CN219173449U

CN219173449U - Spindle discharging mechanism

Info

Publication number: CN219173449U
Application number: CN202320065113.4U
Authority: CN
Inventors: 宋双; 王磊; 蒋勤滔
Original assignee: Hubei Dongshou Technology Co ltd
Current assignee: Hubei Dongshou Technology Co ltd
Priority date: 2023-01-10
Filing date: 2023-01-10
Publication date: 2023-06-13
Anticipated expiration: 2033-01-10

Abstract

The utility model provides a spindle discharging mechanism which comprises two side plates fixedly arranged at the outlet of a vibrating plate and arranged along the discharging direction of the outlet of the vibrating plate, wherein the two side plates are vertically and parallelly arranged, the distance between the two side plates just allows one spindle to pass through, a conveying belt assembly for conveying the spindle is arranged between the two side plates, one end of the conveying belt assembly is close to the outlet of the vibrating plate and is not higher than the outlet of the vibrating plate, a first detection assembly which is positioned above the conveying belt assembly and is close to the outlet of the vibrating plate is arranged on the side plates, and the first detection assembly is used for detecting whether the spindle at the outlet of the vibrating plate arrives on the conveying belt assembly. The utility model can accelerate the spindle to leave the outlet of the vibration disc, and avoid the situation of clamping materials.

Description

Spindle discharging mechanism

Technical Field

The utility model relates to the technical field of vibrating disc discharging mechanisms, in particular to a spindle discharging mechanism.

Background

Adopt the vibration dish to realize the autoloading work of spindle, in order to transport other processing agency or equipment with the spindle of vibration dish exit, generally set up inclined slide in the exit of vibration dish, slide from the slide through the action of the gravity of spindle and leave the vibration dish, because the export of vibration dish is more narrow, and the whole strip shape of spindle, the position that is close to the vibration dish export at the slide appears the ejection of compact fast inadequately easily, leads to the phenomenon of card material.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model provides the spindle discharging mechanism which can accelerate spindles to leave the outlet of the vibration disc, so that the situation of clamping materials is avoided.

According to the embodiment of the utility model, the spindle discharging mechanism comprises two side plates fixedly arranged at the outlet of the vibrating plate and arranged along the discharging direction of the outlet of the vibrating plate, the two side plates are vertically and parallelly arranged, the space between the two side plates just allows one spindle to pass through, a conveying belt assembly for conveying the spindle is arranged between the two side plates, one end of the conveying belt assembly is close to the outlet of the vibrating plate and is not higher than the outlet of the vibrating plate, a first detection assembly which is positioned above the conveying belt assembly and is close to the outlet of the vibrating plate is arranged on the side plates, and the first detection assembly is used for detecting whether the spindle at the outlet of the vibrating plate arrives on the conveying belt assembly.

When the spindle is discharged from the vibration disc outlet, one end of the spindle moves onto the transmission belt assembly and is sensed by the first detection assembly when the spindle does not completely leave the vibration disc, the transmission belt assembly is started, the spindle is accelerated to leave the vibration disc outlet through friction force of the transmission belt to the spindle, the spindle is transported to the other end of the transmission belt assembly, and the situation that clamping occurs at the vibration disc outlet is avoided.

Preferably, a guide funnel is arranged below one end of the conveyor belt component, which is far away from the vibration disc, and the discharge end at the bottom of the guide funnel is vertically arranged and just allows one spindle to pass through.

Further preferably, one end of the transmission belt component far away from the vibration disc is provided with a material leakage component for discharging materials one by one, and a second detection component for detecting the spindle is arranged above one end of the transmission belt component far away from the material leakage component.

Further preferably, the material leakage component comprises a material leakage baffle perpendicular to the side plate and penetrating through one side of the side plate, a cylinder for driving the material leakage baffle is fixedly arranged on the outer side wall of the side plate on one penetrated side of the side plate, a limit baffle is arranged at one end, away from the transmission belt component, of the material leakage baffle, and the limit baffle is vertically arranged and fixedly connected with the side plate.

Further preferably, the side of the leakage baffle remote from the conveyor belt assembly is inclined downwardly.

Further preferably, the second detection component is a diffuse reflection photoelectric sensor arranged on the side plate.

Further preferably, the transmission belt assembly comprises a driving belt wheel and a driven belt wheel which are rotatably arranged between the two side plates, the driving belt wheel and the driven belt wheel are provided with a transmission belt, and the outer side wall of the side plate is fixedly provided with a stepping motor in transmission connection with the driving belt wheel.

Further preferably, a tensioning wheel for tensioning the transmission belt is further arranged between the driving pulley and the driven pulley.

Still further preferably, the first detecting component is a diffuse reflection photoelectric sensor provided on the side plate.

Compared with the prior art, the utility model has the following beneficial effects: the conveying belt assembly and the first detection assembly are arranged at the outlet of the vibration disc, whether the outlet of the vibration disc is provided with a discharging condition or not can be detected rapidly, and as the spindle is in a strip shape, when the spindle does not completely leave the outlet of the vibration disc, one end of the spindle reaches the conveying belt assembly and is sensed by the first detection assembly, so that the conveying belt assembly is started in time to accelerate the spindle to leave the vibration disc, and the condition of clamping the spindle at the outlet of the vibration disc is avoided.

Drawings

FIG. 1 is a schematic view of a spindle discharge mechanism according to the present utility model.

Fig. 2 is a schematic view of the internal structure between two side plates in the spindle discharging mechanism according to the present utility model.

Fig. 3 is a schematic diagram of a structure of a spindle discharging mechanism according to the present utility model in which a material leakage component is matched with a side plate.

In the above figures: 1. a side plate; 2. a conveyor belt assembly; 201. a driving pulley; 202. a driven pulley; 203. a conveyor belt; 204. a stepping motor; 3. a first detection assembly; 4. a guide funnel; 5. a material leakage component; 501. a material leakage baffle; 502. a cylinder; 503. a limit baffle; 6. a second detection assembly; 7. and (5) vibrating the disc.

Detailed Description

The technical scheme of the utility model is further described below with reference to the accompanying drawings and examples.

As shown in fig. 1, the spindle discharging mechanism comprises two side plates 1 fixedly arranged at the outlet of a vibrating disc 7 and arranged along the discharging direction of the outlet of the vibrating disc 7, wherein the two side plates 1 are vertically and parallelly arranged, one side plate 1 is fixedly connected with a frame of the vibrating disc 7, the two side plates 1 are fixedly connected through connecting columns at four corners, the space between the two side plates 1 just allows one spindle to pass through, a conveyor belt assembly 2 for conveying the spindle is arranged between the two side plates 1, one end of the conveyor belt assembly 2 is close to the outlet of the vibrating disc 7 and is not higher than the outlet of the vibrating disc 7, one end of the conveyor belt assembly 2 which is horizontally arranged or is slightly inclined downwards away from the outlet of the vibrating disc 7, a first detection assembly 3 which is positioned above the conveyor belt assembly 2 and is close to the outlet of the vibrating disc 7 is arranged on the side plates 1, and the first detection assembly 3 is used for detecting whether the spindle at the outlet of the vibrating disc 7 reaches the conveyor belt assembly 2;

when the spindle is discharged from the outlet of the vibration disc 7, and the spindle does not completely leave the outlet of the vibration disc 7, one end of the spindle moves to the top of one end of the transmission belt assembly 2, the first detection assembly 3 detects the spindle, the transmission belt assembly 2 is started, and the transmission belt assembly 2 can accelerate to transport the spindle away from the outlet of the vibration disc 7 under the action of friction force, so that the spindle is prevented from being blocked at the outlet of the vibration disc 7;

as shown in fig. 1, 2 and 3, as the spindle is in a strip shape, in order to ensure that the spindle vertically falls into a processing mechanism below, specifically, a guide funnel 4 is arranged below one end of the conveyor belt assembly 2 away from the vibration disc 7, and a discharge end at the bottom of the guide funnel 4 is vertically arranged and just allows one spindle to pass through;

as shown in fig. 3, one end of the conveyor belt assembly 2 away from the vibration disc 7 is provided with a material leakage assembly 5 for discharging materials one by one, a second detection assembly 6 for detecting the spindle is arranged above one end of the material leakage assembly 5 away from the conveyor belt assembly 2, the spindle is transported to the material leakage assembly 5 by the conveyor belt assembly 2, and after the spindle is detected by the second detection assembly 6, the material leakage assembly 5 drops the spindle, and the spindle falls into the material guiding funnel 4;

specifically, the leakage assembly 5 includes a leakage baffle 501 perpendicular to the side plates 1 and penetrating one side of the side plates 1, a cylinder 502 driving the leakage baffle 501 is fixedly arranged on the outer side wall of the penetrated side of the side plate 1, a telescopic arm of the cylinder 502 is fixedly connected with the leakage baffle 501, the leakage baffle 501 can be driven to move to the outside of the two side plates 1 or enter between the two side plates 1, one end of the leakage baffle 501 far away from the conveyor belt assembly 2 is provided with a limit baffle 503, the limit baffle 503 is vertically arranged and fixedly connected with the side plates 1, and after a spindle moves onto the leakage baffle 501, the spindle is blocked to stop moving;

in the initial state, the material leakage baffle 501 is positioned between the two side plates 1, after the conveying belt assembly 2 conveys the spindle onto the material leakage baffle 501, the tail end of the spindle is detected by the second detection assembly 6, the cylinder 502 is started to drive the material leakage baffle 501 to move to the outside of the two side plates 1 perpendicular to the side plates 1, the spindle falls into the material guide funnel 4, and after the second detection assembly 6 fails to detect the spindle, the cylinder 502 drives the material leakage baffle 501 to reset;

specifically, the side of the material leakage baffle 501 away from the conveyor belt assembly 2 is inclined downwards, so that the spindle can fall down in an inclined manner, can enter the material guiding funnel 4 more easily, and is more easily in a vertical state;

specifically, the second detecting component 6 is a diffuse reflection photoelectric sensor disposed on the side plate 1, the transmitting and receiving ends of the diffuse reflection photoelectric sensor are disposed on one side plate 1, the reflecting end is disposed on the other side plate 1, the diffuse reflection photoelectric sensor is connected to a controller, and the controller is connected to the cylinder 502;

specifically, the transmission belt assembly 2 includes a driving pulley 201 and a driven pulley 202 rotatably disposed between the two side plates 1, the driving pulley 201 and the driven pulley 202 are provided with a transmission belt 203, and the outer side wall of the side plate 1 is fixedly provided with a stepper motor 204 in transmission connection with the driving pulley 201;

specifically, a tensioning wheel 205 for tensioning the transmission belt 203 is further arranged between the driving belt pulley 201 and the driven belt pulley 202, and is used for feeding the transmission belt 203, so that the transmission belt 203 is prevented from slipping to affect spindle conveying work;

specifically, the first detecting component 3 is a diffuse reflection photoelectric sensor disposed on the side plate 1, the transmitting and receiving ends of the diffuse reflection photoelectric sensor are disposed on one side plate 1, the reflecting end is disposed on the other side plate 1, the diffuse reflection photoelectric sensor is connected to a controller, and the controller is connected to the stepper motor 204.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims

1. The utility model provides a spindle discharge mechanism which characterized in that: including fixed setting in vibration dish exit and along two curb plates (1) that vibration dish exit ejection of compact direction set up, two curb plate (1) are vertical and parallel arrangement, two interval between curb plate (1) just allows a spindle to pass through, two be equipped with between curb plate (1) be used for carrying spindle transmission band subassembly (2), the one end of transmission band subassembly (2) is close to vibration dish export and highly be not higher than vibration dish export, be equipped with on curb plate (1) and be located transmission band subassembly (2) top and be close to vibration dish export first detection subassembly (3), first detection subassembly (3) are used for detecting whether the spindle of vibration dish export arrives on transmission band subassembly (2).

2. The spindle feed mechanism of claim 1 wherein: the one end below that vibration dish was kept away from to conveyer belt subassembly (2) is equipped with guide funnel (4), the vertical setting of discharge end of guide funnel (4) bottom just allows a spindle to pass through.

3. A spindle feed mechanism as set forth in claim 2 wherein: one end that vibration dish was kept away from to conveyer belt subassembly (2) is equipped with and is used for leaking material subassembly (5) of blowing one by one, leak material subassembly (5) and keep away from one end top of conveyer belt subassembly (2) is equipped with second detection component (6) that are used for detecting the spindle.

4. A spindle feed mechanism according to claim 3, wherein: the utility model discloses a conveyer belt subassembly (2) is equipped with conveyer belt subassembly (2), conveyer belt subassembly (2) is equipped with conveyer belt subassembly (2) and is equipped with conveyer belt subassembly (503), conveyer belt subassembly (2) is equipped with conveyer belt subassembly (2) and is equipped with on the lateral wall, conveyer belt subassembly (2) is equipped with on the lateral wall of curb plate (1), conveyer belt subassembly (2) are equipped with on the lateral wall of curb plate (1) and are equipped with the cylinder (502) of conveyer belt subassembly (2) including perpendicular to curb plate (1) and run through one side the conveyer belt subassembly (2), the vertical setting of limit baffle (503) and with curb plate (1) fixed connection.

5. The spindle feed mechanism of claim 4 wherein: the side of the leakage baffle (501) remote from the conveyor belt assembly (2) is inclined downwards.

6. A spindle feed mechanism according to claim 3, wherein: the second detection component (6) is a diffuse reflection photoelectric sensor arranged on the side plate (1).

7. A spindle feed mechanism according to any one of claims 1 to 6, wherein: the transmission belt assembly (2) comprises a driving belt wheel (201) and a driven belt wheel (202) which are rotatably arranged between two side plates (1), the driving belt wheel (201) and the driven belt wheel (202) are provided with a transmission belt (203), and the outer side wall of the side plate (1) is fixedly provided with a stepping motor (204) which is in transmission connection with the driving belt wheel (201).

8. The spindle feed mechanism of claim 7 wherein: a tensioning wheel (205) for tensioning the transmission belt (203) is further arranged between the driving belt wheel (201) and the driven belt wheel (202).

9. The spindle feed mechanism of claim 7 wherein: the first detection component (3) is a diffuse reflection photoelectric sensor arranged on the side plate (1).