CN220563665U - Good unloading mechanism of stability - Google Patents

Abstract

The utility model provides a blanking mechanism with good stability, which comprises a blanking plate, wherein the blanking plate is inclined, the bottom end of the blanking plate is transversely connected with a conveying mechanism, support rods are arranged at the bottom ends of the blanking plate and the conveying mechanism, a guide plate is arranged at the joint between the blanking plate and the conveying mechanism, and a whole row of components are arranged in the conveying mechanism; when the blanking mechanism is used, the product descends along the inclined slope of the blanking plate, then contacts the guide plate to conduct buffering and guide, the guide plate plays a role of buffering the product and guiding the product, the product enters the conveying mechanism to be conveyed, then the product is located in the conveying mechanism to conduct linear movement through the use of the whole row of components, the situation that the side wall of the conveying mechanism is gradually close to the side wall of the conveying mechanism to collide when the product moves on the conveying mechanism is avoided, and therefore the stability of using and conveying of the blanking mechanism is improved.

Description

Good unloading mechanism of stability

Technical Field

The utility model belongs to the technical field of blanking mechanisms, and particularly relates to a blanking mechanism with good stability.

Background

The blanking mechanism is an important component in the industrial production process, is used for blanking or cutting manufactured products from a production line, and is used for realizing automatic processing relative to manual blanking or cutting, so that the production efficiency is improved, human errors are effectively avoided, the structure of the conventional product blanking mechanism is complex, excessive components are required to be matched with each other to realize the blanking of the products, the manufacturing cost is high, meanwhile, the products cannot be stably blanked during blanking, and the products are caused to collide with the blanking mechanism and stop on the side wall of the blanking mechanism.

In summary, the present utility model provides a discharging mechanism with good stability to solve the above problems.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a blanking mechanism with good stability, which solves the problems that in the prior art, the structure of the existing product blanking mechanism is complex, excessive components are needed to be matched with each other to realize the blanking of products, the manufacturing cost is high, and meanwhile, the product cannot be stably blanked during blanking, so that the product collides with the blanking mechanism and stops on the side wall of the blanking mechanism.

The utility model provides a good unloading mechanism of stability, includes the flitch, the flitch is the slope form just the bottom transverse connection of flitch slope form has conveying mechanism, the bracing piece is installed to the bottom of flitch and conveying mechanism, the guide plate is installed to junction between flitch and the conveying mechanism, conveying mechanism's inside is provided with whole subassembly of lining up, conveying mechanism includes frame, running roller, driving motor, gear and conveyer belt, frame connection in the bottom of flitch slope form and the frame is the concave shape, the running roller is provided with a set of and is equidistant inside of installing the frame, driving motor installs the outer wall at the frame, the gear sets up the inside at the frame, the surface at the gear is connected to the conveyer belt.

Preferably, two ends of the roller are arranged in the frame through bearings, and the other end of the roller is fixedly arranged in an inner ring of a gear in the frame.

Preferably, an output shaft of the driving motor is connected with one end of a roller through a coupler, and the roller is in rotary connection with the frame through the driving motor.

Preferably, the gear is meshed with the tooth space of the conveyor belt, and the roller forms gear linkage with the conveyor belt through the gear.

Preferably, the guide plate is arranged between the blanking plate and the conveying mechanism in an arc shape, and is made of metal.

Preferably, the whole subassembly of lining up includes electric pole, connecting block, vertical pole and diaphragm, the outer wall at the frame is installed to the electric pole, the connecting block sets up in the inside of frame and is located the bottom of running roller, the top at the connecting block is installed perpendicularly to the vertical pole, the diaphragm is installed on the surface of vertical pole and the bottom of diaphragm is higher than the top of running roller.

Preferably, the telescopic end of the electric rod is connected with the outer side wall of the connecting block, the connecting block is in linear reciprocating telescopic connection with the frame through the electric rod, two electric rods are arranged, and the telescopic length of the two electric rods is matched with the length of the inside of the notch of the frame.

Compared with the prior art, the utility model has the following beneficial effects:

when the blanking mechanism is used, the product descends along the inclined slope of the blanking plate, then contacts the guide plate to conduct buffering and guide, the guide plate plays a role of buffering the product and guiding the product, the product enters the conveying mechanism to be conveyed, then the product is located in the conveying mechanism to conduct linear movement through the use of the whole row of components, the situation that the side wall of the conveying mechanism is gradually close to the side wall of the conveying mechanism to collide when the product moves on the conveying mechanism is avoided, and therefore the stability of using and conveying of the blanking mechanism is improved.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present utility model;

FIG. 2 is a schematic view of a front cross-sectional structure of the main body of the present utility model;

FIG. 3 is a schematic top view of the body of the present utility model;

fig. 4 is a schematic view of a left-hand cross-sectional structure of the main body of the present utility model.

In the figure: 1. a blanking plate; 2. a conveying mechanism; 201. a frame; 202. a roller; 203. a driving motor; 204. a gear; 205. a conveyor belt; 3. a support rod; 4. a deflector; 5. an electric lever; 6. a connecting block; 7. a vertical rod; 8. and a transverse plate.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1-4, the utility model provides a blanking mechanism with good stability, which comprises a blanking plate 1, wherein the blanking plate 1 is inclined, the bottom end of the inclined blanking plate 1 is transversely connected with a conveying mechanism 2, supporting rods 3 are arranged at the bottom ends of the blanking plate 1 and the conveying mechanism 2, a guide plate 4 is arranged at the joint between the blanking plate 1 and the conveying mechanism 2, an array assembly is arranged in the conveying mechanism 2, the conveying mechanism 2 comprises a frame 201, a roller 202, a driving motor 203, a gear 204 and a conveyor belt 205, the frame 201 is connected at the bottom end of the inclined blanking plate 1 and is concave, the roller 202 is provided with a group of inner parts which are uniformly arranged with the frame 201, the driving motor 203 is arranged on the outer wall of the frame 201, the gear 204 is arranged in the inner part of the frame 201, and the conveyor belt 205 is connected on the surface of the gear 204.

Referring to fig. 1-4, two ends of a roller 202 are mounted in a frame 201 through bearings, the other end of the roller 202 is fixedly mounted in an inner ring of a gear 204 in the frame 201, and the two ends of the roller 202 are mounted in the frame 201 through bearings, so that when one end of the roller 202 rotates through the gear 204, the roller 202 stably rotates in the frame 201 through the bearings, and further, the situation that the roller 202 and the frame 201 are clamped cannot occur.

Referring to fig. 1-4, an output shaft of a driving motor 203 is connected with one end of a roller 202 through a coupling, the roller 202 is rotatably connected with a frame 201 through the driving motor 203, and the roller 202 is rotatably connected with the frame 201 through the roller 202 and the driving motor 203, so that the driving motor 203 can conveniently drive the roller 202 to rotate in the frame 201.

Referring to fig. 1-4, the teeth of the gear 204 and the belt 205 are engaged with each other, the roller 202 is coupled to the belt 205 through the gear 204, and the roller 202 is coupled to the belt 205 through the gear 204, so that the gear 204 can complete the synchronous rotation of a set of rollers 202 mounted inside the frame 201 through the operation of the driving motor 203.

Referring to fig. 1-4, the guide plate 4 is arranged between the blanking plate 1 and the conveying mechanism 2 in an arc shape, and the guide plate 4 is made of metal, so that the guide plate 4 can buffer products and guide the products at the same time through the use of the guide plate 4.

Referring to fig. 1-4, the alignment assembly comprises an electric rod 5, a connecting block 6, a vertical rod 7 and a transverse plate 8, wherein the electric rod 5 is installed on the outer wall of the frame 201, the connecting block 6 is arranged in the frame 201 and located at the bottom end of the roller 202, the vertical rod 7 is vertically installed at the top end of the connecting block 6, the transverse plate 8 is installed on the surface of the vertical rod 7, the bottom end of the transverse plate 8 is higher than the top end of the roller 202, and the stable conveying performance of products is provided by the alignment assembly when the blanking mechanism works through the use of the alignment assembly.

Referring to fig. 1-4, the telescopic end of the electric rod 5 is connected with the outer side wall of the connecting block 6, the connecting block 6 forms a linear reciprocating telescopic connection with the frame 201 through the electric rod 5, the electric rod 5 is provided with two telescopic lengths of the two electric rods 5 and the length phase adaptation inside the notch of the frame 201, the electric rod 5 can not collide with the two connecting blocks 6 through the telescopic lengths of the electric rod 5 and the length phase adaptation inside the notch of the frame 201, and meanwhile, the telescopic lengths of the electric rod 5 can be applicable to different products for alignment, so that conveying stability is improved.

The specific working principle is as follows: as shown in fig. 1-4, when the stable blanking mechanism is used, firstly, when the product is blanked through the blanking mechanism, the product slides along the surface of the inclined blanking plate 1, then the product is buffered and guided by the guide plate 4 when approaching to the conveying mechanism 2, the condition that the blanking speed of the product is too fast is avoided, meanwhile, the guide plate 4 can guide the product to the conveying mechanism 2, then the driving motor 203 of the conveying mechanism 2 is started by the power supply, the driving motor 203 is enabled to work to drive the gear 204 to rotate, the gear 204 further drives the roller 202 to rotate, meanwhile, the gear 204 enables the conveying belt 205 to rotate, when the conveying belt 205 rotates, the group of rollers 202 which are internally mounted in the frame 201 are driven to synchronously rotate, so that the product is conveyed along the surface of the roller 202, then when passing through the arranging component, the electric rod 5 of the arranging component is enabled to work through the power supply, the telescopic extension of the electric rod 5 drives the connecting block 6 to advance, then the connecting block 6 drives the vertical rod 7 to move forward, and then the vertical rod 7 drives the transverse rod (8) to contact the product to contact the conveying mechanism 2, and then the product is enabled to move closer to the conveying mechanism 2 when the product moves to the conveying mechanism 2, and the product is enabled to move closer to the conveying mechanism 2, and the stable conveying mechanism is prevented from being collided with the conveying mechanism 2.

The embodiments of the present utility model have been shown and described for the purpose of illustration and description, it being understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives and variations may be made therein by one of ordinary skill in the art without departing from the scope of the utility model.

Claims (7)

1. Good unloading mechanism of stability, including flitch (1), its characterized in that: the blanking plate (1) is inclined, the bottom end of the blanking plate (1) is transversely connected with the conveying mechanism (2), the supporting rods (3) are arranged at the bottom ends of the blanking plate (1) and the conveying mechanism (2), the guide plates (4) are arranged at the connecting positions of the blanking plate (1) and the conveying mechanism (2), and an array assembly is arranged inside the conveying mechanism (2);

conveying mechanism (2) are including frame (201), running roller (202), driving motor (203), gear (204) and conveyer belt (205), frame (201) connect in the bottom of flitch (1) slope form and frame (201) are the concave shape, running roller (202) are provided with a set of and are equidistant inside of installing frame (201), driving motor (203) are installed at the outer wall of frame (201), gear (204) set up the inside at frame (201), conveyer belt (205) are connected at the surface of gear (204).

2. A good stability blanking mechanism as claimed in claim 1, wherein: two ends of the roller (202) are arranged in the frame (201) through bearings, and the other end of the roller (202) is fixedly arranged in an inner ring of an inner gear (204) of the frame (201).

3. A good stability blanking mechanism as claimed in claim 1, wherein: an output shaft of the driving motor (203) is connected with one end of a roller (202) through a coupler, and the roller (202) is in rotary connection with the frame (201) through the driving motor (203).

4. A good stability blanking mechanism as claimed in claim 1, wherein: the gear (204) is meshed with the tooth space of the conveyor belt (205), and the roller (202) is in gear linkage with the conveyor belt (205) through the gear (204).

5. A good stability blanking mechanism as claimed in claim 1, wherein: the guide plate (4) is arranged between the blanking plate (1) and the conveying mechanism (2) in an arc shape, and the guide plate (4) is made of metal.

6. A good stability blanking mechanism as claimed in claim 1, wherein: the utility model provides a whole row subassembly includes electric pole (5), connecting block (6), perpendicular pole (7) and diaphragm (8), the outer wall at frame (201) is installed to electric pole (5), connecting block (6) set up in the inside of frame (201) and are located the bottom of running roller (202), perpendicular pole (7) are installed perpendicularly on the top of connecting block (6), diaphragm (8) are installed on the surface of perpendicular pole (7) and the bottom of diaphragm (8) is higher than the top of running roller (202).

7. The good-stability blanking mechanism of claim 6, wherein: the telescopic end of the electric rod (5) is connected with the outer side wall of the connecting block (6), the connecting block (6) is in linear reciprocating telescopic connection with the frame (201) through the electric rod (5), two electric rods (5) are arranged, and the telescopic length of the electric rod (5) is matched with the length of the notch inside the frame (201).