阅读说明：本技术 一种具有全自动功能的干混砂浆生产设备 (Dry-mixed mortar production equipment with full-automatic function ) 是由 林顺舟 蔡宗富 于 2021-07-30 设计创作，主要内容包括：本发明提供一种具有全自动功能的干混砂浆生产设备,涉及干混砂浆生产技术领域,解决了现有的干混砂浆生产设备在实际应用时虽然可以实现自动的上下料,但在上料过程中仍需人工对袋装原料破开后人工投入,但人工投入不但费时费力还容易因包装袋被卷入到设备的内部对操作人员造成伤害的问题,包括进料机构,所述进料机构的主体截面为类L形结构设计,本发明中,将原料撒入到步进组件的上侧向左侧进行输送,当原料运送到进料机构中的干混组件的内侧时,可通过倾斜安装的导流扇同时向内侧进行吹动,进而使得原料进行聚拢工作,并通过加热管对原料进行除湿作业,进而完成了自动化的上料工作。(The invention provides dry-mixed mortar production equipment with full-automatic function, which relates to the technical field of dry-mixed mortar production and solves the problems that automatic feeding and discharging can be realized in the practical application of the existing dry-mixed mortar production equipment, but the bagged raw materials still need to be manually input after being broken open in the feeding process, but the manual input is time-consuming and labor-consuming, and the operation personnel are easily injured because a packaging bag is drawn into the equipment, the dry-mixed mortar production equipment comprises a feeding mechanism, the main body section of the feeding mechanism is designed into a similar L-shaped structure, in the invention, the raw materials are scattered on the upper side of a stepping assembly to the left side for conveying, when the raw materials are conveyed to the inner side of the dry-mixed assembly in the feeding mechanism, the raw materials can be simultaneously blown to the inner side through a guide fan which is obliquely arranged, so that the raw materials are gathered and are dehumidified through a heating pipe, thereby completing the automatic feeding work.)

1. The utility model provides a dry-mixed mortar production facility with full-automatic function which characterized in that: comprises a feeding mechanism;

the feeding mechanism is characterized in that the cross section of the main body of the feeding mechanism is of an L-shaped structure, the turnover mechanism is further mounted on the upper side of the feeding mechanism, the cutting mechanism is further arranged on the left side of the turnover mechanism, the clamping mechanism is further arranged on the right side of the cutting mechanism and comprises a clamping assembly, the main body of the clamping assembly is of a clamping plate structure with a hydraulic cylinder, and the clamping assemblies are arranged at two positions and are opposite to each other and mounted at the inner side positions of the bearing seats at the two positions.

2. The dry-mixed mortar production equipment with the full-automatic function according to claim 1, characterized in that: the feed mechanism includes:

the base, the main part of base is for having the cuboid structural design who lacks the groove.

3. The dry-mixed mortar production equipment with the full-automatic function according to claim 2, characterized in that: the feed mechanism includes:

the main body of the dry mixing component is designed into a cover body structure, and the interior of the dry mixing component at least comprises two guide fans and heating pipes.

4. The dry-mixed mortar production equipment with the full-automatic function according to claim 3, characterized in that: the feed mechanism includes:

the main part of the stepping assembly is formed by oppositely arranging two L-shaped side plates, the inner sides of the two stepping assemblies are provided with two conveying belts in a longitudinal array mode, the conveying belts positioned on the upper sides are conveyed towards the left side, the conveying belts positioned on the lower sides are installed at a certain inclined angle, the conveying directions of the conveying belts positioned on the upper sides are opposite, and the right sides of the stepping assemblies are further provided with turnover mechanisms.

5. The dry-mixed mortar production equipment with the full-automatic function according to claim 4, characterized in that: the turnover mechanism comprises:

the main body of the driving assembly is an electric cylinder, and a rack is further arranged on the right side of the electric cylinder in the driving assembly.

6. The dry-mixed mortar production equipment with the full-automatic function according to claim 5, characterized in that: the turnover mechanism comprises:

the main part of upset subassembly is type U-shaped structural design, and the front end of upset subassembly is provided with the gear to the breach has been seted up in the inside of upset subassembly, still is provided with cutting mechanism in the left side of upset subassembly.

7. The dry-mixed mortar production equipment with the full-automatic function according to claim 6, characterized in that: the cutting mechanism includes:

the base, the main part of base are the cuboid structural design of inside fretwork, and the pedestal mounting is in the left surface upper side position of upset subassembly.

8. The dry-mixed mortar production equipment with the full-automatic function according to claim 7, characterized in that: the cutting mechanism includes:

the cutting assembly, cutting assembly's main part is for having the cutter structural design of electronic jar, and cutting assembly installs the inside position at the base, and the cutting direction is for from the left hand right side, still is provided with on cutting assembly's right side and gets the mechanism.

9. The dry-mixed mortar production equipment with the full-automatic function according to claim 8, characterized in that: the clamping mechanism comprises:

the main body of the bearing seat is in a side plate structure design, and the two bearing seats are fixedly connected to the top end face of the turnover assembly.

Technical Field

The invention belongs to the technical field of dry-mixed mortar production, and particularly relates to dry-mixed mortar production equipment with a full-automatic function.

Background

The dry powder mortar is a granular or powdery material which is prepared by physically mixing dry and screened aggregate (such as quartz sand), inorganic cementing material (such as cement), additive (such as polymer) and the like according to a certain proportion, is transported to a construction site in a bag or in bulk, and can be directly used after being mixed with water, and the production needs to be carried out after a plurality of materials are mixed during the production.

For example, application No.: CN201610364561.9, the invention discloses a production device of ecological dry-mixed mortar, which comprises a vibrating screen, wherein a discharge port of oversize materials of the vibrating screen is connected with a feed port of a crusher, a discharge port of the crusher is connected back to the feed port of the vibrating screen, a lower discharge port of the vibrating screen is connected with a feed port of a drying device, a discharge port of the drying device is connected with a feed port of a regenerated sand warehouse, the feed port of the drying device is simultaneously connected with a natural sand yard, the discharge port of the drying device is simultaneously connected with a feed port of the natural sand warehouse, the discharge port of an additive mixing device is connected with a feed port of a mixed additive storage device, the discharge port of the regenerated sand warehouse, the discharge port of the natural sand warehouse, the discharge port of the mixed additive storage device, the discharge port of a cement warehouse and the discharge port of a fly ash warehouse are simultaneously connected with a feed port of a mixing device, the invention can utilize construction waste to prepare regenerated sand, largely replace natural sand to prepare ecological dry-mixed mortar, and relieve resources and environmental pressure, the existing dry-mixed mortar production line can be realized by only adding regenerated sand production equipment without changing the original process flow and equipment.

The dry-mixed mortar production equipment similar to the above application has the following defects:

1. although automatic feeding and discharging can be achieved in practical application of the existing dry-mixed mortar production equipment, the bagged raw materials still need to be manually input after being broken in the feeding process, but the manual input is time-consuming and labor-consuming, and the packaging bags are easily wound inside the equipment to hurt operators.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and a dry-mixed mortar production device with a full-automatic function is provided, so as to achieve the purpose of having more practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides dry-mixed mortar production equipment with a full-automatic function, which aims to solve the problems that although automatic feeding and discharging can be realized in the practical application of the conventional dry-mixed mortar production equipment, the bagged raw materials still need to be manually input after being broken in the feeding process, and the manual input is time-consuming and labor-consuming and is easy to cause injury to operators because packaging bags are drawn into the equipment.

The invention relates to a dry-mixed mortar production device with full-automatic function, which is realized by the following specific technical means:

a dry-mixed mortar production device with full-automatic function comprises a feeding mechanism;

the feeding mechanism is characterized in that the cross section of the main body of the feeding mechanism is of an L-shaped structure, the turnover mechanism is further mounted on the upper side of the feeding mechanism, the cutting mechanism is further arranged on the left side of the turnover mechanism, the clamping mechanism is further arranged on the right side of the cutting mechanism and comprises a clamping assembly, the main body of the clamping assembly is of a clamping plate structure with a hydraulic cylinder, and the clamping assemblies are arranged at two positions and are opposite to each other and mounted at the inner side positions of the bearing seats at the two positions.

Further, the turnover mechanism comprises:

the main body of the driving assembly is an electric cylinder, and a rack is further arranged on the right side of the electric cylinder in the driving assembly;

further, the feeding mechanism comprises:

the main body of the base is designed into a cuboid structure with a notch;

further, the cutting mechanism includes:

the main body of the base is designed into a cuboid structure with a hollow interior, and the base is arranged at the upper side position of the left side face of the turnover assembly;

further, the feeding mechanism comprises:

the main body of the dry mixing component is designed into a cover body structure, and the interior of the dry mixing component at least comprises two guide fans and heating pipes;

further, the turnover mechanism comprises:

the main body of the overturning assembly is designed into a U-like structure, the front end of the overturning assembly is provided with a gear, a notch is formed in the overturning assembly, and the left side of the overturning assembly is also provided with a cutting mechanism;

further, the feeding mechanism comprises:

the main body of the stepping assembly is formed by oppositely arranging two L-shaped side plates, two conveying belts are arranged on the inner sides of the two stepping assemblies in a longitudinal array mode, the conveying belt positioned on the upper side is conveyed to the left side, the conveying belt positioned on the lower side is installed in a certain inclined angle mode, the conveying direction of the conveying belt positioned on the upper side is opposite to that of the conveying belt positioned on the lower side, and a turnover mechanism is further arranged on the right side of the stepping assembly;

further, the gripping mechanism includes:

the main body of the bearing seat is designed into a side plate structure, and the two bearing seats are fixedly connected to the top end surface of the turnover assembly;

further, the cutting mechanism includes:

the cutting assembly, cutting assembly's main part is for having the cutter structural design of electronic jar, and cutting assembly installs the inside position at the base, and the cutting direction is for from the left hand right side, still is provided with on cutting assembly's right side and gets the mechanism.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the cutter is driven downwards by starting the electric cylinder in the cutting assembly, the bagged raw material is cut by the cutter, the bagged raw material continues to move to the left side after the cut is finished, then the clamping operation is carried out on the rear end (namely the closed end) of the bagged raw material by the clamping plate in the clamping assembly arranged on the inner side of the bearing seat in the starting clamping mechanism, and the material seeped out from the bagged raw material in the conveying process falls onto the conveying belt on the lower side through the conveying belt on the upper side in the stepping assembly to be conveyed reversely, so that the purpose of saving resources is achieved.

2. According to the invention, the driving assembly in the turnover mechanism is started to move towards the right side, the bagged raw materials are synchronously lifted and turned through the meshing transmission of the rack and the gear arranged on the front side of the turnover assembly, the raw materials are scattered into the upper side of the stepping assembly and conveyed towards the left side, when the raw materials are conveyed to the inner side of the dry mixing assembly in the feeding mechanism, the raw materials can be blown towards the inner side through the guide fan which is obliquely arranged, so that the raw materials are gathered, and the raw materials are dehumidified by the heating pipe, so that the automatic feeding work is completed.

Drawings

FIG. 1 is a schematic diagram of the front side view structure of the present invention.

Fig. 2 is a schematic top side view of the present invention.

Fig. 3 is a schematic side view of the present invention.

Fig. 4 is a schematic bottom side view of the present invention.

Fig. 5 is a left side view of the present invention.

Fig. 6 is a schematic view of the feeding mechanism of the present invention.

Fig. 7 is an enlarged schematic view of the structure at a in fig. 2 according to the present invention.

FIG. 8 is a schematic front side view of the present invention with the feed mechanism removed.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a feeding mechanism; 101. a base; 102. a dry mix assembly; 103. a stepping assembly; 2. a turnover mechanism; 201. a drive assembly; 202. a turnover assembly; 3. a cutting mechanism; 301. a base; 302. a cutting assembly; 4. a gripping mechanism; 401. a bearing seat; 402. and (4) clamping the assembly.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides a dry-mixed mortar production device with full-automatic function, which comprises: feed mechanism 1, feed mechanism 1's main part cross-section is type L shape structural design, and feed mechanism 1's upside still installs tilting mechanism 2, still be provided with cutting mechanism 3 in tilting mechanism 2's left side, still be provided with on cutting mechanism 3's right side and press from both sides and get mechanism 4, press from both sides and get mechanism 4 and press from both sides and get subassembly 402 including pressing from both sides, press from both sides the splint structural design of subassembly 402 for having the pneumatic cylinder, and two clamp are got subassembly 402 and are subtend and install the inboard position of bearing seat 401 in two, press from both sides and get mechanism 4 and include: the main body of the carrying seat 401 is designed to be a side plate structure, and the carrying seats 401 are both fixedly connected to the top end surface of the turnover assembly 202.

Referring to fig. 1 to 3, the feed mechanism 1 includes: base 101, base 101's main part is for having the cuboid structural design who lacks the groove, and feed mechanism 1 includes: the dry mixing component 102, the main body of the dry mixing component 102 is a cover body structure design, and the dry mixing component 102 at least includes two guide fans and heating pipes inside, the feeding mechanism 1 includes: step-by-step subassembly 103, step-by-step subassembly 103's main part is that the curb plate subtend of two kinds of L shapes sets up the constitution, still is the longitudinal array in the inboard of two step-by-step subassemblies 103 and is provided with two conveyer belts, and the conveyer belt that is located the upside transports for the left side, and the conveyer belt that is located the downside is the certain angle installation of slope to opposite with the transmission direction who is located the conveyer belt of upside, still be provided with tilting mechanism 2 on step-by-step subassembly 103's right side.

Referring to fig. 4-5, the flipping mechanism 2 comprises: drive assembly 201, drive assembly 201 through starting among tilting mechanism 2 moves to the right side, gear mesh transmission through rack and the installation of upset subassembly 202 front side is synchronous to mention the upset to bagged raw materials, spill the upside that step-by-step subassembly 103 with the raw materials and carry to the left side, when the raw materials transports the inboard of dry-mixed subassembly 102 among the feed mechanism 1, the water conservancy diversion fan of accessible slope installation blows to the inboard simultaneously, and then make the raw materials gather together work, and carry out the dehumidification operation to the raw materials through the heating pipe, and then accomplished automatic material loading work, drive assembly 201's main part is electronic jar, and the right side of electronic jar still is provided with the rack among the drive assembly 201, tilting mechanism 2 includes: the main body of the turnover assembly 202 is of a U-shaped structure, the front end of the turnover assembly 202 is provided with a gear, a notch is formed in the turnover assembly 202, and the left side of the turnover assembly 202 is provided with a cutting mechanism 3.

Referring to fig. 6-8, the cutting mechanism 3 includes: base 301, drive assembly 201 through starting among tilting mechanism 2 moves to the right side, gear mesh transmission through rack and the installation of upset subassembly 202 front side is synchronous to mention the upset to bagged raw materials, spill the upside that step-by-step subassembly 103 with the raw materials and carry to the left side, when the raw materials transports the inboard of dry-mixed subassembly 102 among the feed mechanism 1, the water conservancy diversion fan of accessible slope installation blows to the inboard simultaneously, and then make the raw materials gather together work, and carry out the dehumidification operation to the raw materials through the heating pipe, and then accomplished automatic material loading work, the cuboid structural design of base 301's main part for inside fretwork, and base 301 installs the left side upper side position at upset subassembly 202, cutting mechanism 3 includes: the cutting assembly 302, the main part of cutting assembly 302 is the cutter structural design who has electronic jar, and the cutting assembly 302 is installed in the inside position of base 301, and the cutting direction is from left to right, still is provided with on the right side of cutting assembly 302 and gets mechanism 4.

When in use: firstly, bagged raw materials are placed on a conveyor belt positioned on the upper side in a stepping assembly 103 in a feeding mechanism 1, when the open end of the bagged raw materials is conveyed to the position below a base 301 in a cutting mechanism 3, an electric cylinder in a cutting assembly 302 is started to drive a cutter downwards, the bagged raw materials are cut by the cutter, the bagged raw materials continue to move towards the left side after the cut is finished, then clamping operation is carried out on the rear end (namely, the closed end) of the bagged raw materials by a clamping plate in a clamping assembly 402 arranged on the inner side of a bearing seat 401 in a clamping mechanism 4, and materials seeped out from the bagged raw materials in the conveying process fall onto the conveyor belt positioned on the lower side through the conveyor belt positioned on the upper side in the stepping assembly 103 to carry out reverse material conveying so as to achieve the purpose of saving resources;

and when accomplishing the clamp to the raw materials in bags and getting the back, move to the right side through the drive assembly 201 that starts among the tilting mechanism 2, carry out the upset of mentioning in step to the raw materials in bags through the gear meshing transmission that rack and upset subassembly 202 front side were installed mutually, spill the upside that the raw materials entered step subassembly 103 and carry to the left side, when the raw materials transported the inboard of dry-mixed subassembly 102 among the feed mechanism 1, the water conservancy diversion fan of accessible slope installation blows to the inboard simultaneously, and then makes the raw materials gather together the work, and carry out dehumidification operation to the raw materials through the heating pipe, and then accomplished automatic material loading work.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.