CN220097488U - Compression conveying device for bagged springs - Google Patents

Abstract

The utility model relates to a compression conveying device for a bagged spring, which is characterized in that: the compression conveying mechanism is arranged at the discharge end of the conveying mechanism so as to receive and compress the springs conveyed by the conveying mechanism; the compression conveying mechanism comprises a compression plate arranged on the sliding rail, and two groups of long conveying chains and short conveying chains which are oppositely arranged; the outer sides of the long conveying chain and the short conveying chain are respectively provided with a chain guide rail; the compression plate is arranged at the feeding end of the short conveying chain and is positioned at the opposite side of the long conveying chain; one side of the compression plate is connected with a speed reducing motor for driving the compression plate to open and close through crank connecting rods in a transmission way; the outside of compression board encircles and is equipped with compression conveying chain. According to the utility model, the springs sent by the spring conveying mechanism are rapidly compressed through the opening and closing compression plates, so that bending deformation of the springs is avoided, and the springs are continuously conveyed into the bagging mechanism for bagging through the conveying chain after compression.

Description

Compression conveying device for bagged springs

Technical Field

The utility model relates to a compression conveying device for a bagged spring, and belongs to the technical field of bagged spring processing equipment.

Background

The manufacturing of the bagged spring is generally that the spring is firstly rolled by a spring coiling machine, then the spring is conveyed to a compression mechanism for compression by a spring conveying mechanism, the spring is conveyed to a bagging mechanism after being compressed to a certain degree, and each spring adjacent to the front and the back is wrapped and packaged by a bagging mechanism through cloth to form a bagged spring string. Prior art "application number: 2014100791737A compression conveying mechanism for producing bagged springs is disclosed, namely, the compression conveying mechanism for producing bagged springs comprises two pairs of baffles arranged on a rack and a conveying belt wound on the outer side of the baffles, the distance between the two baffles is gradually reduced from one end to the other end, the spring conveying mechanism conveys the springs between the two baffles and drives the springs to move so that the springs move from one end with larger distance between the two baffles to the other end with smaller distance between the two baffles, the springs are gradually compressed along with the gradual reduction of the distance between the two baffles when translating, and the springs are separated from the spring conveying mechanism to be conveyed by the spring compression conveying mechanism after being compressed to a certain extent.

The above-described technique has the following drawbacks: because the spring is not fully cooled after coming out of the spring coiling machine, the deformation resistance is poor, and the spring is compressed while walking between two baffles during compression and can be influenced by the forward acting force of the conveyor belt at the outer sides of the baffles, so that the two ends of the spring are easy to bend forward, and the product quality is influenced.

Therefore, how to provide a compression conveying device capable of realizing rapid compression of a spring and avoiding bending deformation of the spring is a research object of the utility model.

Disclosure of Invention

In order to overcome the defects of the technology, the utility model provides the compression conveying device for the bagged springs, which is used for rapidly compressing the springs conveyed by the spring conveying mechanism through the opening and closing compression plates, avoiding bending deformation of the springs, and continuously conveying the springs into the bagged mechanism for bagging through the conveying chain after compression.

In order to solve the problems in the prior art, the utility model adopts the following technical scheme:

a compression conveyor of spring in bags, its characterized in that: the compression conveying mechanism is arranged at the discharge end of the conveying mechanism so as to receive and compress the springs conveyed by the conveying mechanism; the compression conveying mechanism comprises a compression plate arranged on the sliding rail, and two groups of long conveying chains and short conveying chains which are oppositely arranged; the outer sides of the long conveying chain and the short conveying chain are respectively provided with a chain guide rail; the compression plate is arranged at the feeding end of the short conveying chain and is positioned at the opposite side of the long conveying chain; one side of the compression plate is connected with a speed reducing motor for driving the compression plate to open and close through crank connecting rods in a transmission way; the outside of compression board encircles and is equipped with compression conveying chain.

Further, the long conveying chain and the short conveying chain are respectively arranged on the sliding rail through a bottom plate, and the distance between the long conveying chain and the short conveying chain is adjusted through a positive and negative screw rod; and one end of the positive and negative tooth screw rod is provided with an adjusting hand wheel.

Further, the gear motor is installed on the sliding rail where the compression plate is located through a motor base, and the motor base is connected with the bottom plate of the short conveying chain through a connecting plate.

Further, a spring return plate is arranged above the long conveying chain and the short conveying chain, and the spring return plate is located at one end, far away from the conveying mechanism, of the compression plate.

Further, one end of the long conveying chain extends obliquely outwards to the position below the discharging end of the conveying mechanism.

Further, the long conveying chain, the short conveying chain and the compression conveying chain are driven to run by independent servo motors respectively.

Furthermore, the conveying mechanism is arranged in a vertical E-shaped structure, a cooling air duct is arranged at the bottom of the conveying mechanism, and one end of the cooling air duct is connected with a cooling fan.

The beneficial effects of the utility model are as follows: 1. the springs sent by the spring conveying mechanism are rapidly compressed through the opening and closing compression plates, so that bending deformation of the springs is avoided, and the product quality is ensured; 2. the distance between the long conveying chain and the short conveying chain is adjustable, so that the device can adapt to compression and conveying of springs with different lengths; 3. the spring is clamped by the spring withdrawing plate to fall off from the magnetic attachment plate, so that the spring can be ensured to be smoothly transferred from the conveying mechanism to the compression conveying mechanism; 4. the conveying mechanism is arranged in a vertical E shape, so that the conveying time of the spring on the conveying mechanism is prolonged, and the spring is enabled to be subjected to heat dissipation for a sufficient time; 5. the cooling fan is used for carrying out air cooling and heat dissipation on the springs on the conveying mechanism, so that the cooling speed and the cooling effect of the springs are improved.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of the compression conveying mechanism of the present utility model.

Fig. 3 is a partial structural view of the compression conveying mechanism of the present utility model.

Fig. 4 is a schematic diagram of the drive connection of the compression plate and the gear motor of the present utility model.

Fig. 5 is a schematic structural view of a long conveying chain and a short conveying chain of the present utility model.

Fig. 6 is a top view of the long and short conveyor chains of the present utility model.

Fig. 7 is a schematic view of the structure of the long conveyor chain of the present utility model.

FIG. 8 is a schematic view of the structure of the present utility model after the cooling air duct and the cooling fan are provided.

Wherein: conveying mechanism 10, compression conveying mechanism 20, compression plate 201, long conveying chain 202, short conveying chain 203, chain guide 204, crank link 205, gear motor 206, compression conveying chain 207, bottom plate 208, positive and negative screw 209, regulating hand wheel 210, motor base 211, connecting plate 212, spring return plate 213, cooling air duct 30, cooling fan 40.

Detailed Description

In order to make the technical solution of the present utility model more comprehensible to those skilled in the art, the present utility model is further analyzed with reference to fig. 1 to 8.

As shown in fig. 1 to 8, a compression conveying device for a pocket spring is characterized in that: the spring compression device comprises a conveying mechanism 10 and a compression conveying mechanism 20, wherein the compression conveying mechanism 20 is arranged at the discharge end of the conveying mechanism 10 so as to receive and compress a spring conveyed by the conveying mechanism 10; the compression conveying mechanism 20 comprises a compression plate 201 mounted on a sliding rail, and two sets of long conveying chains 202 and short conveying chains 203 which are oppositely arranged; the outer sides of the long conveying chain 202 and the short conveying chain 203 are respectively provided with a chain guide rail 204; the compression plate 201 is arranged at the feeding end of the short conveying chain 203 and is positioned at the opposite side of the long conveying chain 202; one side of the compression plate 201 is in transmission connection with a speed reducing motor 206 for driving the compression plate to open and close through a crank connecting rod 205; the compression plate 201 is provided with a compression conveyor chain 207 around the outside.

In this embodiment, preferably, the long conveying chain 202 and the short conveying chain 203 are respectively mounted on the sliding rails through a bottom plate 208, and the distance between the long conveying chain 202 and the short conveying chain 203 is adjusted through a positive and negative screw 209, the positive tooth end of the positive and negative screw 209 is in transmission connection with the bottom plate of the long conveying chain 202 through a nut seat, and the negative tooth end of the positive and negative screw 209 is in transmission connection with the bottom plate of the short conveying chain 203 through the nut seat; an adjusting hand wheel 210 is arranged at one end of the positive and negative screw 209, and the distance between the long conveying chain 202 and the short conveying chain 203 is adjusted by rotating the positive and negative screw 209 through the adjusting hand wheel 201.

In this embodiment, preferably, the gear motor 206 is mounted on a sliding rail where the compression plate 201 is located through a motor base 211, the motor base 211 is connected to the bottom plate of the short conveying chain 203 through a connecting plate 212, and when the position of the short conveying chain 203 moves, the motor base 211 is driven by the connecting plate 212 to move synchronously, so that the compression plate 201 and the short conveying chain 203 keep moving synchronously, and the initial position of the compression plate 201 is ensured to be level with the short conveying chain 203.

In this embodiment, preferably, a spring-withdrawing plate 213 is disposed above the long conveying chain 202 and the short conveying chain 203, the spring-withdrawing plate 213 is located at one end of the compression plate 201 away from the conveying mechanism 10, and the spring is clamped by the spring-withdrawing plate 213 to be separated from the magnetic attachment plate, so as to ensure that the spring can be smoothly transferred from the conveying mechanism 10 to the compression conveying mechanism 20.

In this embodiment, preferably, one end of the long conveyor chain 202 extends obliquely outward to below the discharge end of the conveyor 10, guiding the spring of the conveyor 10 centrally into the compression conveyor 20.

In this embodiment, the long conveying chain 202, the short conveying chain 203, and the compression conveying chain 207 are preferably driven to run by separate servo motors, respectively.

In this embodiment, preferably, the conveying mechanism 10 is configured as a vertical E-shaped structure, the bottom of the conveying mechanism is provided with a cooling air duct 30, one end of the cooling air duct 30 is connected with a cooling fan 40, and cooling air blown by the cooling fan 40 is led to the spring conveyed by the conveying mechanism 10 through the cooling air duct 30, so as to improve the cooling speed and effect of the spring.

The utility model is used when: the distance between the long conveying chain 202 and the short conveying chain 203 is adjusted manually according to the length of the spring to be compressed, the spring is sucked by a magnetic attachment plate of the conveying mechanism 10 after coming out of the spring coiling machine and conveyed to the discharging end of the conveying mechanism 10, at the moment, the compressing plate 201 is in an open state under the driving of the reducing motor 206 (namely, the reducing motor 206 drives the compressing plate 201 to move towards one side far away from the long conveying chain 202), after the spring enters a station of the compressing plate 201 (the position of the spring is sensed by an external proximity switch and a PLC control program and the start and stop of the reducing motor 206 are controlled), the reducing motor 206 drives the compressing plate 201 to be closed (namely, the reducing motor 206 drives the compressing plate 201 to move towards the long conveying chain 202 and stop at the position where the compressing plate 201 is leveled with the short conveying chain 203), the spring is compressed rapidly, and after the compressing is matched and conveyed forwards by the long conveying chain 202 and the short conveying chain 202, and the spring is conveyed into the bagging mechanism.

The foregoing has outlined rather broadly the more detailed description of the utility model in order that the principles and embodiments of the utility model may be better understood, and in order that the present utility model may be better understood; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present utility model, the present description should not be construed as limiting the present utility model in view of the above.

Claims (7)

1. A compression conveyor of spring in bags, its characterized in that: the compression conveying mechanism is arranged at the discharge end of the conveying mechanism so as to receive and compress the springs conveyed by the conveying mechanism; the compression conveying mechanism comprises a compression plate arranged on the sliding rail, and two groups of long conveying chains and short conveying chains which are oppositely arranged; the outer sides of the long conveying chain and the short conveying chain are respectively provided with a chain guide rail; the compression plate is arranged at the feeding end of the short conveying chain and is positioned at the opposite side of the long conveying chain; one side of the compression plate is connected with a speed reducing motor for driving the compression plate to open and close through crank connecting rods in a transmission way; the outside of compression board encircles and is equipped with compression conveying chain.

2. A compression conveyor for pocketed springs according to claim 1, wherein: the long conveying chain and the short conveying chain are respectively arranged on the sliding rail through a bottom plate, and the distance between the long conveying chain and the short conveying chain is adjusted through a positive and negative screw rod; and one end of the positive and negative tooth screw rod is provided with an adjusting hand wheel.

3. A compression conveyor for pocketed springs according to claim 2, wherein: the speed reducing motor is arranged on the sliding rail where the compression plate is arranged through a motor seat, and the motor seat is connected with the bottom plate of the short conveying chain through a connecting plate.

4. A compression conveyor for pocketed springs according to claim 1, wherein: and a spring return plate is arranged above the long conveying chain and the short conveying chain and is positioned at one end of the compression plate, which is far away from the conveying mechanism.

5. A compression conveyor for pocketed springs according to claim 1, wherein: one end of the long conveying chain extends obliquely outwards to the position below the discharging end of the conveying mechanism.

6. A compression conveyor for pocketed springs according to claim 1, wherein: the long conveying chain, the short conveying chain and the compression conveying chain are driven to run by independent servo motors respectively.

7. A compression conveyor for pocketed springs according to claim 1, wherein: the conveying mechanism is arranged in a vertical E-shaped structure, a cooling air duct is arranged at the bottom of the conveying mechanism, and one end of the cooling air duct is connected with a cooling fan.