CN215395944U - Full-automatic cement flue machine production line device - Google Patents

Full-automatic cement flue machine production line device Download PDF

Info

Publication number
CN215395944U
CN215395944U CN202022453931.0U CN202022453931U CN215395944U CN 215395944 U CN215395944 U CN 215395944U CN 202022453931 U CN202022453931 U CN 202022453931U CN 215395944 U CN215395944 U CN 215395944U
Authority
CN
China
Prior art keywords
assembly
demolding
flue
transition
track
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN202022453931.0U
Other languages
Chinese (zh)
Inventor
潘存均
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ningbo Zhenhai Junsheng Machinery Co ltd
Original Assignee
Ningbo Zhenhai Junsheng Machinery Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ningbo Zhenhai Junsheng Machinery Co ltd filed Critical Ningbo Zhenhai Junsheng Machinery Co ltd
Priority to CN202022453931.0U priority Critical patent/CN215395944U/en
Application granted granted Critical
Publication of CN215395944U publication Critical patent/CN215395944U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • On-Site Construction Work That Accompanies The Preparation And Application Of Concrete (AREA)

Abstract

The utility model discloses a full-automatic cement flue machine production line device, which comprises an automatic feeder stirrer grouting mechanism assembly, a flue mould assembly, a demoulding and clamping mechanism assembly, a vibration mechanism assembly, a transition circulation track, a transition traction mechanism assembly, a mould pushing oil cylinder assembly and a motor assembly, wherein the automatic feeder stirrer grouting mechanism assembly is positioned above the flue mould assembly, the vibration mechanism assembly is arranged below the module transition circulation track, the transition traction mechanism assembly and the mould pushing oil cylinder are arranged at two ends of the module circulation track, the motor assembly is arranged on the module transition traction assembly, the demoulding and clamping mechanism assembly and the automatic feeder stirrer grouting machine vibration mechanism assembly, the operation mode of the production line can effectively reduce labor cost, improve working efficiency, avoid unnecessary loss and reduce labor fatigue at the same time, high yield per unit time and the like.

Description

Full-automatic cement flue machine production line device
Technical Field
The utility model relates to a production line device of a full-automatic cement flue machine.
Background
The cement flue is widely applied to the building industry, in particular to the smoke exhaust flue of residential buildings, most of the cement flues produced in the past are made by hands, and are either bricked or poured by reinforcing steel bars during construction, but the method is time-consuming and labor-consuming, the specification and the size are not uniform, the integral quality of the built house is influenced, the efficiency is low, the cement smoke exhaust flue and the flue which are pasted manually by a mould cannot reach two important indexes of flexible impact resistance and fire resistance limit of the building, particularly the cement flue product, and cannot reach the standard requirements, and meanwhile, the commonly produced flue has thin wall and loose and multiple holes, so that the mechanical strength of the flue cannot reach the national standard, and the quality of the building is seriously influenced.
The existing cement flue is generally manufactured by manual work without a corresponding production line, so that time and labor are wasted, and the labor cost and the labor intensity are increased.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem of providing a full-automatic cement flue machine production line device, wherein the operation mode of a production line can effectively reduce labor cost, improve working efficiency, avoid unnecessary loss and reduce artificial fatigue.
The technical scheme adopted by the utility model for solving the technical problems is as follows: a full-automatic cement flue machine production line device comprises an automatic feeder stirrer grouting mechanism component, a flue mould component, a demoulding clamping mechanism component, a vibration mechanism component, a transition circulation track, a transition traction mechanism component, a mould pushing oil cylinder and a motor component, wherein the flue mould component is arranged on the transition circulation track, the automatic feeder stirrer grouting mechanism component is arranged above the transition circulation track, the demoulding clamping mechanism component is connected with the transition circulation track, the demoulding clamping mechanism component is positioned on one side of the automatic feeder stirrer grouting mechanism component, the vibration mechanism component is positioned below the transition circulation track, the transition traction mechanism component and the mould pushing oil cylinder are arranged at two ends of the transition circulation track, and the mould pushing oil cylinder is used for controlling the movement of a module on the transition traction mechanism component on the transition circulation track, the motor assembly is arranged on the transition circulation track, the demoulding and mould locking mechanism assembly and the automatic feeder stirrer grouting mechanism assembly, the motor assembly is used for controlling the transition traction mechanism assembly to move on the transition circulation track and controlling the demoulding and mould locking work of the demoulding and mould locking mechanism assembly, wherein, the flue mould assembly sends raw materials into the flue mould assembly through the automatic feeder stirrer grouting mechanism assembly, then the mould pushing cylinder controls the mould set on the transition traction mechanism assembly to carry out direction conversion on the transition circulation track, then the mould set on the transition traction mechanism assembly is subjected to direction conversion through the motor assembly and sent into the demoulding and mould locking mechanism assembly, then the motor assembly controls the demoulding and mould locking mechanism assembly to move, and carries out demoulding on finished products in the flue mould assembly through the demoulding and mould locking mechanism assembly, and finally the demoulding and mould locking mechanism assembly which finishes demoulding locks the mould on the flue mould assembly, and the transition traction mechanism assembly returns to the original point again for cycle work.
Further, automatic feeding machine mixer grouting mechanism subassembly includes the mixer base, is located be equipped with automatic feeding mechanism, feed inlet, mixer and storage hopper on the mixer base, automatic feeding mechanism is located the feed inlet top, feed inlet and storage hopper are located mixer one side respectively, wherein, the storage hopper is located vibrations mechanism subassembly transition drive mechanism subassembly directly over.
Further, the transition circulation track comprises a transport line base and a transport track arranged on the transport line base.
Further, the flue mould component comprises a mould trolley, a flue pulley yoke, an outer mould assembly and an inner mould assembly, wherein the mould trolley is arranged on the flue pulley yoke, and the inner mould assembly is fixedly arranged on the flue pulley yoke through the outer mould assembly and moves on the conveying track through the flue pulley yoke.
Further, drawing of patterns clamping mechanism subassembly includes drawing of patterns seat, shedder mechanism, drawing of patterns track, hydro-cylinder, mould spare and drawing of patterns dolly in the drawing of patterns, the drawing of patterns track sets up at the drawing of patterns seat, and the drawing of patterns seat is established in transportation line base one side and is adjacent with automatic feeding machine mixer grout mechanism subassembly, the drawing of patterns device mechanism passes through the drawing of patterns dolly and sets up on the drawing of patterns track, the hydro-cylinder sets up in drawing of patterns device mechanism upper end to and inside the drawing of patterns device mechanism, the mould spare setting is at drawing of patterns device mechanism front end in the drawing of patterns.
Furthermore, the vibrating mechanism assembly comprises a vibrating machine assembly and a vibrating machine assembly pushing oil cylinder, the vibrating machine assembly and the vibrating machine assembly pushing oil cylinder are arranged at the bottoms of the module transition traction mechanism assembly and the transition circulation track, and the vibrating machine assembly is controlled to do vibrating motion by the vibrating machine assembly pushing oil cylinder.
Furthermore, the transition traction mechanism assembly comprises a traction trolley and a traction track, wherein the traction trolley is arranged on the traction track, and the traction trolley is controlled by the motor assembly to enable the flue mold assembly to move on the traction track.
Further, motor element includes first drive motor, second drive motor, third drive motor, first drive sprocket, second drive sprocket and third driving chain, first drive motor and first drive sprocket set up on the track of drawing, second drive motor and second drive sprocket set up in drawing of patterns seat one side, third drive motor and third driving chain set up on being close to the track of drawing under the automatic feeding machine mixer mechanism subassembly, wherein, first drive motor, third drive motor move on drawing the track through first drive sprocket and third driving chain control die trolley respectively, and second drive motor moves at drawing of patterns track through second drive sprocket control drawing of patterns dolly.
Compared with the prior art, the utility model has the advantages that:
1. according to the full-automatic cement flue machine production line device provided by the utility model, the operation mode of the production line can effectively reduce the labor cost, improve the working efficiency, avoid unnecessary loss and reduce the artificial fatigue.
2. According to the full-automatic cement flue machine production line device provided by the utility model, raw materials are sent into the oral cavity of a flue mould assembly through a grouting mechanism assembly of an automatic feeding machine stirrer, then are transported through a transitional circulation track and are sent to a demoulding and clamping mechanism assembly, then the demoulding and clamping mechanism assembly is used for demoulding finished products in the demoulding and clamping mechanism assembly, and finally the demoulding and clamping mechanism assembly which finishes demoulding returns to the original point to perform circulation work again.
Drawings
Fig. 1 is a schematic overall structure diagram of a full-automatic cement flue machine production line device in an embodiment.
Fig. 2 is a schematic perspective view of a full-automatic cement flue machine production line device in an embodiment.
FIG. 3 is a schematic side view of a full-automatic cement flue machine production line device according to an embodiment.
FIG. 4 is a schematic diagram of a flue mold assembly of the production line apparatus of the fully automatic cement flue machine according to the embodiment.
The corresponding names of the components in the figure are as follows: the automatic feeding machine stirrer comprises a grouting mechanism component 1, a flue mould component 2, a demoulding and clamping mechanism component 3, a transition circulation track 4, a stirrer base 5, a feeding hole 6, a stirrer 7, a storage hopper 8, a conveying line base 9, a conveying track 10, a flue pulley frame 11, an outer mould assembly 12, an inner mould assembly 13, a demoulding base 14, a demoulding device mechanism 15, a demoulding track 16, an oil cylinder 17, an demoulding inner mould assembly 18, a demoulding trolley 19, a vibrating mechanism component 20, a traction mechanism component 21, a mould pushing oil cylinder 22, a motor component 23, a vibrating machine assembly 24, a vibrating machine assembly pushing oil cylinder 25, a traction trolley 26, a traction track 27, a first transmission motor 28, a second transmission motor 29, a first transmission chain wheel 30, a second transmission chain wheel 31, an automatic feeding mechanism 32, a third transmission chain 33, a mould trolley 34 and a third transmission motor 35.
Detailed Description
The utility model is described in further detail below with reference to the accompanying examples.
Examples
As shown in fig. 1 to 4, the technical solution adopted by the present invention to solve the above technical problems is: the technical scheme adopted by the utility model for solving the technical problems is as follows: a full-automatic cement flue machine production line device comprises an automatic feeding machine stirrer grouting mechanism component 1, a flue mould component 2, a demoulding clamping mechanism component 3, a vibration mechanism component 20, a transition circulation track 4, a transition traction mechanism component 21, a mould pushing oil cylinder 22 and a motor component 23, wherein the flue mould component 2 is arranged on the transition circulation track 4, the automatic feeding machine stirrer grouting mechanism component 1 is arranged above the transition circulation track 4, the demoulding clamping mechanism component 3 is connected with the transition circulation track 4, the demoulding clamping mechanism component 3 is positioned on one side of the automatic feeding machine stirrer grouting mechanism component 1, the vibration mechanism component 20 is positioned below the transition circulation track 4, the transition traction mechanism component 21 and the mould pushing oil cylinder 22 are arranged at two ends of the transition circulation track 4, and the mould pushing oil cylinder 22 is used for controlling the movement of a module on the transition traction mechanism component 21 on the transition circulation track 4, the motor component 23 is arranged on the transition circulation track 4, the demoulding and mould locking mechanism component 3 and the automatic feeder stirrer grouting mechanism component 1, the motor component 23 is used for controlling the transition traction mechanism component 21 to move on the transition circulation track 4 and controlling the demoulding and mould locking of the demoulding and mould locking mechanism component 3, wherein, the flue mould component 2 sends the raw materials into the flue mould component 2 through the automatic feeder stirrer grouting mechanism component 1, then the mould pushing cylinder 22 controls the mould on the transition traction mechanism component 21 to carry out direction conversion on the transition circulation track 4, then the mould on the transition traction mechanism component 21 is subjected to direction conversion through the motor component 23 and sent into the demoulding and mould locking mechanism component 3, then the motor component 23 controls the demoulding and mould locking mechanism component 3 to move, and the finished products in the demoulding and mould locking mechanism component 3 are demoulded through the demoulding and mould locking mechanism component 3, finally, the demoulding and mould locking mechanism component 3 which enables the flue mould component 2 to be demoulded carries out mould locking on the flue mould component 2 and returns to the original point again through the transition traction mechanism component 21 to carry out cycle work, the automatic feeding machine stirrer grouting mechanism component 1 comprises a stirrer base 5, an automatic feeding mechanism 32, a feeding port 6, a stirrer 7 and a storage hopper 8 are arranged on the stirrer base 5, the automatic feeding mechanism 32 is arranged above the feeding port 6, the feeding port 6 and the storage hopper 8 are respectively arranged on one side of the stirrer 7, wherein the storage hopper 8 is arranged right above the transition traction mechanism component 21 of the vibration mechanism component 20, the transition cycle track 4 comprises a transportation line base 9 and a transportation track 10 arranged on the transportation line base 9, the flue mould component 2 comprises a mould trolley 34, a flue pulley frame 11, an outer mould assembly 12 and an inner mould assembly 13, the mould trolley 34 is arranged on the flue pulley yoke 11, the inner mould assembly 13 is fixedly arranged on the flue pulley yoke 11 through the outer mould assembly 12 and moves on the transportation track 10 through the flue pulley yoke 11, the demoulding mould locking mechanism assembly 3 comprises a demoulding seat 14, a demoulding device mechanism 15, a demoulding track 16, an oil cylinder 17, a demoulding inner mould member 18 and a demoulding trolley 19, the demoulding track 16 is arranged on the demoulding seat 14, the demoulding seat 14 is arranged on one side of the transportation line base 9 and is adjacent to the grouting mechanism assembly 1 of the automatic feeder stirrer, the demoulding device mechanism 15 is arranged on the demoulding track 16 through the demoulding trolley 19, the oil cylinder 17 is arranged at the upper end of the demoulding device mechanism 15 and inside the demoulding device mechanism 15, the demoulding inner mould member 18 is arranged at the front end of the demoulding device mechanism 15, the vibrating mechanism assembly 20 comprises a vibrator assembly 24 and a vibrator assembly pushing oil cylinder 25, the vibrator assembly 24 and the vibrator assembly pushing oil cylinder 25 are arranged at the bottom of the module transition traction mechanism assembly 21 and the transition circulation track 4, the vibrator assembly pushing oil cylinder 25 is used for controlling the vibrator assembly 24 to do vibration motion, the transition traction mechanism assembly 21 comprises a traction trolley 26 and a traction track 27, the traction trolley 26 is arranged on the traction track 27, the traction trolley 26 is controlled by a motor assembly 23 to enable the flue mold assembly 2 to move on the traction track 27, the motor assembly 23 comprises a first transmission motor 28, a second transmission motor 29, a third transmission motor 35, a first transmission chain wheel 30, a second transmission chain wheel 31 and a third transmission chain 33, the first transmission motor 28 and the first transmission chain wheel 30 are arranged on the traction track 27, the second transmission motor 29 and the second transmission chain wheel 31 are arranged at one side of the demolding seat 14, the third transmission motor 35 and the third transmission chain 33 are arranged on the traction track 27 close to the right lower part of the automatic feeder mixer grouting mechanism assembly 1, wherein the first transmission motor 28 and the third transmission motor 35 respectively control the mold trolley 34 to move on the traction track 27 through the first transmission chain wheel 30 and the third transmission chain 33, and the second transmission motor 29 controls the demolding trolley 19 to move on the demolding track 16 through the second transmission chain wheel 31.
When in work, firstly, cement, river sand and water are sent into the stirrer 7 for stirring along the feed inlet 6 by the automatic feeding mechanism 32 according to a certain proportion;
secondly, placing the evenly stirred mortar into a storage hopper 8 below a discharge hole of a stirrer 7 for storage;
and thirdly, placing the mortar in the storage hopper 8 into a cavity of a mold assembly to be waited in advance, starting the oil cylinder to ascend to jack up the whole vibrator assembly and the mold assembly, and then starting the vibrator to vibrate, wherein the aim of vibration is to ensure that the cement mortar is uniform and can reach a certain density. (both can be done simultaneously with the paddle filling and also with the shaker assembly first.)
Fourthly, after the grouting vibration is finished, the oil cylinder is descended to return to the original point, at the moment, the mold pushing oil cylinder at one grouting end is started to push the grouted mold assembly to the whole circulation line, the inner mold assembly and the outer mold assembly are placed on 2 of the flue pulley yoke 11, and the mold trolleys 34 are placed in a mutual clinging manner;
fifthly, after the flue mould assembly 2 is placed on the mould trolley 34 after grouting, the mould pushing oil cylinder 22 close to the stirrer 7 starts to move, the mould trolley 34 linearly moves along the left side of the transition circulation track 4, the mould trolley 34 moves to push all mould assemblies on the circulation line to move together until the last group of mould assemblies on the circulation line reach the traction trolley 26 waiting on the left side, and the mould pushing oil cylinder at one grouting end returns to the starting point to wait;
and a sixth step: when the flue die assembly 2 arrives on the tractor 26, the first motor 28 is started to drive the die trolley 34 on the tractor 26 to move towards the right circulation line port through the first chain wheel 30, when the first motor 28 is started to drive the traction trolley 26 through the first chain wheel 30 and the third motor 35 is started, the third driving chain wheel 33 is driven to empty the traction trolley 26 at one end of grouting to the right side of the transition circulation track 4 close to the demoulding and clamping mechanism component 3 to wait, at this time, the mold pushing cylinder 22 at the other end is started to push the mold trolley 34 on the right port traction trolley 26 to the right circulation line, so that the mold trolley 34 moves linearly along the right side of the circular track 4, the movement of the mould carriages 34 thereof pushes all the mould assemblies of the cycle together until the last group of mould assemblies of the cycle arrives on the draw carriage 26 waiting on the right. (the purpose of the circulation is to cure the cement mortar in the flue mould assembly into a flue product after a certain period of time through steam curing on the circulation line);
seventhly, enabling the flue mould component 2 to enter a traction trolley 26 waiting at the right side of one grouting end through a mould pushing oil cylinder 22 at the other end, starting a second transmission motor 29 at the moment, driving a second transmission chain wheel 31 to enable a mould stripping trolley 19 to push a mould stripping locking mechanism component 3 to be in butt joint with the flue mould component 2, clamping an inner mould assembly 13 on the flue mould component 2, opening an outer mould assembly 12 on the flue mould component 2 after clamping, then enabling the inner mould assembly and a flue product on the flue mould component 2 to ascend to a set point through the movement of an oil cylinder 17, enabling the mould stripping trolley 19 to retreat to the set point, then using a transport vehicle to receive a flue finished product, simultaneously receiving the flue finished product, starting a mould shrinkage mechanism to shrink the inner mould, and transporting the flue finished product when the mould stripping trolley and the inner mould component retreat to a second set point, the steel bar and the die heads for controlling the length of the flue product at two ends of the internal mold return to the original point of the external mold component and descend the demoulding mechanism to loosen the internal mold component and the demoulding clamping mechanism, the external mold component is closed, the mould pushing oil cylinder 22 far away from one grouting end returns to the original point to wait, the first motor 28 is started to drive the traction trolley 26 to return to the original point to wait for the next group of flue mold components through the first chain wheel 30, and the demoulding trolley retreats to wait;
and step eight, after the demoulding trolley retreats, starting the traction trolley 26 on the right side of the stirrer 7, and conveying the assembled mould assembly to a grouting vibration point for repeated operation so as to perform corresponding assembly line cycle work.
The utility model provides a full-automatic cement flue machine production line device which can form a simple production device through three parts, namely a vibrator assembly 24, a demoulding and mould locking mechanism assembly 3 and a flue mould assembly 2, pour and form the flue mould assembly 2 through a grouting mechanism assembly 1 of a manual or automatic feeder stirrer, and then enter the demoulding and mould locking mechanism assembly 3 through a transportation track to carry out linear flow operation of demoulding.
The whole device of the full-automatic cement flue machine production line device provided by the utility model can be used in a single rail, and the demoulding and clamping mechanism assembly 3 in the whole device can be separated and used independently and integrally.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A full-automatic cement flue machine production line device is characterized by comprising an automatic feeding machine stirrer grouting mechanism component (1), a flue mold component (2), a demolding clamping mechanism component (3), a vibration mechanism component (20), a transition circulation track (4), a transition traction mechanism component (21), a mold pushing oil cylinder (22) and a motor component (23), wherein the flue mold component (2) is arranged on the module circulation track (4), the automatic feeding machine stirrer grouting mechanism component (1) is arranged above the transition circulation track (4), the demolding clamping mechanism component (3) is connected with the transition circulation track (4), the demolding clamping mechanism component (3) is positioned on one side of the automatic feeding machine stirrer grouting mechanism component (1), and the vibration mechanism component (20) is positioned below the transition circulation track (4), the transition traction mechanism assembly (21) and the mold pushing oil cylinder (22) are arranged at two ends of the transition circulation track (4), the mold pushing oil cylinder (22) is used for controlling the movement of a module on the transition traction mechanism assembly (21) on the transition circulation track (4), the motor assembly (23) is arranged on the transition circulation track (4) of the transition traction mechanism assembly, the demolding and mold locking mechanism assembly (3) and the automatic feeder stirrer grouting mechanism assembly (1), the motor assembly (23) is used for controlling the transition traction mechanism assembly (21) to move on the transition circulation track (4) and controlling the demolding and mold locking mechanism assembly (3) to perform demolding and mold locking work, wherein the flue mold assembly (2) sends raw materials into the flue mold assembly (2) through the automatic feeder grouting stirrer mechanism assembly (1), and then the mold pushing oil cylinder (22) controls the module on the transition traction mechanism assembly (21) to perform direction conversion on the transition circulation track (4), and then, the direction of the module on the transition traction mechanism assembly (21) is converted through the motor assembly (23), the module is sent to the demolding and mold locking mechanism assembly (3), then the motor assembly (23) controls the demolding and mold locking mechanism assembly (3) to move, a finished product in the demolding and mold locking mechanism assembly (3) is demolded through the demolding and mold locking mechanism assembly (3), finally, the demolding and mold locking mechanism assembly (3) which completes demolding locks the flue mold assembly (2) in a mold mode, and the flue mold assembly returns to the original point through the transition traction mechanism assembly (21) to perform circular work again.
2. The full-automatic cement flue machine production line device according to claim 1, wherein the automatic feeder stirrer grouting mechanism assembly (1) comprises a stirrer base (5), an automatic feeding mechanism (32), a feeding port (6), a stirrer (7) and a storage hopper (8) are arranged on the stirrer base (5), the automatic feeding mechanism (32) is arranged above the feeding port (6), the feeding port (6) and the storage hopper (8) are respectively arranged on one side of the stirrer (7), and the storage hopper (8) is arranged right above the vibration mechanism assembly (20) transition traction mechanism assembly (21).
3. A fully automatic cement-fume-machine production line arrangement, according to claim 1, characterized in that said overcycling track (4) comprises a transport-line base (9) and a transport track (10) provided on the transport-line base (9).
4. The full-automatic cement flue machine production line device according to claim 1, wherein the flue mold assembly (2) comprises a mold trolley (34), a flue pulley frame (11), an outer mold assembly (12) and an inner mold assembly (13), the mold trolley (34) is arranged on the flue pulley frame (11), and the inner mold assembly (13) is fixedly arranged on the flue pulley frame (11) through the outer mold assembly (12) and moves on the transportation track (10) through the flue pulley frame (11).
5. The full-automatic cement flue machine production line device according to claim 1, wherein the demolding and clamping mechanism assembly (3) comprises a demolding seat (14), a demolding device mechanism (15), a demolding track (16), an oil cylinder (17), an demolding inner mold component (18) and a demolding trolley (19), the demolding track (16) is arranged on the demolding seat (14), the demolding seat (14) is arranged on one side of the conveying line base (9) and is adjacent to the automatic feeder stirrer grouting mechanism assembly (1), the demolding device mechanism (15) is arranged on the demolding track (16) through the demolding trolley (19), the oil cylinder (17) is arranged at the upper end of the demolding device mechanism (15) and inside the demolding device mechanism (15), and the demolding inner mold component (18) is arranged at the front end of the demolding device mechanism (15).
6. The fully automatic cement flue machine production line device according to claim 1, wherein the said vibrator assembly (20) comprises a vibrator assembly (24) and a vibrator assembly pushing cylinder (25), the said vibrator assembly (24) and vibrator assembly pushing cylinder (25) are disposed at the bottom of the module transition traction mechanism assembly (21) and the transition circulation track (4), and the vibrator assembly (24) is controlled to make vibrating motion by the vibrator assembly pushing cylinder (25).
7. The full-automatic cement flue machine production line device according to claim 1, wherein the transition traction mechanism assembly (21) comprises a traction trolley (26) and a traction track (27), the traction trolley (26) is arranged on the traction track (27), and the traction trolley (26) is controlled by the motor assembly (23) to move the flue mold assembly (2) on the traction track (27).
8. The full-automatic cement flue machine production line device according to claim 1, wherein the motor assembly (23) comprises a first transmission motor (28), a second transmission motor (29), a third transmission motor (35), a first transmission chain wheel (30), a second transmission chain wheel (31) and a third transmission chain (33), the first transmission motor (28) and the first transmission chain wheel (30) are arranged on the traction track (27), the second transmission motor (29) and the second transmission chain wheel (31) are arranged on one side of the demolding seat (14), the third transmission motor (35) and the third transmission chain (33) are arranged on the traction track (27) close to the position right below the automatic feeding machine grouting mixer mechanism assembly (1), wherein the first transmission motor (28) and the third transmission motor (35) control the mould trolley (34) on the traction track (27) through the first transmission chain wheel (30) and the third transmission chain (33) respectively The second transmission motor (29) controls the demoulding trolley (19) to move on the demoulding track (16) through a second transmission chain wheel (31).
CN202022453931.0U 2020-10-29 2020-10-29 Full-automatic cement flue machine production line device Active CN215395944U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022453931.0U CN215395944U (en) 2020-10-29 2020-10-29 Full-automatic cement flue machine production line device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022453931.0U CN215395944U (en) 2020-10-29 2020-10-29 Full-automatic cement flue machine production line device

Publications (1)

Publication Number Publication Date
CN215395944U true CN215395944U (en) 2022-01-04

Family

ID=79636503

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022453931.0U Active CN215395944U (en) 2020-10-29 2020-10-29 Full-automatic cement flue machine production line device

Country Status (1)

Country Link
CN (1) CN215395944U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112372817A (en) * 2020-10-29 2021-02-19 宁波市镇海均胜机械有限公司 Full-automatic cement flue machine production line device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112372817A (en) * 2020-10-29 2021-02-19 宁波市镇海均胜机械有限公司 Full-automatic cement flue machine production line device

Similar Documents

Publication Publication Date Title
CN110883912B (en) Resistant firebrick vibrations brickmaking machine with automatic feeding selects separately structure
CN204772967U (en) Automatic device of pouring of precast concrete spare
CN104786361B (en) A kind of processing method of architectural prefab
CN1657251A (en) Automatic shaping method and equipment for load-bearing hollow brick
CN111618991B (en) Automatic production method of prefabricated reinforced concrete hollow template
CN111186013B (en) Wallboard production line equipment and production process thereof
CN211729664U (en) Automatic concrete block production line
CN215395944U (en) Full-automatic cement flue machine production line device
CN110815505B (en) Full-automatic refractory brick making device
CN112936505B (en) Manufacturing process of concrete prefabricated part
CN101186079A (en) Composite wire-lacing block-building shaping machine
CN101143464A (en) Foaming concrete building block automatic production line
CN118372357A (en) Equipment is placed to precast concrete piece reinforcing bar
CN210939788U (en) Concrete block forming machine for construction industry
CN111391111B (en) Automatic forming method for producing prefabricated reinforced concrete hollow template with crossed holes
CN112372817A (en) Full-automatic cement flue machine production line device
CN111152332A (en) Pipeline forming machine and pipeline forming method
CN114131744B (en) Preparation device and preparation process of printing and dyeing sludge solidified product
KR100449541B1 (en) Tetrapod molding apparatus
CN209832088U (en) Combined curing kiln for concrete product production line
CN212666369U (en) Flat pile extruder
CN211615962U (en) Prefabricated plate production system
CN209794043U (en) Vibrating prefabricated part processing equipment
CN2647538Y (en) Concrete block forming machine
CN111267206B (en) Wallboard steam curing production line equipment and steam curing production process thereof

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant