Disclosure of Invention
(1) Technical problem to be solved
The invention aims to overcome the defects that the labor cost of a factory is high because a machine needs to be operated continuously by manpower, the working efficiency is low, and two persons are needed to operate in a matching way, and the technical problem to be solved is to provide the concrete cement block batch pouring equipment which can reduce the difficulty of manual operation and the labor cost of the factory.
(2) Technical scheme
In order to solve the above technical problems, the present invention provides a concrete cement block batch casting apparatus, comprising: the top of the bottom plate is connected with a slide rail frame lower mould box, one side of the top of the slide rail frame is provided with the lower mould box, and the bottom of the lower mould box is provided with a lower mould opening; the two sides of the middle part of the bottom plate are both connected with supporting frames, and the supporting frames on the two sides are symmetrically arranged; the top parts of the two side supporting frames are connected with the discharging barrel; the side surface of the blanking barrel is connected with a material pipe, and a valve is arranged on the material pipe; the bottom plate is connected with a driving mechanism; and the feeding mechanism is connected between the driving mechanism and the blanking barrel, and the driving mechanism is matched with the feeding mechanism.
Preferably, the drive mechanism comprises: the driving motor is arranged on one side of the middle of the bottom plate; the middle of the bottom plate is connected with a bearing seat; the bearing seat is rotatably connected with a first transmission rod, and an output shaft of the driving motor is connected with the first transmission rod in a belt transmission assembly mode; one end of the first transmission rod is connected with the first transmission plate; the tail end of the first transmission plate is hinged with the second transmission plate; the tail end of the second transmission plate is connected with a second transmission rod; the middle part of the bottom plate is connected with the guide frame; the top of the guide frame is connected with the driving sliding plate in a sliding manner, the bottom of the guide frame is provided with a linear sliding groove, and the top of the second transmission rod is positioned in the linear sliding groove and connected with the bottom of the driving sliding plate; the middle of the top of the driving sliding plate is hinged with a plurality of rotary driving plates, and the tops of the rotary driving plates are located in the middle of the sliding rail frame.
Preferably, the feeding mechanism comprises: the top of the support frame close to one side of the driving motor is rotatably connected with a worm; the end part of the worm and the other end of the first transmission rod are both connected with a belt pulley; the transmission belt is connected between the two belt pulleys; the bottom of the blanking barrel is rotatably connected with a third transmission rod which penetrates through the blanking barrel; the bottom end of the third transmission rod is connected with a worm wheel which is meshed with the worm; fan-shaped stirring leaf, third transfer line upper end is connected with fan-shaped stirring leaf, and fan-shaped stirring leaf is located the baiting bucket.
Preferably, a conveying mechanism is further included, and the conveying mechanism includes: one end of the second transmission rod is connected with the connecting rod; one side of the connecting rod is connected with a rack; two fourth transmission rods are rotatably connected between the support frames on the two sides, and are symmetrically arranged; the frame body is connected between the fourth transmission rods on the two sides, an opening is formed in the bottom of one side, close to the rack, of the frame body, and the fourth transmission rods on the two sides penetrate through the frame body respectively; the one-way clutch is connected to the fourth transmission rod on one side close to the rack; the gear is arranged on the one-way clutch and meshed with the rack; the middle parts of the two fourth transmission rods are connected with conveying rollers which are positioned in the frame body; the conveyer belt is connected with between two conveying rollers.
Preferably, the method further comprises the following steps: the upper portion of one side in the framework and the lower part of the other side in the framework are both connected with a baffle, and the baffle is in contact with the conveying belt.
(3) Advantageous effects
1. According to the invention, the driving mechanism is matched with the feeding mechanism, a pouring mold does not need to be manually placed, and the manual operation difficulty is reduced.
2. Need not through the artifical incessant opening or closing valve of conveying mechanism, further alleviateed the artificial operation degree of difficulty to reduce a manual operation, reduced the cost of labor of mill.
3. Thereby reduce the waste to mixing earth thick liquid and enable better the falling into of mixing earth thick liquid to pouring mould through the effect of baffle.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic perspective view of the driving mechanism and the feeding mechanism of the present invention.
Fig. 3 is a perspective view of a partial structure of the present invention.
Fig. 4 is a schematic perspective view of the conveying mechanism of the present invention.
The labels in the figures are: 1-bottom plate, 2-slide rail frame, 3-lower mould box, 4-support frame, 5-blanking barrel, 6-material pipe, 7-valve, 8-driving mechanism, 81-driving motor, 82-first driving rod, 83-bearing seat, 84-first driving plate, 85-second driving plate, 86-second driving rod, 87-driving sliding plate, 88-guide frame, 89-rotary driving plate, 9-feeding mechanism, 90-belt pulley, 91-driving belt, 92-worm, 93-worm wheel, 94-third driving rod, 95-sector stirring blade, 10-conveying mechanism, 100-frame body, 101-connecting rod, 102-rack, 103-fourth driving rod, 104-one-way clutch, 105-gear, 106-conveyor roller, 107-conveyor belt, 11-baffle.
Detailed Description
The invention is further described below with reference to the figures and examples.
First embodiment
The utility model provides a concrete cement piece is equipment of pouring in batches, as shown in figure 1, including bottom plate 1, slide rail frame 2, lower die box 3, support frame 4, unloading bucket 5, material pipe 6, valve 7, actuating mechanism 8 and feeding mechanism 9, bottom plate 1 top is connected with slide rail frame 2, lower die box 3 is installed in the top left side of slide rail frame 2, lower die box 3 bottom is equipped with the lower mould mouth, both sides all are connected with support frame 4 around the bottom plate 1 middle part, the support frame 4 of both sides is the symmetry setting around, be connected with unloading bucket 5 between the top of front and back both sides support frame 4, the left surface of unloading bucket 5 is connected with material pipe 6, install valve 7 on the material pipe 6, be connected with actuating mechanism 8 on the bottom plate 1, be connected with feeding mechanism 9 between actuating mechanism 8 and the unloading bucket 5, actuating mechanism 8 cooperates with feeding mechanism 9.
As shown in fig. 2, the driving mechanism 8 includes a driving motor 81, a first driving rod 82, a bearing seat 83, a first driving plate 84, a second driving plate 85, a second driving rod 86, a driving sliding plate 87, a guide frame 88 and a rotary driving plate 89, the driving motor 81 is installed at the front side of the middle of the bottom plate 1, the bearing seat 83 is connected to the middle of the bottom plate 1, the first driving rod 82 is rotatably connected to the bearing seat 83, the output shaft of the driving motor 81 is connected to the front portion of the first driving rod 82 through a belt transmission assembly, the first driving plate 84 is connected to the rear end of the first driving rod 82, the second driving plate 85 is hinged to the rear end of the first driving plate 84, the second driving rod 86 is connected to the rear end of the second driving plate 85, the guide frame 88 is connected to the middle of the bottom plate 1, the driving sliding plate 87 is connected to the top of the guide frame 88, a linear sliding groove is opened at, the middle of the top of the driving sliding plate 87 is hinged with a plurality of rotating driving plates 89, and the tops of the rotating driving plates 89 are all positioned in the middle of the sliding rail frame 2.
As shown in fig. 2, the feeding mechanism 9 includes a belt pulley 90, a transmission belt 91, a worm 92, a worm gear 93, a third transmission rod 94 and a fan-shaped stirring blade 95, the top of the front side support frame 4 is rotatably connected with the worm 92, the front part of the worm 92 and the front part of the first transmission rod 82 are both connected with the belt pulley 90, the transmission belt 91 is connected between the two belt pulleys 90, the bottom of the blanking barrel 5 is rotatably connected with the third transmission rod 94, the third transmission rod 94 penetrates through the blanking barrel 5, the bottom end of the third transmission rod 94 is connected with the worm gear 93, the worm gear 93 is meshed with the rear part of the worm 92, the upper end of the third transmission rod 94 is connected with the fan-shaped stirring blade 95, and.
When concrete cement blocks need to be poured, initially, the valve 7 is in a closed state, the prepared concrete slurry is poured into the blanking barrel 5 manually, pouring molds are stacked in the lower mold box 3, the bottommost pouring mold falls onto the slide rail frame 2, the driving motor 81 is started, the driving motor 81 rotates to drive the first driving rod 82 to rotate through the belt transmission assembly, the first driving rod 82 rotates to drive the first driving plate 84 to rotate, the second driving rod 86 is driven to reciprocate left and right through the second driving plate 85, the second driving rod 86 reciprocates left and right to drive the sliding plate 87 to reciprocate left and right on the guide frame 88, when the driving sliding plate 87 moves left, the rotating driving plate 89 touches the pouring molds on the slide rail frame 2, the rotating driving plate 89 rotates clockwise by taking the hinge joint of the driving sliding plate 87 as an axis, so that the pouring molds on the slide rail frame 2 cannot be pushed to move left when the rotating driving plate 89 moves left, when the driving slide plate 87 moves rightwards, the rotary driving plate 89 touches a pouring mold on the slide rail frame 2, the rotary driving plate 89 pushes the pouring mold on the slide rail frame 2 to move rightwards, the valve 7 is manually opened, the first transmission rod 82 rotates and drives the belt pulley 90 on the first transmission rod 82 to rotate, the belt pulley 90 on the first transmission rod 82 rotates and drives the worm 92 to rotate through the transmission belt 91, the worm 92 rotates and drives the worm wheel 93 to rotate, the worm wheel 93 rotates and drives the fan-shaped stirring blade 95 to rotate through the third transmission rod 94, the fan-shaped stirring blade 95 rotates and stirs the concrete slurry again, the uniformity of the concrete slurry is improved, the concrete slurry is driven to better flow into the pouring mold from the material pipe 6 under the action of the fan-shaped stirring blade 95, after the pouring mold on the rightmost side is filled with the concrete slurry, the pouring mold filled with the concrete slurry is moved aside, valve 7 is closed manually, and when rotatory drive plate 89 continued to promote the casting mould and moved rightwards, valve 7 was opened again to the manual work, so, through actuating mechanism 8 and the cooperation of feeding mechanism 9, need not artifical manual placing the casting mould, alleviateed artifical operation degree of difficulty.
Second embodiment
On the basis of the first embodiment, as shown in fig. 4, the conveying device 10 is further included, the conveying device 10 includes a connecting rod 101, a rack 102, a fourth transmission rod 103, a one-way clutch 104, a gear 105, a conveying roller 106 and a conveying belt 107, the front end of the second transmission rod 86 is connected with the connecting rod 101, the left side of the connecting rod 101 is connected with the rack 102, two fourth transmission rods 103 are rotatably connected between the support frames 4 at the front and rear sides, the two fourth transmission rods 103 are arranged in bilateral symmetry, a frame 100 is connected between the fourth transmission rods 103 at the left and right sides, the bottom of the right side of the frame 100 is provided with an opening, the fourth transmission rods 103 at the left and right sides respectively penetrate through the frame 100, the front portion of the fourth transmission rod 103 at the right side is connected with the one-way clutch 104, the gear 105 is mounted on the one-way clutch 104, the gear 105 is, the conveying rollers 106 are positioned in the housing 100, and a conveying belt 107 is connected between the two conveying rollers 106.
When concrete cement blocks need to be poured, concrete slurry flows onto the conveying belt 107 from the material pipe 6, the second transmission rod 86 drives the rack 102 to reciprocate left and right through the connecting rod 101 when moving, the rack 102 drives the gear 105 to rotate clockwise when moving left, the gear 105 drives the fourth transmission rod 103 to rotate clockwise, the fourth transmission rod 103 drives the conveying roller 106 to rotate clockwise, the conveying roller 106 drives the conveying belt 107 to rotate clockwise, the concrete slurry on the conveying belt 107 falls onto a pouring mold from an opening at the bottom of the right side of the frame body 100, and when the rack 102 moves right, the gear 105 cannot rotate under the action of the one-way clutch 104, so that the valve 7 does not need to be opened or closed continuously through the conveying mechanism 10, the manual operation difficulty is further reduced, and one manual operation is reduced, the labor cost of the factory is reduced.
As shown in fig. 4, the apparatus further includes a baffle 11, the baffle 11 is connected to both the upper left portion of the inside of the housing 100 and the lower right portion of the inside of the housing 100, and the baffle 11 is in contact with the conveyor 107.
When mixing the earth thick liquid from material pipe 6 on flowing into conveyer belt 107, the baffle 11 on the left side upper portion of framework 100 can avoid mixing the earth thick liquid stream and fall to the left side of framework 100, and baffle 11 of the right side lower part of framework 100 enables the better to fall into to pouring the mould of earth thick liquid, so, thereby reduce the waste to mixing the earth thick liquid and enable the better to fall into to pouring the mould of earth thick liquid through baffle 11's effect.
The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.