KR100526926B1 - Apparatus for manufacturing prestressed concrete structure - Google Patents

Abstract

The present invention can impose stress on the tension material safely and appropriately, and at the same time, it has a general purpose that the mold can be appropriately combined in response to the construction objects of various dimensions or shapes at construction sites or factories, and has excellent workability and maintainability. It is to provide an apparatus for producing a prestressed concrete structure. Apparatus 10 for manufacturing prestressed concrete structure in which tension material B imposed with tension between a pair of chuck dies 11 and 12 arranged in parallel is laid, and raw concrete is injected and cured between these dies. As a result, a pair of reaction force beam members 13a to 13h, which are laid so as to be assembled between the chuck dies 11 and 12, and the tip of the telescopic cylinder shaft are in contact with the chuck dies 11 and 12. It is composed of having a jack member 14 provided to be attached to and detached from the base end of the reaction force beam members (13a to 13h) through the jack receiving member (14a).

Description

Apparatus for manufacturing prestressed concrete structure

The present invention relates to an apparatus for producing a concrete structure excellent in workability and safety for producing a prestressed concrete structure.

In recent years, in civil engineering and architectural engineering, there are many problems such as measures to secure human resources due to the aging of the employed and the reduction of skilled workers. Against this backdrop, the increase in size and precast prefabrication of secondary concrete products is underway, and the development of new technologies is required due to the reduction of labor force, shortening of air, high quality, and improvement of safety.

On the other hand, concrete has a strong compressive force but extremely weak against tensile force. Therefore, prestressed concrete is applied to the portion where the tensile force is generated in advance, and the gap is not generated. This prestressed concrete structure has the following advantages.

(1) Durability can be greatly increased by design using high strength concrete [design strength 50.0 N / mm2].

(2) Because of its high elasticity and strong resilience, the resistance to impact loads and cyclic loads can be increased.

(3) Since the compressive strength of concrete can be effectively used, the cross-sectional area of the member can be made smaller than that of reinforced concrete, making the product lighter and facilitating foundation work.

Regarding such a manufacturing apparatus for manufacturing such a prestressed concrete structure, the thing of the following technique is disclosed, for example.

In Patent Document 1 (Japanese Patent Laid-Open No. Hei 8-270072), in a beam-used prestressed frame in which reinforcing bars are arranged in the longitudinal direction of a beam-using frame and a prestress is introduced into the reinforcing bars, After arranging the beam reinforcement, lift the beam prestressed frame from the bottom of the beam reinforcement, and support only the vicinity of both ends of the beam prestressed frame from below while the beam reinforcement is accommodated in the beam prestressed frame. The construction method of the beam which fixed and cast concrete in the beam using prestressed frame is described.

Patent document 2 (Japanese Patent Laid-Open No. 11-79700) discloses a tension jack for introducing prestress into concrete in a post-tensioning manner, having a through hole along a ram axis, and having a diameter expansion portion for accommodating a fixture of a PC tension member. Tension jacks are described that are intended to form in part of the ball.

Patent Document 3 (Japanese Patent Laid-Open No. 2001-295412) discloses a split construction grout cap consisting of a cylinder having one end side opened to surround a fixing portion for a tension member, wherein the grout material injection means, the tension member insertion hole, The grout cap for splitting construction which provided the filling means which fills a clearance gap after inserting a tension material into this tension material insertion hole, and the fixing means which fixes this cylinder to a fixing part is provided.

However, the prior art has the following problems.

(a) In the technique described in Patent Literatures 1 to 3, when the stress is applied to the tension member using a jack or the like, the mold itself supporting the whole is distorted, and the position where the jack is in contact with the construction position is shifted. There was a problem that this lacking and imparting a proper and uniform stress to the tension material.

(b) Since the prestressed concrete structure cannot be constructed by properly combining the molds, there is a problem in that the prestressed concrete structure of various dimensions and shapes cannot be efficiently constructed at the process site or the factory.

(c) In particular, in the tension jack described in Patent Document 2, since the through hole into which the tension material is inserted is formed in the ram shaft, there is a problem that the structure becomes complicated and the workability and maintainability of the prestressed concrete structure are lacking.

(d) In the patent document 3, since the grout material injection means is provided in the cylinder whose one end side was opened so that the fixing part for tension materials may be opened, injection positions, such as raw concrete, are limited, and it lacks versatility. There has been a problem that it is difficult to cope with various types of constructions such as roads, bridges and channel covers.

An object of the present invention is to solve the problems of the prior art, it is possible to impose a stress on the tension material safely and appropriately, and at the construction site or factory, etc. SUMMARY OF THE INVENTION An object of the present invention is to provide a prestressed concrete structure manufacturing apparatus having a general purpose that can be appropriately combined and excellent in workability and maintainability.

(1) In the apparatus for producing prestressed concrete structures of the present invention, which solves the above-mentioned conventional problems, a tension member imparted with tension between a pair of chuck dies arranged in parallel is laid at the same time, and between these dies. An apparatus for producing prestressed concrete structural material in which raw concrete is injected and cured, comprising: a pair of reaction force beam members laid so as to be assembled between the chuck dies, and a jack so that the tip of the elastic cylinder shaft is in contact with the chuck dies. And a jack member installed to be detachable from the base end of the reaction force beam member through the receiving member. As a result, each of the chuck dies, reaction force beam members, and jack members constituting the prestressed concrete structure manufacturing apparatus can be disassembled and transported to a construction site, and the construction of the prestressed concrete structure can be efficiently performed. .

(2) The present invention provides the above-mentioned (1), wherein one end is pivotally supported by the jack receiving member, and the other end side being pivoted is coupled to a guide groove formed in the chuck die to extend and contract the cylinder shaft. It characterized in that it comprises a guide member which is maintained to be able to slide. By this guide member, it becomes easy to apply a slide in the stable state to the tension material installed between chuck dies, and can carry out site construction safely and efficiently.

The present invention provides the above (1) or (2), wherein the reaction force beam members are composed of a plurality of split beam members set to a predetermined length, and the split beam members are combined to be combined to set the full length. It features. As a result, it is easy to combine the molds appropriately in response to the construction bodies of various dimensions and shapes at the construction site and the like, and the workability and maintainability at the civil construction site can be further improved.

(4) The present invention is characterized in that in the above (1) to (3), a slide member is provided on the lower end surface of the chuck die to reduce the adhesive resistance with the ground. In this way, the operation of stretching the cylinder shafts of the jack members disposed on the left and right sides of the construction body can be performed smoothly, stress can be applied equally to the left and right, and a prestressed concrete structure having excellent quality stability can be produced. .

(5) In the present invention (1) to (4), the jack receiving member may be arranged so that the jack receiving member can be attached and detached to the base end of the beam member. As a result, the detachment of the reaction force beam member and the manipulation of the combination setting can be facilitated, and the productivity at the time of manufacturing the prestressed concrete structure can be improved.

(6) The present invention provides the above-mentioned (1) to (5), wherein the reaction force beam members are formed in a circular or rectangular cross section, and the plurality of reaction force beam members are multi-stage coupled in the vertical direction through the beam coupling member. Has characteristics. In this way, the prestressed concrete structure can be efficiently manufactured by setting the predetermined number of stages depending on the size of the construction body and the size of the load on the tension member.

(7) In the present invention (1) to (6), the level adjusting member for adjusting the height with the ground may be provided on the lower end surface side of the beam coupling member. As a result, even when there are steps or irregularities in the foundation or ground for manufacturing the prestressed concrete structure, it may be easy to keep the construction in a horizontal state. Prestressed concrete spheres can be prepared.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a plan view of a manufacturing apparatus for a prestressed concrete structure according to an embodiment of the present invention, FIG. 2 is a front view thereof, and FIG. 3 is an enlarged perspective view of the main portion thereof.

1 to 3, reference numeral 10 denotes an apparatus for manufacturing the prestressed concrete structure according to the first embodiment, and 11 and 12, a raw concrete construction body A poured therein is disposed through a mold and the like A pair of chuck dies 13a to 13d and 13e to 13h on which the back tension material B is laid are combined with two upper and lower stages between the chuck dies 11 and 12, respectively. (Split beam member), 14 is a jack member in which the tip of the cylinder shaft 14b, which is installed at the left and right proximal ends of the reaction force beam members 13a to 13d via the jack receiving member 14a, is in contact with the enemy die 12. , 15 is supported by the shaft portion 14c of the jack receiving member 14a so that one end side thereof can be rotated, and the other end side thereof can slide in engagement with the guide groove 12a formed in the chuck die 12. Each rod-shaped guide member to be held, 16 is a guide coupled to the guide groove (12a) Guide member engaging portion 17 for holding the front end side of the material 15 to be slidable or fixed through the bolt 16a, 17 is smooth to reduce contact resistance with the ground on the bottom surface of the chuck die 12. A flat slide member having a surface, 18 is a beam coupling member for coupling in two stages up and down, and 19 is a flange member provided on its proximal side for connecting all reaction force beam members 13a to 13h in its longitudinal direction. .

The chuck dies 11 and 12 are formed by stacking a plurality of steel plates 12b having a substantially rectangular band shape, for example, as shown in FIG. 3, and are formed by a space member 12c or the like between the steel plates 12b. Gaps are formed. This reduces the weight of the chuck dies 11 and 12 and increases the rigidity against the axial pressure from the transverse direction. And the tension material B is inserted in the space | interval of these steel plates 12b, The both ends side is fixed to the chuck dies 11 and 12 via the tension material hanger D, and the distance between the chuck dies 11 and 12 is carried out. By elongating, the predetermined tension is imposed on the tension member B.

The reaction force beam members 13a to 13h each have a rectangular cross section of about 400 × 400 mm, and are, for example, cylindrical or columnar bodies of 10 m and about 5 m in length, and steel or concrete materials may be applied. Moreover, as a reaction force beam member, what has a square cross section, an H type cross section, etc. can be applied. In this way, the reaction force beam members having different lengths are prepared, and these are connected to each other through the joining member, and the electric field can be applied to the manufacturing apparatus 10 of the prestressed concrete structure by using the predetermined length.

The jack member 14 may be applied by hydraulically or mechanically driving the cylinder shaft 14b. The jack member 14 is provided so that attachment or detachment is possible through the jack accommodating member 14a couple | bonded with at least one edge part of reaction force beam members 13a-13d or reaction force beam members 13a-13h. Moreover, load cells, strain gauges, etc. can be provided in reaction force beam members 13a-13h arrange | positioned at the both sides of the raw concrete construction body A, respectively. By this, the magnitude of reaction force applied through the jack member 14 may be measured, respectively, and the reaction force may be applied equally to the left and right.

The guide member 15 is supported at its proximal end by the shaft portion 14c of the jack receiving member 14a provided to be detachably attached to the end portions of the reaction force beam members 13a to 13d. On the other hand, the other end side rotated of the guide member 15 is coupled to be able to slide in the guide groove 12a formed between the steel plates 12b of the chuck die 12. Moreover, the guide member engaging portion 16 for holding the tip of the guide member 15 coupled to the guide groove 12a in a slidable state is provided to be detachable through the bolt 16a. As a result, the operation of advancing and retracting the cylinder shaft 14b to adjust the distance between the chuck dies 11 and 12 can be performed stably and safely.

The slide member 17 located on the installation surface, such as the ground on which the chuck die 12 is placed, is a smooth member such as a steel plate or a stainless steel plate, or a member having a wheel or the like. In this way, the movement of the chuck die 12 when the jack member 14 is operated is performed smoothly.

The beam coupling member 18 is a member such as a force for inserting the reaction force beam members 13a to 13h and joining them in two stages up and down, and thus the size of the living concrete member A and the tension member B In response to the magnitude of the tension force applied to the construction of the prestressed concrete structure, a plurality of reaction force beam members 13a to 13h can be combined and maintained stably.

As shown in Fig. 4, the beam coupling member 18 is configured to engage the reaction force beam members 13a, 13b and the like in a state of being arranged in two stages up and down, and on the side of the mounting surface of the beam coupling member 18. The engagement hole 18a is provided with the level adjustment member 18c provided so that the height with the ground can be set through the bolt 18b etc., and the engaging hole 18d for catching the catch wire.

Thus, since the leveling member 18c is provided in the beam coupling member 18, even at the construction site, such as a river bank and concentration, setting conditions of a concrete construction body are easily performed according to the construction conditions, Productivity is excellent.

The flange member 19 is provided at the end of the reaction force beam members 13a to 13h as shown in FIG. 5, and the reaction force beam members 13a to 13h connect the nut 20 or the bolt 21 to the flange member ( 19 may be inserted into or fastened to the fastening hole (19a) formed.

Moreover, the chuck dies 11 and 12, the jack member 14, the jack accommodating member 14a, etc. are also comprised so that each may be easily disassembled and assembled.

Moreover, the reaction force beam members 13a to 13h are not limited to the cylindrical shape such as the cylindrical shape or the rectangular cylindrical shape, and may be a solid shaft body, or else H-shaped steel having an H-shaped cross section as shown in FIG. 13i) and steel materials having a c-shaped cross section, etc., can be combined and applied as necessary, and the mold having excellent rigidity can be reduced in weight by this.

Then, the usage method of the manufacturing apparatus 10 of the prestressed concrete structure of the state comprised as mentioned above is demonstrated.

First, as illustrated in FIG. 7, the apparatus 10 for manufacturing a prestressed concrete structure in a disassembled state is transported to a construction site by a tractor or the like.

The manufacturing apparatus 10 of a prestressed concrete structure can be set suitably by combining all the reaction force beam members 13a-13h. That is, the apparatus 10 for manufacturing the prestressed concrete structure may use a combination of long and short reaction force beam members 13a to 13h as shown in FIG. 1 and the like, and as shown in FIG. 8, reaction force of the same length. It may also consist of only the beam members 13a-13d.

Therefore, it is easy to combine the mold suitably according to the construction form in such a construction site, and the constructability and productivity in civil construction work become high.

Here, as shown in FIG. 1, the mold of the raw concrete construction body A is placed on the construction base C, and the chuck dies 11 and 12 and the long and short 2 are respectively located on both sides of the construction base C. The reaction force beam members 13a to 13h (split beam members) of various lengths are provided in combination.

At this time, an end portion of at least one of the chuck dies 11 and 12 of the reaction force beam members 13a and 13b is mounted and fixed to the engaging portion of the jack receiving member 14a.

Next, both ends of the tension member B are laid to the left and right chuck dies 11 and 12 through the tension member hooks.

The distance between the chuck dies 11 and 12 is extended by extending the cylinder shaft 14b of the paired jack member 14 while maintaining the illustrated tension member B. At this time, since the chuck die 12 is placed on the ground via the slide member 17, the jack member 14 can be operated smoothly.

As described above, after the cylinder shaft 14b is extended and a predetermined stress is applied to the tension member B, in this state, the raw concrete is poured into the mold of the raw concrete member A and cured, Fabricate prestressed prestressed concrete structures. Next, the prestressed concrete structure is dismantled as shown in FIG. 7, and the disassembled members are compactly received and transported to a construction site by a tractor or the like.

Thus, according to the manufacturing apparatus 10 of the prestressed concrete structure which concerns on embodiment, since it is comprised so that each member may be divided | divided, it can use in combination according to the installation conditions, such as a factory or a construction site, and these things The decomposed member can be compactly accommodated and easily transported, so that handling and maneuverability in construction are excellent.

In addition, since the guide member 15 is provided when stress is applied to the tension member B laid between the chuck dies 11 and 12, a prestressed concrete structure having excellent quality stability and safety can be manufactured. Moreover, since the slide member 17 which reduces the contact resistance with the ground is arrange | positioned at the chuck die 12, the telescopic operation of the jack member 14 arrange | positioned at the both left and right sides of the raw concrete construction body A is smoothly performed. This can be done, and the left and right equal stress can be imposed on the tension member (B).

Since the multiplicity of splittable reaction force beam members 13a to 13h are multi-stage coupled in the vertical direction through the beam coupling member 18, the reaction force beam members 13a to 13h are the size of the construction body or the magnitude of the load on the tension member B. In response to the predetermined number of stages, the prestressed concrete structure can be efficiently produced.

According to the invention according to claim 2, each chuck die, reaction force beam member, jack member constituting the manufacturing apparatus can be disassembled and transported to a construction site, and the like can be assembled in a predetermined arrangement according to the construction conditions of the construction site. The construction of the prestressed concrete structure can be performed efficiently. Therefore, the manufacturing apparatus of the prestressed concrete structure excellent in versatility and workability can be provided.

Moreover, according to invention of Claim 2, since the guide member is provided, it becomes easy to apply stress to the tension material which is laid between chuck dies in a stable state, and can carry out site construction safely and efficiently.

delete

According to the invention according to claim 4, the prestressed concrete structure which can smoothly perform the operation of stretching the cylinder shafts of the jack members arranged on both the left and right sides of the construction body, can stress the left and right equally, and has excellent quality stability. Can be prepared.

According to the invention as claimed in claim 5, the conditions for attaching and detaching the reaction force beam members or setting the combination can be facilitated, and the productivity in manufacturing the prestressed concrete structure can be improved.

According to the invention as claimed in claim 6, it is easy to appropriately combine the molds corresponding to the construction bodies of various dimensions and shapes at construction sites and the like, and the workability and maintainability in civil construction work can be further improved. In addition, the prestressed concrete structure can be manufactured by setting the predetermined number of stages depending on the size of the construction body and the load of the tension member.

According to the invention of claim 7, even when there are steps or irregularities in the foundation or ground for producing the prestressed concrete structure, it is easy to keep the construction body in a horizontal state, and a uniform stress is applied to the tension member Prestressed concrete structures with excellent quality stability can be produced.

1 is a plan view of the apparatus for producing a prestressed concrete structure.

2 is a front view of the manufacturing apparatus of the prestressed concrete structure.

3 is an enlarged perspective view of main parts of a manufacturing apparatus of a prestressed concrete structure;

4A is a front view of the beam coupling member.

4B is a side view of the beam coupling member.

5 is a perspective view showing a coupled state of the reaction force beam member.

6 is a perspective view of a deformation of the reaction force beam member.

7 is an explanatory diagram of a disassembled state of the manufacturing apparatus.

8 is a plan view showing another combination state of the manufacturing apparatus.

Explanation of symbols on the main parts of the drawings

10: manufacturing apparatus of prestressed concrete structure

11, 12: Chuck Die 12a: Guide Groove

12b: steel sheet 12c: space member

13a to 13h: reaction force beam member (split beam member)

13i: H type member 14: jack member

14a: jack receiving member 14b: cylinder shaft

14c: shaft 15: guide member

16: guide member engaging portion 16a, 21: bolt

17: slide member 18: beam coupling member

18a: screw hole 18b: bolt

18c: level adjusting member 18d: locking hole

19: flange member 19a: fastening hole

20: nut A: raw concrete construction

B: tension material C: construction base

D: tension hook

Claims (7)

delete A device for manufacturing prestressed concrete structures in which tension is imposed between a pair of chuck dies arranged in parallel, and at the same time raw concrete is injected and cured between the dies, A pair of reaction force beam members laid to be assembled between the chuck dies; A jack member provided to be detachable from the base end of the reaction force beam member through a jack receiving member so that the tip of the flexible cylinder shaft is in contact with the chuck die; And a guide member which is supported by the jack receiving member so that one end can be rotated and the other end side which is rotated is coupled to the guide groove formed in the chuck die to be able to slide in the stretching direction of the cylinder axis. Apparatus for producing prestressed concrete structure. delete The prestressed concrete structure manufacturing apparatus according to claim 2, wherein a slide member is provided on a lower end surface of the chuck die to reduce the resistance to the ground. The apparatus of claim 2, wherein the jack receiving member is disposed to be detachably attached to the base end of the beam member through a coupling part. The reaction force beam member according to claim 2, wherein the reaction force beam members are formed of a plurality of divided beam members whose cross section is circular or rectangular and set to a predetermined length, The divided beam members are coupled to each other in multiple stages up and down through the beam coupling member to set the overall length of the prestressed concrete structure. The apparatus for manufacturing prestressed concrete structures according to claim 6, wherein a level adjusting member for adjusting a height with the ground is provided on lower end faces of the beam coupling members.