CN109435019B

CN109435019B - Prefabricated superimposed sheet is pour and is pour with mould frame and prefabricated superimposed sheet and use mould

Info

Publication number: CN109435019B
Application number: CN201811156255.1A
Authority: CN
Inventors: 孔令书; 王军红; 孔德文; 李增俊; 孔德鹏; 李艳峰
Original assignee: Handan Shuguang New Building Material Technology Co ltd
Current assignee: Handan Shuguang New Building Material Technology Co ltd
Priority date: 2018-09-28
Filing date: 2018-09-28
Publication date: 2020-08-25
Anticipated expiration: 2038-09-28
Also published as: CN109435019A

Abstract

The invention provides a prefabricated composite slab pouring mold frame and a prefabricated composite slab pouring mold, wherein the prefabricated composite slab pouring mold frame works on a pouring mold table to fix a reinforcing mesh formed by welding or binding a plurality of reinforcing steel bar sections, the prefabricated composite slab pouring mold frame comprises a bottom frame fixed on the pouring mold table through a positioning mechanism and a top frame detachably connected with the bottom frame, a clamp provided with a clamping groove for the end part of each reinforcing steel bar section to penetrate out is arranged on the bottom frame, and the clamp elastically deforms due to the extrusion of the top frame and the bottom frame to form the clamping of the end part of each reinforcing steel bar section. According to the die frame for pouring the prefabricated laminated slab, the positioning mechanism is provided with the positioning rod in a sliding manner on the bottom frame, the magnetic part is arranged on the positioning rod, and the positioning rod can be knocked to enable the magnetic part to be separated from the bottom frame and be adsorbed on the pouring die table.

Description

Prefabricated superimposed sheet is pour and is pour with mould frame and prefabricated superimposed sheet and use mould

Technical Field

The invention relates to the technical field of construction, in particular to a die for pouring a prefabricated composite slab. In addition, the invention also relates to a die for pouring the prefabricated composite slab, which consists of the die frame for pouring the prefabricated composite slab.

Background

With the continuous development of house industrialization in China, more and more prefabricated components are applied, wherein the application of the prefabricated laminated slab is the most extensive, the demand of the prefabricated laminated slab mold is gradually increased, common molds are generally an iron mold and a glass fiber reinforced plastic mold, and the iron laminated slab mold is long in mold assembling time and inconvenient to disassemble, so that the production efficiency is low; the glass fiber reinforced plastic mold is not easy to install and fix on the pouring mold table, and meanwhile, the glass fiber reinforced plastic mold is lower in strength than an iron mold, is easy to damage in the installation and mold removal processes, and increases the manufacturing cost of enterprises.

Disclosure of Invention

In view of this, the present invention is directed to provide a mold frame for casting a prefabricated composite slab, so as to be conveniently fixed to a casting mold table and have a better use effect.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

the utility model provides a prefabricated superimposed sheet pours and uses mould frame, work is on pouring the moulding-bench to fix the reinforcing bar net that forms by a plurality of reinforcing bar section welding or ligature, include and be fixed in via positioning mechanism pour the last end frame of moulding-bench, and with the top frame of connection can be dismantled to the end frame, in be equipped with on the end frame and supply the fixture of the draw-in groove that reinforcing bar section tip wore out, fixture because of the top frame with the extrusion of end frame elastic deformation is in order to constitute the clamp of reinforcing bar section tip, positioning mechanism includes:

the positioning rod is slidably arranged on the bottom frame in a penetrating manner;

the magnetic part is fixedly connected to one end of the positioning rod and provided with an initial position adsorbed on the bottom frame, and when the positioning rod is driven by external force to descend along the bottom frame, the magnetic part and the bottom frame are separated from adsorption and adsorbed on the pouring die table;

the locking part is arranged on the positioning rod and can be abutted against the bottom frame along with the descending of the positioning rod so as to press the bottom frame on the pouring die table.

Furthermore, the cross section of the bottom frame is U-shaped, and the magnetic part is slidably arranged in the U-shaped groove of the bottom frame in a guiding manner.

Furthermore, the magnetic part comprises a bearing block fixedly connected with the positioning rod and a plurality of strong magnetic strips embedded in the bearing block.

Furthermore, an iron plate is fixed on the top arm of the U-shaped groove of the bottom frame, and the magnet part is adsorbed on the bottom frame through the iron plate.

Furthermore, the locking part is a nut in threaded connection with the positioning rod.

Furthermore, the clamping apparatus is a rubber strip which is arranged on the positioning rod in a penetrating mode.

Furthermore, the top frame is arranged on the positioning rod in a penetrating mode and matched with the clamping portion in an abutting mode, and a nut column for locking the top frame is arranged on the positioning rod.

Compared with the prior art, the invention has the following advantages:

according to the die frame for pouring the prefabricated composite slab, the bottom frame and the top frame are arranged in a split mode, so that the steel bar sections can be conveniently laid, the positioning mechanism is provided with the positioning rod in a sliding mode on the bottom frame, the magnetic part is arranged on the positioning rod, and the positioning rod can be knocked to enable the magnetic part to be separated from the bottom frame and adsorbed on the pouring die table, so that special holes can be prevented from being formed in the pouring die table, the die assembly is flexible, the utilization rate of the pouring die table is improved, the die is convenient to disassemble and assemble, the turnover rate of the frames can be effectively improved, and corners of all components cannot be damaged in the die disassembling process.

The invention also provides a die for pouring the prefabricated composite slab, which works on a pouring die table to pour the reinforcement mesh formed by welding a plurality of reinforcement sections into the composite slab.

Furthermore, the opening directions of the clamping apparatus of the short frame and the clamping apparatus clamping groove of the long frame are opposite.

Compared with the prior art, the die for pouring the prefabricated composite slab has the same beneficial effects as the die frame for pouring the prefabricated composite slab, and the description is omitted.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of a frame of a mold for pouring a prefabricated composite slab according to a first embodiment of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a front view of the bottom frame according to the first embodiment of the present invention;

FIG. 4 is a top view of FIG. 3;

FIG. 5 is a side view of FIG. 3;

FIG. 6 is a front view of a chuck according to a first embodiment of the present invention;

FIG. 7 is a top view of FIG. 6;

FIG. 8 is a side view of FIG. 6;

FIG. 9 is a front view of a top rim in accordance with a first embodiment of the present invention;

FIG. 10 is a top view of FIG. 9;

FIG. 11 is a side view of FIG. 9;

fig. 12 is a schematic structural diagram of a magnetic portion according to a first embodiment of the present invention;

fig. 13 is a schematic view of a fixing structure of a magnetic part according to a first embodiment of the invention;

FIG. 14 is a schematic structural diagram according to a second embodiment of the present invention;

FIG. 15 is an enlarged view of a portion A of FIG. 14;

FIG. 16 is a schematic plan view of a short frame and a long frame according to a second embodiment of the present invention;

description of reference numerals:

1-bottom frame, 2-positioning rod, 3-via hole, 4-iron plate, 401-stud, 402-fourth via hole, 5-locking nut, 6-bearing block, 601-threaded hole, 7-strong magnetic strip, 8-bolt, 9-reinforcing rib plate, 10-clamp, 1001-clamping groove, 1002-second via hole, 11-top frame, 12-lightening hole, 13-third via hole, 14-nut column, 15-short frame, 16-long frame, 17-longitudinal reinforcing steel bar section, 18-transverse reinforcing steel bar section, 19-locking handle, 1901-locking groove, 20-locking rod and 21-reinforcing steel bar section.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The embodiment relates to a prefabricated composite slab pours and uses mould frame, work is on pouring the mould platform to fix the reinforcing bar net that forms by a plurality of reinforcing bar section welding or ligature, include and be fixed in through positioning mechanism the end frame on pouring the mould platform, and with the top frame of end frame detachable connection, be equipped with on the end frame and supply the fixture of the draw-in groove that reinforcing bar section tip wore out, fixture because of top frame with the extrusion of end frame elastic deformation in order to constitute the clamp to reinforcing bar section tip. According to the die frame for pouring the prefabricated laminated slab, the positioning mechanism is provided with the positioning rod in a sliding manner on the bottom frame, the magnetic part is arranged on the positioning rod, and the positioning rod can be knocked to enable the magnetic part to be separated from the bottom frame and be adsorbed on the pouring die table.

Based on the design concept, an exemplary structure of the mold frame for pouring prefabricated composite slabs in the embodiment can be shown in fig. 1 and fig. 2 to 11, in order to facilitate the arrangement of the positioning mechanism, the cross section of the bottom frame 1 in the embodiment is in an inverted U shape, and meanwhile, the adoption of the U-shaped structure can also reduce the self weight and ensure the structural strength. In order to ensure the stability of the bottom frame 1 and the fixing of the pouring mold table, the positioning mechanism in this embodiment is a plurality of positioning mechanisms arranged along the length direction of the bottom frame 1. Positioning mechanism wears to locate locating lever 2 on the base frame 1 including sliding in this embodiment to and link firmly the magnetism portion on the bottom of locating lever 2, and this magnetism portion has the initial position that adsorbs on the top wall of base frame 1, and when locating lever 2 drove along base frame 1 because of external force orders about, this magnetism portion breaks away from with base frame 1 and adsorbs and adsorb on pouring the mould platform.

Specifically, magnetism portion is located the U type inslot of end frame 1 in this embodiment to be formed with the via hole 3 that sets up with 2 diameter looks adaptations of above-mentioned locating lever on 1 roof of end frame, and locating lever 2 then penetrates to U type inslot and magnetism portion welding link firmly through this via hole 3. In order to make the magnetic part be adsorbed on the top wall of the bottom frame 1 and located at the initial position, in this embodiment, the top wall of the bottom frame 1 is fixedly connected with the iron plate 4, so that the magnetic part is adsorbed on the bottom frame 1 through the iron plate 4. Iron plate 4 in this embodiment can directly and the welding of the 1 roof of base frame links firmly, also can link firmly via peg 401, still is provided with the fourth via hole 402 that supplies the activity of locating lever 2 to wear to establish simultaneously on iron plate 4. In order to prevent the magnetic part from attracting the bottom frame 1, the bottom frame 1 in this embodiment is made of austenitic stainless steel which does not attract the strong magnetic strips described below, but the bottom frame 1 in this embodiment may be made of other materials besides austenitic stainless steel, for example, metal materials such as aluminum.

In the above structure, the magnetic part is attracted to the iron plate 4 and located at the initial position (at this time, the magnetic part is far away from the pouring mold table so that the magnetic force with the pouring mold table is smaller than the magnetic force of the magnetic part and the iron plate), in order to enable the magnetic part to be adsorbed to the pouring mold table, in this embodiment, the top of the positioning rod 2 can be hammered downwards by the leather hammer so that the magnetic part overcomes the magnetic force with the iron plate 4 and descends, and is finally adsorbed to the pouring mold table, the pouring mold table adopts the prior art and is made of iron materials or steel materials attracted to the strong magnetic strips, and therefore the bottom frame 1 is prevented from horizontally sliding along the pouring mold table to complete the positioning of the bottom frame 1. In order to prevent the bottom frame 1 from rising along the height direction of the positioning rod 2, the positioning mechanism in this embodiment further includes a locking portion detachably connected to the positioning rod 2, the locking portion may be a locking nut 5 in threaded connection with the positioning rod 1, and the cross section of the locking nut 5 may be in a circular ring shape.

The specific structure of the magnetic part in this embodiment can be shown in fig. 1 with reference to fig. 11 and 12, and includes a bearing block 6 fixedly connected to the positioning rod 2, and a plurality of strong magnetic strips 7 embedded in the bearing block 6, and a plurality of bolts 8 penetrating the strong magnetic strips 7 can be screwed on the bearing block 6 to prevent the strong magnetic strips 7 from coming off, and in this embodiment, the strong magnetic strips 7 are embedded in the bearing block 6, so that the strong magnetic strips 7 can be protected. In order to facilitate the fixing of the positioning rod 2 and the bearing block 6, a threaded hole 601 connected with the bottom end of the positioning rod 2 in a threaded manner is further formed in the center of the bearing block 6. In order to ensure the stability of the magnetic part in the lifting process, the magnetic part is guided and slidably arranged in the bottom frame 1 in the embodiment, that is, the width of the bearing block 6 is matched with the width of the U-shaped groove of the bottom frame 1 in the embodiment, two reinforcing ribs 9 are further integrally formed in the U-shaped groove, the distance between the two reinforcing ribs 9 is matched with the length of the bearing block 6, the guide sliding of the four side end faces of the bearing block is generally realized, the structural strength of the bottom frame 1 can be improved by arranging the reinforcing ribs 9, and the service life is prolonged.

As shown in fig. 1 and 2 in conjunction with fig. 6 to 8, in this embodiment, the jig 10 is a rubber strip passing through the positioning rod 2, and the above-mentioned clamping groove 1001 has a square cross section and is formed along the width direction of the jig 10, and is provided in plural along the length direction of the jig 10. In order to facilitate the assembly of the fixture 10, in this embodiment, a plurality of second through holes 1002 are formed in the fixture 10 corresponding to each positioning rod 2, so that the fixture 10 passes through the positioning rod 2, and in order to prevent the fixture 10 from interfering with the locking nut 5 during passing through and being unable to abut against the lower frame 1, the diameter of the second through holes 1002 in this embodiment should be matched with the outer diameter of the locking nut 5, or slightly larger than the outer diameter of the locking nut, so that the fixture 10 can pass through the second through holes 1002 along the locking nut 5 and finally abut against the upper surface of the lower frame 1. The fixture 10 of the present embodiment may be assembled in two ways, namely, the slot 1001 may be opened upward or opened downward, and the specific way of assembling will be described below.

As shown in fig. 1 and 2 in combination with fig. 9 to 11, the top frame 11 of the present embodiment has a plate-shaped structure, and in order to facilitate light weight design, a lightening hole 12 is formed inside the top frame 11 along the length direction of the top frame 11. In order to facilitate assembly of the top frame 11, in this embodiment, a third via hole 13 corresponding to the via hole 3 is formed in the top frame 11 and adapted to the diameter of the positioning rod 2, so that the top frame 11 can be inserted into the positioning rod 2 through the third via hole 13, and since the diameter of the third via hole 13 is smaller than the outer diameter of the locking nut 5, in order to ensure that the top frame 11 can extrude the clamp 10, the thickness of the clamp 10 in this embodiment may be slightly larger than the length of the locking nut 5, so that when the top frame 11 abuts against the clamp 10, the clamp 10 can be extruded and deformed, and the clamping groove 1001 is drawn in to clamp the steel bar section 21. In order to lock the fixed frame 11, in the present embodiment, the positioning rod 2 is provided with a second locking portion, which is a nut post 14 screwed to the positioning rod 2.

When the prefabricated composite slab pouring mold frame is assembled, firstly, an iron plate 4 is arranged on a bottom frame 1, then the positioning rod 2 is screwed with the magnetic part and then penetrates out of the through hole 3 and the second through hole 402, and the magnetic part is ensured to be adsorbed on the iron plate 4, then installing the bottom frame 1 according to the positioning line on the pouring mould table and assembling the locking nut 5 and the nut post 14, the nut column 14 is knocked by a leather hammer to enable the magnetic part to be separated from the iron plate 4 and adsorbed on an iron pouring mold table, the locking nut 5 is screwed down and the nut column 14 is screwed down, the clamp 10 is firstly installed on the bottom frame 1, then, the reinforcing steel bar section 21 is laid along the clamping groove 1001, finally, the top frame 11 is assembled, the nut column 14 is screwed into the positioning rod 2, the fixed positioning of the frame and the pouring mold table can be completed, when the frame needs to be removed, the nut column 14 is pried by using a rod-shaped tool, so that the magnetic part is separated from the pouring die table.

Example two

The embodiment relates to a casting mold for prefabricated composite slabs, which works on a casting mold table to cast a steel mesh formed by welding a plurality of steel bar sections into a composite slab, as shown in fig. 13, and comprises a casting cavity surrounded by a short frame 15 and a long frame 16 to accommodate the steel mesh, wherein the short frame 15 and the long frame 16 adopt the casting mold frame for prefabricated composite slabs according to the embodiment. The whole rectangular body that is of reinforcing bar net in this embodiment, it includes vertical row of reinforcing bar section 17 to and weld horizontal row of reinforcing bar section 18 on vertical row of reinforcing bar section 17, this horizontal row of reinforcing bar section 18 and vertical row of reinforcing bar section 17 have the difference in height promptly.

In the present embodiment, the length L1 of the long frame is generally not greater than 6000mm, the length L2 of the short frame is generally not greater than 2400mm, and the height of the long frame 16 is equal to the height of the short frame 15, which is about 60 mm. When fixing the reinforcing mesh, two ends of the longitudinal reinforcing bar section 17 of the reinforcing mesh can be respectively arranged corresponding to the two long frames, and two ends of the transverse reinforcing bar section 18 can be respectively arranged corresponding to the two short frames 15, because the longitudinal reinforcing bar section 17 is higher than the transverse reinforcing bar section 18, the thickness of the bottom frame in the short frame 15 is smaller than that of the bottom frame of the long frame 16 in this embodiment so as not to affect the assembly, and the specific form can be described as follows.

In this embodiment, the opening direction of the clamping grooves of the short frame 15 is opposite to that of the clamping grooves of the long frame 16, that is, when the clamping apparatus 10 is assembled on the bottom frame of the short frame 15, the openings of the clamping grooves 1001 of the clamping apparatus 10 are arranged downwards, and when the clamping apparatus 10 is assembled on the bottom frame of the long frame 16, the openings of the clamping grooves 1001 of the clamping apparatus 10 are arranged upwards, as shown in fig. 16, in this case, h1 is h2+ t-2d, where d is the diameter of the steel bar segment, h1 is the thickness of the bottom frame in the short frame 15, h2 is the thickness of the bottom frame in the long frame 16, and t is the thickness of the clamping apparatus 10.

For improving the amalgamation effect of short frame 15 and long frame 16, be formed with the chamfer respectively in the both ends department of short frame 15 and long frame 16 in this embodiment, simultaneously in order to improve the stability that overall structure connects, still be provided with the amalgamation retaining member between short frame 15 and long frame 16 in this embodiment, this amalgamation retaining member forms respectively on the top frame of long frame 16 and short frame, combine fig. 15 by fig. 13 and show, this amalgamation retaining member includes that one end rotates the lock handle 19 of locating on long frame 16, and link firmly locking lever 20 on short frame 15, and be formed with locked groove 1901 at lock handle 19 free end, after short frame 15 and long frame 16 amalgamation accomplish through rotatory lock handle 19 so that locked groove 1901 card is placed in on locking lever 20 can.

The mold for pouring the prefabricated composite slab is used for paying off and positioning on an iron pouring mold table before assembly, the reinforcing mesh is manufactured and molded by a mesh welding machine or binding, then the bottom frames, the clamping devices and the top frames of the short frames 15 and the long frames 16 are assembled respectively according to the method in the first embodiment, and finally the lock handle 19 and the lock rod 20 are locked. It should be noted that, when assembling fixture 10, fixture 10 of long frame 16 should be assembled first, and fixture 10 on short frame 15 should be assembled after the steel mesh is laid.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a prefabricated superimposed sheet pours and uses mould frame, the work is on pouring the die table to fix the reinforcing bar net that forms by a plurality of reinforcing bar section welding or ligature, its characterized in that includes: the positioning mechanism is fixed on a bottom frame on the pouring die table and a top frame detachably connected with the bottom frame, a clamp provided with a clamping groove for the end part of the steel bar section to penetrate out is arranged on the bottom frame, the clamp elastically deforms due to the extrusion of the top frame and the bottom frame to form clamping on the end part of the steel bar section, and the positioning mechanism comprises:

the locking part is arranged on the positioning rod and can be abutted against the bottom frame along with the descending of the positioning rod so as to press the bottom frame on the pouring die table;

the fixture is a rubber strip which is arranged on the positioning rod in a penetrating mode, the top frame is arranged on the positioning rod in a penetrating mode and is in butt fit with the locking portion, and a nut column for locking the top frame is arranged on the positioning rod.

2. The prefabricated composite slab pouring mold frame as claimed in claim 1, wherein: the cross section of the bottom frame is U-shaped, and the magnetic part is arranged in the U-shaped groove of the bottom frame in a guiding and sliding manner.

3. The prefabricated composite slab pouring mold frame as claimed in claim 2, wherein: the magnetic part comprises a bearing block fixedly connected with the positioning rod and a plurality of strong magnetic strips embedded in the bearing block.

4. The prefabricated composite slab pouring mold frame as claimed in claim 2, wherein: an iron plate is fixed on the top arm of the U-shaped groove of the bottom frame, and the magnet part is adsorbed on the bottom frame through the iron plate.

5. The prefabricated composite slab pouring mold frame as claimed in claim 1, wherein: the locking part is a nut in threaded connection with the positioning rod.

6. A prefabricated composite slab pouring mold, which works on a pouring mold table to pour a steel bar mesh formed by welding or binding a plurality of steel bar sections into a composite slab, and is characterized by comprising a pouring cavity which is surrounded by a short frame and a long frame and is used for accommodating the steel bar mesh, wherein the short frame and the long frame adopt the prefabricated composite slab pouring mold frame as claimed in any one of claims 1 to 5.

7. The mold for pouring precast composite slab as recited in claim 6, wherein: the opening directions of the clamping devices of the short frame and the clamping device clamping grooves of the long frame are opposite.