CN106145020B

CN106145020B - Material feeding unit of spring machine in bags

Info

Publication number: CN106145020B
Application number: CN201610643862.5A
Authority: CN
Inventors: 傅文斌
Original assignee: Foshan Yulun Machinery Co ltd
Current assignee: Guangdong Yulun Intelligent Technology Co ltd
Priority date: 2016-08-08
Filing date: 2016-08-08
Publication date: 2021-10-01
Anticipated expiration: 2036-08-08
Also published as: CN106145020A

Abstract

The invention provides a feeding device of a pocket spring machine, which can solve the problem of slow feeding speed of the existing equipment and comprises a bottom frame and a moving frame which is in sliding connection along the width direction of the bottom frame, wherein the moving frame comprises a lower moving frame and an upper moving frame which is in longitudinal sliding connection with the lower moving frame, a moving frame which is arranged along the length direction of the bottom frame is arranged between the upper moving frame and the lower moving frame, the moving frame comprises a first moving frame and a second moving frame which are horizontally parallel, and the first moving frame and the second moving frame are respectively provided with a conveying belt which is arranged oppositely up and down.

Description

Material feeding unit of spring machine in bags

Technical Field

The invention belongs to the technical field of gluing and forming of bagged spring bed nets of mattresses, and particularly relates to a feeding device of a bagged spring machine.

Background

After the bagged springs are produced, the springs in a row need to be glued together in a row to form a mattress, the bagged springs coming out of a spring machine need to be conveyed to a glue spraying mechanism in a row at the front end of gluing, a traditional feeding device adopts a driving lever mode, namely, the driving lever is adopted to convey the bagged springs forward one by one, and the feeding mode is slow in speed.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a feeding device of a pocket spring machine, which realizes continuous feeding and has high feeding speed.

In order to achieve the purpose, the technical scheme provided by the invention is as follows: the utility model provides a material feeding unit of spring machine in bags which characterized in that: including the chassis, follow chassis width direction constitutes sliding connection's removal frame, remove the frame including down the movable rack and rather than constitute vertical sliding connection's last movable rack, should go up the movable rack and be equipped with the edge down between the movable rack that chassis length direction set up, the movable rack includes the parallel first movable rack and the second movable rack of two levels, first movable rack includes corresponding first movable rack and the first movable rack down that sets up from top to bottom, the second movable rack includes corresponding second upper movable rack and the second lower movable rack that sets up from top to bottom, first upper movable rack with the movable rack is followed respectively on the second chassis length direction sliding connection in on the movable rack, first movable rack down with the movable rack is followed respectively under the second chassis length direction sliding connection in the movable rack down, first upper movable rack, The first lower movable frame, the second upper movable frame and the second lower movable frame are provided with a first upper conveying belt, a first lower conveying belt, a second upper conveying belt and a second lower conveying belt in a one-to-one correspondence manner, the chassis is provided with a first motor which is connected with a screw through a screw rod in a matching manner to drive the movable frame to move, one side of the lower movable frame is provided with a second motor which is connected with the screw rod in a matching manner to drive the upper movable frame to move up and down, a third motor is arranged between the first movable frame and the second movable frame and drives the first movable frame and the second movable frame to slide in opposite directions through the matching of a gear and a straight rack respectively arranged at two sides of the third motor, a fourth motor is arranged at the outer side of the first movable frame and drives the first upper conveying belt and the first lower conveying belt to synchronously move in the same direction through conical gears at two ends of a connecting rod, and a fifth motor is arranged on the outer side of the second movable frame and drives the second upper conveying belt and the second lower conveying belt to move in the same direction through conical gears at two ends of a connecting rod.

Preferably, the first upper conveying belt, the first lower conveying belt, the second upper conveying belt and the second lower conveying belt are respectively provided with a trumpet-shaped material guide opening at the inlet.

The invention has the following beneficial effects:

the two movable frames are switched to feed in sequence, so that continuous and rapid feeding is realized.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front view of the present invention;

fig. 3 is a left side view of the present invention.

In the figure: 100-base frame, 200-moving frame, 201-upper moving frame, 202-lower moving frame, 300-moving frame, 301-first moving frame, 302-second moving frame, 301 a-first upper moving frame, 301 b-first lower moving frame, 302 a-second upper moving frame, 302 b-second lower moving frame, 401-first upper conveyor belt, 402-first lower conveyor belt, 403-second upper conveyor belt, 404-second lower conveyor belt, 501-first motor, 502-second motor, 503-third motor, 504-fourth motor, 505-fifth motor.

Detailed Description

The invention will be further described with reference to the following drawings and specific embodiments:

referring to fig. 1 to 3, a feeding apparatus for a pocket spring machine includes a base frame 100, a moving frame 200 slidably coupled along a width direction of the base frame 100, the moving frame 200 including a lower moving frame 202 and an upper moving frame 201 slidably coupled to the lower moving frame in a longitudinal direction, the lower moving frame 202 being immovable, a moving frame 300 disposed along a length direction of the base frame 100 between the upper moving frame 201 and the lower moving frame 202, the moving frame 300 disposed between the upper moving frame 201 and the lower moving frame 202, the moving frame 300 including two horizontally parallel first moving frames 301 and second moving frames 302, the first moving frame 301 including a first upper moving frame 301a and a first lower moving frame 301b disposed corresponding to each other in an up-down direction, the second moving frame 302 including a second upper moving frame 302a and a second lower moving frame 302b disposed corresponding to each other in an up-down direction, the first upper moving frame 301a and the second upper moving frame 302a being slidably coupled to the upper moving frame 201 in a length direction of the base frame 100, the first lower movable frame 301b and the second lower movable frame 302b are slidably coupled to the lower movable frame 202 along the longitudinal direction of the base frame 100, respectively, a first upper conveyor belt 401 is provided on the first upper movable frame 301a, a first lower conveyor belt 402 is provided on the first lower movable frame 301b, a second upper conveyor belt 403 is provided on the second upper movable frame 302a, and a second lower conveyor belt 404 is provided on the second lower movable frame 302 b. A first motor 501 is arranged on the chassis 1 and drives the movable frame 200 to move through the matching connection of a screw rod and a nut, the output end of the first motor 501 is connected with the screw rod, the movable frame 200 is provided with a corresponding nut, one side of the lower movable frame 202 is provided with a second motor 502 and drives the upper movable frame 201 to move up and down through the matching connection of the screw rod and the nut, the output end of the second motor 502 is connected with the screw rod, the upper movable frame 201 is provided with a corresponding matched nut, a third motor 503 is arranged between the first movable frame 301 and the second movable frame 302, the third motor 503 is matched with straight racks respectively arranged at the two sides of the third motor by a gear and simultaneously drives the first movable frame 301 and the second movable frame 302 to slide in opposite directions, the side of the first movable frame 301 is provided with a straight rack, the side of the second movable frame 302 is also provided with a straight rack, the gear connected with the output end of the third motor 503 is arranged between the two racks and is engaged simultaneously, the fourth motor 504 is arranged outside the first movable frame 301, the fourth motor 504 drives the opposite conveyor belt surfaces of the first upper conveyor belt 401 and the first lower conveyor belt 402 to synchronously move in the same direction through the bevel gears at the two ends of the connecting rod, the fifth motor 505 is arranged outside the second movable frame 302 and drives the opposite conveyor belt surfaces of the second upper conveyor belt 403 and the second lower conveyor belt 404 to synchronously move in the same direction through the bevel gears at the two ends of the connecting rod, and the opposite side of the upper conveyor belt and the opposite side of the lower conveyor belt are synchronously moved in the same direction through the connection of the bevel gears, so that the bagged spring can be clamped and conveyed forwards.

Specifically, the inlets of the first upper conveyer belt 401, the first lower conveyer belt 402, the second upper conveyer belt 403 and the second lower conveyer belt 404 are respectively provided with a trumpet-shaped material guiding opening, so that the bagged springs can be conveniently fed in.

When the invention works: the bagged springs produced by the bagged spring machine enter through the trumpet-shaped material guide port and enter between the first upper conveying belt 401 and the second conveying belt 402, the bagged springs are conveyed vertically, the second motor controls the distance between the upper moving frame 201 and the lower moving frame 202, the adjustment can be properly carried out according to the heights of the bagged springs, after the bagged springs are conveyed, the third motor 503 works, the first upper conveying belt 401 and the first lower conveying belt 402 retract, the second conveying belt 403 and the second lower conveying belt 404 push forwards, meanwhile, the first motor 501 works, the moving frame 200 moves until the second conveying belt 401 and the second lower conveying belt 404 are in butt joint with the working position, the second bagged springs continue to be conveyed forwards, and the whole conveying process is fast and continuous in feeding.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that variations based on the shape and principle of the present invention should be covered within the scope of the present invention.

Claims

1. The utility model provides a material feeding unit of spring machine in bags which characterized in that: including chassis (100), follow chassis (100) width direction constitution sliding connection's removal frame (200), removal frame (200) is including moving frame (202) down and rather than constituting vertical sliding connection's last removal frame (201), should go up to be equipped with between removal frame (201) and the removal frame (202) down and follow the adjustable shelf (300) that chassis (100) length direction set up, adjustable shelf (300) are including parallel first adjustable shelf (301) and second adjustable shelf (302) of two levels, first adjustable shelf (301) are including corresponding first upper adjustable shelf (301a) and the first adjustable shelf (301b) that sets up from top to bottom, second adjustable shelf (302) are including corresponding second upper adjustable shelf (302a) and second lower adjustable shelf (302b) that sets up from top to bottom, first upper adjustable shelf (301a) and second upper adjustable shelf (302a) are respectively along chassis (100) length direction sliding connection in going up removal frame (201), the first lower movable frame (301b) and the second lower movable frame (302b) are respectively connected to the lower movable frame (202) in a sliding manner along the length direction of the bottom frame (100), the first upper movable frame (301a), the first lower movable frame (301b), the second upper movable frame (302a) and the second lower movable frame (302b) are correspondingly provided with a first upper conveying belt (401), a first lower conveying belt (402), a second upper conveying belt (403) and a second lower conveying belt (404) one by one, the bottom frame (100) is provided with a first motor (501) and is connected with a screw through a screw rod and the matching of the screw rod and the screw nut to drive the movable frame (200) to move, one side of the lower movable frame (202) is provided with a second motor (502) and is connected with the screw rod and the matching of the screw nut to drive the upper movable frame (201) to move up and down, a third motor (503) is arranged between the first movable frame (301) and the second movable frame (302), this third motor (503) drives simultaneously through the gear with the spur rack cooperation that is located its both sides respectively first adjustable shelf (301) with the second adjustable shelf (302) is the slip of opposite direction, first adjustable shelf (301) outside is equipped with fourth motor (504), and this fourth motor (504) drives simultaneously through the conical gear at connecting rod both ends first last conveyer belt (401) with synchronous syntropy action is done to its relative conveyer belt face of first conveyer belt (402) down, second adjustable shelf (302) outside is equipped with fifth motor (505), and this fifth motor (505) drives simultaneously through the conical gear at connecting rod both ends conveyer belt (403) and synchronous syntropy action is done to its relative conveyer belt face of second conveyer belt (404) down in the second.

2. The feeding device of a pocket spring machine according to claim 1, characterized in that: the inlets of the first upper conveying belt (401), the first lower conveying belt (402), the second upper conveying belt (403) and the second lower conveying belt (404) are respectively provided with a horn-shaped material guide opening.