CN112387389A

CN112387389A - Vertical detection or pretreatment structure based on precast beam slab

Info

Publication number: CN112387389A
Application number: CN202011210022.2A
Authority: CN
Inventors: 张永成; 辛志强
Original assignee: Nanjing Yuanlang Construction Engineering Co ltd
Current assignee: Nanjing Yuanlang Construction Engineering Co ltd
Priority date: 2020-11-03
Filing date: 2020-11-03
Publication date: 2021-02-23

Abstract

The invention belongs to the technical field of application of precast beam plates, and particularly discloses a vertical detection or pretreatment structure based on precast beam plates, which consists of a sealed box body assembly, a vertical supporting assembly matched with the sealed box body assembly for use, a spraying assembly matched with the sealed box body assembly for use, and a re-crushing assembly. The vertical detection or pretreatment structure based on the precast beam slab has the advantages that: its project organization is reasonable, solves the problem that exists when current precast beam board concrete residue waste recycling used, can carry out the broken operation again of high efficiency, high quality and environmental protection with the precast beam board concrete residue waste material of retrieving, and the structure of integral type has practiced thrift economic cost (the tradition needs a plurality of equipment combination to use simultaneously).

Description

Vertical detection or pretreatment structure based on precast beam slab

Technical Field

The invention belongs to the technical field of bridge precast slab application, and particularly relates to a vertical detection or pretreatment structure based on precast beam slabs.

Background

The precast beam slab is a beam which is prefabricated in a factory and then transported to a construction site to be installed and fixed according to the position required by the design.

When the precast beam slab is prepared, the precast beam slab which is prefabricated and finished needs to be preprocessed, namely, the precast beam slab which is roughly prepared and molded is subjected to finish machining treatment such as concrete residue waste materials on the surface, so that the precast beam slab meets the requirements of erection use standards, the collected and polished concrete residue waste materials can be recycled for secondary use to reduce the production economic cost, but the collected and polished concrete residue waste materials are (blocky) which cannot be directly used, and the operation of re-crushing is needed so as to meet the standard requirements of recycling.

Therefore, based on the above problems, the present invention provides a vertical type detection or pretreatment structure based on precast beam panels.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to provide a vertical detection or pretreatment structure based on a precast beam plate, which has a reasonable design structure, solves the problems existing in the recycling of the concrete residue waste of the existing precast beam plate, can perform high-efficiency, high-quality and environment-friendly re-crushing operation on the recycled precast beam plate concrete residue waste, and saves the economic cost (a plurality of devices are combined for use in the prior art) due to an integrated structure.

The technical scheme is as follows: the invention provides a vertical detection or pretreatment structure based on a precast beam slab, which consists of a sealed box body assembly, a vertical supporting assembly matched with the sealed box body assembly for use, a spraying assembly matched with the sealed box body assembly for use, and a re-crushing assembly; the sealing box body assembly comprises a sealing box body, a feed inlet, a discharge outlet, a plurality of positioning seats, positioning seat threaded holes and an access hole, wherein the feed inlet is formed in the outer wall of the upper part of the sealing box body; the vertical supporting assembly comprises fixed supporting blocks which are respectively matched with the plurality of positioning seats for use, fixed supporting block through holes which are respectively arranged in the fixed supporting blocks, vertical supporting plates which are respectively arranged on the bottom surfaces of the fixed supporting blocks, bottom fixing seats which are respectively arranged at one ends of the vertical supporting plates, bottom fixing seat through holes which are respectively arranged in the bottom fixing seats, and positioning bolts which fixedly connect the positioning seats and the fixed supporting blocks through positioning seat threaded holes and the fixed supporting block through holes; the spraying assembly comprises a cover plate matched with the access hole for use, a handheld handle arranged on one side of the cover plate, a group of vertical internal thread sleeves arranged on one side of the sealed box body, water inlet pipes respectively matched with the group of vertical internal thread sleeves for use, hollow water inlet shells positioned in the sealed box body and respectively connected with the water inlet pipes, and porous cover shells respectively arranged on one side of the hollow water inlet shells; broken subassembly again, set up the spacing fixed block at seal box both ends outer wall including the symmetry, and set up the bearing fixing groove in spacing fixed block one face respectively, and set up the bearing in bearing fixing groove respectively, and set up at seal box one end outer wall and be located the diaphragm of spacing fixed block below, and set up on the diaphragm and the gear box that cooperatees and use, driving motor, and both ends run through the broken axle that bearing and one end are connected with the gear box respectively, and set up the broken sword of a plurality of on broken epaxial, and set up at the filter plate that seal box inner wall just is located the broken sword below of a plurality of.

This technical scheme, vertical detection or preliminary treatment structure based on precast beam board still includes the bearing fixed block that the symmetry set up at sealed box lower part both sides outer wall, and set up the bearing mounting groove in the bearing fixed block respectively, and set up the auxiliary bearing in the bearing mounting groove respectively, and set up at sealed box lower part outer wall and be located the supplementary diaphragm of discharge gate top, and set up the auxiliary drive motor on supplementary diaphragm, and both ends run through the rotation axis of auxiliary bearing respectively, and set up the spiral discharge tooth on the rotation axis, and respectively with the rotation axis, the shaft coupling that auxiliary drive motor is connected.

According to the technical scheme, the vertical detection or pretreatment structure based on the precast beam plate further comprises inclined supporting plates, wherein two ends of each inclined supporting plate are connected with the auxiliary transverse plate and the discharge hole respectively.

According to the technical scheme, the hollow water inlet shell is of a circular structure, the cover shell with the holes is of a semicircular structure, and the cover plate is of a transparent structure.

According to the technical scheme, the access hole is of a circular protruding structure, and the diameter size of the cover with the hole is larger than that of the access hole.

According to the technical scheme, the fixed supporting block, the through hole of the fixed supporting block, the vertical supporting plate, the bottom fixing seat and the through hole of the bottom fixing seat are of an integrally formed cast iron or stainless steel structure.

According to the technical scheme, the feed inlet is of a circular inclined tube structure.

Compared with the prior art, the vertical detection or pretreatment structure based on the precast beam slab has the beneficial effects that: its project organization is reasonable, solves the problem that exists when current precast beam board concrete residue waste recycling used, can carry out the broken operation again of high efficiency, high quality and environmental protection with the precast beam board concrete residue waste material of retrieving, and the structure of integral type has practiced thrift economic cost (the tradition needs a plurality of equipment combination to use simultaneously).

Drawings

FIG. 1 is a schematic structural view of a front view part of a vertical detection or pretreatment structure based on precast beam slabs according to the present invention;

fig. 2 is a schematic side view of a bearing fixing block, a bearing mounting groove, an auxiliary bearing, an auxiliary transverse plate, an auxiliary driving motor, a rotating shaft, etc. of the vertical detection or pretreatment structure based on the precast beam slab of the present invention.

Detailed Description

The invention is further elucidated with reference to the drawings and the embodiments.

Example one

The vertical detection or pretreatment structure based on the precast beam slab as shown in fig. 1 and fig. 2 is composed of a sealed box body assembly, a vertical supporting assembly matched with the sealed box body assembly for use, a spraying assembly matched with the sealed box body assembly for use, and a re-crushing assembly; the sealing box body assembly comprises a sealing box body 1, a feed inlet 2 arranged on the outer wall of the upper part of the sealing box body 1, a discharge outlet 11 arranged on the outer wall of the bottom part of the sealing box body 1, a plurality of positioning seats 3 arranged on the outer wall of the lower part of the sealing box body 1, positioning seat threaded holes 4 respectively arranged in one surface of each positioning seat 3, and an access hole 16 arranged on the sealing box body 1; the vertical supporting assembly comprises fixed supporting blocks 5 which are respectively matched with the plurality of positioning seats 3 for use, fixed supporting block through holes 6 which are respectively arranged in the fixed supporting blocks 5, vertical supporting plates 8 which are respectively arranged on the bottom surfaces of the fixed supporting blocks 5, bottom fixing seats 9 which are respectively arranged at one ends of the vertical supporting plates 8, bottom fixing seat through holes 10 which are respectively arranged in the bottom fixing seats 9, and positioning bolts 7 which fixedly connect the positioning seats 3 and the fixed supporting blocks 5 through the positioning seat threaded holes 4 and the fixed supporting block through holes 6; the spraying assembly comprises a cover plate 17 matched with the access hole 16 for use, a handheld handle 18 arranged on one surface of the cover plate 17, a group of vertical internal thread sleeves 12 arranged on one surface of the sealed box body 1, water inlet pipes 13 respectively matched with the group of vertical internal thread sleeves 12 for use, a hollow water inlet shell 14 positioned in the sealed box body 1 and respectively connected with the water inlet pipes 13, and a cover shell 15 with holes respectively arranged on one surface of the hollow water inlet shell 14; the re-crushing assembly comprises limiting fixing blocks 19 symmetrically arranged on the outer walls of two ends of a sealed box body 1, bearing fixing grooves 20 respectively arranged in one faces of the limiting fixing blocks 19, bearings 21 respectively arranged in the bearing fixing grooves 20, a transverse plate 22 arranged on the outer wall of one end of the sealed box body 1 and located below the limiting fixing blocks 19, a gear box 24 arranged on the transverse plate 22 and matched with the transverse plate for use, a driving motor 23, a crushing shaft 25 with two ends respectively penetrating through the bearing 21 and one end connected with the gear box 24, a plurality of crushing cutters 26 arranged on the crushing shaft 25, and a filter plate 36 arranged on the inner wall of the sealed box body 1 and located below the plurality of crushing cutters 26.

Example two

The vertical detection or pretreatment structure based on the precast beam slab as shown in fig. 1 and fig. 2 is composed of a sealed box body assembly, a vertical supporting assembly matched with the sealed box body assembly for use, a spraying assembly matched with the sealed box body assembly for use, and a re-crushing assembly; the sealing box body assembly comprises a sealing box body 1, a feed inlet 2 arranged on the outer wall of the upper part of the sealing box body 1, a discharge outlet 11 arranged on the outer wall of the bottom part of the sealing box body 1, a plurality of positioning seats 3 arranged on the outer wall of the lower part of the sealing box body 1, positioning seat threaded holes 4 respectively arranged in one surface of each positioning seat 3, and an access hole 16 arranged on the sealing box body 1; the vertical supporting assembly comprises fixed supporting blocks 5 which are respectively matched with the plurality of positioning seats 3 for use, fixed supporting block through holes 6 which are respectively arranged in the fixed supporting blocks 5, vertical supporting plates 8 which are respectively arranged on the bottom surfaces of the fixed supporting blocks 5, bottom fixing seats 9 which are respectively arranged at one ends of the vertical supporting plates 8, bottom fixing seat through holes 10 which are respectively arranged in the bottom fixing seats 9, and positioning bolts 7 which fixedly connect the positioning seats 3 and the fixed supporting blocks 5 through the positioning seat threaded holes 4 and the fixed supporting block through holes 6; the spraying assembly comprises a cover plate 17 matched with the access hole 16 for use, a handheld handle 18 arranged on one surface of the cover plate 17, a group of vertical internal thread sleeves 12 arranged on one surface of the sealed box body 1, water inlet pipes 13 respectively matched with the group of vertical internal thread sleeves 12 for use, a hollow water inlet shell 14 positioned in the sealed box body 1 and respectively connected with the water inlet pipes 13, and a cover shell 15 with holes respectively arranged on one surface of the hollow water inlet shell 14; the re-crushing component comprises limiting fixed blocks 19 symmetrically arranged on the outer walls of two ends of the sealed box body 1, bearing fixing grooves 20 respectively arranged in one surface of the limiting fixed blocks 19, bearings 21 respectively arranged in the bearing fixing grooves 20, a transverse plate 22 arranged on the outer wall of one end of the sealed box body 1 and positioned below the limiting fixed blocks 19, a gear box 24 and a driving motor 23 which are arranged on the transverse plate 22 and used in a matched mode, a crushing shaft 25 with two ends respectively penetrating through the bearings 21 and one end connected with the gear box 24, a plurality of crushing cutters 26 arranged on the crushing shaft 25, a filter plate 36 arranged on the inner wall of the sealed box body 1 and positioned below the plurality of crushing cutters 26, bearing fixed blocks 27 symmetrically arranged on the outer walls of two sides of the lower portion of the sealed box body 1, bearing mounting grooves 28 respectively arranged in the bearing fixed blocks 27, and auxiliary bearings 30 respectively arranged in the bearing mounting grooves 28, and an auxiliary horizontal plate 29 disposed on the outer wall of the lower part of the sealed box 1 and located above the discharge port 11, an auxiliary driving motor 33 disposed on the auxiliary horizontal plate 29, a rotating shaft 31 with two ends penetrating through the auxiliary bearing 30, a spiral discharge gear 32 disposed on the rotating shaft 31, and a coupling 34 connected to the rotating shaft 31 and the auxiliary driving motor 33.

The vertical detection or pretreatment structure based on the precast beam slab of the first or second structural embodiment further comprises an inclined support plate 35, two ends of which are respectively connected with the auxiliary transverse plate 29 and the discharge hole 11; the hollow water inlet shell 14 is of a circular structure, the perforated cover shell 15 is of a semicircular structure, and the cover plate 17 is of a transparent structure; the access hole 16 is arranged to be a circular convex structure, and the diameter size of the cover shell with the hole 15 is larger than that of the access hole 16; the fixed supporting block 5, the fixed supporting block through hole 6, the vertical supporting plate 8, the bottom fixing seat 9 and the bottom fixing seat through hole 10 are of an integrally formed cast iron or stainless steel structure; and the feed inlet 2 is arranged in a circular inclined tube structure.

This vertical detection or preliminary treatment structure based on precast beam board of structural embodiment one or embodiment two, its project organization is reasonable, solves the problem that exists when current precast beam board concrete residue waste recycling used, can carry out the recrushment operation of high efficiency, high quality and environmental protection with the precast beam board concrete residue waste material of retrieving, and the structure of integral type has practiced thrift economic cost (the tradition needs a plurality of equipment combination to use simultaneously).

The foregoing is only a preferred embodiment of this invention and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the invention and these modifications should also be considered as the protection scope of the invention.

Claims

1. Vertical detection or preliminary treatment structure based on precast beam board, its characterized in that: the crushing device comprises a sealed box body assembly, a vertical supporting assembly matched with the sealed box body assembly for use, a spraying assembly matched with the sealed box body assembly for use, and a re-crushing assembly; the sealing box body assembly comprises a sealing box body (1), a feeding hole (2) arranged on the outer wall of the upper part of the sealing box body (1), a discharging hole (11) arranged on the outer wall of the bottom of the sealing box body (1), a plurality of positioning seats (3) arranged on the outer wall of the lower part of the sealing box body (1), positioning seat threaded holes (4) respectively arranged in one surface of each positioning seat (3), and an access hole (16) arranged on the sealing box body (1); the vertical supporting assembly comprises fixed supporting blocks (5) which are respectively matched with the plurality of positioning seats (3) for use, fixed supporting block through holes (6) which are respectively arranged in the fixed supporting blocks (5), vertical supporting plates (8) which are respectively arranged on the bottom surfaces of the fixed supporting blocks (5), bottom fixing seats (9) which are respectively arranged at one ends of the vertical supporting plates (8), bottom fixing seat through holes (10) which are respectively arranged in the bottom fixing seats (9), and positioning bolts (7) which fixedly connect the positioning seats (3) and the fixed supporting blocks (5) through positioning seat threaded holes (4) and the fixed supporting block through holes (6); the spraying assembly comprises a cover plate (17) matched with the access hole (16) for use, a handheld handle (18) arranged on one surface of the cover plate (17), a group of vertical internal thread sleeves (12) arranged on one surface of the sealed box body (1), water inlet pipes (13) respectively matched with the group of vertical internal thread sleeves (12) for use, hollow water inlet shells (14) positioned in the sealed box body (1) and respectively connected with the water inlet pipes (13), and perforated cover shells (15) respectively arranged on one surfaces of the hollow water inlet shells (14); the re-crushing assembly comprises limiting fixing blocks (19) which are symmetrically arranged on the outer walls of two ends of a sealing box body (1), bearing fixing grooves (20) which are respectively arranged in one surface of each limiting fixing block (19), bearings (21) which are respectively arranged in the bearing fixing grooves (20), a transverse plate (22) which is arranged on the outer wall of one end of the sealing box body (1) and is located below the limiting fixing blocks (19), a gear box (24) which is arranged on the transverse plate (22) and is matched with the transverse plate for use, a driving motor (23), a crushing shaft (25) of which two ends are respectively connected with the gear box (24) through the bearings (21) and one end is connected with the gear box (24), a plurality of crushing cutters (26) which are arranged on the crushing shaft (25), and filter plates (36) which are arranged on the inner wall of the sealing box body (1.

2. The precast beam slab based vertical inspection or pretreatment structure according to claim 1, wherein: vertical detection or preliminary treatment structure based on precast beam board, still including bearing fixed block (27) that the symmetry set up at sealed box (1) lower part both sides outer wall, and set up bearing mounting groove (28) in bearing fixed block (27) respectively, and set up auxiliary bearing (30) in bearing mounting groove (28) respectively, and set up at sealed box (1) lower part outer wall and be located discharge gate (11) top auxiliary diaphragm (29), and set up auxiliary drive motor (33) on auxiliary diaphragm (29), and rotation axis (31) that auxiliary bearing (30) were run through respectively at both ends, and spiral ejection of compact tooth (32) of setting on rotation axis (31), and coupling (34) of being connected with rotation axis (31), auxiliary drive motor (33) respectively.

3. The precast beam slab based vertical inspection or pretreatment structure according to claim 2, wherein: vertical detection or preliminary treatment structure based on precast beam board still includes inclined support board (35) that both ends are connected with supplementary diaphragm (29), discharge gate (11) respectively.

4. The precast beam slab based vertical inspection or pretreatment structure according to claim 1, wherein: the hollow water inlet shell (14) is of a circular structure, the perforated cover shell (15) is of a semicircular structure, and the cover plate (17) is of a transparent structure.

5. The precast beam slab based vertical inspection or pretreatment structure according to claim 1 or 4, wherein: the access hole (16) is arranged to be a circular convex structure, and the diameter size of the cover shell (15) with the hole is larger than that of the access hole (16).

6. The precast beam slab based vertical inspection or pretreatment structure according to claim 1, wherein: the fixed supporting block (5), the fixed supporting block through hole (6), the vertical supporting plate (8), the bottom fixing seat (9) and the bottom fixing seat through hole (10) are of an integrally formed cast iron or stainless steel structure.

7. The precast beam slab based vertical inspection or pretreatment structure according to claim 1, wherein: the feed inlet (2) is of a circular inclined tube structure.