CN115075550A - I-shaped steel beam filling template - Google Patents

Abstract

The invention relates to a template, in particular to an I-shaped steel beam filling template. The invention provides an I-shaped steel beam filling template which can conveniently spray a mold release agent on the template and can ensure the stability of concrete filling. The invention provides an I-shaped steel beam filling template, which comprises: two mounting blocks are symmetrically arranged in front and back; the left part of the front mounting block and the right part of the rear mounting block are respectively rotatably provided with a hollow template used for blocking I-shaped steel and storing a release agent; and the spraying mechanism is used for spraying the release agent in the hollow template onto the hollow template. The electric sprayer is used for conveniently spraying the stripping agent to one side of the hollow template to be poured with concrete, so that the hollow template can be conveniently separated from the concrete in a later period, the connecting plate is clamped through the wedge, the device is locked, the stability of concrete filling is ensured, and the hollow template is prevented from being extruded by the concrete.

Description

I-shaped steel beam filling template

Technical Field

The invention relates to a template, in particular to an I-shaped steel beam filling template.

Background

The steel structure assembled house is a common building type in the prior art, and is widely accepted by the society due to the advantages of high construction speed, high expected manufacturing efficiency and environmental protection. The existing steel structure fabricated house is mostly formed by filling and pouring in an auxiliary mode through an I-shaped steel beam, in the filling process, in order to prevent concrete leakage, a template is required to be used for blocking the concrete, the existing template is easily stuck by the concrete after being used, the template is difficult to disassemble, unnecessary trouble is brought to an operator, in addition, the existing template cannot be stably attached to the I-shaped steel beam when being used, and limitation is realized.

For example, a filling form for an i-beam is disclosed in patent publication No. CN214658823U, publication No. 20211109. A I-steel beam filling form, comprising: the template plate body is arranged on the side surfaces of the pair of wing plates of the I-shaped steel beam, and forms a filling space with the pair of wing plates and the web plate of the I-shaped steel beam in an enclosing manner, and a grouting hole is formed in the template plate body; the clamping structure comprises a pair of clamping blocks and a fastener, wherein the clamping blocks are respectively connected with the outer surfaces of a pair of wing plates of the I-shaped steel beam, and the fastener is arranged on the clamping blocks, and the clamping blocks are clamped on the pair of wing plates and fastened on the surfaces of the wing plates through the fastener. Although this I-shaped steel roof beam fills template can assist the I-shaped steel roof beam to carry out the grouting operation, can't spray the release agent to the template plate body conveniently, the template is stuck by the concrete easily after using, and this can lead to the template to dismantle the difficulty, and in addition, this I-shaped steel roof beam fills template can only make the clamp splice centre gripping when using, can't guarantee the stability that the concrete was filled.

According to the defects in the prior art, the I-shaped steel beam filling template which can overcome the defects in the prior art and can conveniently spray a release agent on the template and ensure the stability of concrete filling is designed.

Disclosure of Invention

In order to overcome the defects that the prior art cannot conveniently spray the mold release agent on the template and cannot ensure the stability of concrete filling, the invention aims to solve the technical problem of providing the I-shaped steel beam filling template which can conveniently spray the mold release agent on the template and can ensure the stability of concrete filling.

In order to solve the technical problem, the invention provides an i-shaped steel beam filling template, which comprises:

two mounting blocks are symmetrically arranged in front and back;

the left part of the front mounting block and the right part of the rear mounting block are respectively rotatably provided with a hollow template used for blocking I-shaped steel and storing a release agent;

the spraying mechanism is used for spraying the release agent in the hollow template onto the hollow template;

and the mounting block is provided with a fixing mechanism for fixing the hollow template on the mounting block.

Preferably, the spraying mechanism comprises:

the guide rail is embedded on the hollow template;

the sliding frame is connected to the sliding piece of the guide rail;

the upper part of the sliding frame is provided with the electric spray head;

the hose is communicated with a water inlet part of the electric spray head, penetrates through the hollow template in a sliding manner and extends to the bottom in the hollow template;

the balancing weight, the hose is used for carrying the inside mold release agent of hollow template to electric nozzle on, and the lower pot head of hose is equipped with the balancing weight.

Preferably, the fixing mechanism comprises:

the lower parts of the two mounting blocks are respectively and rotatably provided with a connecting plate on one side far away from each other;

the lower parts of the two hollow templates are mutually far away from one side and are connected with the connecting frames;

the wedge piece is slidably penetrated through the connecting frame and used for clamping the connecting plate;

the first elastic piece is connected between the wedge piece and the connecting frame.

Preferably, the concrete hollow formwork further comprises an opening mechanism for assisting the hollow formwork to fall off from the concrete, and the opening mechanism comprises:

the racks are arranged on the sides, away from each other, of the lower parts of the front mounting block and the rear mounting block in a sliding manner;

the second elastic piece is connected between the rack and the mounting block;

the right side of the front rack and the left side of the rear rack are both connected with pushing blocks used for pushing the hollow template to be separated from concrete;

the servo motor is used for power output and is arranged at the lower part of the mounting block;

the output shaft of the servo motor is connected with a worm;

and the lower part of the mounting block is provided with a transmission component which is used for driving the pushing block to move through the driving of the servo motor.

Preferably, the transmission assembly comprises:

the lower part of the mounting block is rotatably provided with a transmission shaft;

the upper end and the lower end of the transmission shaft are respectively sleeved with a worm wheel meshed with the worm and a straight gear meshed with the rack.

Preferably, the wedge further comprises an auxiliary mechanism for assisting the wedge in releasing the connecting plate, the auxiliary mechanism comprising:

the torsional spring is connected between the connecting plate and the mounting block;

the lower side of the rack is connected with a wedge plate used for extruding a wedge.

Preferably, still including being used for supplementary carriage to drive the elevating system that electronic shower nozzle goes up and down, elevating system is including:

the screw rod is rotatably arranged between the upper inner side and the lower inner side of the guide rail, is in threaded connection with the sliding frame and penetrates through the sliding frame;

the stepping motor is used for power output and is arranged on the upper side of the hollow template;

bevel gears are arranged on the output shaft of the stepping motor and the screw rod, and the two bevel gears are meshed with each other.

Preferably, still include the protection machanism that is used for protecting servo motor, protection machanism includes:

the guard plate, the middle part of installation piece is connected with and is used for protecting servo motor and around in servo motor's guard plate, and it has the ventilation hole that is used for ventilating to open on the guard plate.

On the basis of overcoming the defects of the prior art, the invention can also achieve the following beneficial effects:

1. the demoulding agent is conveniently sprayed on one side of the hollow template to be poured through the electric nozzle, so that the hollow template in the later period is separated from the concrete, the connecting plate is clamped through the wedge piece, the device is locked, the stability of concrete filling is ensured, and the hollow template is prevented from being extruded by the concrete.

2. The pushing block is driven by the servo motor to move outwards to push the hollow template, so that the hollow template can be automatically separated from the concrete conveniently, an operator does not need to manually rotate the hollow template, and the operation of the operator is facilitated.

3. The wedge is extruded by the wedge plate to move outwards to loosen the connecting plate, so that the connecting plate is automatically and synchronously rotated to be opened before the hollow template is opened, operation of an operator is not needed, and operation of the operator is facilitated.

4. The electric spray head is driven by the stepping motor to move upwards or downwards, so that an operator does not need to manually drive the sliding frame to move, and the operation of the operator is facilitated.

5. Protect servo motor through the guard plate to this prevents that servo motor from receiving the interference of concrete, reaches ventilation's effect through the ventilation hole, thereby dispels the heat to servo motor, guarantees servo motor's normal operating.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a schematic perspective view of a part of the spraying mechanism of the present invention.

Fig. 4 is a partial cross-sectional view of the spray mechanism of the present invention.

Fig. 5 is a schematic perspective view of the fixing mechanism of the present invention.

Fig. 6 is a partial detail view of the securing mechanism of the present invention.

Fig. 7 is a perspective view of the opening mechanism of the present invention.

Fig. 8 is a schematic view of a first partially assembled component of the opening mechanism of the present invention.

Fig. 9 is a schematic view of a second partial body structure of the opening mechanism of the present invention.

Fig. 10 is a perspective view of the auxiliary mechanism of the present invention.

Fig. 11 is a partial perspective view of the auxiliary mechanism of the present invention.

Fig. 12 is a schematic view of a first partially assembled body structure of the lifting mechanism of the present invention.

Fig. 13 is a schematic view of a second partial body structure of the lifting mechanism of the present invention.

Fig. 14 is a perspective view of the protection mechanism of the present invention.

The labels in the figures are: 1-mounting block, 3-hollow template, 4-I-steel, 5-spraying mechanism, 51-guide rail, 52-sliding frame, 53-electric spray head, 54-hose, 55-balancing block, 6-fixing mechanism, 61-connecting plate, 62-connecting frame, 63-wedge, 64-first elastic member, 7-opening mechanism, 71-rack, 72-second elastic member, 73-pushing block, 75-servo motor, 76-worm, 74-transmission component, 740-transmission shaft, 741-worm gear, 742-straight gear, 8-auxiliary mechanism, 81-torsion spring, 82-wedge plate, 9-lifting mechanism, 91-lead screw, 92-stepping motor, 93-bevel gear, 10-protection mechanism, 101-guard plate, 102-vent.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides a template is filled to I-steel roof beam, as shown in fig. 1 and fig. 2, including installation piece 1, hollow template 3, spray mechanism 5 and fixed establishment 6, installation piece 1 is the front and back symmetry formula and is provided with two, the equal rotary type in left part of the installation piece 1 of the place ahead and the right part of rear installation piece 1 is equipped with the hollow template 3 that is used for blocking I-steel 4 and stores the mold release agent, be provided with on the hollow template 3 and be used for spraying the spray mechanism 5 on hollow template 3 with the inside mold release agent of hollow template 3, be provided with on the installation piece 1 and be used for fixing the fixed establishment 6 on installation piece 1 with hollow template 3.

As shown in fig. 3 and 4, the spraying mechanism 5 includes a guide rail 51, a sliding frame 52, an electric nozzle 53, a hose 54 and a weight 55, the guide rail 51 is embedded in the hollow template 3, the sliding frame 52 is connected to a sliding part of the guide rail 51, the electric nozzle 53 is installed on the upper part of the sliding frame 52 in a screw connection manner, the hose 54 which penetrates through the hollow template 3 in a sliding manner and extends to the bottom in the hollow template 3 is communicated with a water inlet part of the electric nozzle 53, the hose 54 is used for conveying a release agent in the hollow template 3 to the electric nozzle 53, and the weight 55 is sleeved at the lower end of the hose 54.

As shown in fig. 5 and 6, the fixing mechanism 6 includes a connecting plate 61, a connecting frame 62, a wedge 63 and a first elastic member 64, the connecting plate 61 is rotatably disposed on one side of the lower portions of the two mounting blocks 1 away from each other, the connecting frame 62 is bolted to one side of the lower portions of the two hollow formworks 3 away from each other, the wedge 63 for clamping the connecting plate 61 is slidably disposed on the connecting frame 62, the first elastic member 64 is connected between the wedge 63 and the connecting frame 62, and the first elastic member 64 is an iron spring.

An operator can apply the corresponding technical scheme in the device to the technology of the I-steel 4-beam filling template according to specific conditions, initially, the wedge piece 63 clamps the connecting plate 61, the device is in a locking state, when the operator needs to use the device to assist in the I-steel 4-beam filling operation, firstly, the operator injects a stripping agent into the hollow template 3, then the electric spray nozzle 53 is started, the electric spray nozzle 53 can spray the stripping agent in the hollow template 3 to one side of the hollow template 3 where concrete needs to be poured through the hose 54, so that the hollow template 3 is conveniently separated from the concrete in the later period, at the moment, the operator drives the electric spray nozzle 53 to move downwards through the sliding frame 52, the sprayed area of the stripping agent is more uniform and the speed is faster, the electric spray nozzle 53 moves downwards to pull the hose 54, the hose 54 is ensured to be always positioned at the inner bottom of the hollow template 3 through the balancing weight 55, therefore, the operation of spraying the parting agent is smoothly carried out, after the operation of spraying the parting agent is finished, an operator drives the electric spray head 53 to move upwards to reset through the sliding frame 52, the electric spray head 53 can carry out the operation of secondary spraying in the process of moving upwards, after the electric spray head 53 is reset, the operator closes the electric spray head 53, then the operator pulls the wedge piece 63 outwards, the first elastic piece 64 is compressed, the wedge piece 63 loosens the connecting plate 61 in the process of moving outwards, so as to unlock the device, after the wedge piece 63 loosens the connecting plate 61, the operator rotates the connecting plate 61, loosens the wedge piece 63, resets the first elastic piece 64, the wedge piece 63 can move inwards to reset under the reset action of the first elastic piece 64, then the operator rotates the hollow template 3 to open the device, after the device is opened, the operator surrounds the device on the I-steel 4, then the hollow mould board 3 of reverse rotation, close this device, after this device is closed, the operating personnel reverse rotation connecting plate 61, the connecting plate 61 can extrude wedge piece 63 and outwards remove at reverse rotation's in-process, first elastic component 64 compresses, the wedge piece 63 can be loosened to connecting plate 61 continuation reverse rotation, first elastic component 64 resets, wedge piece 63 can inwards move under the effect that first elastic component 64 resets and block connecting plate 61 once more, with this pinning this device, thereby guarantee the stability of later stage concrete filling, prevent that the concrete from extruding hollow mould board 3 and open, after the concrete solidification, the operating personnel unblock this device, reopen this device, take out this device from I-steel 4 around, with this completion is supplementary to carry out the operation that the I-steel 4 roof beams were filled, the operating personnel makes this device reset at last can.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, 7, 8 and 9, the concrete hollow shuttering further comprises an opening mechanism 7 for assisting the hollow shuttering 3 to fall off from the concrete, wherein the opening mechanism 7 comprises a rack 71 and a second elastic member 72, the concrete hollow formwork pushing device comprises a pushing block 73, a servo motor 75, a worm 76 and a transmission assembly 74, wherein racks 71 are arranged on the sides, far away from each other, of the lower portions of the front mounting block 1 and the rear mounting block 1 in a sliding mode, a second elastic piece 72 is connected between the racks 71 and the mounting blocks 1, the pushing block 73 used for pushing the hollow formwork 3 to be separated from concrete is bolted to the right side of the front rack 71 and the left side of the rear rack 71, the servo motor 75 used for outputting power is installed on the lower portions of the mounting blocks 1 in a screw connection mode, the worm 76 is connected to an output shaft of the servo motor 75, and the transmission assembly 74 used for driving the pushing block 73 to move through the driving of the servo motor 75 is arranged on the lower portion of the mounting block 1.

As shown in fig. 9, the transmission assembly 74 includes a transmission shaft 740, a worm gear 741 and a spur gear 742, the transmission shaft 740 is rotatably disposed at the lower portion of the mounting block 1, and the worm gear 741 engaged with the worm 76 and the spur gear 742 engaged with the rack 71 are respectively sleeved at the upper and lower ends of the transmission shaft 740.

When an operator needs to open the device and take the device out of the periphery of the I-steel 4, the operator starts the servo motor 75, the output shaft of the servo motor 75 can drive the worm 76 to rotate and be meshed with the worm wheel 741, the worm wheel 741 can drive the straight gear 742 to rotate and be meshed with the rack 71 through the transmission shaft 740, the rack 71 can move outwards, the second elastic piece 72 is compressed, the rack 71 moves outwards and can drive the pushing block 73 to move outwards, the pushing block 73 can push the hollow template 3 to rotate and open in the process of moving outwards, so that the hollow template 3 can be conveniently separated from concrete, the operator does not need to manually rotate the hollow template 3, the operation of the operator is convenient, then the operator controls the servo motor 75 to enable the output shaft of the servo motor 75 to drive the worm 76 to rotate reversely and be meshed with the worm wheel 741, the worm wheel 741 can drive the straight gear 742 to rotate reversely and be meshed with the rack 71 through the transmission shaft 740, the rack 71 moves inward, the second elastic member 72 is reset, the inward movement of the rack 71 drives the pushing block 73 to move inward to release the hollow template 3, so that the pushing block 73 is reset for the next pushing operation, and finally the operator turns off the servo motor 75.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 10 and 11, the device further comprises an auxiliary mechanism 8 for assisting the wedge 63 to loosen the connecting plate 61, the auxiliary mechanism 8 comprises a torsion spring 81 and a wedge plate 82, the torsion spring 81 is connected between the connecting plate 61 and the mounting block 1, and the wedge plate 82 for pressing the wedge 63 is bolted to the lower side of the rack 71.

Initially, the wedge-shaped member 63 blocks the connecting plate 61, the torsion spring 81 is in a deformed state, the outward movement of the rack 71 also drives the outward movement of the wedge-shaped plate 82, the wedge-shaped plate 82 presses the wedge-shaped member 63 to move outward to loosen the connecting plate 61 in the outward movement process, the torsion spring 81 resets, the connecting plate 61 rotates to open under the reset action of the torsion spring 81, the outward movement of the rack 71 at this time just drives the pushing block 73 to move outward to push the hollow template 3, thereby automatically and synchronously rotating and opening the connecting plate 61 before opening the hollow template 3 without the operation of an operator, facilitating the operation of the operator, then, the inward movement of the rack 71 causes the wedge plate 82 to move inward to release the wedge 63, and at this time, the operator rotates the link plate 61 in the reverse direction, the torsion spring 81 deforms, and the link plate 61 is again caught by the wedge 63 during the reverse rotation, thereby completing the use of the assist mechanism 8.

Example 4

Based on embodiment 3, as shown in fig. 1, 12 and 13, the apparatus further includes a lifting mechanism 9 for assisting the sliding frame 52 to drive the electric nozzle 53 to lift, the lifting mechanism 9 includes a screw 91, a stepping motor 92 and a bevel gear 93, the screw 91 threaded with the sliding frame 52 and penetrating through the sliding frame 52 is rotatably disposed between the upper and lower inner sides of the guide rail 51, the stepping motor 92 for power output is mounted on the upper side of the hollow template 3 by means of screw connection, the output shaft of the stepping motor 92 and the screw 91 are both provided with the bevel gear 93, and the two bevel gears 93 are engaged with each other.

When the electric spray head 53 is used for spraying the release agent, an operator starts the stepping motor 92, an output shaft of the stepping motor 92 drives the lead screw 91 to rotate through the bevel gear 93, the lead screw 91 drives the sliding frame 52 to move downwards, the operator controls the stepping motor 92 to enable the output shaft of the stepping motor 92 to drive the lead screw 91 to rotate reversely through the bevel gear 93, the lead screw 91 drives the sliding frame 52 to move upwards, the height of the electric spray head 53 is automatically adjusted, the sliding frame 52 does not need to be manually driven to move by the operator, the operation of the operator is facilitated, finally, the operator enables the electric spray head 53 to move upwards to reset, and the stepping motor 92 is closed.

Example 5

On the basis of embodiment 4, as shown in fig. 1 and 14, the protection mechanism 10 for protecting the servo motor 75 is further included, the protection mechanism 10 includes a protection plate 101, the middle portion of the mounting block 1 is bolted with the protection plate 101 for protecting the servo motor 75 and surrounding the servo motor 75, and the protection plate 101 is provided with a ventilation hole 102 for ventilation.

Protect servo motor 75 through guard plate 101 to this prevents that servo motor 75 from receiving the interference of concrete, reaches ventilation's effect through ventilation hole 102, thereby dispels the heat to servo motor 75, guarantees servo motor 75's normal operating.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. The utility model provides a template is filled to I-steel roof beam which characterized in that, including:

the mounting block (1), the mounting block (1) is provided with two blocks in front and back symmetry;

the left part of the front mounting block (1) and the right part of the rear mounting block (1) are respectively and rotatably provided with a hollow template (3) which is used for blocking the I-shaped steel (4) and storing a release agent;

the spraying mechanism (5) is arranged on the hollow template (3) and is used for spraying the release agent in the hollow template (3) onto the hollow template (3);

the fixing mechanism (6) is arranged on the mounting block (1) and used for fixing the hollow template (3) on the mounting block (1).

2. A beam filling form as claimed in claim 1, wherein the spraying means (5) comprises:

the guide rail (51) is embedded on the hollow template (3);

a sliding frame (52), wherein the sliding piece of the guide rail (51) is connected with the sliding frame (52);

an electric spray head (53), wherein the electric spray head (53) is arranged on the upper part of the sliding frame (52);

the hose (54) is communicated with a water inlet part of the electric spray head (53), penetrates through the hollow template (3) in a sliding mode and extends to the bottom in the hollow template (3);

balancing weight (55), hose (54) are used for carrying the inside release agent of hollow template (3) to electric nozzle (53), and the lower pot head of hose (54) is equipped with balancing weight (55).

3. The i-steel beam filling form as claimed in claim 2, wherein the fixing mechanism (6) comprises:

the lower parts of the two mounting blocks (1) are respectively and rotatably provided with a connecting plate (61) on one side far away from each other;

the lower parts of the two hollow templates (3) are connected with the connecting frames (62) on the sides far away from each other;

a wedge member (63) slidably penetrating the wedge member (63) for locking the connection plate (61) on the connection frame (62);

the first elastic piece (64) is connected between the wedge piece (63) and the connecting frame (62).

4. A i-section steel beam filling form as claimed in claim 3, further comprising an opening mechanism (7) for assisting the hollow form (3) to fall off the concrete, the opening mechanism (7) comprising: the racks (71) are arranged on the sides, away from each other, of the lower parts of the front mounting block (1) and the rear mounting block (1) in a sliding mode;

the second elastic piece (72) is connected between the rack (71) and the mounting block (1); the pushing block (73), the right side of the front rack (71) and the left side of the rear rack (71) are both connected with the pushing block (73) used for pushing the hollow template (3) to be separated from the concrete;

the servo motor (75) is mounted at the lower part of the mounting block (1) and used for outputting power;

the output shaft of the servo motor (75) is connected with the worm (76);

the lower part of the mounting block (1) is provided with a transmission component (74) which is used for driving the pushing block (73) to move through the driving of a servo motor (75).

5. A I-steel beam filling form as claimed in claim 4, wherein the drive assembly (74) includes:

the lower part of the mounting block (1) is rotatably provided with a transmission shaft (740);

the worm gear (741) and the straight gear (742) are sleeved at the upper end and the lower end of the transmission shaft (740) respectively, wherein the worm gear (741) is meshed with the worm (76), and the straight gear (742) is meshed with the rack (71).

6. A I-steel beam filling form according to claim 5, further comprising an auxiliary mechanism (8) for assisting the wedges (63) to release the web (61), the auxiliary mechanism (8) comprising:

the torsion spring (81) is connected between the connecting plate (61) and the mounting block (1);

the lower side of the rack (71) is connected with a wedge plate (82) used for extruding the wedge (63).

7. The filling formwork for the I-shaped steel beam as claimed in claim 6, further comprising a lifting mechanism (9) for assisting the sliding frame (52) to drive the electric spray head (53) to lift, wherein the lifting mechanism (9) comprises:

the screw rod (91) is rotatably arranged between the upper inner side and the lower inner side of the guide rail (51), is in threaded connection with the sliding frame (52) and penetrates through the sliding frame (52);

the stepping motor (92) is used for outputting power, and the upper side of the hollow template (3) is provided with the stepping motor (92); bevel gears (93) are arranged on the output shafts of the stepping motors (92) and the screw rods (91), and the two bevel gears (93) are meshed with each other.

8. The I-steel beam filling formwork according to claim 7, further comprising a protection mechanism (10) for protecting the servo motor (75), wherein the protection mechanism (10) comprises:

the middle part of the mounting block (1) is connected with a protection plate (101) which is used for protecting the servo motor (75) and surrounds the servo motor (75), and the protection plate (101) is provided with a ventilation hole (102) for ventilation.

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