CN211334267U

CN211334267U - Foam compression device is used in shoe-pad production

Info

Publication number: CN211334267U
Application number: CN201921809680.6U
Authority: CN
Inventors: 王伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-10-25
Filing date: 2019-10-25
Publication date: 2020-08-25
Anticipated expiration: 2029-10-25

Abstract

The utility model belongs to shoe-pad apparatus for producing field, especially, a foam compression device is used in shoe-pad production, low to current foam compression device's production efficiency, can not compress the foam in a plurality of moulds simultaneously, and the foam can not obtain the problem of intensive mixing, the following scheme is proposed now, and it includes the base, the top fixed mounting of base has a plurality of mould boxes, and the top of a plurality of mould boxes is the opening, and the top fixed mounting of base has two fixed plates, and the fixed orifices has all been seted up to one side that two fixed plates are close to each other, and equal slidable mounting has the carriage release lever in two fixed orifices, and the one end fixed mounting that two carriage release levers are close to each other has same connecting plate, the bottom fixed mounting of connecting plate has a plurality of installation poles. The utility model discloses rational in infrastructure, convenient operation, this foam compression device's production efficiency is high, can compress the foam in a plurality of moulds simultaneously, and the foam can obtain the intensive mixing and mix.

Description

Foam compression device is used in shoe-pad production

Technical Field

The utility model relates to a shoe-pad apparatus for producing technical field especially relates to a foam compressor arrangement is used in shoe-pad production.

Background

Along with the improvement of economic level, the development of industrial technology is faster and faster, the technological manufacturing level of the insole is also gradually improved, the insole made of foam material is popular with numerous users due to low manufacturing cost and good using effect, and plays a very important role in the market, the foam compression is an important processing part in the production process of the foam insole, and a common foam compressor consists of a simple upper die and a simple lower die;

however, the conventional foam compressing apparatus has low productivity, cannot compress foams in a plurality of molds at the same time, and cannot sufficiently stir and mix the foams.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the production efficiency that has foam compressor arrangement among the prior art and being low, can not compress the foam in a plurality of moulds simultaneously, and the foam can not obtain the shortcoming that intensive mixing mixes, and the foam compressor arrangement is used in shoe-pad production that proposes.

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

a foam compression device for insole production comprises a base, wherein a plurality of mold boxes are fixedly mounted at the top of the base, the tops of the mold boxes are all open, two fixed plates are fixedly mounted at the top of the base, one sides of the two fixed plates, which are close to each other, are respectively provided with a fixed hole, moving rods are respectively and slidably mounted in the two fixed holes, one ends of the two moving rods, which are close to each other, are fixedly mounted with a same connecting plate, the bottom of the connecting plate is fixedly mounted with a plurality of mounting rods, the bottom ends of the mounting rods are respectively and fixedly mounted with a pressing plate, the pressing plates are matched with the corresponding mold boxes, the top of the connecting plate is fixedly mounted with a material box, the inner walls at the two sides of the material box are respectively provided with a through hole, rotating rods are respectively and rotatably mounted in the two through holes, two racks are fixedly mounted at the top of the base and meshed with corresponding gears.

Preferably, fixedly connected with seal bearing in the through-hole, the dwang is fixed to be cup jointed in seal bearing's interior epaxial, and the dwang is at seal bearing internal rotation, can guarantee the leakproofness of workbin, position when can stabilizing the dwang rotation simultaneously.

Preferably, the feed port has all been seted up on one side inner wall of a plurality of mould boxes, equal fixedly connected with inlet pipe in a plurality of feed ports, fixedly connected with hose on the discharge gate of workbin, the one end fixed connection of inlet pipe is on the hose, in the material in the workbin gets into the mould box through hose and inlet pipe, the feeding of accessible electrically controlled valve control inlet pipe.

Preferably, the rotation hole has all been seted up to one side that two fixed plates are close to each other, the connecting rod is installed to two dwang internal rotations, the equal fixed mounting in both ends of connecting rod has first belt pulley, one side that two fixed plates kept away from each other all rotates and installs the second belt pulley, the equal fixedly connected with servo motor of opposite side of fixed plate, the motor drives the second belt pulley and rotates, the second belt pulley drives the belt motion, the belt drives first belt pulley and rotates, first belt pulley drives the connecting rod and rotates.

Preferably, servo motor's output shaft fixed connection is on the second belt pulley, and the second belt pulley has same belt with the first belt pulley meshing that corresponds, equal fixedly connected with dead lever on two belts, and two pressure spring grooves have all been seted up to one side that two carriage release levers kept away from each other, and the belt drives corresponding dead lever and removes, and the dead lever drives the control lever that corresponds and removes, and the control lever drives the carriage release lever that corresponds and removes.

Preferably, the control rods are arranged in the two pressure spring grooves in a sliding mode, the control rods are matched with the corresponding fixing rods, the pressure springs are welded at the ends, far away from the two control rods, of the two control rods, one ends of the pressure springs are welded on the inner walls of the corresponding pressure spring grooves, the control rods slide in the pressure spring grooves and press the pressure springs, and the control rods can be driven to reset and move under the elastic action of the pressure springs.

Compared with the prior art, the beneficial effects of the utility model reside in that:

(1) according to the scheme, the servo motor drives the second belt pulley to rotate, the second belt pulley drives the belt to move, the first belt pulley drives the connecting rod to rotate, the first belt pulley drives the corresponding belt to move, the fixed rod drives the corresponding control rod to move, the moving rod stops moving after moving to the inner wall of the corresponding fixed hole, and the control rod slides in the pressure spring groove and presses the pressure spring;

(2) according to the scheme, the control rod can be driven to reset and move through the elastic action of the pressure spring, so that the moving rod drives the connecting plate to move back and forth in a reciprocating manner, the pressure plate extrudes foam in the corresponding die box, the connecting plate drives the material box to move back and forth up and down, the material box drives the two gears to move back and forth, the gears drive the corresponding rotating rods to rotate, and the stirring blades are used for mixing and stirring materials in the material box;

the utility model discloses rational in infrastructure, convenient operation, this foam compression device's production efficiency is high, can compress the foam in a plurality of moulds simultaneously, and the foam can obtain the intensive mixing and mix.

Drawings

FIG. 1 is a schematic view of a foam compression device for producing insoles according to the present invention;

FIG. 2 is a schematic structural view of part A of a foam compression device for producing insoles, which is provided by the present invention;

fig. 3 is a schematic structural view of a part B of the foam compression device for producing insoles, which is provided by the utility model.

In the figure: 1. a base; 2. a mold box; 3. a fixing plate; 4. a fixing hole; 5. a travel bar; 6. a connecting plate; 7. pressing a plate; 8. a material box; 9. rotating the rod; 10. a stirring blade; 11. a gear; 12. a rack; 13. a connecting rod; 14. a first pulley; 15. a second pulley; 16. a servo motor; 17. a belt; 18. fixing the rod; 19. a control lever; 20. and (5) pressing a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a foam compression device for insole production comprises a base 1, wherein a plurality of mold boxes 2 are fixedly installed at the top of the base 1, the tops of the mold boxes 2 are all open, two fixed plates 3 are fixedly installed at the top of the base 1, fixed holes 4 are respectively formed in the mutually close sides of the two fixed plates 3, moving rods 5 are respectively installed in the two fixed holes 4 in a sliding manner, the mutually close ends of the two moving rods 5 are fixedly provided with a same connecting plate 6, a plurality of installation rods are fixedly installed at the bottom of the connecting plate 6, pressing plates 7 are respectively and fixedly installed at the bottom ends of the installation rods, the pressing plates 7 are matched with the corresponding mold boxes 2, a material box 8 is fixedly installed at the top of the connecting plate 6, through holes are respectively formed in the inner walls at the two sides of the material box 8, rotating rods 9 are respectively and rotatably installed in the two through holes, the equal fixedly connected with gear 11 of one end that two dwang 9 kept away from each other, the top fixed mounting of base 1 has two racks 12, rack 12 and the gear 11 meshing that corresponds.

In this embodiment, fixedly connected with seal bearing in the through-hole, dwang 9 is fixed cup joints in seal bearing's interior epaxial, and dwang 9 can guarantee workbin 8's leakproofness at seal bearing internal rotation, can stabilize the position when dwang 9 rotates simultaneously.

In this embodiment, all seted up the feed port on one side inner wall of a plurality of mould boxes 2, equal fixedly connected with inlet pipe in a plurality of feed ports, fixedly connected with hose on the discharge gate of workbin 8, the one end fixed connection of inlet pipe is on the hose, and the material in the workbin 8 is through hose and inlet pipe entering mould box 2 in, the feeding of accessible electric control valve control inlet pipe.

In this embodiment, the rotation hole has all been seted up to one side that two fixed plates 3 are close to each other, connecting rod 13 is installed to two dwang internal rotations, the equal fixed mounting in both ends of connecting rod 13 has first belt pulley 14, one side that two fixed plates 3 kept away from each other all rotates and installs second belt pulley 15, the equal fixedly connected with servo motor 16 of the opposite side of fixed plate 3, servo motor 16 drives second belt pulley 15 and rotates, second belt pulley 15 drives the belt 17 motion, belt 17 drives first belt pulley 14 and rotates, first belt pulley 14 drives connecting rod 13 and rotates.

In this embodiment, output shaft fixed connection of servo motor 16 is on second belt pulley 15, second belt pulley 15 has same belt 17 with the meshing of the first belt pulley 14 that corresponds, equal fixedly connected with dead lever 18 on two belt 17, two pressure spring grooves have all been seted up to one side that two carriage release levers 5 kept away from each other, belt 17 drives the dead lever 18 that corresponds and removes, dead lever 18 drives the control lever 19 that corresponds and removes, control lever 19 drives the carriage release lever 5 that corresponds and removes.

In this embodiment, equal slidable mounting has control lever 19 in two pressure spring inslots, and control lever 19 and the dead lever 18 looks adaptation that corresponds, and the pressure spring 20 has all been welded to the one end that two control levers 19 kept away from each other, and the one end welding of pressure spring 20 is on the inner wall in the pressure spring groove that corresponds, and control lever 19 slides and presses pressure spring 20 in the pressure spring inslot, and the elastic action of pressure spring 20 can drive control lever 19 and reset and remove.

In this embodiment, the servo motor 16 drives the second belt pulley 15 to rotate, the second belt pulley 15 drives the belt 17 to move, the belt 17 drives the first belt pulley 14 to rotate, the first belt pulley 14 drives the connecting rod 13 to rotate, the connecting rod 13 drives the other first belt pulley 14 to rotate, the first belt pulley 14 drives the corresponding belt 17 to move, the belt 17 drives the corresponding fixing rod 18 to move, the fixing rod 18 drives the corresponding control rod 19 to move, the control rod 19 drives the corresponding moving rod 5 to move, the moving rod 5 stops moving after moving to the inner wall of the corresponding fixing hole 4, the fixing rod 18 extrudes the control rod 19 and moves to the other side of the belt 17, the control rod 19 slides in the pressure spring groove and presses the pressure spring 20, the control rod 19 can be driven to reset and move by the elastic action of the pressure spring 20, the control rod 19 drives the other fixing rod 18 to move, so as to reciprocate to drive the moving rod 5 to drive the connecting, connecting plate 6 drives a plurality of clamp plates 7 and moves down, and the foam in the mould box 2 that the extrusion of clamp plate 7 corresponds, round trip movement about connecting plate 6 drive workbin 8, and workbin 8 drives two gear 11 round trip movement, and gear 11 meshes and rotates on the rack 12 that corresponds, and gear 11 drives the dwang 9 that corresponds and rotates, and dwang 9 drives the stirring vane 10 that corresponds and rotates, and stirring vane 10 mixes the stirring to the material in the workbin 8, the utility model discloses rational in infrastructure, convenient operation, this foam compression device's production efficiency is high, can compress the foam in a plurality of moulds simultaneously, and the foam can obtain intensive mixing.

Claims

1. A foam compression device for insole production comprises a base (1) and is characterized in that a plurality of mold boxes (2) are fixedly mounted at the top of the base (1), the tops of the mold boxes (2) are open, two fixed plates (3) are fixedly mounted at the top of the base (1), one sides of the two fixed plates (3) close to each other are respectively provided with a fixed hole (4), moving rods (5) are respectively slidably mounted in the two fixed holes (4), one ends of the two moving rods (5) close to each other are fixedly provided with a same connecting plate (6), a plurality of mounting rods are fixedly mounted at the bottom of the connecting plate (6), pressing plates (7) are respectively fixedly mounted at the bottoms of the mounting rods, the pressing plates (7) are matched with the corresponding mold boxes (2), a material box (8) is fixedly mounted at the top of the connecting plate (6), and through holes are respectively formed in the inner walls of two sides of the material box (8), all rotate in two through-holes and install dwang (9), two stirring vane (10) of equal fixedly connected with on two dwang (9), the equal fixedly connected with gear (11) of one end that two dwang (9) kept away from each other, the top fixed mounting of base (1) has two racks (12), rack (12) and gear (11) meshing that corresponds.

2. The foam compressing device for producing insoles of claim 1, wherein a sealing bearing is fixedly connected in the through hole, and the rotating rod (9) is fixedly sleeved on an inner shaft of the sealing bearing.

3. The foam compression device for producing insoles according to claim 1, wherein the inner wall of one side of each of the plurality of die boxes (2) is provided with a feeding hole, the feeding holes are fixedly connected with a feeding pipe, the discharging hole of the material box (8) is fixedly connected with a hose, and one end of the feeding pipe is fixedly connected with the hose.

4. The foam compression device for producing insoles according to claim 1, wherein rotating holes are formed in the sides, close to each other, of the two fixing plates (3), connecting rods (13) are rotatably mounted in the two rotating rods, first belt pulleys (14) are fixedly mounted at the two ends of the connecting rods (13), second belt pulleys (15) are rotatably mounted on the sides, far away from each other, of the two fixing plates (3), and servo motors (16) are fixedly connected to the other sides of the fixing plates (3).

5. The foam compression device for producing insoles according to claim 4, wherein an output shaft of the servo motor (16) is fixedly connected to the second belt pulley (15), the second belt pulley (15) is engaged with the corresponding first belt pulley (14) to form a same belt (17), the two belts (17) are both fixedly connected with fixing rods (18), and two pressure spring grooves are respectively formed in the sides of the two movable rods (5) far away from each other.

6. The foam compression device for producing insoles, according to claim 5, wherein control rods (19) are slidably mounted in the two pressure spring grooves, the control rods (19) are matched with the corresponding fixing rods (18), the pressure springs (20) are welded at the ends of the two control rods (19) far away from each other, and one ends of the pressure springs (20) are welded on the inner walls of the corresponding pressure spring grooves.