CN214773058U - Drainage device for conveyor belt of mixing station - Google Patents

Abstract

The utility model relates to a drainage device for stirring station conveyer belt belongs to conveyer belt technical field, it includes the base station, set up the support frame on the base station, vertical inlet tube of installing on the support frame, the slope is installed and is linked together and set up the first aqueduct of delivery port with the inlet tube on the support frame, the water inlet has just been seted up to the slope installation on the support frame, open second aqueduct, set up the reinforcement subassembly on first aqueduct, set up spacing subassembly on the support frame, vertical installation is located the mounting panel that keeps away from first aqueduct one side near the second aqueduct on the base station, set up the buffering subassembly on the mounting panel, set up the receipts water platform that is close to mounting panel department on the base station, and set up and block the subassembly on receiving the water platform. This application has a large amount of sewage of better discharge, improves production efficiency's effect.

Description

Drainage device for conveyor belt of mixing station

Technical Field

The application relates to the field of conveyor belt technology, in particular to a drainage device for a conveyor belt of a mixing station.

Background

At the in-process that uses the stirring station, often need materials such as equipment toward transporting concrete in the stirring station, common equipment is the conveyer belt, and in the use of conveyer belt, the staff need regularly clear up remaining concrete on the conveyer belt, promotes the transportation effect of conveyer belt, and common stirring station conveyer belt includes the support frame and sets up the water tray board of drain.

At present, referring to fig. 1, a worker firstly additionally attaches a soft rubber pipe to a sewage discharge outlet, then washes a return section positioned at the bottom of a conveying belt through a water pipe, sewage mixed with concrete flows onto a bearing surface of a water supporting plate, then flows into the soft rubber pipe through the sewage discharge outlet, and finally flows to a preset position.

In view of the related art in the above, the inventors consider that there are drawbacks in that: traditional flexible glue pipe is when handling a large amount of sewage, and easy fracture needs the equipment once more, leads to production efficiency to reduce. For this reason, further improvement is awaited.

SUMMERY OF THE UTILITY MODEL

For a large amount of sewage of better discharge, improvement production efficiency, this application provides a drainage device for stirring station conveyer belt.

The application provides a drainage device for stirring station conveyer belt adopts following technical scheme:

a drainage device for a conveyor belt of a mixing plant comprises a base platform, a support frame arranged on the base platform, a water inlet pipe vertically arranged on the support frame, a first water guide pipe obliquely arranged on the support frame, a first water guide pipe communicated with the water inlet pipe and provided with a water outlet, a second water guide pipe obliquely arranged on the support frame and provided with a water inlet and an opening, a reinforcing component arranged on the first water guide pipe and used for reinforcing the end part, a limiting component arranged on the support frame and used for limiting the positions of the first water guide pipe and the second water guide pipe, a mounting plate vertically arranged on the base platform and positioned on one side of the second water guide pipe far away from the first water guide pipe, a buffering component arranged on the mounting plate and used for buffering sewage impact force, a water collecting platform arranged on the base platform and close to the mounting plate, and a blocking component arranged on the water collecting platform and used for blocking sewage from splashing, the second water guide pipe is located below the first water guide pipe, the water outlet is located on the bottom surface of the first water guide pipe, the water inlet and the water outlet are located on the same vertical surface, the water inlet is located on the top surface of the second water guide pipe, and the opening is located at the end portion, far away from the first water guide pipe, of the second water guide pipe.

Through adopting above-mentioned technical scheme, the first aqueduct of setting can lead sewage to the second aqueduct through the inlet tube on, tentatively slow down the impact force of sewage, and the second aqueduct of setting can lead sewage to receiving the water bench, slows down the impact force of sewage once more, realizes multistage buffering then to the big sewage of emission that can be better improves production efficiency.

Optionally, the reinforcing assembly includes a reinforcing plate mounted on an end portion of the first water conduit close to one side of the second water conduit, and a fixing strip arranged on an end portion of the first water conduit and pressing the reinforcing plate.

Through adopting above-mentioned technical scheme, the gusset plate that sets up can reduce the condition that sewage collided the first water conduit tip, improves the steadiness of first water conduit tip then to protect first water conduit, and the fixed strip that sets up can restrict the position of gusset plate, thereby improves the reinforcement effect of gusset plate.

Optionally, the limiting assembly comprises a supporting plate horizontally arranged on the supporting frame and a limiting plate vertically arranged on the supporting plate and respectively abutted against the first water guide pipe side wall and the second water guide pipe side wall.

By adopting the technical scheme, the limiting plates can limit the positions of the first water guide pipe and the second water guide pipe, so that the shaking condition when the first water guide pipe and the second water guide pipe guide sewage is reduced, the stability of the first water guide pipe and the second water guide pipe is improved, and the first water guide pipe and the second water guide pipe guide sewage better.

Optionally, the buffer assembly includes a rotating shaft horizontally installed between the mounting plates, and a buffer plate installed on the rotating shaft.

Through adopting above-mentioned technical scheme, the axis of rotation of setting can restrict the position of buffer board to improve the stability of buffer board, and the buffer board that sets up can slow down the impact force of sewage, and temporarily block the concrete in the sewage, reduce the condition that big batch concrete got into simultaneously in the platform of receiving water, thereby the protection platform of receiving water.

Optionally, the blocking assembly comprises a blocking plate vertically installed on the edge of the water collecting platform.

Through adopting above-mentioned technical scheme, the barrier plate that sets up can reduce the condition that sewage spill outside the platform of catchmenting when sewage flows to in the platform of catchmenting to improve the practicality of the platform of catchmenting.

Optionally, the buffering assembly further includes an installation frame installed on one side of the second water guiding pipe far away from the first water guiding pipe, a rotation handle installed on the installation frame in a rotation mode, a driving gear installed on the rotation handle, a driven gear installed on one side of the rotation shaft penetrating through the installation plate and meshed with the driving gear, and a locking component arranged on the installation plate and used for locking the position of the rotation shaft.

Through adopting above-mentioned technical scheme, the rotation handle that sets up can make driven gear rotate through the driving gear, changes the angle of locking axle then to make the better buffering sewage of buffer board.

Optionally, the locking component includes a locking pin movably inserted in the mounting plate, and a locking opening adapted to the locking pin is annularly provided on an inner portion of the rotating shaft located in the mounting plate.

Through adopting above-mentioned technical scheme, the stop pin that sets up can insert in the locking mouth, restricts the position of buffer board through the axis of rotation then to improve the practicality of buffer board.

Optionally, a rotating flower head is installed on one side of the rotating shaft penetrating through the mounting plate.

Through adopting above-mentioned technical scheme, the rotation flower head that sets up can make things convenient for the staff to make the axis of rotation rotate, makes things convenient for the angle of staff's adjustment axis of rotation then to improve the convenience of axis of rotation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the first water guide pipe can guide sewage to the second water guide pipe through the water inlet pipe to primarily slow down the impact force of the sewage, and the second water guide pipe can guide the sewage to the water receiving platform to slow down the impact force of the sewage again, so that multi-stage buffering is realized, large-batch sewage can be discharged better, and the production efficiency is improved;

2. the rotation handle that sets up can make driven gear rotate through the driving gear, changes the angle of locking axle then to make the better buffering sewage of buffer board.

Drawings

Fig. 1 is a schematic structural view for embodying a water tray in the related art.

Fig. 2 is a schematic view of the overall structure of embodiment 1 of the present application.

Fig. 3 is a sectional view for embodying a stopper plate in embodiment 1 of the present application.

Fig. 4 is a schematic structural view for embodying a reinforcing plate in embodiment 1 of the present application.

Fig. 5 is a sectional view for embodying a rotary bit in embodiment 2 of the present application.

Fig. 6 is an enlarged view for embodying the lock pin in embodiment 2 of the present application.

Description of reference numerals: 1. a base station; 11. a support frame; 12. mounting a plate; 121. a locking pin; 13. a water collecting platform; 131. a blocking plate; 14. a support plate; 141. a limiting plate; 15. a rotating shaft; 151. a buffer plate; 152. a driven gear; 153. a locking port; 154. rotating the flower head; 2. a water inlet pipe; 3. a first water conduit; 31. a water outlet; 32. a reinforcing plate; 321. a fixing strip; 4. a second water conduit; 41. a water inlet; 42. opening the mouth; 43. a mounting frame; 431. rotating the handle; 432. a driving gear; 5. a water supporting plate; 51. a sewage draining outlet; 6. and (4) a conveyor belt.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses drainage device for stirring station conveyer belt.

Example 1: referring to fig. 1, drainage device includes base station 1, is provided with support frame 11 on base station 1, installs conveyer belt 6 on support frame 11, simultaneously, installs water supporting plate 5 in the bottom of conveyer belt 6, has seted up drain 51 on water supporting plate 5, and after the staff washed conveyer belt 6, the sewage that is mingled with the concrete flowed drain 51 department along water supporting plate 5's bearing surface.

Referring to fig. 2 and 3, in order to better discharge a large amount of sewage, a water inlet pipe 2 is vertically installed on the support frame 11, an end of the water inlet pipe 2 adjacent to the conveyor belt 6 is communicated with a sewage discharge outlet 51, and at the same time, a first water guide pipe 3 is obliquely arranged on the support frame 11, the first water guide pipe 3 is communicated with the water inlet pipe 2, a water outlet 31 is opened on the bottom surface of the first water guiding pipe 3, in this embodiment, a second water guiding pipe 4 is obliquely installed on the supporting frame 11, the second water guiding pipe 4 is positioned below the first water guiding pipe 3, the second water guide pipe 4 is provided with a water inlet 41, the water inlet 41 is positioned on the top surface of the second water guide pipe 4, the water inlet 41 of the second water guide pipe 4 and the water outlet 31 of the first water guide pipe 3 are positioned on the same vertical surface, and at the same time, an opening 42 is formed in the second water guiding pipe 4, and the opening 42 is located at the end of the second water guiding pipe 4 far away from the first water guiding pipe 3.

After sewage flows into the sewage outlet 51, the sewage flows into the first water guide pipe 3 through the water inlet pipe 2, flows out of the water outlet 31 of the first water guide pipe 3, flows into the second water guide pipe 4 through the water inlet 41, and flows out of the opening 42 of the second water guide pipe 4, the impact force of the sewage is reduced through the multiple-time guide of the whole, and a large amount of sewage can be discharged better.

Referring to fig. 3 and 4, in order to reduce the impact of the sewage on the end of the first water guiding pipe 3 and reduce the impact of the sewage on the end of the first water guiding pipe 3, a reinforcing assembly is disposed on the first water guiding pipe 3, in this embodiment, the reinforcing assembly includes a reinforcing plate 32 and a fixing strip 321, the reinforcing plate 32 is disposed on the end of the first water guiding pipe 3 near the second water guiding pipe 4, meanwhile, the fixing strip 321 is disposed on the end of the first water guiding pipe 3, the fixing strip 321 presses the reinforcing plate 32, and the fixing strip 321 and the reinforcing plate 32 reinforce the end of the first water guiding pipe 3.

Referring to fig. 2 and 3, in order to make first aqueduct 3 and second aqueduct 4 guide sewage more stable, so be provided with spacing subassembly on support frame 11, in this embodiment, spacing subassembly includes two backup pads 14 and four limiting plates 141, two backup pads 14 are horizontal installation respectively on support frame 11, and four equal vertical installations of limiting plate 141 are on corresponding backup pad 14, per two limiting plates 141 are located same backup pad 14, two limiting plates 141 that are located on same backup pad 14 are inconsistent with the lateral wall of first aqueduct 3, two limiting plates 141 that are located on another backup pad 14 are inconsistent with the lateral wall of second aqueduct 4.

Referring to fig. 2 and 3, for better discharging a large amount of sewage, so vertically install two mounting panels 12 on base platform 1, two mounting panels 12 all are located second aqueduct 4 and keep away from one side of first aqueduct 3, and simultaneously, be provided with on base platform 1 near mounting panel 12 and receive water platform 13, for the condition that reduces the sewage spill, so be provided with on receiving water platform 13 and block the subassembly, in this embodiment, block the subassembly and include three barrier plate 131, three barrier plate 131 all vertically install on the edge of receiving water platform 13, the horizontal cross-section of three barrier plate 131 is the C type.

Referring to fig. 2 and 3, in order to buffer the impact force of the sewage again and reduce the situation that mass concrete enters the water receiving platform 13 at one time, a buffer assembly is arranged on the mounting plates 12, in this embodiment, the buffer assembly comprises a rotating shaft 15 and a buffer plate 151, the rotating shaft 15 is horizontally arranged between the two mounting plates 12, and meanwhile, the buffer plate 151 is arranged on the rotating shaft 15.

When the sewage flows out of the opening 42 of the second guide duct 4, it hits the buffer plate 151 and then flows out of the gap between the buffer plate 151 and the second guide duct 4, the concrete is temporarily blocked, and then the concrete flows out into the water collection platform 13 again along with the sewage.

Example 2: referring to fig. 3 and 5, the present embodiment is different from embodiment 1 in that the buffering assembly includes a mounting bracket 43 and a rotating handle 431, the mounting bracket 43 is mounted on a side of the second water guiding pipe 4 away from the first water guiding pipe 3, the rotating handle 431 is rotatably mounted on the mounting bracket 43, a driving gear 432 is mounted on the rotating handle 431, a driven gear 152 is mounted on a side of the rotating shaft 15 penetrating through the mounting plate 12, and the driven gear 152 is engaged with the driving gear 432.

The worker can drive the driving gear 432 by rotating the handle 431, the driving gear 432 rotates, the driven gear 152 is driven, and the rotating shaft 15 rotates, so that the angle of the buffer plate 151 relative to the opening 42 is changed, and the gap between the buffer plate 151 and the opening 42 is adjusted.

Referring to fig. 5 and 6, in order to lock the position of the rotating shaft 15 and further improve the stability of the buffer plate 151, the buffer assembly includes a locking member disposed on the mounting plate 12, in this embodiment, the locking member includes two locking pins 121, both the two locking pins 121 are movably inserted into the mounting plate 12, meanwhile, six locking openings 153 are annularly disposed on the inner portions of the rotating shaft 15 located on the two mounting plates 12, and all the twelve locking openings 153 are adapted to the corresponding locking pins 121.

After the worker adjusts the position of the rotating shaft 15, the locking pin 121 may be inserted into the mounting plate 12 until the locking pin 121 is inserted into the locking hole 153, and the locking pin 121 may be pulled out when the worker needs to adjust the rotating shaft 15.

Referring to fig. 5, in order to facilitate the worker to change the position of the rotation shaft 15, a rotation knob 154 is installed at a side of the rotation shaft 15 that penetrates the mounting plate 12, and the worker can change the position of the rotation shaft 15 by rotating the rotation knob 154.

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 drainage device for stirring station conveyer belt which characterized in that: comprises a base platform (1), a support frame (11) arranged on the base platform (1), a water inlet pipe (2) vertically arranged on the support frame (11), a second water guide pipe (4) obliquely arranged on the support frame (11) and communicated with the water inlet pipe (2) and provided with a water outlet (31), a first water guide pipe (3) obliquely arranged on the support frame (11) and provided with a water inlet (41) and an opening (42), a reinforcing component arranged on the first water guide pipe (3) and used for reinforcing the end part, a limiting component arranged on the support frame (11) and used for limiting the positions of the first water guide pipe (3) and the second water guide pipe (4), a mounting plate (12) vertically arranged on the base platform (1) and positioned on one side of the second water guide pipe (4) far away from the first water guide pipe (3), a buffering component arranged on the mounting plate (12) and used for buffering sewage impact force, Set up in receive water platform (13) that is close to mounting panel (12) department on base station (1), and set up in receive and be used for blockking the subassembly that blocks that sewage spill on water platform (13), second aqueduct (4) are located first aqueduct (3) below, delivery port (31) are located the bottom surface of first aqueduct (3), water inlet (41) are located same vertical face with delivery port (31), water inlet (41) are located the top surface of second aqueduct (4), uncovered (42) are located the tip that first aqueduct (3) were kept away from in second aqueduct (4).

2. The drain for a mixing station conveyor belt of claim 1, characterized in that: the reinforcing assembly comprises a reinforcing plate (32) arranged at the end part of one side, close to the second water guide pipe (4), of the first water guide pipe (3), and a fixing strip (321) arranged on the end part of the first water guide pipe (3) and pressing the reinforcing plate (32).

3. The drain for a mixing station conveyor belt of claim 1, characterized in that: spacing subassembly include horizontal installation in backup pad (14) on support frame (11), and vertical install in on backup pad (14) and respectively with first aqueduct (3) lateral wall, second aqueduct (4) lateral wall inconsistent limiting plate (141).

4. The drain for a mixing station conveyor belt of claim 1, characterized in that: the buffer assembly includes a rotation shaft (15) horizontally installed between the mounting plates (12), and a buffer plate (151) installed on the rotation shaft (15).

5. The drain for a mixing station conveyor belt of claim 1, characterized in that: the blocking assembly comprises a blocking plate (131) vertically installed on the edge of the water collecting platform (13).

6. The drainage device for a mixing station conveyor belt according to claim 4, characterized in that: buffer unit still including install in second aqueduct (4) keep away from mounting bracket (43) of first aqueduct (3) one side, rotate install in rotation handle (431) on mounting bracket (43), install in drive gear (432) on rotation handle (431), install in installation axis of rotation (15) wear out mounting panel (12) one side and with driven gear (152) that drive gear (432) meshed mutually, and set up in be used for locking the locking part in axis of rotation (15) position on mounting panel (12).

7. The drainage device for a mixing station conveyor belt according to claim 6, characterized in that: the locking component comprises a locking pin (121) movably inserted on the mounting plate (12), and a locking opening (153) matched with the locking pin (121) is annularly arranged on the inner part of the rotating shaft (15) positioned on the mounting plate (12).

8. The drainage device for a mixing station conveyor belt according to claim 6, characterized in that: and a rotary flower head (154) is arranged on one side of the rotary shaft (15) penetrating through the mounting plate (12).

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