CN218107573U - Green energy-conserving building materials production loading attachment - Google Patents

Abstract

The utility model provides a green energy-conserving building materials production loading attachment, including fixed bolster and the agitator tank of setting on the fixed bolster, be provided with on the fixed bolster with the conveying pipe of agitator tank intercommunication, including setting up the install bin of agitator tank bottom, the discharge gate department of agitator tank pass through the ooff valve with the install bin intercommunication, be provided with the position finding mechanism on the install bin, the position finding mechanism includes that the tilting is installed installation pipe on the install bin. The utility model discloses, through setting up the installation pipe and setting up the force measuring component in the installation pipe, when the pressure that force measuring component detected reached the ideal value, the ooff valve was closed, and discharge mechanism opens, and the material can be followed discharge mechanism and installed the pipe simultaneously and rotate and to be located the inside material of installation and pour out later and reset once more. This application is controlled the load through foretell mode, and the material volume is up to standard when guaranteeing the transmission material at every turn, facilitates the use.

Description

Green energy-conserving building materials production loading attachment

Technical Field

The utility model relates to a building materials manufacturing installation technical field especially relates to an energy-conserving building materials production loading attachment.

Background

The green building material is a building material which is produced by adopting a clean production technology, does not use or uses less natural resources and energy sources, uses industrial and agricultural or urban solid wastes in a large quantity, is non-toxic, non-pollution and non-radioactive, can be recycled after reaching the use period and is beneficial to environmental protection and human health.

The application number is 202020607956.9's chinese utility model patent, and it discloses a green energy-conserving building materials production loading attachment, and this loading attachment is when using, and the material is discharged to the inside of agitator tank from the conveying pipe, is handled the back by the agitator tank stirring and discharges and carry out the material loading and handle. However, the user is inconvenient to limit the primary discharge amount to discharge materials after the materials are discharged from the mixing tank, and the problem that the material amount cannot reach the standard during material transmission due to too much or too little discharged materials is caused when the materials are discharged for one time.

SUMMERY OF THE UTILITY MODEL

A primary objective of the utility model is to provide an energy-conserving building materials production loading attachment aims at solving and probably because the discharged material is too much or too little when carrying out the ejection of compact, and leads to the not up to standard technical problem of inventory when transmitting the material.

In order to achieve the purpose, the technical scheme of the utility model is that the realization is like this: a feeding device for green energy-saving building material production comprises a fixed support and a stirring cylinder arranged on the fixed support, wherein a feeding pipe communicated with the stirring cylinder is arranged on the fixed support, the feeding pipe comprises an installation box arranged at the bottom of the stirring cylinder, a discharge port of the stirring cylinder is communicated with the installation box through a switch valve, a position measuring mechanism is arranged on the installation box and comprises an installation pipe which is installed on the installation box in an up-and-down rotating mode, one end of the installation pipe is located in the installation box, and the direction of a pipe orifice of the installation pipe is adjustable up and down; a force measuring assembly is arranged inside the mounting pipe and used for measuring the pressure of the bottom of the material entering the mounting pipe; and a discharging mechanism capable of regulating and controlling material discharging is arranged at the bottom of the mounting box.

Furthermore, position finding mechanism is including rotating the installation electric rotary table on the install bin lateral wall, electric rotary table with the lateral wall of install bin seals up the cooperation, the installation pipe is installed electric rotary table is last to rotate through the relative install bin of electric rotary table.

Further, the force measuring assembly comprises a sealing plate, a connecting spring and a force measuring device, the sealing plate is arranged in the mounting pipe in a sliding mode and is in sealing fit with the mounting pipe, the force measuring device is located at the bottom of the mounting pipe, and the connecting spring is located between the sealing plate and the force measuring device.

Furthermore, a material guide pipe is communicated between the stirring cylinder and the mounting box, and the switch valve is arranged on the material guide pipe.

Furthermore, a material guide bottom block matched with the installation box in a sealing mode is fixed on the bottom wall of the inner cavity of the installation box and used for guiding out materials.

Further, discharge mechanism is including the intercommunication the installation bottom tube of install bin bottom, the lateral part intercommunication of installation bottom tube has the discharging pipe, the discharging pipe tip is provided with and is used for opening and closing the striker plate of discharging pipe, the discharging pipe tip still be provided with the promotion part, with the striker plate is connected.

Further, an auger is arranged in the installation bottom pipe, and a motor used for driving the auger to rotate is arranged outside the installation bottom pipe.

Furthermore, a material guide block is arranged at a position corresponding to the material discharge pipe in the installation bottom pipe and used for guiding the material in the installation bottom pipe to the material discharge pipe.

Furthermore, a bearing seat is arranged at the bottom wall of the inner cavity of the installation bottom pipe, and a bearing matched with the bearing seat is arranged at the output shaft of the motor.

The beneficial effects of the utility model are embodied in:

the utility model discloses in, through setting up the installation pipe and setting up the dynamometry subassembly in the installation pipe, when using, the material passes through the agitator tank and discharges and fall into to the inside of install bin, and discharge mechanism can restrict the ejection of compact of material in the install bin between this, and the material is stored in the inside of install bin. Along with the increase of the height of the materials piled up in the installation box, the materials enter the installation pipe. Along with the continuous entering of material, the pressure of material bottom in the installation pipe improves gradually. Through the monitoring of measuring force component to material bottom pressure in the mounting tube, when the pressure that measuring force component detected reached the ideal value, the ooff valve closed, discharge mechanism opened, and the material can be followed discharge mechanism and the mounting tube and rotated and will be located the inside material of mounting tube and pour out the back and reset once more simultaneously. This application is controlled the load through foretell mode, and the material volume is up to standard when guaranteeing the transmission material at every turn, facilitates the use.

Drawings

Fig. 1 is a cross-sectional view of an embodiment of the present invention;

fig. 2 is an enlarged schematic view of the point a shown in fig. 1 according to the present invention;

fig. 3 is an enlarged schematic view of the utility model at the position B shown in fig. 1;

fig. 4 is an enlarged schematic view of the point C shown in fig. 1 according to the present invention.

Description of reference numerals:

1-a fixed support, 11-a stirring cylinder, 12-a feeding pipe, 13-a switch valve, 2-an installation box, 21-a feeding pipe, 22-a feeding bottom block, 3-a position measuring mechanism, 31-an electric turntable, 32-an installation pipe, 33-a force measuring device, 34-a connecting spring, 35-a sealing plate, 4-a discharging mechanism, 41-an installation bottom pipe, 42-a feeding block, 43-a discharging pipe, 44-a material baffle plate, 45-a pushing part, 46-a motor, 47-an auger, 48-a bearing seat and 49-a bearing.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The embodiments and features of the embodiments in the present application may be combined with each other without conflict. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear \8230;) are involved in the embodiments of the present invention, the directional indications are only used to explain the relative positional relationship between the components in a specific posture (as shown in the attached drawings), the motion situation, etc., and if the specific posture is changed, the directional indications are changed accordingly.

Referring to fig. 1 to 4, the feeding device for green energy-saving building material production comprises a fixing support 1 and a stirring cylinder 11 arranged on the fixing support 1, wherein a feeding pipe 12 communicated with the stirring cylinder 11 is arranged on the fixing support 1, the feeding device comprises an installation box 2 arranged at the bottom of the stirring cylinder 11, a discharge port of the stirring cylinder 11 is communicated with the installation box 2 through a switch valve 13, a position measuring mechanism 3 is arranged on the installation box 2, the position measuring mechanism 3 comprises an installation pipe 32 which is installed on the installation box 2 in a vertically rotating manner, one end of the installation pipe 32 is located in the installation box 2, and the direction of a pipe orifice of the installation pipe 32 is adjustable up and down; a force measuring assembly is arranged in the mounting pipe 32 and used for measuring the pressure at the bottom of the material entering the mounting pipe 32; the bottom of the installation box 2 is provided with a discharging mechanism 4 capable of regulating and controlling material discharging.

The utility model discloses, through setting up installation pipe 32 and the dynamometry subassembly of setting in installation pipe 32, when using, the material passes through mixing bowl 11 and discharges and fall into the inside to install bin 2, and discharge mechanism 4 can restrict the ejection of compact of material in install bin 2 between this, and the material is stored in the inside of install bin 2. As the height of the material accumulated in the installation vessel 2 increases, the material enters the interior of the installation tube 32. With the continuous entering of the material, the pressure at the bottom of the material in the installation pipe 32 is gradually increased. Through the monitoring of measuring force subassembly material bottom pressure in to the installation pipe 32, when the pressure that measuring force subassembly detected reached the ideal value, ooff valve 13 closed, discharge mechanism 4 opens, and the material can be followed discharge mechanism 4 and is discharged simultaneously installation pipe 32 and rotate and will be located the inside material of installation pipe 32 and pour out later the reseing once more. This application is controlled the load through foretell mode, and the material volume is up to standard when guaranteeing the transmission material at every turn, facilitates the use.

In one embodiment, the position measuring mechanism 3 includes an electric rotary plate 31 rotatably mounted on a side wall of the mounting case 2, the electric rotary plate 31 is in sealing engagement with the side wall of the mounting case 2, and the mounting tube 32 is mounted on the electric rotary plate 31 and is rotated relative to the mounting case 2 by the electric rotary plate 31. Design like this, make electric turntable 31 can drive installation pipe 32 and rotate, and when installation pipe 32 took place to rotate, can prevent to be located installation box 2 inside material of installation box 2 and spill installation box 2 because electric turntable 31 and the sealed cooperation of installation box 2.

In one embodiment, the force measuring assembly comprises a sealing plate 35, a connecting spring 34 and a force measuring device 33, the sealing plate 35 is slidably disposed within the mounting tube 32 and sealingly engages the mounting tube 32, the force measuring device 33 is located at the bottom of the mounting tube 32, and the connecting spring 34 is located between the sealing plate 35 and the force measuring device 33. Design like this, when the material falls into to the inside of installation pipe 32, closing plate 35 can shelter from the material, and connecting spring 34 is compressed, improves along with the material volume of storing in installation pipe 32 inside, and connecting spring 34 is improved by the compressive capacity, and the pressure that ergograph 33 detected increases gradually to the weight of material in the installation pipe 32 has been made things convenient for to detect.

In an embodiment, a material guiding pipe 21 is communicated between the mixing bowl 11 and the mounting box 2, the switch valve 13 is disposed on the material guiding pipe 21, and the material guiding pipe 21 is communicated to a bottom position of the inner cavity of the mounting box 2. By the design, when the material mixing device is used, materials in the mixing bowl 11 are supplied to the mounting box 2 through the material guide pipe 21, the on-off of the material guide pipe 21 can be controlled by the switch valve 13, and the materials can be prevented from directly falling into the mounting pipe 32 and influencing a monitoring result by arranging the bottom position of the material guide pipe 21 communicated to the inner cavity of the mounting box 2.

In an embodiment, a material guiding bottom block 22 hermetically matched with the installation box 2 is fixed at the bottom wall of the inner cavity of the installation box 2 and used for guiding out materials. By means of the design, materials in the installation box 2 can be sufficiently guided out through the material guide bottom block 22.

In one embodiment, the discharging mechanism 4 comprises a mounting bottom pipe 41 communicated with the bottom of the mounting box 2, a discharging pipe 43 is communicated with the side part of the mounting bottom pipe 41, a material baffle plate 44 for opening and closing the discharging pipe 43 is arranged at the end part of the discharging pipe 43, and a pushing part 45 is further arranged at the end part of the discharging pipe 43 and connected with the material baffle plate 44. Design like this, the material that falls into to installation bottom tube 41 inside can be followed discharging pipe 43 and fallen out, striker plate 44 that sets up on discharging pipe 43 here can shelter from the tip at discharging pipe 43 and restrict the material and fall out and make the material store in the inside of discharging pipe 43, when the discharge material is adjusted to needs, can promote striker plate 44 through pushing component 45 and remove, when striker plate 44 moves to the tip that breaks away from discharging pipe 43, the material of storing in discharging pipe 43 inside can be followed discharging pipe 43 and carried out the material loading and handled, pushing component 45 can be electric putter.

In one embodiment, an auger 47 is arranged in the bottom mounting pipe 41, and a motor 46 for driving the auger 47 to rotate is arranged outside the bottom mounting pipe 41. Design like this, when the ejection of compact, can make auger 49 rotate through starter motor 47, pivoted auger 49 extrudees the material to the bottom this moment, can prevent that the material from taking place to block up and influencing ejection of compact speed.

In one embodiment, a material guiding block 42 is disposed in the bottom pipe 41 at a position corresponding to the material discharging pipe 43 for guiding the material in the bottom pipe 41 to the material discharging pipe 43. Design like this, from the inside exhaust material of installing bin 2 can fall into to the installation pipe 41 in, the guide block 42 can be with the material guide to discharging pipe 43 department in the installation bottom tube 41 this moment, has increased ejection of compact stability.

In one embodiment, a bearing seat 48 is provided at the bottom wall of the inner cavity of the mounting bottom tube 41, and a bearing 49 matched with the bearing seat 48 is provided at the output shaft of the motor 46. By such a design, the rotation shaft 48 is rotated by the bearing housing 410 and the bearing 411, so that the rotation stability of the rotation shaft 48 can be increased.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a green energy-conserving building materials production loading attachment, includes fixed bolster (1) and sets up agitator (11) on fixed bolster (1), be provided with on fixed bolster (1) with conveying pipe (12) of agitator (11) intercommunication, its characterized in that: the automatic material-mixing device comprises an installation box (2) arranged at the bottom of a mixing cylinder (11), wherein a discharge port of the mixing cylinder (11) is communicated with the installation box (2) through a switch valve (13), a position-measuring mechanism (3) is arranged on the installation box (2), the position-measuring mechanism (3) comprises an installation pipe (32) which is installed on the installation box (2) in a vertically rotating mode, one end of the installation pipe (32) is located in the installation box (2), and the direction of a pipe orifice of the installation pipe (32) is adjustable up and down; a force measuring assembly is arranged inside the mounting pipe (32), and is used for measuring the pressure at the bottom of the material entering the mounting pipe (32); and a discharging mechanism (4) capable of regulating and controlling material discharging is arranged at the bottom of the mounting box (2).

2. A green energy-saving building material production feeding device as claimed in claim 1, wherein the position measuring mechanism (3) comprises an electric rotating disc (31) rotatably mounted on the side wall of the mounting box (2), the electric rotating disc (31) is in sealing fit with the side wall of the mounting box (2), and the mounting pipe (32) is mounted on the electric rotating disc (31) and rotates relative to the mounting box (2) through the electric rotating disc (31).

3. A green energy-saving building material production feeding device as claimed in claim 1 or 2, wherein the force measuring assembly comprises a sealing plate (35), a connecting spring (34) and a force measuring device (33), the sealing plate (35) is slidably arranged in the mounting pipe (32) and is in sealing fit with the mounting pipe (32), the force measuring device (33) is arranged at the bottom of the mounting pipe (32), and the connecting spring (34) is arranged between the sealing plate (35) and the force measuring device (33).

4. A green energy-saving building material production feeding device as claimed in claim 1 or 2, wherein a material guiding pipe (21) is communicated between the mixing tank (11) and the mounting box (2), and the switch valve (13) is arranged on the material guiding pipe (21).

5. The feeding device for green energy-saving building material production according to claim 1 or 2, wherein a material guiding bottom block (22) hermetically matched with the installation box (2) is fixed on the bottom wall of the cavity of the installation box (2) and used for guiding out materials.

6. A green energy-saving building material production feeding device as claimed in claim 1 or 2, wherein the discharging mechanism (4) comprises a bottom mounting pipe (41) communicated with the bottom of the mounting box (2), a discharging pipe (43) is communicated with the side part of the bottom mounting pipe (41), a striker plate (44) for opening and closing the discharging pipe (43) is arranged at the end part of the discharging pipe (43), and a pushing component (45) is further arranged at the end part of the discharging pipe (43) and connected with the striker plate (44).

7. The feeding device for green energy-saving building material production according to claim 6, wherein an auger (47) is arranged in the installation bottom pipe (41), and a motor (46) for driving the auger (47) to rotate is arranged outside the installation bottom pipe (41).

8. A green energy-saving building material production feeding device according to claim 6, wherein a material guiding block (42) is arranged in the installation bottom pipe (41) at a position corresponding to the material discharging pipe (43) and used for guiding the material in the installation bottom pipe (41) to the material discharging pipe (43).

9. A green energy-saving building material production feeding device as claimed in claim 7, wherein a bearing seat (48) is arranged at the bottom wall of the inner cavity of the mounting bottom pipe (41), and a bearing (49) matched with the bearing seat (48) is arranged at the output shaft of the motor (46).

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