CN221252944U - Conveying speed regulating mechanism for quartz stone plate - Google Patents

Abstract

The utility model relates to the technical field of stone material conveying, in particular to a conveying speed regulating mechanism for quartz stone slabs, which comprises a bearing base, wherein a bearing platform is integrally connected to the bearing base, a placing groove for receiving and placing the quartz stone slabs is formed in the bearing platform, a feeding pipeline vertically corresponding to the placing groove is fixedly arranged on the bearing platform, a driving motor and a driving rotating shaft driven to rotate by the driving motor are arranged on the bearing platform, and an adjusting driving mechanism which is in transmission connection with the driving rotating shaft and used for pushing the quartz stone slabs is arranged on the bearing platform. The utility model sets a traction turntable which is driven to rotate by a driving motor on a bearing platform; the feeding pipeline corresponding to the placing groove is arranged on the bearing platform, so that the feeding pushing plate can horizontally push a quartz stone plate in one-time expansion process, and meanwhile, the feeding pushing plate is supported by the limiting block and the traction connecting rod which are elastically supported by the powerful springs, so that the stability of pushing the quartz stone plate by the feeding pushing plate is ensured.

Description

Conveying speed regulating mechanism for quartz stone plate

Technical Field

The utility model relates to the technical field of stone material conveying, in particular to a conveying speed regulating mechanism for quartz stone slabs.

Background

The quartz stone consists of more than 90% of natural quartz, about 10% of pigment, resin and other additives for adjusting adhesion, solidification and the like. Is a plate processed by a production method of negative pressure vacuum and high-frequency vibration molding and heating curing (the temperature is determined according to the type of curing agent).

The quartz stone plate has certain volume and weight, and the edge is comparatively sharp, so adopt the conveyer belt to quartz stone under the prior art more, like the quartz stone plate production and processing of a publication number CN215477927U discloses with conveyor, it is provided with supporting mechanism, when using, operating personnel can drive electric telescopic handle according to actual conditions and go on lifting adjustment, thereby control the distance between bracing piece and the conveyer belt on the mounting panel, but it can only carry out the transmission of fixed speed to the quartz stone plate, and can't accomplish single transmission, especially be difficult to control single piece transmission speed, can only change driving equipment through, or adjust driving equipment's running power through the differential mechanism of joining in marriage in addition, there is the problem of consuming time.

Disclosure of utility model

The utility model aims to solve the problem that in the prior art, the speed of a conveyor is difficult to adjust, so that quartz stone plates are conveyed in a differential mode, and provides a quartz stone plate conveying speed adjusting mechanism.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The utility model provides a quartz stone plate's transport speed regulating mechanism, includes the bearing base, an organic whole is connected with the bearing platform on the bearing base, set up the standing groove that is used for accepting and place quartz stone plate in the bearing platform, and fixed mounting has the feeding pipeline of vertical corresponding standing groove on the bearing platform, be provided with driving motor on the bearing platform and by the rotatory drive pivot of driving motor drive, and be provided with on the bearing platform and be connected and be used for the adjustment actuating mechanism of propelling movement quartz stone plate with the drive pivot transmission.

Preferably, the driving motor is fixedly installed on the bearing platform, and the driving rotating shaft is rotatably installed in the bearing platform.

Preferably, the adjustment driving mechanism comprises a traction rotary table fixedly connected to the driving rotary shaft, a limiting frame is integrally connected to the bearing platform, a first guide long hole corresponding to the limiting frame is formed in the bearing platform, a driving cylinder is fixedly installed on the bearing platform, the output end of the driving cylinder is fixedly connected with a first guide block which is sleeved in the first guide long hole in a sliding mode, an opening and closing swing rod which is movably pulled by the traction rotary table is rotatably installed on the first guide block, a second guide long hole is formed in the bearing platform, a second guide block which is movably pulled by the opening and closing swing rod is sleeved in the second guide long hole in a sliding mode, a limiting through hole which is communicated with a placing groove is formed in the bearing platform, a feeding pushing plate which is fixedly connected with the second guide block and extends to the placing groove is sleeved in the limiting through hole in a sliding mode, and a supporting component which is used for supporting the feeding pushing plate is arranged in the placing groove.

Preferably, corresponding locking holes are formed in the limiting frame and the first guide block, and locking screws used for fixing in the limiting frame are arranged in the locking holes.

Preferably, the traction turntable is integrally connected with a driving bolt which is eccentrically arranged, a driving long hole which is sleeved with the driving bolt in a sliding way is formed in the middle section of the opening and closing swing rod, a driven long hole is formed in the upper section of the opening and closing swing rod, and a driven bolt which is sleeved in the driven long hole in a sliding way is integrally connected with the second guide block.

Preferably, the first guiding long hole is vertically opened, and the second guiding long hole is horizontally opened.

Preferably, the support component comprises a limit groove arranged in the placing groove, a strong spring and a limit block which are welded are arranged in the limit groove, and a traction connecting rod is connected between the limit block and the feeding push plate.

Preferably, the powerful spring is welded in one end of the limiting groove, the limiting block is sleeved in the limiting groove in a sliding mode, and two ends of the traction connecting rod are respectively connected with the feeding push plate and the limiting block through pin shafts.

Compared with the prior art, the utility model has the following advantages:

1. According to the utility model, the traction turntable driven to rotate by the driving motor is arranged on the bearing platform, the first guide block which is driven to lift by the driving cylinder is arranged on the bearing platform, and the opening and closing swing rod movably pulled by the traction turntable is arranged by the first guide block, so that the opening and closing swing rod can realize reciprocating swing with different frequencies at different height positions, and the feeding push plate on the second guide block is driven to push quartz stone plates positioned in the placing groove.

2. According to the utility model, the feeding pipeline corresponding to the placing groove is arranged on the bearing platform, so that the feeding pushing plate can horizontally push one quartz stone plate in one-time expansion process, and meanwhile, the feeding pushing plate is supported by the limiting block and the traction connecting rod which are elastically supported by the powerful springs, so that the stability of pushing the quartz stone plate by the feeding pushing plate is ensured.

Drawings

FIG. 1 is a schematic diagram of a conveying speed regulating mechanism for quartz stone plates according to the present utility model;

FIG. 2 is a rear view of a conveying speed regulating mechanism for quartz stone plates according to the present utility model;

Fig. 3 is a cross-sectional view of a conveying speed regulating mechanism for quartz stone plates according to the present utility model.

In the figure: 1. a bearing base; 2. a bearing platform; 3. a placement groove; 4. a feed pipe; 5. a driving motor; 6. driving the rotating shaft; 7. traction turntable; 701. a drive bolt; 8. a limiting frame; 9. a first guide long hole; 10. a driving cylinder; 11. a first guide block; 12. a locking hole; 13. opening and closing the swing rod; 1301. a driving slot; 1302. a driven long hole; 14. a second guide long hole; 15. a second guide block; 1501. a driven bolt; 16. limiting through holes; 17. a feeding push plate; 18. a limit groove; 19. a strong spring; 20. a limiting block; 21. and (5) a traction connecting rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-3, a conveying speed regulating mechanism for quartz stone slabs comprises a bearing base 1, wherein a bearing platform 2 is integrally connected to the bearing base 1, a placing groove 3 for receiving and placing quartz stone slabs is formed in the bearing platform 2, a feeding pipeline 4 vertically corresponding to the placing groove 3 is fixedly installed on the bearing platform 2, the quartz stone slabs in the feeding pipeline 4 vertically fall into the placing groove 3, and a feeding push plate 17 horizontally extending horizontally pushes one quartz stone slab each time.

The bearing platform 2 is provided with a driving motor 5 and a driving rotating shaft 6 driven to rotate by the driving motor 5, and the bearing platform 2 is provided with an adjusting driving mechanism which is in transmission connection with the driving rotating shaft 6 and is used for pushing quartz slabs, and the following is further described with reference to fig. 1 and fig. 2 of the specification: the adjusting driving mechanism comprises a traction rotary table 7 fixedly connected to a driving rotary shaft 6, a limiting frame 8 is integrally connected to a bearing platform 2, a first guide long hole 9 corresponding to the limiting frame 8 is formed in the bearing platform 2, a driving cylinder 10 is fixedly mounted on the bearing platform 2, the output end of the driving cylinder 10 is fixedly connected with a first guide block 11 which is sleeved in the first guide long hole 9 in a sliding manner, and it is worth noting that the traction rotary table 7 is used for carrying out traction driving on opening and closing swing rods 13 at different height positions by adjusting the height position of the first guide block 11, so that the opening and closing swing rods 13 are subjected to differential swing.

The first guide block 11 is rotatably provided with an opening and closing swing rod 13 movably pulled by the traction turntable 7, the bearing platform 2 is provided with a second guide long hole 14, the second guide long hole 14 is slidably sleeved with a second guide block 15 movably pulled by the opening and closing swing rod 13, the traction turntable 7 is integrally connected with a driving bolt 701 eccentrically arranged, the middle section of the opening and closing swing rod 13 is provided with a driving long hole 1301 slidably sleeved with the driving bolt 701, the upper section of the opening and closing swing rod 13 is provided with a driven long hole 1302, the second guide block 15 is integrally connected with a driven bolt 1501 slidably sleeved in the driven long hole 1302, the rotation motion of the driving rotating shaft 6 is converted into linear reciprocating motion of a feeding push plate 17 by the opening and closing swing rod 13, the bearing platform 2 is provided with a limiting through hole 16 communicated with the placing groove 3, the limiting through hole 16 is slidably sleeved with a feeding push plate 17 fixedly connected with the second guide block 15 and extending into the placing groove 3, and the feeding push plate 17 is of a T-shaped structure, and the feeding push plate 17 is used for extruding and pushing quartz stone plates in the horizontal telescopic process.

The driving motor 5 is fixedly arranged on the bearing platform 2, and the driving rotating shaft 6 is rotatably arranged in the bearing platform 2.

Referring to fig. 3 of the specification, a supporting component for supporting the feeding push plate 17 is disposed in the placement groove 3, the supporting component includes a limiting groove 18 disposed in the placement groove 3, a strong spring 19 and a limiting block 20 are disposed in the limiting groove 18, and a traction link 21 is connected between the limiting block 20 and the feeding push plate 17, so as to provide a support with a buffering function for the feeding push plate 17 that stretches horizontally.

Corresponding locking holes 12 are formed in the limiting frame 8 and the first guide block 11, and locking screws used for fixing in the limiting frame 8 are arranged in the locking holes 12 so as to adjust the height positions of the first guide block 11 and the opening and closing swing rod 13.

The first guide long hole 9 is vertically opened, and the second guide long hole 14 is horizontally opened.

The powerful spring 19 is welded in one end of the limiting groove 18, the limiting block 20 is sleeved in the limiting groove 18 in a sliding mode, and two ends of the traction connecting rod 21 are respectively connected with the feeding push plate 17 and the limiting block 20 through pin shafts, so that stable support is provided for the feeding push plate 17.

It should be noted that, the motor and the cylinder adopt specific model specifications to be determined by selecting the model according to the actual specifications of the device, and the specific model selection calculation method adopts the prior art in the field, so that the description is omitted.

The utility model can explain its functional principle by the following modes of operation:

The driving cylinder 10 is controlled to be opened on the limiting frame 8, the output end of the driving cylinder 10 drives the first guide block 11 to vertically lift to a specified height position in the first guide long hole 9, and the locking screw is screwed through the locking hole 12 so as to fix the position of the first guide block 11 on the limiting frame 8;

The driving motor 5 is controlled to be started, the output end of the driving motor 5 drives the traction turntable 7 to rotate through the driving rotating shaft 6, the traction turntable 7 drives the opening and closing swing rod 13 to swing left and right through the driving bolt 701, and the opening and closing swing rod 13 drives the second guide block 15 to move left and right through the driven bolt 1501, so that the feeding push plate 17 stretches and stretches horizontally in the placing groove 3 to push the quartz stone plate falling from the feeding pipeline 4 to the front end position;

The feeding push plate 17 pulls the limiting block 20 to slide in the limiting groove 18 through the traction connecting rod 21 in the reciprocating process, and the buffer support is realized by the strong spring 19.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides a quartz stone plate's transport speed regulating mechanism, includes bearing base (1), its characterized in that, an organic whole is connected with bearing platform (2) on bearing base (1), set up in bearing platform (2) and be used for accepting standing groove (3) of placing quartz stone plate, and fixed mounting has feeding tube (4) of vertical corresponding standing groove (3) on bearing platform (2), be provided with driving motor (5) on bearing platform (2) and by driving motor (5) drive rotatory drive pivot (6), and be provided with on bearing platform (2) with drive pivot (6) transmission be connected and be used for pushing quartz stone plate's adjustment actuating mechanism.

2. The quartz stone slab conveying speed regulating mechanism according to claim 1, wherein the driving motor (5) is fixedly arranged on the bearing platform (2), and the driving rotating shaft (6) is rotatably arranged in the bearing platform (2).

3. The quartz stone slab conveying speed regulating mechanism according to claim 1, wherein the regulating driving mechanism comprises a traction rotary table (7) fixedly connected to a driving rotary shaft (6), a limiting frame (8) is integrally connected to the bearing platform (2), a first guide long hole (9) corresponding to the limiting frame (8) is formed in the bearing platform (2), a driving cylinder (10) is fixedly installed on the bearing platform (2), the output end of the driving cylinder (10) is fixedly connected with a first guide block (11) which is sleeved in the first guide long hole (9) in a sliding manner, an opening and closing swing rod (13) which is movably pulled by the traction rotary table (7) is rotatably installed on the first guide block (11), a second guide long hole (14) is formed in the bearing platform (2), a second guide block (15) which is movably pulled by the opening and closing swing rod (13) is arranged in the bearing platform (2), a limiting through hole (16) which is communicated with a placing groove (3) is formed in the bearing platform (2), the first guide block (11) is fixedly connected with the second guide block (15) in the bearing platform (16), and the second guide block (15) is fixedly connected with the placing groove (17) in the supporting plate (17).

4. A quartz stone slab conveying speed regulating mechanism according to claim 3, characterized in that the limiting frame (8) and the first guide block (11) are provided with corresponding locking holes (12), and the locking holes (12) are provided with locking screws for fixing in the limiting frame (8).

5. The quartz stone slab conveying speed regulating mechanism according to claim 3, wherein the traction turntable (7) is integrally connected with a driving bolt (701) which is eccentrically arranged, a driving long hole (1301) which is sleeved with the driving bolt (701) in a sliding way is formed in the middle section position of the opening and closing swing rod (13), a driven long hole (1302) is formed in the upper section position of the opening and closing swing rod (13), and a driven bolt (1501) which is sleeved in the driven long hole (1302) in a sliding way is integrally connected with the second guide block (15).

6. A quartz stone slab conveying speed regulating mechanism according to claim 3, characterized in that the first guide slot (9) is vertically open and the second guide slot (14) is horizontally open.

7. A quartz stone slab conveying speed regulating mechanism according to claim 3, characterized in that the supporting component comprises a limit groove (18) arranged in the placing groove (3), a powerful spring (19) and a limit block (20) which are welded are arranged in the limit groove (18), and a traction connecting rod (21) is connected between the limit block (20) and the feeding push plate (17).

8. The quartz stone slab conveying speed regulating mechanism according to claim 7, wherein the strong spring (19) is welded in one end of the limiting groove (18), the limiting block (20) is sleeved in the limiting groove (18) in a sliding mode, and two ends of the traction connecting rod (21) are respectively connected with the feeding push plate (17) and the limiting block (20) through pin shafts.