CN221582018U - Automatic feeding forming machine for processing balancing weight - Google Patents

Abstract

The utility model relates to the technical field of counterweight processing, and provides an automatic feeding forming machine for counterweight processing, which comprises a bottom plate, wherein a vertical plate is fixed at the upper end of the bottom plate, a forming seat is arranged at the upper end of the vertical plate, a forming groove is arranged on one side of the forming seat, a demoulding assembly is connected in the forming groove, a quantitative feeding mechanism is arranged on one side of the forming seat, a pushing assembly is arranged on the other side of the forming seat, and a discharging assembly is arranged on the side wall of the forming seat. Through above-mentioned technical scheme, the auxiliary device material loading in-process that has solved balancing weight pouring among the prior art can't guarantee that the volume of material loading at every turn is the same, leads to the weight deviation of every finished product balancing weight great, is unfavorable for the use in later stage and need the manual work to take down the balancing weight in the unloading process, and manual work is unloaded not only intensity of labour is high, and very slowly causes balancing weight production efficiency low, can't satisfy the problem of production demand.

Description

Automatic feeding forming machine for processing balancing weight

Technical Field

The utility model relates to the technical field of counterweight processing, in particular to an automatic feeding forming machine for counterweight processing.

Background

The counterweight is usually formed by casting, and is a weight for increasing its own weight to maintain the counterweight because of rough surfaces of the ingot mold cavity, improper control of casting process and mold release agent, etc., which often causes sticking of the ingot during mold release, resulting in difficulty in mold release of the ingot. Existing balances are generally divided into all-metal and reinforced cement mixtures.

The prior art can refer to the Chinese patent with the publication number of CN203957063U, which discloses an auxiliary device for pouring a balancing weight, comprising a base and a vibration platform, wherein a vibration motor and a guide post are respectively arranged on the lower end face of the vibration platform, the guide post is inserted on the base, a pressure spring is inserted in the guide post, two ends of the pressure spring are respectively pressed against the base and the vibration platform, two sides of the vibration platform are fixedly welded with vertical supporting plates, positioning posts are fixedly welded on the supporting plates, the supporting plates at two sides of the positioning posts 8 are respectively welded with large baffles, a bottom plate is welded on the supporting plate at the lower side of the positioning posts, upright rods are respectively welded on two side walls at the upper end of the supporting plate, connecting rods are hinged at the upper ends of the upright rods, and compression rods are fixedly connected at two ends of the connecting rods; one end fixedly connected with spring of connecting rod, the other end of spring is fixed in the pole setting, but this auxiliary device that balancing weight was pour still has certain defect when using:

Firstly, the same feeding quantity cannot be ensured in the feeding process, so that the weight deviation of each finished balancing weight is large, and the later use is not facilitated;

Secondly, the balancing weight needs to be manually taken down in the unloading process, the labor intensity is high, the manual unloading is very slow, the production efficiency of the balancing weight is low, and the production requirement cannot be met.

Thus, an automatically feedable forming machine for balancing weights is now provided.

Disclosure of utility model

The utility model provides an automatic feeding forming machine for processing balancing weights, which solves the problems that in the prior art, the feeding quantity of an auxiliary device for pouring the balancing weights cannot be guaranteed to be the same each time, so that the weight deviation of each finished balancing weight is large, the balancing weights are not favorable for later use and manual removal in the discharging process, the labor intensity of manual discharging is high, the production efficiency of the balancing weights is low, and the production requirements cannot be met.

The technical scheme of the utility model is as follows:

The utility model provides a make-up machine for balanced heavy processing's autoloading, includes the bottom plate, but the upper end of bottom plate is fixed with the riser, and the shaping seat is installed to the upper end of riser, one side of shaping seat is provided with the shaping groove, is connected with the drawing of patterns subassembly in the shaping groove, quantitative feed mechanism is installed to one side that the upper end of shaping seat is located the shaping groove, pushing components is installed to the opposite side that the upper end of shaping seat is located the shaping groove, the subassembly of unloading is installed to the lateral wall of shaping seat.

Through foretell scheme, the volume that can realize the concrete that gets at every turn through quantitative feed mechanism is the same, and the great degree has reduced the weight gap between the balanced heavy of every finished product, and the later stage of being convenient for uses, and through the cooperation of drawing of patterns subassembly, pushing components and the subassembly of unloading that sets up use, realize automatic discharge, safe high-efficient, labour saving and time saving has improved the production efficiency of balanced heavy greatly, satisfies the production demand.

Preferably, the demoulding assembly comprises a first hydraulic push rod fixed at the upper end of the bottom plate, the upper end of the first hydraulic push rod is connected with a supporting plate, and the side wall of the supporting plate is in sliding connection with the inner wall of the forming groove.

Through above-mentioned scheme, upwards promote the layer board through first hydraulic push rod, utilize the layer board to push the balanced heavy that solidifies in the shaping groove to the top of shaping seat promptly.

Preferably, a vibration motor is fixed at the lower end of the supporting plate.

Through the scheme, after the concrete enters the forming groove, the vibration motor is started to drive the supporting plate to vibrate, so that air bubbles in the concrete can be eliminated.

Preferably, the quantitative feeding mechanism comprises a storage box fixed at the upper end of the forming seat, a material taking plate is slidably inserted at the bottom end of the storage box, a material taking hole is formed in one side, close to the forming groove, of the material taking plate, and a second hydraulic push rod is connected to the side wall of the material taking plate.

Through the scheme, the material taking plate is pulled to move through the second hydraulic push rod, the material taking hole enters the inside of the material storage box, concrete in the material storage box enters the material taking hole and fills the material taking hole, the material taking plate is pushed to move towards the direction of the forming groove by the second hydraulic push rod, the material taking hole moves out of the material storage box with the concrete, after the material taking hole reaches the upper part of the forming groove, the concrete in the material taking hole falls into the forming groove, meanwhile, the solid part of the material taking plate seals the bottom of the material storage box, after the concrete in the material taking hole completely falls into the forming groove, the material taking plate is pulled by the second hydraulic push rod to reset, the next material taking is carried out by the material taking hole, so that the obtained concrete is the same in quantity each time, the weight difference between balance weights of each finished product is reduced to a greater extent, and later use is facilitated.

Preferably, a tight fit is formed between the storage bin and the take-out plate.

By the scheme, concrete in the storage box is prevented from leaking in the material taking process.

Preferably, the pushing assembly comprises a third hydraulic push rod fixed at the upper end of the forming seat, and one end, close to the forming groove, of the third hydraulic push rod is connected with a pushing rod.

Through the scheme, after the solidified balancing weight is pushed out of the forming groove, the third hydraulic push rod pushes the pushing rod, and the balancing weight can be pushed away from the forming groove by the pushing rod.

Preferably, the discharging assembly comprises a material guiding inclined plate fixed on the side wall of the forming seat, and a baffle is fixed at the bottom end of the material guiding inclined plate.

Through foretell scheme, push away the balanced heavy material swash plate that will lead through the ejector pin, balanced heavy can be along leading the material swash plate and lift off, realize automatic discharge, then can carry out the pouring of next balanced heavy, improved production efficiency.

Preferably, damping buffers are fixed at four corners of one side of the baffle plate facing the forming seat, and one end of each of the four damping buffers is connected with a buffer plate

Through foretell scheme, balanced heavy and buffer plate contact when falling to the bottom along the guide swash plate, utilize the damping buffer to cushion impact force to avoid balanced impaired, safe high-efficient.

The working principle and the beneficial effects of the utility model are as follows:

1. The second hydraulic push rod pulls the material taking plate to move, so that the material taking hole enters the material storage box, concrete in the material storage box enters the material taking hole and fills the material taking hole, the material taking hole is pushed by the second hydraulic push rod to move towards the direction of the forming groove, concrete is moved out of the material storage box along with the material taking hole, the material taking hole reaches the upper part of the forming groove, the concrete in the material taking hole falls into the forming groove, meanwhile, the solid part of the material taking plate seals the bottom of the material storage box, the concrete in the material taking hole completely falls into the forming groove, the second hydraulic push rod pulls the material taking plate to reset, the material taking hole is utilized to take materials for the next time, so that the obtained concrete quantity is the same each time, the weight difference between each finished balance weight is reduced to a large extent, and the later use is facilitated.

2. The supporting plate is pushed upwards through the first hydraulic push rod, namely, the supporting plate is utilized to push the balancing weight to the top end of the forming seat, the third hydraulic push rod is utilized to push the pushing rod, the balancing weight can be pushed away from the forming groove by utilizing the pushing rod, the balancing weight can be detached along the guiding inclined plate, the balancing weight is contacted with the buffer plate when falling to the bottom end along the guiding inclined plate, and the impact force can be buffered by utilizing the damping buffer, so that the balancing weight is prevented from being damaged, automatic discharging is realized, and the device is safe, efficient, time-saving and labor-saving.

In conclusion, the quantitative feeding mechanism can achieve the same quantity of concrete obtained each time, the weight difference between each finished counterweight is reduced to a large extent, the post-use is facilitated, the automatic discharging is achieved through the matched use of the demolding assembly, the pushing assembly and the discharging assembly, the safety and the high efficiency are achieved, the time and the labor are saved, the production efficiency of the counterweights is greatly improved, and the production requirements are met.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

Fig. 1 is a schematic perspective view of a first view of an automatic feeding molding machine for processing balancing weights according to the present utility model.

Fig. 2 is a schematic view of a second perspective view of an automatic feeding molding machine for processing balancing weights according to the present utility model.

Fig. 3 is a schematic perspective view of a third view of an automatic feeding molding machine for processing balancing weights according to the present utility model.

Fig. 4 is an enlarged schematic view of the structure of a forming machine capable of automatically feeding materials for processing balancing weights in fig. 1.

In the figure: 1. a bottom plate; 2. a riser; 3. forming a seat; 4. a second hydraulic pushrod; 5. a storage bin; 6. a material taking plate; 7. a material taking hole; 8. a third hydraulic pushrod; 9. a pushing rod; 10. a forming groove; 11. a first hydraulic pushrod; 12. a material guiding sloping plate; 13. a baffle; 14. a buffer plate; 15. a supporting plate; 16. a vibration motor; 17. damping buffer.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

1, Referring to fig. 1-4, an automatic feeding forming machine for processing a balancing weight comprises a bottom plate 1, wherein a vertical plate 2 is fixed at the upper end of the bottom plate 1, a forming seat 3 is arranged at the upper end of the vertical plate 2, a forming groove 10 is arranged on one side of the forming seat 3, a demoulding assembly is connected in the forming groove 10, the demoulding assembly comprises a first hydraulic push rod 11 fixed at the upper end of the bottom plate 1, a supporting plate 15 is connected at the upper end of the first hydraulic push rod 11, and the side wall of the supporting plate 15 is in sliding connection with the inner wall of the forming groove 10;

The supporting plate 15 is pushed upwards by the first hydraulic push rod 11, namely, the counterweight solidified in the forming groove 10 is pushed to the top end of the forming seat 3 by the supporting plate 15;

The lower end of the supporting plate 15 is fixedly provided with a vibrating motor 16, and after the concrete enters the forming groove 10, the vibrating motor 16 is started to drive the supporting plate 15 to vibrate, so that bubbles in the concrete can be eliminated;

The upper end of the forming seat 3 is provided with a quantitative feeding mechanism at one side of the forming groove 10, the quantitative feeding mechanism comprises a storage box 5 fixed at the upper end of the forming seat 3, the bottom end of the storage box 5 is in sliding connection with a material taking plate 6, one side of the material taking plate 6, which is close to the forming groove 10, is provided with a material taking hole 7, and the side wall of the material taking plate 6 is connected with a second hydraulic push rod 4;

The second hydraulic push rod 4 is used for pulling the material taking plate 6 to move, so that the material taking hole 7 enters the material storage box 5, concrete in the material storage box 5 enters the material taking hole 7 and fills the material taking hole 7, the material taking plate 6 is pushed by the second hydraulic push rod 4 to move towards the forming groove 10, the material taking hole 7 moves out of the material storage box 5 with the concrete, after the material taking hole 7 reaches the upper part of the forming groove 10, the concrete in the material taking hole 7 falls into the forming groove 10, meanwhile, the bottom of the material storage box 5 is sealed by the solid part of the material taking plate 6, after the concrete in the material taking hole 7 falls into the forming groove 10 completely, the material taking plate 6 is pulled by the second hydraulic push rod 4 to reset, and the material taking hole 7 is utilized for next material taking, so that the obtained concrete is the same in amount each time, the weight difference between each finished balance weight is reduced to a large extent, and the later use is convenient.

The storage box 5 is tightly matched with the material taking plate 6, so that concrete in the storage box 5 is prevented from leaking in the material taking process;

The upper end of the forming seat 3 is provided with a pushing component on the other side of the forming groove 10, the pushing component comprises a third hydraulic push rod 8 fixed on the upper end of the forming seat 3, and one end, close to the forming groove 10, of the third hydraulic push rod 8 is connected with a pushing rod 9;

after the solidified balancing weight is pushed out of the forming groove 10, the third hydraulic push rod 8 pushes the pushing rod 9, and the balancing weight can be pushed away from the forming groove 10 by the pushing rod 9;

The side wall of the forming seat 3 is provided with a discharging assembly, the discharging assembly comprises a material guiding inclined plate 12 fixed on the side wall of the forming seat 3, and a baffle 13 is fixed at the bottom end of the material guiding inclined plate 12;

The counterweight is pushed to the guide inclined plate 12 through the pushing rod 9, and can be dismounted along the guide inclined plate 12 to realize automatic discharging, and then the pouring of the next counterweight can be performed, so that the production efficiency is improved;

Damping buffers 17 are fixed at four corners of one side of the baffle 13 facing the forming seat 3, and one end of each damping buffer 17 is connected with a buffer plate 14;

The balancing weight contacts with the buffer plate 14 when falling to the bottom along the material guiding inclined plate 12, and the impact force can be buffered by utilizing the damping buffer 17, so that the balancing weight is prevented from being damaged, and the safety and the efficiency are high.

Working principle: the material taking plate 6 is pulled to move through the second hydraulic push rod 4, the material taking hole 7 enters the material storage box 5, the concrete in the material storage box 5 enters the material taking hole 7, the material taking hole 7 is filled, the material taking plate 6 is pushed to move towards the forming groove 10 by the second hydraulic push rod 4, the material taking hole 7 moves out of the material storage box 5 along with the concrete, after the material taking hole 7 reaches the upper part of the forming groove 10, the concrete in the material taking hole 7 falls into the forming groove 10, meanwhile, the solid part of the material taking plate 6 seals the bottom of the material storage box 5, after the concrete in the material taking hole 7 completely falls into the forming groove 10, the material taking plate 6 is pulled to reset by the second hydraulic push rod 4, the material taking hole 7 is utilized for taking the next time, so that the obtained concrete is the same in quantity each time, the weight difference between each finished counterweight is reduced to a great extent, the later use is facilitated, after the concrete enters the forming groove 10, the counterweight 15 is driven to vibrate by starting the vibration motor 16, the air bubbles in the concrete, after the concrete is solidified into the counterweight, the counterweight 11 is pushed to the first push rod 11, namely, the counterweight 9 is pushed upwards by the counterweight 9, the material is lifted to the top end of the material is automatically, the material is automatically pushed to the top of the material is discharged along with the buffer plate 9, the buffer is prevented from being impacted by the buffer 9, the buffer is completely by the buffer material is pushed by the buffer 9, and the buffer is prevented from being discharged by the top by the buffer 9, and the buffer is easy, and the buffer is discharged by the top by the buffer, the buffer 9, the buffer is well is discharged.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. A make-up machine for balanced heavy processing's autoloading, its characterized in that includes bottom plate (1), the upper end of bottom plate (1) is fixed with riser (2), and shaping seat (3) are installed to the upper end of riser (2), one side of shaping seat (3) is provided with shaping groove (10), is connected with the drawing of patterns subassembly in shaping groove (10), quantitative feed mechanism is installed to one side that is located shaping groove (10) of the upper end of shaping seat (3), pushing components is installed to the opposite side that is located shaping groove (10) of the upper end of shaping seat (3), unloading components are installed to the lateral wall of shaping seat (3).

2. The automatic feeding forming machine for machining the balancing weights according to claim 1, wherein the demolding assembly comprises a first hydraulic push rod (11) fixed at the upper end of the bottom plate (1), a supporting plate (15) is connected to the upper end of the first hydraulic push rod (11), and the side wall of the supporting plate (15) is in sliding connection with the inner wall of the forming groove (10).

3. An autoloading forming machine for balancing weights according to claim 2, characterized in that the lower end of the support plate (15) is fixed with a vibrating motor (16).

4. The automatic feeding forming machine for processing the balancing weight according to claim 1, wherein the quantitative feeding mechanism comprises a storage box (5) fixed at the upper end of the forming seat (3), a material taking plate (6) is slidably inserted at the bottom end of the storage box (5), a material taking hole (7) is formed in one side, close to the forming groove (10), of the material taking plate (6), and a second hydraulic push rod (4) is connected to the side wall of the material taking plate (6).

5. An autoloading machine for balancing weights according to claim 4, characterized in that the magazine (5) and the take-off plate (6) form a tight fit.

6. The automatic feeding forming machine for processing the balancing weights according to claim 1, wherein the pushing assembly comprises a third hydraulic pushing rod (8) fixed at the upper end of the forming seat (3), and one end, close to the forming groove (10), of the third hydraulic pushing rod (8) is connected with a pushing rod (9).

7. The automatic feeding forming machine for processing the balancing weights according to claim 1, wherein the discharging assembly comprises a guide inclined plate (12) fixed on the side wall of the forming seat (3), and a baffle plate (13) is fixed at the bottom end of the guide inclined plate (12).

8. The automatic feeding forming machine for processing the balancing weights according to claim 7, wherein damping buffers (17) are fixed at four corners of one side of the baffle (13) facing the forming seat (3), and one end of each of the four damping buffers (17) is connected with a buffer plate (14).