by changing the amount of energy supply - natural gas or electric energy, depending on the type of infrared emitters used.

The combination of new elements allows to increase the thermal effect on concrete and its uniform heating. This allows you to significantly increase the efficiency of concrete work in the cold winter period during the construction of monolithic reinforced concrete structures, for example, silos, stiffness cores, elevator shafts, etc.

Claims (1)

Sliding formwork comprising jack frames including racks interconnected by girders, on which jacks are fixed with jack rods, boards installed on formwork beams, characterized in that the formwork further comprises support beams mounted horizontally and parallel to the boards and pivotally mounted on the stands jack frames, and on the support beams mounted with the possibility of longitudinal and transverse movement of the brackets equipped with infrared emitters.

Images