CN213792053U - Ecological building materials smashes system - Google Patents

Abstract

The utility model belongs to the technical field of ecological building materials are used, specifically disclose an ecological building materials system of smashing, by the vertical supporting component who sets up on the concrete bottom surface, and the broken subassembly that cooperatees and use with vertical supporting component constitutes. The utility model discloses an ecological building materials smashes system's beneficial effect lies in: the crushing machine is reasonable in design structure, can realize efficient and high-quality crushing operation of raw materials of ecological building materials, and is strong in practicability because an auxiliary driving motor and the like are used as standby power.

Description

Ecological building materials smashes system

Technical Field

The utility model belongs to the technical field of ecological building materials is used, concretely relates to system is smashed to ecological building materials.

Background

The green building material is a building material produced by adopting a clean production technology and using industrial or urban solid wastes, is also called ecological building material, environment-friendly building material and healthy building material, refers to healthy, environment-friendly and safe building material, is also called as healthy building material or environment-friendly building material internationally, does not refer to an independent building material product, but evaluates the health, environment-friendly and safe performance of the building material, pays attention to the influence of the building material on the health and environment protection and the safe fireproof performance, has the performances of degaussing, silencing, dimming, temperature regulation, heat insulation, fire prevention and static resistance, and has a special novel functional building material for regulating the functions of a human body.

In foreign countries, green building materials have been widely used in green building materials, home decoration and construction, and are just beginning to be recognized by the public as a concept in China. The developed 'green building materials' in China at present comprise fiber reinforced gypsum boards, ceramics, glass, pipes, composite floors, carpets, coatings, wallpaper and the like, such as 'mildew-proof wallpaper', and the phenomena of mildew, foaming and mildew breeding are eliminated through chemical treatment; the environment-friendly interior and exterior wall latex paint is tasteless and pollution-free, can emit fragrance, and can be washed, brushed again and the like; the environment-friendly carpet not only can prevent corrosion and moth-eating, but also has the function of preventing smoldering; the composite floor board is made of natural wood through surface treatment with imported paint, and features moth-proofing, mildew-proofing, anticorrosion, flame-proofing and non-deforming, so that it is a green building material which is a decorative material without pollution and harm to human body

In the preparation of green building materials (ecological building materials), raw materials need to be pretreated, namely, the raw materials are mixed and crushed, and the existing crushing device is not suitable for processing the crushed raw materials of the ecological building materials, so that the production efficiency of the ecological building materials, the quality of finished products and the like are influenced.

Therefore, based on the above problem, the utility model provides an ecological building materials system of smashing.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a system is smashed to ecological building materials, its project organization is reasonable, can realize the high-efficient, high-quality broken operation of ecological building materials raw and other materials, and auxiliary drive motor etc. uses as reserve power simultaneously, and the practicality is strong.

The technical scheme is as follows: the utility model provides an ecological building material crushing system, which consists of a vertical supporting component arranged on the bottom surface of concrete and a crushing component matched with the vertical supporting component; the vertical supporting assembly comprises a first vertical box body and a second vertical box body which are symmetrically arranged on the bottom surface of the concrete, a first strip-shaped positioning plate and a second strip-shaped positioning plate which are respectively arranged at one end of the first vertical box body and one end of the second vertical box body, and a plurality of first bolt positioning holes and a plurality of second bolt positioning holes which are respectively arranged in the first strip-shaped positioning plate and the second strip-shaped positioning plate; the crushing assembly comprises a transverse plate, a crushing box, a feeding hole, a discharging hole through hole, a motor mounting seat, a driving motor, a transmission box, a vertical supporting plate, an auxiliary vertical supporting plate, a first bearing mounting groove, a second bearing mounting groove, a first bearing and a second bearing, a second bearing and a second bearing, wherein the two ends of the transverse plate are respectively connected with the first vertical box body and the second vertical box body, the crushing box is arranged on the transverse plate, the feeding hole and the discharging hole are arranged on the crushing box, the discharging hole through hole is arranged in the transverse plate, the motor mounting seat is arranged on one side end face of the upper portion of the second vertical box body, the driving motor is mounted on the motor mounting seat, the transmission box is arranged on the other side end face of the upper portion of the second vertical box body, the auxiliary vertical supporting plate is arranged on one side end face of the upper portion of the first vertical box body, the auxiliary vertical supporting plate is respectively arranged in the vertical supporting plate, the first bearing mounting groove and the second bearing mounting groove are respectively arranged in the vertical supporting plate, and the auxiliary vertical supporting plate, The first rotating shaft through hole and the second rotating shaft through hole are matched with the second bearing mounting groove for use, the crushing rotating shaft is arranged at the crushing box, the two ends of the crushing rotating shaft respectively penetrate through the first rotating shaft through hole, the second bearing through hole, the first bearing and the second bearing, the crushing cutter sleeve is arranged on the crushing rotating shaft, the crushing cutters are arranged on the crushing cutter sleeve, and one end of the crushing rotating shaft and the driving motor are respectively connected with the transmission box.

According to the technical scheme, the ecological building material smashing system further comprises an auxiliary motor mounting seat and an auxiliary transmission box which are arranged on the end face of the other side of the upper portion of the first vertical box body, and an auxiliary driving motor arranged on the auxiliary motor mounting seat, wherein the other end of the crushing rotating shaft and the auxiliary driving motor are respectively connected with the auxiliary transmission box.

According to the technical scheme, the ecological building material smashing system further comprises inclined mixing rods respectively arranged on the crushing knives.

This technical scheme, system is smashed to ecological building materials still includes the setting at broken pivot both ends and is located a set of sealing washer between broken knife pouch, the broken case, and sets up at broken pivot both ends and is located a set of auxiliary seal circle between broken case, transmission case, the auxiliary transmission case, wherein, the diameter size of a set of auxiliary seal circle is greater than the diameter size of a set of sealing washer respectively.

According to the technical scheme, the feed inlet and the discharge outlet are both arranged to be horn-shaped structures, and the size of the feed inlet is larger than that of the discharge outlet.

Compared with the prior art, the utility model discloses an ecological building materials smashes system's beneficial effect lies in: the crushing machine is reasonable in design structure, can realize efficient and high-quality crushing operation of raw materials of ecological building materials, and is strong in practicability because an auxiliary driving motor and the like are used as standby power.

Drawings

Fig. 1 is a schematic structural view of an ecological building material pulverizing system of the present invention.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Example one

The ecological building material crushing system shown in fig. 1 comprises a vertical support component arranged on the bottom surface of concrete, and a crushing component matched with the vertical support component; the vertical supporting assembly comprises a first vertical box body 1 and a second vertical box body 3 which are symmetrically arranged on the bottom surface of the concrete, a first strip-shaped positioning plate 4 and a second strip-shaped positioning plate 6 which are respectively arranged at one end of the first vertical box body 1 and one end of the second vertical box body 3, and a plurality of first bolt positioning holes 2 and a plurality of second bolt positioning holes 5 which are respectively arranged in the first strip-shaped positioning plate 4 and the second strip-shaped positioning plate 6; the crushing component comprises a transverse plate 7, a crushing box 9, a feeding hole 10, a discharging hole 18, a discharging hole through hole 8, a motor mounting seat 11, a driving motor 12, a transmission box 13, a vertical supporting plate 14, an auxiliary vertical supporting plate 19, a first bearing mounting groove 15, a second bearing mounting groove 20, a first bearing 16 and a second bearing 21, wherein two ends of the transverse plate 7 are respectively connected with the first vertical box body 1 and the second vertical box body 3, the crushing box 9 is arranged on the transverse plate 7, the feeding hole 10 and the discharging hole 18 are arranged on the crushing box 9, the discharging hole through hole 8 is arranged in the transverse plate 7, the motor mounting seat 11 is arranged on one side end face of the upper portion of the second vertical box body 3, the driving motor 12 is mounted on the motor mounting seat 11, the transmission box 13 and the vertical supporting plate 14 are arranged on the other side end face of the upper portion of the second vertical box body 3, the auxiliary vertical supporting plate 19 is arranged on one side end face of the upper portion of the first vertical box body 1, the first bearing mounting groove 15 and the second bearing mounting groove 20 are respectively arranged in the first bearing mounting groove 15 and the second bearing mounting groove 20, and set up respectively in erecting backup pad 14, supplementary perpendicular backup pad 19 and with first bearing mounting groove 15, the first pivot through-hole 17 that second bearing mounting groove 20 cooperateed and use, second bearing through-hole 22, and set up and run through first pivot through-hole 17 respectively at broken case 9 and both ends, second bearing through-hole 22, first bearing 16, broken pivot 23 of second bearing 21, and set up broken sword cover 24 in broken pivot 23, and set up a plurality of broken sword 25 on broken sword cover 24, wherein, the one end of broken pivot 23, driving motor 12 is connected with transmission case 13 respectively.

Example two

The ecological building material crushing system shown in fig. 1 comprises a vertical support component arranged on the bottom surface of concrete, and a crushing component matched with the vertical support component; the vertical supporting assembly comprises a first vertical box body 1 and a second vertical box body 3 which are symmetrically arranged on the bottom surface of the concrete, a first strip-shaped positioning plate 4 and a second strip-shaped positioning plate 6 which are respectively arranged at one end of the first vertical box body 1 and one end of the second vertical box body 3, and a plurality of first bolt positioning holes 2 and a plurality of second bolt positioning holes 5 which are respectively arranged in the first strip-shaped positioning plate 4 and the second strip-shaped positioning plate 6; the crushing component comprises a transverse plate 7, a crushing box 9, a feeding hole 10, a discharging hole 18, a discharging hole through hole 8, a motor mounting seat 11, a driving motor 12, a transmission box 13, a vertical supporting plate 14, an auxiliary vertical supporting plate 19, a first bearing mounting groove 15, a second bearing mounting groove 20, a first bearing 16 and a second bearing 21, wherein two ends of the transverse plate 7 are respectively connected with the first vertical box body 1 and the second vertical box body 3, the crushing box 9 is arranged on the transverse plate 7, the feeding hole 10 and the discharging hole 18 are arranged on the crushing box 9, the discharging hole through hole 8 is arranged in the transverse plate 7, the motor mounting seat 11 is arranged on one side end face of the upper portion of the second vertical box body 3, the driving motor 12 is mounted on the motor mounting seat 11, the transmission box 13 and the vertical supporting plate 14 are arranged on the other side end face of the upper portion of the second vertical box body 3, the auxiliary vertical supporting plate 19 is arranged on one side end face of the upper portion of the first vertical box body 1, the first bearing mounting groove 15 and the second bearing mounting groove 20 are respectively arranged in the first bearing mounting groove 15 and the second bearing mounting groove 20, a first rotating shaft through hole 17 and a second bearing through hole 22 which are respectively arranged in the vertical support plate 14 and the auxiliary vertical support plate 19 and are matched with the first bearing mounting groove 15 and the second bearing mounting groove 20 for use, a crushing rotating shaft 23 which is arranged in the crushing box 9 and two ends of which respectively penetrate through the first rotating shaft through hole 17, the second bearing through hole 22, the first bearing 16 and the second bearing 21, a crushing cutter sleeve 24 arranged on the crushing rotating shaft 23, and a plurality of crushing cutters 25 arranged on the crushing cutter sleeve 24, wherein, one end of the crushing rotating shaft 23 and the driving motor 12 are respectively connected with the transmission case 13, an auxiliary motor mounting seat 29 and an auxiliary transmission case 31 which are arranged on the end surface of the other side of the upper part of the first vertical box body 1, an auxiliary driving motor 30 which is arranged on the auxiliary motor mounting seat 29, wherein, the other end of the crushing rotating shaft 23 and the auxiliary driving motor 30 are respectively connected with the auxiliary transmission case 31.

EXAMPLE III

The ecological building material crushing system shown in fig. 1 comprises a vertical support component arranged on the bottom surface of concrete, and a crushing component matched with the vertical support component; the vertical supporting assembly comprises a first vertical box body 1 and a second vertical box body 3 which are symmetrically arranged on the bottom surface of the concrete, a first strip-shaped positioning plate 4 and a second strip-shaped positioning plate 6 which are respectively arranged at one end of the first vertical box body 1 and one end of the second vertical box body 3, and a plurality of first bolt positioning holes 2 and a plurality of second bolt positioning holes 5 which are respectively arranged in the first strip-shaped positioning plate 4 and the second strip-shaped positioning plate 6; the crushing component comprises a transverse plate 7, a crushing box 9, a feeding hole 10, a discharging hole 18, a discharging hole through hole 8, a motor mounting seat 11, a driving motor 12, a transmission box 13, a vertical supporting plate 14, an auxiliary vertical supporting plate 19, a first bearing mounting groove 15, a second bearing mounting groove 20, a first bearing 16 and a second bearing 21, wherein two ends of the transverse plate 7 are respectively connected with the first vertical box body 1 and the second vertical box body 3, the crushing box 9 is arranged on the transverse plate 7, the feeding hole 10 and the discharging hole 18 are arranged on the crushing box 9, the discharging hole through hole 8 is arranged in the transverse plate 7, the motor mounting seat 11 is arranged on one side end face of the upper portion of the second vertical box body 3, the driving motor 12 is mounted on the motor mounting seat 11, the transmission box 13 and the vertical supporting plate 14 are arranged on the other side end face of the upper portion of the second vertical box body 3, the auxiliary vertical supporting plate 19 is arranged on one side end face of the upper portion of the first vertical box body 1, the first bearing mounting groove 15 and the second bearing mounting groove 20 are respectively arranged in the first bearing mounting groove 15 and the second bearing mounting groove 20, a first rotating shaft through hole 17 and a second bearing through hole 22 which are respectively arranged in the vertical support plate 14 and the auxiliary vertical support plate 19 and are matched with the first bearing mounting groove 15 and the second bearing mounting groove 20 for use, a crushing rotating shaft 23 which is arranged in the crushing box 9 and two ends of which respectively penetrate through the first rotating shaft through hole 17, the second bearing through hole 22, the first bearing 16 and the second bearing 21, a crushing cutter sleeve 24 arranged on the crushing rotating shaft 23, and a plurality of crushing cutters 25 arranged on the crushing cutter sleeve 24, wherein one end of the crushing rotating shaft 23 and the driving motor 12 are respectively connected with the transmission box 13, an auxiliary motor mounting seat 29 and an auxiliary transmission box 31 which are arranged on the end surface of the other side of the upper part of the first vertical box body 1, and an auxiliary driving motor 30 arranged on the auxiliary motor mounting seat 29, wherein the other end of the crushing rotating shaft 23 and the auxiliary driving motor 30 are respectively connected with the auxiliary transmission box 31, the material mixing device comprises a plurality of crushing knives 25, oblique material mixing rods 26, a group of sealing rings 28 and a group of auxiliary sealing rings 27, wherein the oblique material mixing rods 26 are arranged on the crushing knives 25 respectively, the sealing rings 28 are arranged at two ends of a crushing rotating shaft 23 and are located between a crushing knife sleeve 24 and a crushing box 9, and the auxiliary sealing rings 27 are arranged at two ends of the crushing rotating shaft 23 and are located between the crushing box 9, a transmission box 13 and an auxiliary transmission box 31, and the diameter size of the auxiliary sealing rings 27 is larger than that of the sealing rings 28 respectively.

In the ecological building material pulverizing system according to the first or second or third embodiment of the present invention, the feeding opening 10 and the discharging opening 18 are both configured to be horn-shaped, and the size of the feeding opening 10 is larger than that of the discharging opening 18.

The ecological building material crushing system of the first or second or third structural embodiment has a reasonable design structure, can realize high-efficiency and high-quality crushing operation of raw materials of ecological building materials, and has strong practicability because an auxiliary driving motor and the like are used as standby power.

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

Claims (5)

1. The utility model provides an ecological building materials smashes system which characterized in that: the concrete crushing device comprises a vertical supporting component arranged on the bottom surface of concrete and a crushing component matched with the vertical supporting component; the vertical supporting assembly comprises a first vertical box body (1) and a second vertical box body (3) which are symmetrically arranged on the bottom surface of the concrete, a first strip-shaped positioning plate (4) and a second strip-shaped positioning plate (6) which are respectively arranged at one end of the first vertical box body (1) and one end of the second vertical box body (3), and a plurality of first bolt positioning holes (2) and a plurality of second bolt positioning holes (5) which are respectively arranged in the first strip-shaped positioning plate (4) and the second strip-shaped positioning plate (6); the crushing assembly comprises a transverse plate (7) with two ends respectively connected with a first vertical box body (1) and a second vertical box body (3), a crushing box (9) arranged on the transverse plate (7), a feed inlet (10) and a discharge outlet (18) arranged on the crushing box (9), a discharge outlet through hole (8) arranged in the transverse plate (7), a motor mounting seat (11) arranged on one side end face of the upper part of the second vertical box body (3), a driving motor (12) arranged on the motor mounting seat (11), a transmission box (13) and a vertical supporting plate (14) arranged on the other side end face of the upper part of the second vertical box body (3), an auxiliary vertical supporting plate (19) arranged on one side end face of the upper part of the first vertical box body (1), and a first bearing mounting groove (15) and a second bearing mounting groove (20) respectively arranged in the vertical supporting plate (14) and the auxiliary vertical supporting plate (19), a first bearing (16) and a second bearing (21) which are respectively arranged in the first bearing mounting groove (15) and the second bearing mounting groove (20), a first rotating shaft through hole (17) and a second bearing through hole (22) which are respectively arranged in the vertical support plate (14) and the auxiliary vertical support plate (19) and are matched with the first bearing mounting groove (15) and the second bearing mounting groove (20) for use, a crushing rotating shaft (23) which is arranged in the crushing box (9) and two ends of which respectively penetrate through the first rotating shaft through hole (17), the second bearing through hole (22), the first bearing (16) and the second bearing (21), a crushing cutter sleeve (24) arranged on the crushing rotating shaft (23), and a plurality of crushing cutters (25) arranged on the crushing cutter sleeve (24), wherein, one end of the crushing rotating shaft (23) and the driving motor (12) are respectively connected with the transmission case (13).

2. The ecological building material pulverizing system of claim 1, wherein: the ecological building material smashing system further comprises an auxiliary motor mounting seat (29) and an auxiliary transmission box (31) which are arranged on the end face of the other side of the upper portion of the first vertical box body (1), and an auxiliary driving motor (30) which is arranged on the auxiliary motor mounting seat (29), wherein the other end of the smashing rotating shaft (23) and the auxiliary driving motor (30) are respectively connected with the auxiliary transmission box (31).

3. An ecological building material pulverizing system according to claim 1 or 2, characterized in that: the ecological building material crushing system further comprises inclined mixing rods (26) which are respectively arranged on the crushing knives (25).

4. The ecological building material pulverizing system of claim 3, wherein: ecological building materials crushing system still includes a set of sealing washer (28) that set up at broken pivot (23) both ends and lie in between broken knife pouch (24), broken case (9), and set up at broken pivot (23) both ends and lie in a set of supplementary sealing washer (27) between broken case (9), transmission case (13), supplementary transmission case (31), wherein, the diameter size of a set of supplementary sealing washer (27) is greater than the diameter size of a set of sealing washer (28) respectively.

5. The ecological building material pulverizing system of claim 1, wherein: the feed inlet (10) and the discharge outlet (18) are both arranged to be horn-shaped structures, and the size of the feed inlet (10) is larger than that of the discharge outlet (18).

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