CN204772899U - Suppression forming device of large -scale concrete fragment of brick - Google Patents

Abstract

The utility model discloses a suppression forming device of large -scale concrete fragment of brick, the loach carrying platform comprises a supporting fram, the moulded die, a conveyor, the tray, thrust unit, a 2nd conveyor for the cross feed tray, three conveyor that on support frame just be used for from two conveyor's tray accept fragment of brick is rotationally installed through first pivot, a first cylinder for driving the 3rd conveyor is round the rotatory work of first pivot, rotationally install the rotor plate at the 3rd conveyor's socket end through the second pivot, a second cylinder for driving the rotor plate is round the rotatory work of second pivot, the moulded die is for the both ends opening and be the structure that cavity was described, cooperation between tray and the moulded die is formed with the bearing cavity that is used for bearing the weight of the material, the extrusion device is installed to the top of moulded die. The utility model discloses the intensity of labour who reduces human cost and operating personnel can be shown, the efficiency of large -scale concrete fragment of brick press forming is being increased substantially.

Description

A kind of compression molding device of large-sized concrete fragment of brick

Technical field

The utility model relates to a kind of compression molding device of fragment of brick, is specifically related to a kind of compression molding device of large-sized concrete fragment of brick.

Background technology

At present, compressing for large-sized concrete fragment of brick, generally adopts manual operation, the concrete materials configured is poured in shaping mould, then by manual operation, the material in shaping mould is pressed, after shaping, then the fragment of brick of forming is taken out in shaping mould.Adopt this traditional manually compressing method, by the human cost of at substantial, and compressing efficiency is not high.

Utility model content

In order to overcome the deficiencies in the prior art, the purpose of this utility model is the compression molding device providing a kind of large-sized concrete fragment of brick, significantly can reduce the labour intensity of human cost and operating personnel, increase substantially the efficiency that large-sized concrete fragment of brick is compressing.

The purpose of this utility model adopts following technical scheme to realize:

A kind of compression molding device of large-sized concrete fragment of brick, comprise bracing frame, be arranged on the shaping mould on bracing frame, for by mass transport to the first conveying device in shaping mould, can the pallet that moves up and down of shaping mould relatively, for promoting the thrust unit that pallet moves up and down, for the second conveying device of lateral transfer pallet, to be installed in rotation on bracing frame by the first rotating shaft and the 3rd conveying device for accepting fragment of brick from the pallet of the second conveying device, for driving the 3rd conveying device around the first cylinder of the first rotating shaft rotary work, the rotor plate of the socket end of the 3rd conveying device is installed in rotation on by the second rotating shaft, for driving rotor plate around the second cylinder of the second rotating shaft rotary work, described shaping mould is both ends open and in the structure of hollow form, cooperation between described pallet and shaping mould is formed with the bearing cavity for carrying material, the top of described shaping mould is provided with pressurizing unit.

Described first conveying device comprises frame, rack-mounted first gear frame, the second gear frame be installed in rotation on the first gear frame, the body feed tank be fixedly mounted on the first gear frame, drive unit for driving the second gear frame to slide up and down, the both sides of described first gear frame are rotatably mounted with the first moving runner by the first pivot, the both sides of described second gear frame are rotatably mounted with the second moving runner by the second pivot, and the both sides of described frame are formed with the track slided for the first moving runner and the second moving runner.

Described thrust unit comprises the first motor be fixedly mounted on bracing frame, the sheath body be fixedly mounted on the first motor, is positioned at sheath body and the swingle, the lift lug be threaded with swingle, the fixed cover be sleeved on lift lug, the bolt be inserted on fixed cover that are connected with the output shaft of the first motor, described lift lug is formed with the first sliding tray of the end head plug-in mounting for bolt, described lift lug and pallet fit.

Described lift lug is provided with guide post, described sheath body is formed with the second sliding tray of the end head plug-in mounting for guide post.

Described second conveying device comprises the first driving shaft of being articulated in bracing frame two ends respectively and the first driven shaft, the second motor for driving the first driving shaft to rotate, described first driving shaft is provided with driving wheel, described first driven shaft is provided with driven pulley, and on described driving wheel and driven pulley, cover is wound with the first conveyer belt.

Described 3rd conveying device comprising the 3rd motor, the installing plate of movable set in the first rotating shaft, pivot joint roller on a mounting board for driving the first rotating shaft to rotate, overlapping around the second conveyer belt in the first rotating shaft and roller, and described first cylinder is arranged on bracing frame and the piston rod of the first cylinder is connected with installing plate.

Described drive unit comprise the second driving shaft being installed in rotation on upper rack, the second driven shaft being installed in rotation on frame lower, for driving the 4th motor of the second driving shaft rotary work, described second driving shaft is provided with the first drive, described second driven shaft is provided with the second drive, on described first drive and the second drive, cover is wound with driving-chain, and described second gear frame is fixedly connected with driving-chain.

Described rotor plate is connected with pull bar, and described second cylinder is arranged on bracing frame, and the other end of described pull bar is connected with the piston rod of the second cylinder.

Described pressurizing unit comprises the support be arranged on shaping mould, the 3rd rack-mount cylinder, the stripper plate that is connected with the expansion link of the 3rd cylinder, and the cross section of described stripper plate and the cross section of shaping mould match.

Compared to existing technology, the beneficial effects of the utility model are: after being installed by said structure, by the second conveying device, pallet is delivered to immediately below shaping mould, then thrust unit is started, drive moving upward of pallet, when pallet just covers the under shed of shaping mould, the concrete materials configured is delivered in shaping mould by the first conveying device, then can carry out extruded to the material in shaping mould by pressurizing unit, after shaping, pressurizing unit and thrust unit are resetted, fragment of brick after shaping will move downwardly in the second conveying device along with pallet together, be moved to the left in the effect lower tray of the second conveying device, when it is transported to behind the position of rotor plate, be rotated down around the first rotating shaft by the first air cylinder driven the 3rd conveying device, then be rotated down around the second rotating shaft by the second air cylinder driven rotor plate, the head end of rotor plate is made to be inserted into the bottom of fragment of brick, under the travelling forward of the second conveying device, fragment of brick is made to move on rotor plate, then rotated up around the second rotating shaft by the second air cylinder driven rotor plate, fragment of brick is made to fall in the 3rd conveying device, then rotated up around the first rotating shaft by the first air cylinder driven the 3rd conveying device, pallet is under the effect of the second conveying device, continue to move along original throughput direction, finally be collected, fragment of brick is transported to its end under the effect of the 3rd conveying device, finally be collected, whole process is mechanical automation, the utility model significantly can reduce the labour intensity of human cost and operating personnel, increase substantially the efficiency that large-sized concrete fragment of brick is compressing.

Accompanying drawing explanation

Fig. 1 is the schematic front view after the utility model removes the first conveying device;

Fig. 2 is the elevational schematic view after removing thrust unit in Fig. 1;

Fig. 3 is the perspective view after removing the first conveying device and thrust unit in the utility model;

Fig. 4 is the original state of the first conveying device of the present utility model and the perspective view of batch turning state;

Fig. 5 is the schematic side view of Fig. 4;

Fig. 6 is the enlarged diagram at I place in Fig. 4;

Fig. 7 is the decomposition texture schematic diagram of thrust unit of the present utility model;

Fig. 8 is the structural representation of the second cylinder of the present utility model, rotor plate and pull bar.

In figure: 1, bracing frame; 2, shaping mould; 3, pallet; 4, the 3rd conveying device; 41, the first rotating shaft; 42, the second conveyer belt; 43, the 3rd motor; 44, installing plate; 45, roller; 46, the second rotating shaft; 5, the second conveying device; 51, the first driving shaft; 52, driving wheel; 53, driven pulley; 54, the first driven shaft; 55, the first conveyer belt; 56, the second motor; 6, thrust unit; 61, the first motor; 62, swingle; 63, fixed cover; 64, lift lug; 65, guide post; 66, sheath body; 67, the second sliding tray; 68, the first sliding tray; 69, bolt; 7, the second cylinder; 8, feedboard; 9, support; 10, the 3rd cylinder; 11, stripper plate; 12, the first cylinder; 13, pull bar; 14, rotor plate; 15, frame; 16, body feed tank; 17, the 4th motor; 18, the first drive; 19, the second driving shaft; 20, the second drive; 21, the second driven shaft; 22, driving-chain; 23, the second gear frame; 24, the first gear frame; 25, the second pivot; 26, track; 27, the second moving runner; 28, the first moving runner; 29, the first pivot.

Detailed description of the invention

Below, with detailed description of the invention, the utility model is described in further detail by reference to the accompanying drawings.

The compression molding device of a kind of large-sized concrete fragment of brick as shown in figures 1-8, comprise bracing frame 1, be arranged on the shaping mould 2 on bracing frame 1, for by mass transport to the first conveying device in shaping mould 2, can the pallet 3 that moves up and down of shaping mould 2 relatively, for promoting the thrust unit 6 that pallet 3 moves up and down, for the second conveying device 5 of lateral transfer pallet 3, to be installed in rotation on bracing frame 1 by the first rotating shaft 41 and the 3rd conveying device 4 for accepting fragment of brick from the pallet 3 of the second conveying device 5, for driving the 3rd conveying device 4 around the first cylinder 12 of the first rotating shaft 41 rotary work, the rotor plate 14 of the socket end of the 3rd conveying device 4 is installed in rotation on by the second rotating shaft 46, for driving rotor plate 14 around the second cylinder 7 of the second rotating shaft 46 rotary work, described shaping mould 2 is both ends open and in the structure of hollow form, cooperation between described pallet 3 and shaping mould 2 is formed with the bearing cavity for carrying material, the top of described shaping mould 2 is provided with pressurizing unit.For convenience of charging, flitch 8 can be installed on shaping mould 2.

Described first conveying device comprises frame 15, be arranged on the first gear frame 24 in frame 15, be installed in rotation on the second gear frame 23 on the first gear frame 24, be fixedly mounted on the body feed tank 16 on the first gear frame 24, for the drive unit driving the second gear frame 23 to slide up and down, the both sides of described first gear frame 24 are rotatably mounted with the first moving runner 28 by the first pivot 29, the both sides of described second gear frame 23 are rotatably mounted with the second moving runner 27 by the second pivot 25, the both sides of described frame 15 are formed with the track 26 slided for the first moving runner 28 and the second moving runner 27.

The bottom of Fig. 4 and Fig. 5 is the original state of the first conveying device, and the top of Fig. 4 and Fig. 5 is the batch turning state of the first conveying device.When initial, the first moving runner 28 is the tops being positioned at the second moving runner 27, and drive unit, when starting to drive the second gear frame 23, because the first moving runner 28 does not have restricted, makes the first gear frame 24 and the second gear frame 23 synchronously move upward; When the first moving runner 28 moves to the end of track 26, first moving runner 28 can not travel forward again, and now drive unit continues moving upward of driving second gear frame 23, upper end due to the second gear frame 23 is connected with the first gear frame 24 rotationally, second gear frame 23 starts to rotate around the second pivot 25, and then drive the first gear frame 24 to rotate around the first pivot 29, thus drive the synchronous rotary of body feed tank 16, the material in body feed tank 16 is entered in shaping mould 2.

Described thrust unit 6 comprises the first motor 61 be fixedly mounted on bracing frame 1, the sheath body 66 be fixedly mounted on the first motor 61, is positioned at sheath body 66 and the swingle 62, the lift lug 64 be threaded with swingle 62, the fixed cover 63 be sleeved on lift lug 64, the bolt 69 be inserted on fixed cover 63 that are connected with the output shaft of the first motor 61, described lift lug 64 is formed with the first sliding tray 68 of the end head plug-in mounting for bolt 69, described lift lug 64 fits with pallet 3.

The operation principle of thrust unit 6 is: the first motor 61 can the rotary work of driven rotary bar 62, is threaded because lift lug 64 and swingle 62 adopt, and under the mating reaction of bolt 69 and the first sliding tray 68, will drive moving up and down of lift lug 64.Bolt 69 effectively can limit lift lug 64 with the cooperation of the first sliding tray 68 and rotate together with swingle 62, and it can only be moved up and down.When pallet 3 just moves to immediately below shaping mould 2, that is when pallet 3 just fits with lift lug 64, just start to start the first motor 61, drive moving upward of lift lug 64, and then promote moving upward of pallet 3.

When practical operation, only need control the rotating speed of the first motor 61 accurately, rising or the falling head of lift lug 64 can be controlled accurately.

Described lift lug 64 is provided with guide post 65, described sheath body 66 is formed with the second sliding tray 67 of the end head plug-in mounting for guide post 65.Under the cooperation of the second sliding tray 67 and guide post 65, lift lug 64 can be limited further and rotate together along with swingle 62, fully ensure that lift lug 64 slides up and down reposefully.

Described second conveying device 5 comprises the first driving shaft 51 of being articulated in bracing frame 1 two ends respectively and the first driven shaft 54, the second motor 56 for driving the first driving shaft 51 to rotate, described first driving shaft 51 is provided with driving wheel 52, described first driven shaft 54 is provided with driven pulley 53, and on described driving wheel 52 and driven pulley 53, cover is wound with the first conveyer belt 55.The rotation of the first driving shaft 51 can be driven by the second motor 56, and then drive the motion of the first conveyer belt 55, can the transportation work of utility tray 3 preferably.The quantity of driving wheel 52 and driven pulley 53 is two, the quantity of the first conveyer belt 55 is also two, larger gap is had between two the first conveyer belts 55, thrust unit 6 is located in this gap, that is the lift lug 64 in thrust unit 6 can move up and down in the gap, promotes moving up and down of pallet 3.

Described 3rd conveying device 4 comprising the 3rd motor 43, the installing plate 44 of movable set in the first rotating shaft 41, the roller 45 be articulated on installing plate 44 for driving the first rotating shaft 41 to rotate, overlapping around the second conveyer belt 42 in the first rotating shaft 41 and roller 45, and described first cylinder 12 is arranged on bracing frame 1 and the piston rod of the first cylinder 12 is connected with installing plate 44.3rd motor 43 can drive the rotary work of the first rotating shaft 41, and then drives the motion of the second conveyer belt 42.Now it should be noted that the rotation of the first rotating shaft 41 can not drive the rotary motion of installing plate 44, installing plate 44 is come by the stretching motion of the first cylinder 12 around the rotary motion of the first rotating shaft 41.

Described drive unit comprise the second driving shaft 19 being installed in rotation on frame 15 top, the second driven shaft 21 being installed in rotation on frame 15 bottom, for driving the 4th motor 17 of the second driving shaft 19 rotary work, described second driving shaft 19 is provided with the first drive 18, described second driven shaft 21 is provided with the second drive 20, on described first drive 18 and the second drive 20, cover is wound with driving-chain 22, and described second gear frame 23 is fixedly connected with driving-chain 22.The rotation of the second driving shaft 19 can be driven by the 4th motor 17, and then drive the rotation of the first drive 18, and then drive moving up and down of driving-chain 22, and then drive sliding up and down of the second gear frame 23, operate very easy.

Described rotor plate 14 is connected with pull bar 13, and described second cylinder 7 is arranged on bracing frame 1, and the other end of described pull bar 13 is connected with the piston rod of the second cylinder 7.The motion of pull bar 13 can be driven by the stretching motion of the second cylinder 7, and then drive rotor plate 14 around the rotation of the second rotating shaft 46, the angle between rotor plate 14 and the 3rd conveying device 4 can be adjusted flexibly.

Described pressurizing unit comprises the support 9 be arranged on shaping mould 2, the 3rd cylinder 10 be arranged on support 9, the stripper plate 11 that is connected with the expansion link of the 3rd cylinder 10, and the cross section of described stripper plate 11 and the cross section of shaping mould 2 match.Under the telescopic action of the 3rd cylinder 10, can drive stripper plate 11 towards away from or move near the direction of shaping mould 2.

Specific works process of the present utility model is: start the second motor 56, drive the motion of the first conveyer belt 55, and then drive the motion of the pallet 3 be placed on the first conveyer belt 55, when pallet 3 is delivered to immediately below shaping mould 2, then the first motor 61 is started, drive moving upward of lift lug 64, and then drive moving upward of pallet 3, when pallet 3 just covers the under shed of shaping mould 2, the concrete materials configured is placed in body feed tank 16, then starts the 4th motor 17 and drive moving upward of body feed tank 16, and material is poured in shaping mould 2, then start the 3rd cylinder 10, drive the material in stripper plate 11 pairs of shaping moulds 2 to carry out extruded, after shaping, pressurizing unit and thrust unit 6 are resetted, fragment of brick after shaping will move downwardly to the first conveyer belt 55 together along with pallet 3, under the effect of the second motor 56, pallet 3 is moved to the left, when it is transported to behind the position of rotor plate 14, the 3rd conveying device 4 is driven to be rotated down around the first rotating shaft 41 by the first cylinder 12, then rotor plate 14 is driven to be rotated down around the second rotating shaft 46 by the second cylinder 7, the head end of rotor plate 14 is made to be inserted into the bottom of fragment of brick, under the travelling forward of the second conveying device 5, fragment of brick is made to move on rotor plate 14, then rotor plate 14 is driven to rotate up around the second rotating shaft 46 by the second cylinder 7, fragment of brick is made to fall in the 3rd conveying device 4, then the 3rd conveying device 4 is driven to rotate up around the first rotating shaft 41 by the first cylinder 12, pallet 3 is under the effect of the second conveying device 5, continue to move along original throughput direction, finally be collected, fragment of brick is transported to its end under the effect of the 3rd conveying device 4, finally be collected.

Above-mentioned embodiment is only preferred embodiment of the present utility model; can not limit the scope of the utility model protection with this, change and the replacement of any unsubstantiality that those skilled in the art does on basis of the present utility model all belong to the utility model scope required for protection.

Claims (5)

1. the compression molding device of a large-sized concrete fragment of brick, it is characterized in that: comprise bracing frame, be arranged on the shaping mould on bracing frame, for by mass transport to the first conveying device in shaping mould, can the pallet that moves up and down of shaping mould relatively, for promoting the thrust unit that pallet moves up and down, for the second conveying device of lateral transfer pallet, to be installed in rotation on bracing frame by the first rotating shaft and the 3rd conveying device for accepting fragment of brick from the pallet of the second conveying device, for driving the 3rd conveying device around the first cylinder of the first rotating shaft rotary work, the rotor plate of the socket end of the 3rd conveying device is installed in rotation on by the second rotating shaft, for driving rotor plate around the second cylinder of the second rotating shaft rotary work, described shaping mould is both ends open and in the structure of hollow form, cooperation between described pallet and shaping mould is formed with the bearing cavity for carrying material, the top of described shaping mould is provided with pressurizing unit.

2. the compression molding device of large-sized concrete fragment of brick according to claim 1, it is characterized in that: described second conveying device comprises the first driving shaft of being articulated in bracing frame two ends respectively and the first driven shaft, the second motor for driving the first driving shaft to rotate, described first driving shaft is provided with driving wheel, described first driven shaft is provided with driven pulley, and on described driving wheel and driven pulley, cover is wound with the first conveyer belt.

3. the compression molding device of large-sized concrete fragment of brick according to claim 1, it is characterized in that: described 3rd conveying device comprising the 3rd motor, the installing plate of movable set in the first rotating shaft, pivot joint roller on a mounting board for driving the first rotating shaft to rotate, overlapping around the second conveyer belt in the first rotating shaft and roller, and described first cylinder is arranged on bracing frame and the piston rod of the first cylinder is connected with installing plate.

4. the compression molding device of large-sized concrete fragment of brick according to claim 1, it is characterized in that: described rotor plate is connected with pull bar, described second cylinder is arranged on bracing frame, the other end of described pull bar is connected with the piston rod of the second cylinder.

5. the compression molding device of large-sized concrete fragment of brick according to claim 1, it is characterized in that: described pressurizing unit comprises the support be arranged on shaping mould, the 3rd rack-mount cylinder, the stripper plate that is connected with the expansion link of the 3rd cylinder, and the cross section of described stripper plate and the cross section of shaping mould match.