CN217414438U - Building energy-saving concrete automatic blending system - Google Patents

Abstract

The application discloses building energy saving concrete automatic blending system relates to concrete batching technical field, which comprises a bracket, support top fixedly connected with batching box, fixedly connected with weighing plate in the batching box inner chamber, batching bottom of the case portion is equipped with the agitator, the agitator both ends all are equipped with the supporting leg. This application is through the sampling tube, the spiro, the sampling bucket, cooperation setting between link and slide bar isotructure, when the user needs to take a sample to the material, promote the slide bar downwards and drive the spiro and to the inside removal of agitator, thereby it removes to drive the sampling bucket, insert the sampling bucket in the inside material of agitator, then upwards stimulate the slide bar, take off the sampling bucket after pulling out the sampling bucket, it can to pour out the inside raw materials of sampling bucket, the current concrete dosing unit of having avoided as far as possible lacks the sampling device, inconvenient user carries out the problem of sampling test.

Description

Building energy-saving concrete automatic blending system

Technical Field

The application relates to the technical field of concrete batching, in particular to an automatic batching system for building energy-saving concrete.

Background

The concrete is artificial stone which is prepared by taking cement as a main cementing material, adding water, sand, stones and chemical additives and mineral admixtures if necessary, mixing the materials according to a proper proportion, uniformly stirring, densely molding, curing and hardening. Generally, workers manually weigh cement, sand and stone, and then place the weighed materials into a concrete mixer according to a certain proportion to mix the materials to prepare a concrete mixture.

Concrete is after carrying out the batching stirring, generally need extract the sample to detect the mixture, and current concrete dosing unit lacks the sampling equipment, and inconvenient user carries out the sample detection.

SUMMERY OF THE UTILITY MODEL

In order to improve current concrete dosing unit and lack the sampling device, inconvenient user carries out the problem of sample detection, this application provides an energy-conserving concrete automatic blending system of building.

The application provides a building energy-saving concrete automatic blending system adopts following technical scheme:

an automatic building energy-saving concrete batching system comprises a support, wherein a batching box is fixedly connected to the top of the support, a weighing plate is fixedly connected to the inner cavity of the batching box, a stirring barrel is arranged at the bottom of the batching box, supporting legs are arranged at two ends of the stirring barrel, the stirring barrel is fixedly connected with the supporting legs, a communicating pipe is arranged at the top of one end of the stirring barrel, the top end of the communicating pipe penetrates through the batching box, the communicating pipe is fixedly connected with the batching box, the bottom end of the communicating pipe is communicated with the inside of the stirring barrel, a sampling pipe is fixedly connected to the top of the stirring barrel, the sampling pipe is communicated with the inside of the stirring barrel, a spiral ring is slidably connected to the inner cavity of the sampling pipe, the sampling barrel is screwed to the bottom of the spiral ring, connecting frames are fixedly connected to two sides of the sampling pipe, and two sliding rods are fixedly connected to the top of the spiral ring, the slide bar is kept away from the one end of sampling tube runs through the link, the slide bar with link sliding connection.

By adopting the technical scheme, when in use, a user guides raw materials into a weighing plate in a batching box to weigh the materials, after the materials are weighed, the user guides the materials into a stirring barrel through a communicating pipe to mix and stir the materials, when the user needs to sample and detect the stirred materials, the user can push a sliding rod downwards, the sliding rod drives a spiral ring in sliding connection in the sampling pipe to move towards the inside of the stirring barrel so as to drive the sampling barrel in threaded connection with the bottom of the spiral ring to move, the sampling barrel is inserted into the uniformly mixed materials in the stirring barrel, then the user pulls the sliding rod upwards, the sampling barrel containing the materials is pulled out from the inside of the sampling pipe through the sliding rod, the sampling barrel can be rotated, the sampling barrel is taken down from the spiral ring, the raw materials in the sampling barrel are poured out for detection, and the shortage of sampling equipment of the existing concrete batching device is avoided as much as possible, inconvenient user carries out the problem of sampling test.

Optionally, a stacking box is arranged at the top of the weighing plate, the stacking box is of a rectangular frame structure, and the bottom of the stirring rod is in sliding contact with the outer surface of the weighing plate.

Through adopting above technical scheme, set up the windrow case on weighing plate, convenience of customers piles up the raw materials on the bearing plate, avoids the raw materials landing from weighing plate as far as possible, influences the problem that the user weighed to the raw materials.

Optionally, a hydraulic cylinder is fixedly connected to the side wall of the top of the support, a hydraulic rod is fixedly connected to the output end of the hydraulic cylinder, the hydraulic rod penetrates through the support, the hydraulic rod is connected with the support in a sliding mode, and one end, far away from the hydraulic cylinder, of the hydraulic rod is fixedly connected with the side wall of the stacking box.

Through adopting above technical scheme, set up pneumatic cylinder and hydraulic stem, make the pneumatic cylinder can drive the hydraulic stem shrink to drive the windrow case that fixed connection kept away from pneumatic cylinder one end in the hydraulic stem and slide along weighing plate is gone up, and the material that finishes of weighing on with weighing plate removes to communicating pipe top, and with the material through leading-in stirring work of carrying on to the agitator inside communicating pipe.

Optionally, the pneumatic cylinder with the junction fixedly connected with mounting panel of support, be equipped with the bolt on the mounting panel, the bolt runs through the mounting panel, the bolt with support looks spiro union.

Through adopting above technical scheme, set up the mounting panel and be used for increasing the contact surface between pneumatic cylinder and the support, improve the stability of pneumatic cylinder installation, adopt the connected mode of bolt spiro union to connect, not only connect stably, convenience of customers installs and dismantles work moreover.

Optionally, be equipped with the (mixing) shaft in the inner chamber of agitator, the (mixing) shaft runs through the agitator, the (mixing) shaft with agitator fixed connection, the cover is equipped with a plurality of puddlers on the surface of (mixing) shaft, and is a plurality of the puddler is followed the length direction equidistance of (mixing) shaft distributes.

Through adopting above technical scheme, at the inside (mixing) shaft that sets up of agitator for carry out the stirring effect to the inside material of agitator, set up a plurality of puddlers on the (mixing) shaft, be used for increasing the contact surface between (mixing) shaft and the material, improve stirring efficiency.

Optionally, the support at one end of the stirring shaft is fixedly connected with an installation table, the top of the installation table is fixedly connected with a motor, and the output end of the motor is fixedly connected with the stirring shaft.

Through adopting above technical scheme, set up the motor and be used for driving the (mixing) shaft and rotate, carry out stirring work to the material through the (mixing) shaft, set up the mount table bottom the motor for support the motor to suitable height, the convenience is with the output and the (mixing) shaft fixed connection of motor.

Optionally, the sampling barrel is of a conical structure, the top of the sampling barrel is hollow, a thread is formed in the top of the sampling barrel, and the sampling barrel is in threaded connection with the spiral ring through the thread.

Through adopting above technical scheme, will take a sample the barrel head portion and set up to coniform structure, conveniently will take a sample the barrel and insert the work of taking a sample in the material, will take a sample the barrel and pass through screw thread and spiro union, conveniently install and dismantle the work to taking a sample the barrel.

Optionally, a limit bolt is arranged on the side wall of the connecting frame, the limit bolt penetrates through the connecting frame, the limit bolt is in threaded connection with the connecting frame, and one section of the limit bolt located inside the connecting frame is in abutting connection with the sliding rod.

Through the technical scheme above adopting, set up spacing bolt on the link for carry out the position to the slide bar and inject, when the agitator stirs the effect, the user fixes the slide bar through spacing bolt, avoids the slide bar to drive the sampling bucket gliding to the agitator inside as far as possible, influences the problem that the agitator stirs the material.

In conclusion, the beneficial effects of the application are as follows:

this application is through the sampling tube, the spiro, the sampling bucket, cooperation setting between link and slide bar isotructure, when the user needs to take a sample to the material, promote the slide bar downwards and drive the spiro and to the inside removal of agitator, thereby it removes to drive the sampling bucket, insert the sampling bucket in the inside material of agitator, then upwards stimulate the slide bar, take off the sampling bucket after pulling out the sampling bucket, it can to pour out the inside raw materials of sampling bucket, the current concrete dosing unit of having avoided as far as possible lacks the sampling device, inconvenient user carries out the problem of sampling test.

Drawings

FIG. 1 is a schematic view of the overall cross-sectional structure of the present application;

FIG. 2 is a schematic view of the connection structure of the sampling device of the present application;

FIG. 3 is a schematic view of the connection structure of the hydraulic cylinder, the hydraulic rod and the stacker box.

Description of reference numerals: 1. a support; 2. a batching box; 3. a weighing plate; 4. a material stacking box; 5. a hydraulic cylinder; 6. a hydraulic rod; 7. mounting a plate; 8. a stirring barrel; 9. supporting legs; 10. a communicating pipe; 11. an installation table; 12. a motor; 13. a stirring shaft; 14. a stirring rod; 15. a sampling tube; 16. a spiro ring; 17. sampling a barrel; 18. a connecting frame; 19. a slide bar; 20. and a limiting bolt.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

Referring to fig. 1-3, an energy-saving concrete automatic batching system for buildings comprises a support frame 1 with supporting and connecting functions. The top of the bracket 1 is fixedly connected with a batching box 2 for batching, and a weighing plate 3 for weighing raw materials is fixedly connected in the inner cavity of the batching box 2. The bottom of the batching box 2 is provided with a stirring barrel 8 for mixing and stirring the raw materials. The two ends of the stirring barrel 8 are provided with supporting legs 9 for supporting the stirring barrel 8, and the stirring barrel 8 is fixedly connected with the supporting legs 9. A communicating pipe 10 is arranged at the top of one end of the stirring barrel 8. The top of communicating pipe 10 runs through batching box 2, communicating pipe 10 and batching box 2 fixed connection, and the bottom of communicating pipe 10 is linked together with 8 insides of agitator.

The top fixedly connected with convenience of customers of agitator 8 carries out sampling tube 15 that the sample was surveyed, and sampling tube 15 is linked together with agitator 8 is inside. The inner cavity of the sampling tube 15 is connected with a spiral ring 16 in a sliding way, and the bottom of the spiral ring 16 is connected with a sampling barrel 17 for taking out a detection sample in a spiral way. The two sides of the sampling tube 15 are fixedly connected with connecting frames 18. The top of the spiral ring 16 is fixedly connected with two slide bars 19 which are convenient for a user to move the sampling barrel 17, one end of the slide bar 19, which is far away from the sampling tube 15, penetrates through the connecting frame 18, and the slide bar 19 is in sliding connection with the connecting frame 18.

When the device is used, a user guides raw materials onto the weighing plate 3 in the batching box 2 to weigh the materials, after the materials are weighed, the user guides the materials into the stirring barrel 8 through the communicating pipe 10 to mix and stir the materials, when the user needs to sample and detect the stirred materials, the user can push the sliding rod 19 downwards, the sliding rod 19 drives the spiral ring 16 in sliding connection with the inner part of the sampling pipe 15 to move towards the inner part of the stirring barrel 8, so as to drive the sampling barrel 17 screwed at the bottom of the spiral ring 16 to move, the sampling barrel 17 is inserted into the uniformly mixed materials in the stirring barrel 8, then the user pulls the sliding rod 19 upwards, the sampling barrel 17 containing the materials is pulled out of the inner part of the sampling pipe 15 through the sliding rod 19, the sampling barrel 17 can be rotated, the sampling barrel 17 is taken out of the spiral ring 16, the raw materials in the sampling barrel 17 are poured out for detection, and the shortage of sampling equipment of the existing concrete batching device is avoided as much as possible, inconvenient user carries out the problem of sampling test.

Referring to fig. 1 and 3, a stacking box 4 is arranged at the top of the weighing plate 3, the stacking box 4 is in a rectangular frame-shaped structure, and the bottom of the stirring rod 14 is in sliding contact with the outer surface of the weighing plate 3. Set up the windrow case 4 on weighing plate 3, convenience of customers piles up the raw materials on weighing plate 3, avoids the raw materials to follow weighing plate 3 landing as far as possible, influences the problem that the user weighed the raw materials.

Referring to fig. 1 and 3, fixedly connected with pneumatic cylinder 5 on the lateral wall of support 1 top, fixedly connected with hydraulic stem 6 on the output of pneumatic cylinder 5, hydraulic stem 6 runs through support 1, hydraulic stem 6 and 1 sliding connection of support, and the one end and the 4 lateral walls fixed connection of windrow case that pneumatic cylinder 5 was kept away from to hydraulic stem 6. Set up pneumatic cylinder 5 and hydraulic stem 6, make pneumatic cylinder 5 can drive hydraulic stem 6 shrink to drive fixed connection and 6 keep away from the windrow case 4 of pneumatic cylinder 5 one end of hydraulic cylinder and slide on weighing plate 3 along the hydraulic stem, with weighing plate 3 on the material that finishes remove to communicating pipe 10 tops, and with the material through leading-in to 8 inside stirring work that carry out of communicating pipe 10.

Referring to fig. 3, a mounting plate 7 is fixedly connected to a joint of the hydraulic cylinder 5 and the bracket 1, a bolt is arranged on the mounting plate 7, the bolt penetrates through the mounting plate 7, and the bolt is in threaded connection with the bracket 1. Set up mounting panel 7 and be used for increasing the contact surface between pneumatic cylinder 5 and the support 1, improve the stability of pneumatic cylinder 5 installation, adopt the connected mode of bolt spiro union to connect, not only connect stably, convenience of customers installs and dismantles work moreover.

Referring to fig. 1, a stirring shaft 13 is arranged in the inner cavity of the stirring barrel 8, the stirring shaft 13 penetrates through the stirring barrel 8, the stirring shaft 13 is fixedly connected with the stirring barrel 8, a plurality of stirring rods 14 are sleeved on the outer surface of the stirring shaft 13, and the plurality of stirring rods 14 are equidistantly distributed along the length direction of the stirring shaft 13. Set up (mixing) shaft 13 in agitator 8 inside for carry out stirring effect to the material of agitator 8 inside, set up a plurality of puddlers 14 on (mixing) shaft 13, be used for increasing the contact surface between (mixing) shaft 13 and the material, improve stirring efficiency.

Referring to fig. 1, a mounting table 11 is fixedly connected to a support 1 at one end of a stirring shaft 13, a motor 12 is fixedly connected to the top of the mounting table 11, and an output end of the motor 12 is fixedly connected to the stirring shaft 13. Set up motor 12 and be used for driving (mixing) shaft 13 and rotate, carry out stirring work to the material through (mixing) shaft 13, set up mount table 11 in motor 12 bottom for support motor 12 to suitable height, conveniently with motor 12's output and (mixing) shaft 13 fixed connection.

Referring to fig. 2, sampling bucket 17 is the coniform structure, and sampling bucket 17's top is hollow, and sampling bucket 17's top is seted up threadedly, and sampling bucket 17 passes through the screw thread and spiro union 16 looks spiro union. Set up to coniform structure with sampling bucket 17 bottom, conveniently will take a sample bucket 17 and insert and carry out sample work in the material, will take a sample bucket 17 through screw thread and spiro 16 spiro union, conveniently install and dismantle work sampling bucket 17.

Referring to fig. 2, a limit bolt 20 is arranged on the side wall of the connecting frame 18, the limit bolt 20 penetrates through the connecting frame 18, the limit bolt 20 is in threaded connection with the connecting frame 18, and a section of the limit bolt 20 located inside the connecting frame 18 is abutted against the slide rod 19. Set up limit bolt 20 on link 18 for carry out the position to slide bar 19 and prescribe a limit to, when agitator 8 stirs the effect, the user fixes slide bar 19 through limit bolt 20, avoids slide bar 19 to drive sample bucket 17 gliding to agitator 8 inside as far as possible, influences the problem that agitator 8 stirs the material.

The application has the implementation principle that: when the device is used, a user guides raw materials onto the weighing plate 3 in the batching box 2 to weigh the materials, after the materials are weighed, the user guides the materials into the stirring barrel 8 through the communicating pipe 10 to mix and stir the materials, when the user needs to sample and detect the stirred materials, the user can push the sliding rod 19 downwards, the sliding rod 19 drives the spiral ring 16 in sliding connection with the inner part of the sampling pipe 15 to move towards the inner part of the stirring barrel 8, so as to drive the sampling barrel 17 screwed at the bottom of the spiral ring 16 to move, the sampling barrel 17 is inserted into the uniformly mixed materials in the stirring barrel 8, then the user pulls the sliding rod 19 upwards, the sampling barrel 17 containing the materials is pulled out of the inner part of the sampling pipe 15 through the sliding rod 19, the sampling barrel 17 can be rotated, the sampling barrel 17 is taken out of the spiral ring 16, the raw materials in the sampling barrel 17 are poured out for detection, and the shortage of sampling equipment of the existing concrete batching device is avoided as much as possible, the problem that the sampling detection is inconvenient for users.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a building energy-saving concrete automatic blending system, includes support (1), its characterized in that: the top of the support (1) is fixedly connected with a batching box (2), a weighing plate (3) is fixedly connected in an inner cavity of the batching box (2), a stirring barrel (8) is arranged at the bottom of the batching box (2), supporting legs (9) are arranged at two ends of the stirring barrel (8), the stirring barrel (8) is fixedly connected with the supporting legs (9), a communicating pipe (10) is arranged at the top of one end of the stirring barrel (8), the top end of the communicating pipe (10) penetrates through the batching box (2), the communicating pipe (10) is fixedly connected with the batching box (2), the bottom end of the communicating pipe (10) is communicated with the inner part of the stirring barrel (8), a sampling pipe (15) is fixedly connected at the top of the stirring barrel (8), the sampling pipe (15) is communicated with the inner part of the stirring barrel (8), and a spiral ring (16) is slidably connected in an inner cavity of the sampling pipe (15), the bottom spiro union of spiro union (16) has sampling bucket (17), the equal fixedly connected with link (18) in both sides of sampling tube (15), two slide bars (19) of top fixedly connected with of spiro union (16), slide bar (19) are kept away from the one end of sampling tube (15) is run through link (18), slide bar (19) with link (18) sliding connection.

2. The automatic batching system for the building energy-saving concrete as claimed in claim 1, characterized in that: the top of the weighing plate (3) is provided with a stacking box (4), the stacking box (4) is of a rectangular frame structure, and the bottom of the stirring rod (14) is in sliding contact with the outer surface of the weighing plate (3).

3. The automatic batching system for the building energy-saving concrete according to claim 2, characterized in that: fixedly connected with pneumatic cylinder (5) on support (1) top lateral wall, fixedly connected with hydraulic stem (6) on the output of pneumatic cylinder (5), hydraulic stem (6) run through support (1), hydraulic stem (6) with support (1) sliding connection, hydraulic stem (6) are kept away from the one end of pneumatic cylinder (5) with material piling box (4) lateral wall fixed connection.

4. The automatic batching system for the building energy-saving concrete as claimed in claim 3, characterized in that: pneumatic cylinder (5) with the junction fixedly connected with mounting panel (7) of support (1), be equipped with the bolt on mounting panel (7), the bolt runs through mounting panel (7), the bolt with support (1) looks spiro union.

5. The automatic batching system for the building energy-saving concrete as claimed in claim 1, characterized in that: be equipped with (mixing) shaft (13) in the inner chamber of agitator (8), (mixing) shaft (13) run through agitator (8), (mixing) shaft (13) with agitator (8) fixed connection, the cover is equipped with a plurality of puddlers (14) on the surface of (mixing) shaft (13), and is a plurality of puddler (14) are followed the length direction equidistance of (mixing) shaft (13) distributes.

6. The automatic batching system for the building energy-saving concrete as claimed in claim 5, wherein: (mixing) shaft (13) one end wherein fixedly connected with mount table (11) on support (1), mount table (11) top fixedly connected with motor (12), the output of motor (12) with (mixing) shaft (13) fixed connection.

7. The automatic batching system for the building energy-saving concrete as claimed in claim 1, characterized in that: the sampling barrel (17) is of a conical structure, the top of the sampling barrel (17) is hollow, the top of the sampling barrel (17) is provided with a thread, and the sampling barrel (17) is in threaded connection with the spiral ring (16) through the thread.

8. The automatic batching system for the building energy-saving concrete as claimed in claim 1, characterized in that: the side wall of the connecting frame (18) is provided with a limiting bolt (20), the limiting bolt (20) penetrates through the connecting frame (18), the limiting bolt (20) is in threaded connection with the connecting frame (18), and the limiting bolt (20) is located at one section inside the connecting frame (18) and is abutted to the sliding rod (19).

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