CN220097711U - Be applied to feed mechanism of spring mattress viscose machine - Google Patents

Abstract

The utility model discloses a feeding mechanism applied to a spring mattress viscose machine, which comprises a feeding mechanism, a limiting mechanism, a material taking mechanism and a material pushing mechanism; the feeding mechanism is used for feeding materials; the limiting mechanism is used for compressing and limiting; the material taking mechanism is used for conveying soft materials and/or bagged spring strings into the limiting mechanism one by one from the upper part of the limiting mechanism; the material pushing mechanism is used for pushing out soft materials or bagged spring strings, and the material taking mechanism is arranged above the upper limit mechanism for feeding, so that the bagged spring strings/soft materials can be directly input into the limit mechanism through the material taking mechanism, the space of the limit mechanism is effectively utilized, a structure that two parallel conveying belts are used for feeding respectively is avoided, and the pushing distance of the material pushing mechanism is reduced; secondly, set up feeding mechanism, avoided the structure of feeding respectively of pan feeding mechanism both sides to make the waste material of following pan feeding mechanism one side pan feeding can effectively follow the opposite side discharge of pan feeding mechanism.

Description

Be applied to feed mechanism of spring mattress viscose machine

Technical Field

The utility model relates to the technical field of mattresses, in particular to a feeding mechanism applied to a spring mattress gluing machine.

Background

Spring mattresses are a common piece of furniture.

The existing spring mattress is generally formed by bonding bagged spring strips, and a spring mattress gluing machine is needed at the moment and generally comprises a feeding mechanism, a pushing mechanism and a gluing platform, wherein the feeding mechanism is used for feeding bagged spring strings one by one, and the pushing mechanism is used for pushing the pushing spring strings on the feeding mechanism into the gluing platform one by one, so that the gluing of one spring mattress is realized. For some special spring mattresses, soft materials (particularly sponge strips) are required to be adhered in the adhering process, at this time, the sponge strips are required to be input and then pushed into the viscose machine body by the pushing mechanism, and at this time, a feeding mechanism for the soft materials is required.

The existing feeding mechanism capable of feeding soft materials according to a program generally comprises two kinds of feeding mechanisms:

first, one side of pan feeding mechanism is used for the input spring strip in bags, and the opposite side of pan feeding mechanism is provided with the sponge strip conveying mechanism who sends soft materials to pan feeding mechanism one by one, and when pan feeding mechanism was used for the input sponge strip, the direction of delivery of pan feeding mechanism was opposite with the pan feeding direction of spring string in bags this moment. However, this structure can result in the product being unable to discharge the string of defective pocketed springs in time, and when the string of defective pocketed springs is detected, the string of defective pocketed springs can only be manually taken out through an alarm, thus being unfavorable for continuous production.

The second, solved the problem of unable automatic discharge of the pocket spring cluster that has problems among the first pan feeding mechanism, it is through two conveying direction and the perpendicular conveying mechanism of pushing out the mechanism ejecting direction (specifically first conveying mechanism and second conveying mechanism) of pushing out the material direction on the pushing out mechanism of edge, and one side of first conveying mechanism is used for feeding the pocket spring cluster this moment, one side of second conveying mechanism is used for feeding soft materials, so dislocation transport through two conveying mechanisms for can be respectively the pan feeding between soft materials and the pocket spring cluster, can guarantee again to discharge the spring cluster that has problems when meetting the spring cluster that has problems from one side. However, this kind of structure has a problem, the in-process that push-out mechanism pushed the spring cluster into the viscose platform, there is a passageway necessarily between pan feeding mechanism and the viscose platform, its purpose is that the reservation position lets the push away after the material ends spout the direction displacement that the material structure pushed away the material direction to spout the glue to spring cluster in bags and/or soft material in order to let this reservation passageway keep high through of spring, generally set up a stop gear in this passageway position, by, if two conveying mechanism of parallel arrangement add reserved spouting the gluey passageway, the push distance that pushes out this moment is longer, can influence the production speed of whole mattress bonding.

It is clear from the above-mentioned feed mechanism that these feed mechanism all is through putting into the sponge/pocket spring cluster that adds from the side, and these structures can make the ejecting mechanism release the distance side length when increasing the passageway, and the waste material of spring cluster is not good when the both sides are gone into respectively, so present one kind need not to go on the feed mechanism of material from side pan feeding again can directly go on the material loading with the sponge/pocket spring cluster that adds.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a feeding mechanism which is used for directly feeding externally-added sponge/bagged spring strings without feeding from the side and is applied to a spring mattress viscose machine.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a feeding mechanism applied to a spring mattress gluing machine comprises a feeding mechanism, a limiting mechanism, a material taking mechanism and a material pushing mechanism;

the feeding mechanism is arranged at the downstream of the pushing mechanism along the pushing direction of the pushing mechanism and is used for feeding the bagged spring strings and/or soft materials;

the limiting mechanism is arranged at the downstream of the feeding mechanism along the pushing direction of the pushing mechanism and is used for compressing and limiting the bagged springs and/or soft materials;

the material taking mechanism is used for conveying soft materials and/or bagged spring strings into the limiting mechanism one by one;

the pushing mechanism is used for pushing out soft materials or bagged spring strings from the feeding mechanism or the limiting mechanism until the soft materials or bagged spring strings leave the limiting mechanism, and the pushing direction of the pushing mechanism is perpendicular to the conveying direction of the feeding mechanism.

Further, the material taking mechanism feeds soft materials and/or bagged spring strings into the limiting mechanism one by one from the upper part of the limiting mechanism.

Further, the stop gear includes first limiting plate and second limiting plate, and first limiting plate and second limiting plate set up from top to bottom and first limiting plate is located the top, first limiting plate can dislocation displacement.

Further, the material taking mechanism comprises a lifting seat and a material taking arm, the lifting seat can move back and forth along the pushing direction of the material pushing mechanism, the material taking arm is arranged on the lifting seat, and the lifting seat can drive the material taking arm to move along the upper and lower directions.

Further, the material taking arm comprises a base, telescopic mechanisms and material taking pins, more than one telescopic mechanism is fixedly arranged on the base, each telescopic mechanism is correspondingly provided with at least one material taking pin, and the telescopic mechanisms drive the material taking pins to stretch and retract so that the material taking pins stretch downwards from the base.

Further, the telescopic mechanism drives the material taking pin to obliquely and downwards stretch.

Further, the limiting mechanism further comprises a hinge part and a swinging mechanism, the first limiting plate is hinged through the hinge part, and the swinging mechanism drives the first limiting plate to swing so that the first limiting plate can be displaced in a dislocation mode.

Further, the feeding mechanism is a clamping conveying belt which clamps up and down.

Further, the pushing mechanism comprises a pushing mechanism, a pushing plate and a positioning pin, the pushing mechanism is used for driving the pushing plate to move back and forth, the positioning pin is arranged on the pushing plate, and the positioning pin can extend outwards from the pushing plate along the pushing direction of the pushing plate.

Further, the soft material storage device further comprises a material storage mechanism, wherein the material storage mechanism is used for storing soft materials and/or bagged springs, and the material taking mechanism is used for taking out the soft materials one by one from the material storage mechanism and then placing the soft materials into the limiting mechanism from the upper part of the first limiting plate.

The utility model has the following beneficial effects:

according to the feeding mechanism applied to the spring mattress viscose machine, the material taking mechanism for feeding materials above the upper limit mechanism is arranged, so that the bagged spring strings/soft materials can be directly input into the limit mechanism through the material taking mechanism, the space of the limit mechanism is effectively utilized, a structure that two parallel conveying belts are used for feeding materials respectively is avoided, and the pushing distance of the pushing mechanism is reduced; secondly, set up feeding mechanism, avoided the structure of feeding respectively of pan feeding mechanism both sides to make the waste material of following pan feeding mechanism one side pan feeding can effectively follow the opposite side discharge of pan feeding mechanism.

Drawings

FIG. 1 is a schematic perspective view of a feeding mechanism for a spring mattress gluing machine according to the present utility model;

FIG. 2 is a front view of a feeding mechanism for a spring mattress gluing machine according to the present utility model;

FIG. 3 is a partial view A of FIG. 2;

fig. 4 is a schematic perspective view of the lifting seat of the material taking mechanism and the material taking arm after being matched.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical ideas claimed in the present utility model.

The utility model discloses a feeding mechanism applied to a spring mattress viscose machine, which is shown in figures 1-4 and comprises a feeding mechanism 1, a limiting mechanism 2, a material taking mechanism 3 and a material pushing mechanism 4;

the feeding mechanism 1 is arranged at the downstream of the pushing mechanism 4 along the pushing of the pushing mechanism 4 and is used for feeding the bagged spring strings and/or soft materials;

the limiting mechanism 2 is arranged at the downstream of the feeding mechanism 1 along the pushing direction of the pushing mechanism 4, and the limiting mechanism 2 is used for compressing and limiting the bagged springs and/or soft materials;

the material taking mechanism 3 is used for conveying soft materials and/or bagged spring strings into the limiting mechanism 2 one by one from the upper part of the limiting mechanism 2;

the pushing mechanism 4 is used for pushing out soft materials or bagged spring strings from the feeding mechanism or the limiting mechanism until the soft materials or bagged spring strings leave the limiting mechanism 2, and the pushing direction of the pushing mechanism 4 is perpendicular to the conveying direction of the feeding mechanism 1.

More specifically, when the material taking mechanism is required to convey soft materials/bagged spring strings to the limiting mechanism 2, the material taking mechanism 3 directly inputs the soft materials/bagged spring strings to the limiting mechanism 2 during use, then the limiting mechanism 2 compresses the soft materials/bagged spring strings, and then the pushing mechanism 4 pushes out the compressed soft materials/bagged spring strings; when the feeding mechanism is required to input the pocket spring strings/soft materials, the limiting mechanism 2 is in a compressed state, at the moment, the feeding mechanism 1 inputs the pocket spring strings/soft materials, the pushing mechanism 4 pushes the pocket spring strings/soft materials out of the feeding mechanism 1 so that the pocket spring strings/soft materials pass through and leave the limiting mechanism 2, and at the moment, the limiting mechanism 2 is used for assisting the pocket spring strings/soft materials to be pushed out at a high retention height.

The utility model has the advantages that: by arranging the material taking mechanism for feeding above the upper limit mechanism, the bagged spring strings/soft materials can be directly input into the limit mechanism through the material taking mechanism, so that the space of the limit mechanism is effectively utilized, a structure that two parallel conveying belts are used for feeding respectively is avoided, and the pushing distance of the pushing mechanism is reduced; secondly, set up feeding mechanism, avoided the structure of feeding respectively of pan feeding mechanism both sides to make the waste material of following pan feeding mechanism one side pan feeding can effectively follow the opposite side discharge of pan feeding mechanism.

More specifically, the material taking mechanism feeds soft materials and/or bagged spring strings into the limiting mechanism one by one from the upper part of the limiting mechanism.

Further, the limiting mechanism 2 includes a first limiting plate 21 and a second limiting plate 22, the first limiting plate 21 and the second limiting plate 22 are disposed up and down, and the first limiting plate 21 is located above, and the first limiting plate 21 can be displaced in a dislocation manner.

More specifically, by arranging the first limiting plate 21 capable of dislocating displacement, when the material taking mechanism 3 directly sends the soft material/bagged spring string into the limiting mechanism 2 from the upper side of the limiting mechanism 2, the first limiting plate 21 dislocates displacement, then the material taking mechanism 3 speaks the soft material/bagged spring string to be placed on the second limiting plate 22, then the first limiting plate 21 resets to compress the soft material/bagged spring string, then the material pushing mechanism 4 pushes the soft material/bagged spring string out of the limiting mechanism 2, and thus the material taking action of the material taking mechanism 3 and the material pushing action of the subsequent material pushing mechanism 4 are completed.

Further, the limiting mechanism 2 further comprises a hinge piece 23 and a swinging mechanism 24, the first limiting plate 21 is hinged through the hinge piece 23, and the swinging mechanism 24 drives the first limiting plate 21 to swing so that the first limiting plate 21 can be displaced in a dislocation mode.

More specifically, by providing the hinge 23 and the swinging mechanism 24, the first limiting plate 21 is hinged, so that the swinging mechanism 24 drives the first limiting plate 21 to swing upwards to realize dislocation displacement, and when the material taking mechanism 3 places the soft material/bagged spring string down onto the second limiting plate 22 from above the first limiting plate 21, the swinging mechanism 24 drives the first limiting plate 21 to swing and press down, so as to limit the height of the soft material/bagged spring string.

Further, the material taking mechanism 3 includes a lifting seat 31 and a material taking arm 32, the lifting seat 31 can move back and forth along the pushing direction of the material pushing mechanism 4, the material taking arm 32 is mounted on the lifting seat 31, and the lifting seat 31 can drive the material taking arm 32 to move along the up-down direction.

More specifically, by providing the lifting seat 31 capable of moving and lifting, the material taking arm 32 can move reciprocally from the upper part of the limiting mechanism 2, which is beneficial for the material taking arm 32 to be taken from different positions to the limiting mechanism 2.

Further, the material taking arm 32 includes a base 33, a telescopic mechanism 34 and material taking pins 35, more than one telescopic mechanism 34 is fixedly installed on the base 33, each telescopic mechanism 34 is correspondingly provided with at least one material taking pin 35, and the telescopic mechanism 34 drives the material taking pins 35 to stretch and retract so that the material taking pins 35 stretch and retract downwards from the base 33.

More specifically, by arranging the material taking pin 35, the material taking pin 35 is inserted into the soft material/pocket spring string when the material taking arm 32 takes material, so that the soft material/pocket spring string is ensured not to drop in the process of conveying the soft material/pocket spring string to the limiting mechanism 2 by the material taking mechanism 3.

Further, the telescopic mechanism 34 drives the material taking pin 35 to extend and retract obliquely downwards.

More specifically, the material taking pin 35 is inclined and stretches downwards, so that an included angle can be formed between the material taking pin 35 and the soft material/pocket spring string after the soft material/pocket spring string is inserted, and the soft material/pocket spring string is further ensured not to fall in the conveying process.

Further, the feeding mechanism 1 is a clamping conveying belt which clamps up and down.

More specifically, the pushing mechanism 4 includes a pushing mechanism 41 and a pushing plate 42, where the pushing mechanism 41 is used to drive the pushing plate 42 to move back and forth.

More specifically, the pushing mechanism 4 further includes a positioning pin 43, where the positioning pin 43 is mounted on the pushing plate 42, and the positioning pin 43 can extend outward from the pushing plate 41 along the pushing direction of the pushing plate 42.

More specifically, the positioning pins 43 are arranged, so that after the material taking mechanism 3 sends the soft material/pocket spring string into the limiting mechanism 2 from the upper side, the material pushing mechanism 4 stretches out to prop against the soft material/pocket spring string, then the positioning pins 43 stretch out to insert into the soft material/pocket spring string, then the material taking mechanism 3 is separated from the soft material/pocket spring string, and then the limiting mechanism 2 compresses the soft material/pocket spring string, so that the soft material/pocket spring string is ensured not to topple over when the limiting mechanism compresses.

More specifically, the device further comprises a material storage mechanism 5, the material storage mechanism 5 is used for storing soft materials and/or bagged springs, and the material taking mechanism 3 is used for taking out the soft materials and/or bagged springs from the material storage mechanism 5 one by one and then placing the soft materials into the limiting mechanism 3 from the upper side of the first limiting plate 31.

More specifically, by providing the stock mechanism 5, the soft material/pocketed spring string can be stored by the stock mechanism 5, which is beneficial to the material taking of the material taking mechanism 3.

It should be noted that, the stock mechanism 5 generally comprises a conveyer belt and a baffle, the soft material/pocket spring strings are placed on the conveyer belt, the baffles are arranged at two sides and output ends of the conveyer belt, the baffles at two sides are used for limiting two sides of the soft material/pocket spring strings, the baffles at the output ends are used for limiting material taking positions of the soft material/pocket spring strings, and the material taking mechanism 3 takes materials from the output ends of the conveyer belt.

The material storage mechanism 5 is only required to store soft materials/bagged spring strings and enable the material taking mechanism to take materials, and the specific structure of the material storage mechanism is not limited.

Various other corresponding changes and modifications will occur to those skilled in the art from the foregoing description and the accompanying drawings, and all such changes and modifications are intended to be included within the scope of the present utility model as defined in the appended claims.

Claims (9)

1. Be applied to feed mechanism of spring mattress viscose machine, its characterized in that: comprises a feeding mechanism, a limiting mechanism, a material taking mechanism and a material pushing mechanism;

the feeding mechanism is arranged at the downstream of the pushing mechanism along the pushing direction of the pushing mechanism and is used for feeding the bagged spring strings and/or soft materials;

the limiting mechanism is arranged at the downstream of the feeding mechanism along the pushing direction of the pushing mechanism and is used for compressing and limiting the bagged springs and/or soft materials;

the material taking mechanism is used for feeding soft materials and/or bagged spring strings into the limiting mechanism one by one from the upper part of the limiting mechanism;

the pushing mechanism is used for pushing out soft materials or bagged spring strings from the feeding mechanism or the limiting mechanism.

2. The feeding mechanism for a spring mattress gluing machine as claimed in claim 1, wherein: the limiting mechanism comprises a first limiting plate and a second limiting plate, wherein the first limiting plate and the second limiting plate are arranged up and down, the first limiting plate is located above, and the first limiting plate can displace in a dislocation mode.

3. A feed mechanism for a spring mattress gluing machine as claimed in claim 2, wherein: the limiting mechanism further comprises a hinge part and a swinging mechanism, the first limiting plate is hinged through the hinge part, and the swinging mechanism drives the first limiting plate to swing so that the first limiting plate can displace in a dislocation mode.

4. The feeding mechanism for a spring mattress gluing machine as claimed in claim 1, wherein: the material taking mechanism comprises a lifting seat and a material taking arm, the lifting seat can move back and forth along the pushing direction of the material pushing mechanism, the material taking arm is arranged on the lifting seat, and the lifting seat can drive the material taking arm to move along the up-down direction.

5. The feeding mechanism for a spring mattress gluing machine of claim 4, wherein: the material taking arm comprises a base, telescopic mechanisms and material taking pins, more than one telescopic mechanism is fixedly arranged on the base, each telescopic mechanism is correspondingly provided with at least one material taking pin, and the telescopic mechanisms drive the material taking pins to stretch and retract so that the material taking pins stretch downwards from the base.

6. The feeding mechanism for a spring mattress gluing machine of claim 5, wherein: the telescopic mechanism drives the material taking contact pin to stretch downwards in an inclined mode.

7. The feeding mechanism for a spring mattress gluing machine as claimed in claim 1, wherein: the feeding mechanism is a clamping conveying belt which clamps up and down.

8. The feeding mechanism for a spring mattress gluing machine as claimed in claim 1, wherein: the pushing mechanism comprises a pushing mechanism, a pushing plate and a positioning pin, wherein the pushing mechanism is used for driving the pushing plate to move back and forth, the positioning pin is arranged on the pushing plate, and the positioning pin can extend outwards from the pushing plate along the pushing direction of the pushing plate.

9. The feeding mechanism for a spring mattress gluing machine as claimed in claim 1, wherein: the soft material storage device comprises a material storage mechanism, a material taking mechanism and a limiting mechanism, wherein the material storage mechanism is used for storing soft materials and/or bagged springs, and the material taking mechanism is used for taking out the soft materials one by one from the material storage mechanism and then placing the soft materials into the limiting mechanism from the upper part of the limiting mechanism.