CN216144576U - Mould is made to structure glue mortar benchmark test block - Google Patents

Abstract

The utility model belongs to the technical field of building materials detects and specifically relates to a mould is made to structural adhesive mortar benchmark test block, and it includes the mould box, is provided with the mould ring that suits with the standard component in the mould box, the diapire fixed connection of mould ring and mould box. In this application, at the diapire fixed connection mould ring of mould box, when the test block was pour, utilize the mould ring to make the top of test block form the region that corresponds with the standard component, after the test block solidifies the back maintenance drawing of patterns, directly take the test block to experiment, no longer need cut when using the test block, have the effect that shortens test block processing cycle.

Description

Mould is made to structure glue mortar benchmark test block

Technical Field

The application relates to the field of building material detection, in particular to a mold for manufacturing a structural adhesive mortar reference test block.

Background

At present, along with the rapid development of the building industry, the industry of building identification and detection is also rapidly developed, wherein when the adhesive property of the structural adhesive to the concrete mortar surface is detected, the structural adhesive needs to be smeared between a mortar test block and a standard part of detection equipment, and then the detection equipment is utilized to apply tension to the test block and the standard part.

Referring to fig. 1, in an area where structural adhesive bonding detection equipment is applied to an existing mortar test block 6, four cutting grooves connected end to end need to be cut on the test block 6 by using cutting equipment, an area for bonding structural adhesive is formed in the middle of each cutting groove, and then a standard part is bonded in the area surrounded by the cutting grooves by using the structural adhesive.

In view of the above-mentioned related art, the inventor believes that the processing cycle of the test block in the experiment is long due to the cutting of the mortar test block.

SUMMERY OF THE UTILITY MODEL

In order to shorten the processing cycle of test block, this application provides a mould is made to structural adhesive mortar benchmark test block.

The application provides a mould is made to structure adhesive mortar benchmark test block adopts following technical scheme:

the utility model provides a mould is made to structural adhesive mortar benchmark test block which characterized in that: the die comprises a die box, wherein a die ring matched with a standard part is arranged in the die box, and the die ring is fixedly connected with the bottom wall of the die box.

Through adopting above-mentioned technical scheme, at the diapire fixed connection mould ring of mould box, when the test block was pour, utilize the mould ring to make the top of test block form the region that corresponds with the standard component, after the test block solidifies the back maintenance drawing of patterns, directly take the test block to experiment, no longer need cut when using the test block, reached the purpose that shortens test block processing cycle.

Optionally, the mold box comprises a bottom plate and four side plates, the mold ring is fixedly connected with the bottom plate, and the four side plates are detachably and fixedly connected with the bottom plate.

Through adopting above-mentioned technical scheme, with die box shijiwei bottom plate and curb plate to make every curb plate and bottom plate be detachable fixed connection, when the test block drawing of patterns, directly break away from the curb plate from the bottom plate, convenience when promoting the test block drawing of patterns.

Optionally, an inserting assembly is arranged between the side plate and the bottom plate, the inserting assembly comprises an inserting groove and an inserting block, the inserting groove is formed in the top end of the bottom plate, the inserting block is fixedly connected with the side plate, and the inserting block is in inserting fit with the inserting groove.

Through adopting above-mentioned technical scheme, when using grafting subassembly to connect curb plate and bottom plate, at first remove the bottom plate and drive the grafting piece and align with the inserting groove, then promote the curb plate and drive the grafting piece and peg graft in the inserting groove, utilize the limiting displacement between grafting piece and the inserting groove, make curb plate and bottom plate fixed, accomplish assembling of mould box.

Optionally, a locking device is arranged between the insertion block and the insertion groove, the locking device includes a locking rod and a locking nut, one end of the locking rod is fixedly connected with the insertion block, and the other end of the locking rod penetrates through the bottom wall of the insertion groove and is in threaded connection with the locking nut.

By adopting the technical scheme, when the locking device is used, firstly, when the insertion block is inserted in the insertion groove, the insertion block drives the locking rod to penetrate through the bottom wall of the insertion groove to be in threaded connection with the locking nut, and the insertion block is fixed in the insertion groove by utilizing the locking rod and the locking nut, so that the stability of the side plate after being connected with the bottom plate is improved.

Optionally, a counter bore is formed in the bottom plate, and the locking nut is located in the counter bore.

By adopting the technical scheme, the locking nut is positioned in the counter bore by arranging the counter bore, so that the smoothness of the bottom end of the bottom plate is improved.

Optionally, two symmetrical side plates of the four side plates are provided with reinforcing devices, each reinforcing device comprises a reinforcing plate, a reinforcing rod, an end plate and a reinforcing nut, the reinforcing plates are fixedly connected with the side plates, one end of each reinforcing rod is fixedly connected with the end plate, and the other end of each reinforcing rod is in threaded connection with the reinforcing nuts after penetrating through the two reinforcing plates in sequence.

Through adopting above-mentioned technical scheme, when using reinforcing apparatus, because gusset plate and curb plate fixed connection, consequently the gusset plate is connected fixedly along with curb plate and bottom plate, then the one end of removal anchor strut pass behind two gusset plates with reinforcement nut threaded connection, it is fixed to utilize two gusset plates of anchor strut drive, the gusset plate drives two relative curb plates and two other curb plates butt, promotes the stability between the adjacent curb plate.

Optionally, a rotating handle is arranged on the reinforcing nut and fixedly connected with the reinforcing nut.

Through adopting above-mentioned technical scheme, because rotatory handle and reinforcement nut fixed connection, so rotate rotatory handle and drive reinforcement nut and rotate. The convenience when rotating the reinforcement nut is improved by arranging the rotary handle.

Optionally, a locking washer is arranged between the reinforcing nut and the reinforcing plate.

Through adopting above-mentioned technical scheme, through setting up locking gasket, avoid when the plain bumper, because vibrations lead to the reinforcement nut not hard up, stability when promoting reinforcing apparatus and consolidating.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the mould ring is arranged in the mould box, so that the test block directly forms an area adaptive to the standard part after pouring and solidifying by using the mould ring, and the test block is not required to be cut when used, thereby achieving the purpose of shortening the processing period of the test block;

2. the mould box is arranged into the bottom plate and the side plate, and the inserting assembly is arranged between the bottom plate and the side plate for installation, so that convenience of demoulding the test block and the mould is improved;

3. set up reinforcing apparatus between two relative curb plates, utilize reinforcing apparatus to promote the stability after the curb plate concatenation.

Drawings

FIG. 1 is a schematic diagram of a structure intended to show a pattern of test blocks;

FIG. 2 is a schematic structural diagram of the present application;

FIG. 3 is a schematic view of a test block positioned within a mold box;

FIG. 4 is a schematic view of a plug assembly;

FIG. 5 is a schematic view intended to show a locking device;

fig. 6 is a schematic view intended to show a reinforcement device.

Description of reference numerals: 1. a mold box; 11. a base plate; 111. a counter bore; 12. a side plate; 2. a mold ring; 3. a plug-in assembly; 31. inserting grooves; 32. an insertion block; 4. a locking device; 41. a locking lever; 42. a locking nut; 5. a reinforcement device; 51. a reinforcing plate; 52. a reinforcing rod; 53. an end plate; 54. reinforcing the nut; 55. rotating the handle; 56. a lock washer; 6. and (6) testing blocks.

Detailed Description

The present application is described in further detail below with reference to figures 2-6.

The embodiment of the application discloses mould is made to structure glue mortar benchmark test block. Referring to fig. 2 and 3, a mould is made to structure mortar benchmark test block includes mould box 1 that is used for holding test block 6, and mould box 1 level is placed, and mould box 1 is open-ended box body, and the diapire level of mould box 1 is provided with mould ring 2, and mould ring 2 is the annular that four limits are constituteed, and mould ring 2 and mould box 1's diapire fixed connection, and the region that mould ring 2 formed suits with the standard component. When the mould is used, firstly, the mould box 1 is horizontally placed, then mortar is poured into the mould box 1, and the mortar is vibrated and solidified; after the mortar test block 6 is maintained for the specified time, the test block 6 is demoulded, the test block 6 is taken out from the mold box 1, because one end of the test block 6 close to the bottom wall of the mold box 1 is provided with a circle of closed-loop grooves due to the existence of the mold ring 2, the area enclosed by the grooves is adapted to the standard part, the test block 6 is not required to be cut any more when in use, and the purpose of shortening the processing period of the test block 6 is achieved.

The mold box 1 comprises a bottom plate 11 and side plates 12, the bottom plate 11 is horizontally arranged, the bottom plate 11 is rectangular, the four side plates 12 are vertically arranged, the four inserting components 3 are arranged between the four side plates 12 and the bottom plate 11, each inserting component 3 comprises an inserting groove 31 and an inserting block 32, the inserting groove 31 is vertically arranged at the top end of the bottom plate 11, the inserting blocks 32 are vertically arranged, the top ends of the inserting blocks 32 are fixedly connected with the bottom ends of the side plates 12, and the inserting blocks 32 are inserted and matched with the inserting grooves 31; a locking device 4 is arranged between the insertion block 32 and the insertion groove 31, the locking device 4 comprises a locking rod 41 and a locking nut 42, the locking rod 41 is vertically arranged, the top end of the locking rod 41 is fixedly connected with the bottom end of the insertion block 32, the bottom end of the locking rod 41 penetrates through the bottom wall of the insertion groove 31 to be in threaded connection with the locking nut 42, a counter bore 111 is formed in the bottom end of the bottom plate 11, and the locking nut 42 is located in the counter bore 111.

When the mold box 1 is assembled, firstly, the side plate 12 is moved to the top end of the bottom plate 11 to enable the insertion block 32 to be aligned with the insertion groove 31, then the side plate 12 is pushed to drive the insertion block 32 to be inserted into the insertion groove 31, the insertion block 32 drives one end of the locking rod 41 to penetrate through the bottom wall of the insertion groove 31 to be located in the counterbore 111, then the locking nut 42 is rotated to the counterbore 111, and the insertion block 32 is fixed in the insertion groove 31 through the locking rod 41 by the locking nut 42; when the mold box 1 is demolded and disassembled, the locking nut 42 in the counterbore 111 is rotated to make the locking nut 42 away from the locking rod 41, then the side plate 12 is moved to drive the insertion block 32 to be away from the insertion groove 31, the insertion block 32 drives the locking rod 41 to be away from the insertion groove 31, and the side plate 12 is separated from the bottom plate 11.

The reinforcing device 5 is arranged between two opposite side plates 12 parallel to the longer side of the bottom plate 11, the reinforcing device 5 comprises reinforcing plates 51, reinforcing rods 52, end plates 53 and reinforcing nuts 54, the reinforcing plates 51 are arranged at two ends of the two side plates 12, the reinforcing plates 51 are fixedly connected with the side plates 12, the side plates 12 perpendicular to the reinforcing plates 51 are located between the two reinforcing plates 51, the reinforcing rods 52 are horizontally arranged, one ends of the reinforcing rods 52 are fixedly connected with the end plates 53, the other ends of the reinforcing rods 52 penetrate through the two reinforcing plates 51 in sequence and then are in threaded connection with the reinforcing nuts 54, anti-loosening gaskets 56 are arranged between the reinforcing nuts 54 and the reinforcing plates 51, and the reinforcing nuts 54 are fixedly connected with rotating handles 55.

When the reinforcing device 5 is used, firstly, the side plates 12 and the bottom plate 11 are fixed, then the reinforcing rods 52 are moved, one ends of the reinforcing rods 52 far away from the end plate 53 sequentially penetrate through the two opposite reinforcing plates 51, then the anti-loosening gaskets 56 are sleeved on the reinforcing rods 52, the rotating handle 55 is rotated to drive the reinforcing nuts 54 to be in threaded connection with the reinforcing rods 52, the reinforcing nuts 54 drive the anti-loosening gaskets 56 to abut against the reinforcing plates 51, and the two opposite reinforcing plates 51 are fixed; in demolding, the rotating handle 55 is first rotated to move the reinforcing nut 54 away from the anti-loosening washer 56, and then the reinforcing rod 52 is pulled away from the reinforcing plate 51.

The implementation principle of the mold for manufacturing the structural adhesive mortar reference test block is as follows: when the test block 6 is used for manufacturing a mold, firstly, the side plate 12 is moved to the top end of the bottom plate 11 to align the insertion block 32 with the insertion groove 31, then the side plate 12 is pushed to drive the insertion block 32 to be inserted into the insertion groove 31, the insertion block 32 drives one end of the locking rod 41 to pass through the bottom wall of the insertion groove 31 and be positioned in the counterbore 111, then the locking nut 42 is rotated to the counterbore 111, the insertion block 32 is fixed in the insertion groove 31 through the locking rod 41 by using the locking nut 42, then the reinforcing rod 52 is moved, one end of the reinforcing rod 52 far away from the end plate 53 sequentially passes through the two opposite reinforcing plates 51, then the anti-loosening gasket 56 is sleeved on the reinforcing rod 52, the rotating handle 55 is rotated to drive the reinforcing nut 54 to be in threaded connection with the reinforcing rod 52, the reinforcing nut 54 drives the anti-loosening gasket 56 to abut against the reinforcing plates 51, so that the two opposite reinforcing plates 51 are fixed, and then the mortar is poured into the mold box 1, shaking the mortar and allowing the mortar to set.

After the mortar test block 6 is maintained for a specified time, demolding is started, firstly, the rotating handle 55 is rotated to drive the reinforcing nut 54 to be far away from the anti-loosening gasket 56, and then the reinforcing rod 52 is pulled to be far away from the reinforcing plate 51; then, the locking nut 42 in the counter bore 111 is rotated to enable the locking nut 42 to be far away from the locking rod 41, then the side plate 12 is moved to drive the insertion block 32 to be far away from the insertion groove 31, the insertion block 32 drives the locking rod 41 to be far away from the insertion groove 31, the side plate 12 is separated from the bottom plate 11, then the test block 6 is taken down from the bottom plate 11, a circle of closed-loop grooves are formed at one end, close to the bottom plate 11, of the test block 6 due to the existence of the mold ring 2, the area enclosed by the grooves is matched with a standard part, in conclusion, through the steps, cutting is not needed when the test block 6 is used, and the purpose of shortening the processing period of the test block 6 is achieved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides a mould is made to structural adhesive mortar benchmark test block which characterized in that: the die comprises a die box (1), wherein a die ring (2) matched with a standard part is arranged in the die box (1), and the die ring (2) is fixedly connected with the bottom wall of the die box (1); the die box (1) comprises a bottom plate (11) and four side plates (12), the die rings (2) are fixedly connected with the bottom plate (11), and the four side plates (12) are fixedly connected with the bottom plate (11) in a detachable mode.

2. The structural adhesive mortar reference block manufacturing mold according to claim 1, characterized in that: the connecting device is characterized in that a plug-in assembly (3) is arranged between the side plate (12) and the bottom plate (11), the plug-in assembly (3) comprises a plug-in groove (31) and a plug-in block (32), the plug-in groove (31) is formed in the top end of the bottom plate (11), the plug-in block (32) is fixedly connected with the side plate (12), and the plug-in block (32) is in plug-in fit with the plug-in groove (31).

3. The structural adhesive mortar reference block manufacturing mold according to claim 2, characterized in that: a locking device (4) is arranged between the insertion block (32) and the insertion groove (31), the locking device (4) comprises a locking rod (41) and a locking nut (42), one end of the locking rod (41) is fixedly connected with the insertion block (32), and the other end of the locking rod penetrates through the bottom wall of the insertion groove (31) and is in threaded connection with the locking nut (42).

4. The structural adhesive mortar reference block manufacturing mold according to claim 3, characterized in that: a counter bore (111) is formed in the bottom plate (11), and the locking nut (42) is located in the counter bore (111).

5. The structural adhesive mortar reference block manufacturing mold according to claim 1, characterized in that: two symmetrical side plates (12) in the four side plates (12) are provided with reinforcing devices (5), each reinforcing device (5) comprises a reinforcing plate (51), a reinforcing rod (52), an end plate (53) and a reinforcing nut (54), the reinforcing plates (51) are fixedly connected with the side plates (12), one ends of the reinforcing rods (52) are fixedly connected with the end plates (53), and the other ends of the reinforcing rods are connected with the reinforcing nuts (54) in a threaded mode after penetrating through the two reinforcing plates (51) in sequence.

6. The structural adhesive mortar reference block manufacturing mold according to claim 5, characterized in that: the reinforcing nut (54) is provided with a rotating handle (55), and the rotating handle (55) is fixedly connected with the reinforcing nut (54).

7. The structural adhesive mortar reference block manufacturing mold according to claim 5, characterized in that: and a check washer (56) is arranged between the reinforcing nut (54) and the reinforcing plate (51).

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