CN109650322B

CN109650322B - Spring gum machine advancing device

Info

Publication number: CN109650322B
Application number: CN201910078862.9A
Authority: CN
Inventors: 冯森明; 梁昌标
Original assignee: Foshan Xinlianxin Sleep Technology Co ltd
Current assignee: Foshan Xinlianxin Sleep Technology Co ltd
Priority date: 2019-01-25
Filing date: 2019-01-25
Publication date: 2023-12-12
Anticipated expiration: 2039-01-25
Also published as: CN109650322A

Abstract

The application discloses a spring glue machine propelling device. The utility model provides a spring gum machine advancing device, including feed arrangement and gum machine, gum machine is equipped with adjustment spacing groove and propulsion structure, adjustment spacing groove and feed arrangement discharge end cooperation, adjustment spacing groove includes parallel arrangement's fixed base plate and fly leaf, fixed base plate and fly leaf and gum machine become adjustment spacing groove, feed arrangement is the conveyer belt, the spring that feed arrangement transmitted into adjustment spacing groove is upright state, the fixed base plate inboard is equipped with the propulsion board, the propulsion board is connected with propulsion structure, propulsion structure includes propulsion main part, propulsion pole and propulsion drive arrangement, propulsion main part and fixed base plate fixed connection, the propulsion pole passes fixed base plate and propulsion board connection, propulsion drive arrangement and propulsion pole drive connection.

Description

Spring gum machine advancing device

Technical Field

The application relates to the field of spring rubber machines, in particular to a pushing device of a spring rubber machine.

Background

The spring gluing machine is a machine for gluing springs into spring mattresses, a plurality of springs are wrapped and connected into a spring unit through non-woven fabrics, and a plurality of spring units are glued through the spring gluing machine and glued into spring mattresses with different sizes.

At present, the spring gluing machine adopts the manual work to place the spring unit, keeps flat the spring unit through the manual work and waits the standing groove of viscose, has the space when owing to non-woven fabrics parcel spring, connects for soft connection between each spring, arranges compactly, needs the manual work to press the position and the compactness of adjustment spring unit when placing, inefficiency.

When the spring unit is placed manually, a flat-laying mode is adopted, the spring unit is placed in the placing groove, when the gluing machine glues, the whole placing groove is rotated by 90 degrees, then the middle part of the spring unit is glued, and the glued spring unit is transported by the upper layer of conveyor belt and the lower layer of conveyor belt. The whole action range is large, the time consumption is high, and the production efficiency is lower.

Disclosure of Invention

The object of the present application is to provide a device for optimizing the operation of a glue machine, a device for advancing a spring glue machine, which solves one or more of the above-mentioned problems.

In order to achieve the purpose, the application adopts the following technical scheme that the spring glue machine propelling device comprises a feeding device and a glue machine, wherein the glue machine is provided with an adjusting limit groove and a propelling structure, the adjusting limit groove is matched with the discharge end of the feeding device, the adjusting limit groove comprises a fixed base plate and a movable plate which are arranged in parallel, the fixed base plate, the movable plate and the glue machine form the adjusting limit groove, the feeding device is a conveyor belt, a spring which is transmitted into the adjusting limit groove by the feeding device is in an upright state, the inner side of the fixed base plate is provided with a propelling plate, the propelling plate is connected with the propelling structure, the propelling structure comprises a propelling main body, a propelling rod and a propelling driving device, the propelling main body is fixedly connected with the fixed base plate, the propelling rod penetrates through the fixed base plate and is connected with the propelling plate, and the propelling driving device is in driving connection with the propelling rod.

According to the spring glue machine propelling device, the conveyor belt is used as the feeding device, automatic feeding is achieved, manual work is not needed, the feeding device conveys the spring units to the adjusting limiting groove, the groove width of the adjusting limiting groove is only slightly larger than the diameter of the spring, the spring units enter the adjusting limiting groove in a vertical state and automatically correct positions, the propelling structure pushes the spring units in the correcting positions to enter the glue machine, glue is continuously applied and transported, the manual correcting position is not needed, large-angle rotation is not needed, glue application can be achieved only through propelling, time consumption is short, the degree of automation is high, and the overall production efficiency is greatly improved.

In some embodiments, the propulsion driving device comprises a propulsion motor, a propulsion rotating shaft, a propulsion rotating wheel, a propulsion driving belt and a propulsion rod seat which are connected in a transmission way in sequence, wherein the propulsion rod seat is fixedly arranged on the top surface of the propulsion driving belt, and the propulsion rod is fixedly connected with the driving rod seat. The propulsion motor and the driving structure are used for driving, the propulsion action is stable, and the propulsion distance is controlled accurately.

In some embodiments, the advancing wheel comprises an advancing wheel mount fixedly coupled to the stationary substrate. The propelling rotating wheel seat is fixedly connected with the fixed base plate, so that the installation stability of the propelling structure is ensured.

In some embodiments, the propulsion main body comprises a propulsion limiting shaft, one end of the propulsion limiting shaft is fixedly connected with the fixed substrate, the other end of the propulsion limiting shaft is fixedly connected with the propulsion main body, and the propulsion rod seat is sleeved on the propulsion limiting shaft. The propulsion limiting shaft is arranged, so that the propulsion path of the propulsion rod is limited, the path deviation of the propulsion rod is prevented, and the propulsion stability is ensured.

In some embodiments, the glue machine is provided with a rotating device which is in driving engagement with the movable plate. The rotating device is arranged, the rotating device controls the rotating movable plate, and the propelling structure performs propelling action after the movable plate rotates and is leveled.

In some embodiments, the rotating device comprises a rotating cylinder and a rotating cylinder rod, wherein the rotating cylinder drives the rotating cylinder rod and drives the movable plate to rotate. The rotary cylinder is adopted to control the movable plate to rotate, so that the matching accuracy of the rotation and the propelling actions of the movable plate is realized.

In some embodiments, the laminator is provided with an upper feed conveyor and a lower feed conveyor and a feed motor that drives both simultaneously. The upper and lower double-layer feeding conveyor belts are adopted to transport the spring units after gluing, and can press the spring units to prevent gluing deflection.

In some embodiments, the automatic upper and lower distance adjusting device comprises an upper distance adjusting structure, a lower distance adjusting structure and a distance adjusting motor for driving the upper distance adjusting structure and the lower distance adjusting structure simultaneously, wherein the upper distance adjusting structure is in driving connection with the upper feeding conveyor belt, and the lower distance adjusting structure is in driving connection with the fixed substrate. The automatic distance adjusting device from top to bottom is arranged, in order to adapt spring units with different height sizes, the distance between the upper layer feeding conveyor belt and the lower layer feeding conveyor belt is adjusted by adjusting the height of the upper layer feeding conveyor belt, and the position of the fixed substrate is correspondingly adjusted, so that the pushing position of the pushing structure is moderate.

In some embodiments, the upper-layer distance adjusting structure comprises a first distance adjusting screw and an upper-layer screw seat in threaded fit with the first distance adjusting screw, the lower-layer distance adjusting structure comprises a first transmission gear in transmission fit with the first distance adjusting screw, a second transmission gear in coaxial transmission with the first transmission gear, a second distance adjusting screw in transmission fit with the second transmission gear and a lower-layer screw seat in threaded fit with the second distance adjusting screw, the upper-layer screw seat is connected with an upper-layer feeding conveyor belt, the lower-layer screw seat is fixedly connected with a fixed substrate, and the diameter of the first transmission gear is twice that of the second transmission gear. Through gear drive relation, realize upper feeding conveyer belt adjustment distance and be fixed splint adjustment distance's twice for advance the structure and remain the position in the middle throughout and advance the spring unit, guaranteed propulsive stability.

In some embodiments, two ends of the adjusting limiting groove are correspondingly provided with a clamping device, the clamping device comprises a clamp main body, a clamp and a clamp transmission device, the clamp main body is fixedly connected with the fixed substrate, the clamp transmission device is fixedly connected with the clamp main body, and the clamp is matched with the adjusting limiting groove. The clamping device is arranged, and clamping action is carried out before the pushing structure is pushed, so that the spring unit is more compact.

The beneficial effects of the application are as follows: according to the spring glue machine propelling device, through the arrangement of the adjusting limiting groove and the propelling structure, automatic feeding and subsequent actions can be achieved without manual distribution, meanwhile, production actions are optimized through the propelling structure, glue can be applied without turning over a spring unit, a large amount of time is saved, and production efficiency is greatly improved.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a spring motor propulsion device of the application;

FIG. 2 is a schematic view of a portion of the laminator of the application;

FIG. 3 is a schematic view of a part of the enlarged structure of the portion B in FIG. 2;

FIG. 4 is a schematic view of a part of the enlarged structure of the portion C in FIG. 2;

FIG. 5 is a schematic view of the mechanism of FIG. 2 with the stationary substrate removed;

FIG. 6 is a schematic view of a part of the enlarged structure of the portion D in FIG. 5;

fig. 7 is a schematic structural view of the spring unit of the present application.

Detailed Description

The application is described in further detail below with reference to the accompanying drawings.

Example 1

As shown in fig. 1-6, the spring glue machine propelling device comprises a feeding device 2 and a glue machine 1, wherein the glue machine 1 is provided with an adjusting limit groove 3 and a propelling structure 5, the adjusting limit groove 3 is matched with the discharge end of the feeding device 2, the adjusting limit groove 3 comprises a fixed base plate 31 and a movable plate 32 which are arranged in parallel, the fixed base plate 31, the movable plate 32 and the glue machine 1 form the adjusting limit groove 3, the feeding device 2 is a conveying belt, a spring unit which is transmitted into the adjusting limit groove 3 by the feeding device 2 is in an upright state, a propelling plate 51 is arranged on the inner side of the fixed base plate 31, the propelling plate 51 is connected with the propelling structure 5, the propelling structure 5 comprises a propelling main body 52, a propelling rod 53 and a propelling driving device 54, the propelling main body 52 is fixedly connected with the fixed base plate 31, the propelling rod 53 penetrates through the fixed base plate 31 to be connected with the propelling rod 53, and the propelling driving device 54 is in driving connection with the propelling rod 53.

The propulsion driving device 54 comprises a propulsion motor 55, a propulsion rotating shaft 56, a propulsion rotating wheel 57, a propulsion driving belt 58 and a propulsion rod seat 59 which are sequentially connected in a transmission way, wherein the propulsion rod seat 59 is fixedly arranged on the top surface of the propulsion driving belt 58, and the propulsion rod 53 is fixedly connected with the driving rod seat 59.

The pushing wheel 57 includes a pushing wheel seat 510, and the pushing wheel seat 510 is fixedly connected with the fixed substrate 31.

The propulsion main body 51 comprises a propulsion limiting shaft 511, one end of the propulsion limiting shaft 511 is fixedly connected with the fixed substrate 31, the other end of the propulsion limiting shaft 511 is fixedly connected with the propulsion main body 51, and the propulsion rod seat 59 is sleeved on the propulsion limiting shaft 511.

The glue machine 1 is provided with an upper layer feeding conveyor belt 11, a lower layer feeding conveyor belt 12 and a feeding motor 13 for driving the upper layer feeding conveyor belt 11 and the lower layer feeding conveyor belt 12 simultaneously, and further comprises an upper automatic distance adjusting device 6, wherein the upper automatic distance adjusting device 6 comprises an upper layer distance adjusting structure 61, a lower layer distance adjusting structure 62 and a distance adjusting motor 63 for driving the upper layer distance adjusting structure 61 and the lower layer distance adjusting structure 62 simultaneously, the upper layer distance adjusting structure 61 is in driving connection with the upper layer feeding conveyor belt 11, and the lower layer distance adjusting structure 62 is in driving connection with the fixed substrate 31.

The upper-layer distance adjusting structure 61 comprises a first distance adjusting screw 64 and an upper-layer screw seat 65 in threaded fit with the first distance adjusting screw 64, the lower-layer distance adjusting structure 62 comprises a first transmission gear 66 in transmission fit with the first distance adjusting screw 64, a second transmission gear 67 in coaxial transmission with the first transmission gear 66, a second distance adjusting screw 68 in transmission fit with the second transmission gear 67 and a lower-layer screw seat 69 in threaded fit with the second distance adjusting screw 68, the upper-layer screw seat 65 is connected with the upper-layer feeding conveyor belt 11, the lower-layer screw seat 69 is fixedly connected with the fixed substrate 31, and the diameter of the first transmission gear 66 is twice that of the second transmission gear 67.

The glue machine 1 is provided with a rotating device 7, the rotating device 7 is in driving fit with the movable plate 32, the rotating device 7 comprises a rotating cylinder 71 and a rotating cylinder rod 72, and the rotating cylinder 71 drives the rotating cylinder rod 72 and drives the movable plate 32 to rotate.

Propelling: the propulsion structure 5 performs propulsion action on the clamped spring unit, the propulsion motor 55 drives the propulsion rotating shaft 56 to drive the propulsion rotating wheel 57 to rotate, the propulsion rotating wheel 57 drives the propulsion driving belt 58 to rotate, the propulsion rod seat 59 is fixedly arranged on the propulsion driving belt 58, the propulsion rod seat 59 performs forward and backward action along with the rotation of the propulsion driving belt 58, and meanwhile, the propulsion rod 53 is driven to perform forward and backward propulsion action, and when the propulsion rod 53 performs propulsion action, the propulsion rod seat 59 is sleeved on the propulsion limiting shaft 511, and the propulsion rod 53 is limited to propel the route due to the limiting left and right of the propulsion limiting shaft 511 and cannot deviate.

Before the pushing action, the rotating device 7 drives the rotating cylinder rod 72 through the rotating cylinder 71 and drives the movable plate 32 to rotate, and the movable plate 32 is put on level to perform the pushing action.

Automatic up-and-down adjustment: when spring units with different sizes are required to be processed, the size of the machine needs to be adjusted, namely the distance between the upper layer feeding conveyor belt 11 and the lower layer feeding conveyor belt 12 is adjusted, the position of the lower layer feeding conveyor belt 12 is fixed, the upper layer distance adjusting structure 61 is driven by the distance adjusting motor 63, the position of the upper layer feeding conveyor belt 12 is adjusted, meanwhile, the lower layer distance adjusting structure 62 is driven by the distance adjusting motor 63, the fixed substrate 31 is automatically adjusted, and the movement of the pressing device 4 and the pushing structure 5 are ensured to be aligned with the middle part of the spring unit.

The distance adjusting motor 63 drives the first distance adjusting screw 64, the upper screw rod seat 65 in threaded fit with the first distance adjusting screw 64 realizes the up-down distance adjustment, the lower distance adjusting structure 62 comprises a first transmission gear 66 in transmission fit with the first distance adjusting screw 64, a second transmission gear 67 in coaxial transmission with the first transmission gear 66, a second distance adjusting screw 68 in transmission fit with the second transmission gear 67, and a lower screw rod seat 69 in threaded fit with the second distance adjusting screw 68, the upper screw rod seat 65 is connected with the upper feeding conveyor belt 11, the lower screw rod seat 69 is fixedly connected with the fixed substrate 31, and the diameter of the first transmission gear 66 is twice the diameter of the second transmission gear 67, so that when the distance adjusting motor 63 performs the driving adjustment, the adjusting distance of the fixed substrate 31 is always half of that of the upper feeding conveyor belt 12, and the centering is realized.

What has been described above is merely some embodiments of the present application. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the application.

Claims

1. The spring glue machine propelling device comprises a feeding device (2) and a glue machine (1), and is characterized in that the glue machine (1) is provided with an adjusting limit groove (3) and a propelling structure (5), the adjusting limit groove (3) is matched with the discharge end of the feeding device (2), the adjusting limit groove (3) comprises a fixed base plate (31) and a movable plate (32) which are arranged in parallel, the fixed base plate (31), the movable plate (32) and the glue machine (1) form the adjusting limit groove (3), the feeding device (2) is a conveying belt, a spring unit which is transmitted into the adjusting limit groove (3) by the feeding device (2) is in an upright state, a propelling plate (51) is arranged on the inner side of the fixed base plate (31), the propelling plate (51) is connected with the propelling structure (5), the propelling structure (5) comprises a propelling main body (52), a propelling rod (53) and a propelling driving device (54), the propelling rod (53) penetrates through the fixed base plate (31) to be connected with the propelling rod (51), and the propelling rod (53) is connected with the driving device (54);

the glue machine (1) is provided with a rotating device (7), and the rotating device (7) is in driving fit with the movable plate (32);

the glue machine (1) is provided with an upper layer feeding conveyor belt (11), a lower layer feeding conveyor belt (12) and a feeding motor (13) for driving the upper layer feeding conveyor belt and the lower layer feeding conveyor belt simultaneously;

the automatic upper and lower distance adjusting device (6) comprises an upper distance adjusting structure (61), a lower distance adjusting structure (62) and a distance adjusting motor (63) for driving the upper distance adjusting structure (61) and the lower distance adjusting structure (62) simultaneously, the upper distance adjusting structure (61) is in driving connection with an upper feeding conveyor belt (11), and the lower distance adjusting structure (62) is in driving connection with a fixed substrate (31);

the upper-layer distance adjusting structure (61) comprises a first distance adjusting screw rod (64) and an upper-layer screw rod seat (65) in threaded fit with the first distance adjusting screw rod, the lower-layer distance adjusting structure (62) comprises a first transmission gear (66) in transmission fit with the first distance adjusting screw rod (64), a second transmission gear (67) in coaxial transmission with the first transmission gear (66), a second distance adjusting screw rod (68) in transmission fit with the second transmission gear (67) and a lower-layer screw rod seat (69) in threaded fit with the second distance adjusting screw rod (68), the upper-layer screw rod seat (65) is connected with an upper-layer feeding conveyor belt (11), the lower-layer screw rod seat (69) is fixedly connected with a fixed substrate (31), and the diameter of the first transmission gear (66) is twice that of the second transmission gear (67).

2. The spring motor propulsion device according to claim 1, wherein the propulsion driving device (54) comprises a propulsion motor (55), a propulsion rotating shaft (56), a propulsion rotating wheel (57), a propulsion driving belt (58) and a propulsion rod seat (59) which are sequentially connected in a transmission mode, the propulsion rod seat (59) is fixedly arranged on the top surface of the propulsion driving belt (58), and the propulsion rod (53) is fixedly connected with the propulsion rod seat (59).

3. The spring motor propulsion device according to claim 2, wherein the propulsion wheel (57) comprises a propulsion wheel seat (510), the propulsion wheel seat (510) being fixedly connected with the fixed base plate (31).

4. The spring motor propulsion device according to claim 2, wherein the propulsion main body (52) comprises a propulsion limiting shaft (511), one end of the propulsion limiting shaft (511) is fixedly connected with the fixed base plate (31), the other end of the propulsion limiting shaft is fixedly connected with the propulsion main body (52), and the propulsion rod seat (59) is sleeved on the propulsion limiting shaft (511).

5. The spring glue machine propulsion device according to claim 1, characterized in that the rotating device (7) comprises a rotating cylinder (71) and a rotating cylinder rod (72), wherein the rotating cylinder (71) drives the rotating cylinder rod (72) and drives the movable plate (32) to rotate.

6. The spring motor propulsion device according to claim 1, wherein two ends of the adjusting limiting groove (3) are correspondingly provided with a clamping device (4), the clamping device (4) comprises a clamp main body (41), a clamp (42) and a clamp transmission device (43) which are installed in a matched mode, the clamp main body (41) is fixedly connected with the fixed substrate (31), the clamp transmission device (43) is fixedly connected with the clamp main body (41), and the clamp (42) is matched with the adjusting limiting groove (3).