CN209975156U - Sock setting machine - Google Patents

Abstract

The utility model discloses a sock setting machine, which comprises a device body, wherein the inside of the device body is provided with a setting chamber, the left side and the right side of the device body are respectively provided with an installation chamber, the top of the device body is provided with a mechanism chamber, the front side of the device body is provided with a cabinet door in a sealing way, the cabinet door is hinged with the device body, and a sealing strip is fixed on the cabinet door; the movable handcart is movably arranged in the shaping chamber, a placing frame is installed in the movable handcart, a steam injection mechanism is arranged in the installing chamber, and a steam generator is fixed in the mechanism chamber. A cross beam is transversely arranged on the movable handcart, and a clamping groove is formed in the cross beam; the placing rack consists of a clamping block, a connecting rod and a sock mold, wherein the clamping block is clamped in a clamping groove of the cross beam; the steam injection mechanism comprises a gas storage bin and a nozzle, the gas storage bin is fixedly installed in the installation chamber through a fixing plate, and the nozzle is located in the shaping chamber. This device can carry out the design operation to a large amount of socks simultaneously, and the simultaneous operation is more nimble, very big improvement design efficiency.

Description

Sock setting machine

Technical Field

The utility model relates to a forming machine especially relates to a socks forming machine.

Background

The socks are one of the most frequently used clothes in daily life, and in the production process, the knitted socks need to be shaped to ensure that the socks always keep a certain shape after passing through, so that the service life of the socks is prolonged. Generally, the sock is shaped mainly by using a shaping machine, and cotton threads of the sock are shaped by steam. However, the traditional sock setting machine has low setting efficiency, cannot set a large number of socks at the same time, not only causes the waste of steam, but also improves the production cost. In addition, in the traditional sock shaping operation process, the used sock molds are separated independently, so that the centralized operation is inconvenient, and the sock shaping work efficiency is further influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model provides a sock setting machine.

In order to solve the technical problem, the utility model discloses a technical scheme is: a sock setting machine comprises a device body, wherein a setting chamber is arranged inside the device body, mounting chambers are respectively arranged on the left side and the right side of the device body, a mechanism chamber is arranged at the top of the device body, a cabinet door is arranged on the front side of the device body in a sealing mode, the cabinet door is hinged to the device body, and sealing strips are fixed on the cabinet door;

a movable handcart is movably arranged in the shaping chamber, a placing frame is arranged in the movable handcart, a steam injection mechanism is arranged in the mounting chamber, and a steam generator is fixed in the mechanism chamber;

wheels are arranged at four corners of the bottom of the movable handcart, positioning sliding grooves are symmetrically fixed above the bottom of the shaping chamber, and the wheels are positioned in the positioning sliding grooves; the movable handcart comprises four upright posts, namely a first upright post, a second upright post, a third upright post and a fourth upright post, wherein cross beams are transversely arranged between the first upright post and the second upright post and between the third upright post and the fourth upright post 54, the cross beams are provided with a plurality of cross beams, and each cross beam is provided with a clamping groove;

the placing rack consists of a plurality of clamping blocks, a plurality of connecting rods and a plurality of sock molds, wherein the plurality of sock molds are rotatably arranged on the connecting rods, two ends of each connecting rod are respectively fixed on the clamping blocks, and the clamping blocks are clamped in clamping grooves of the cross beam;

the steam injection mechanism comprises a gas storage bin and a nozzle, two ends of the gas storage bin are respectively and fixedly connected with a fixing plate, and the gas storage bin is fixedly arranged in the mounting chamber through the fixing plates; the nozzle is positioned in the shaping chamber, through holes are formed in the left side wall and the right side wall of the shaping chamber, the nozzle penetrates through the through holes and is communicated with the gas storage bin, and a plurality of jet holes are formed in the head of the nozzle; the top of the gas storage bin is provided with a steam interface, and the gas storage bin is communicated with a steam generator through the steam interface.

Further, a plurality of nozzles of the steam injection mechanism are arranged, and the plurality of nozzles are horizontally arranged on the front side wall of the air storage bin.

Furthermore, the cross beams of the movable handcart and the nozzles of the steam injection mechanism are arranged alternately.

The utility model discloses a socks forming machine is equipped with supporting removal handcart and rack, can carry out the design operation to a large amount of socks simultaneously, very big improvement design efficiency to avoid the too much waste of steam, showing and having reduced manufacturing cost, create higher economic benefits. Simultaneously, rotatable a plurality of socks moulds of installing on the rack, the operation of socks cover on the socks mould of being convenient for to realize that a rack can hold more socks simultaneously and in order to carry out the design operation, further improved this socks forming machine's design efficiency.

Drawings

Fig. 1 is a schematic view of the internal structure of the present invention.

Fig. 2 is the schematic structural diagram of the movable handcart and the placing rack of the utility model.

Fig. 3 is a schematic structural diagram of the moving handcart in fig. 2.

Fig. 4 is a schematic structural view of the rack in fig. 2.

Fig. 5 is a schematic structural diagram of the steam injection mechanism of the present invention.

In the figure: 1. a shaping chamber; 2. an installation chamber; 3. a mechanism chamber; 4. a steam generator; 5. moving the handcart; 6. placing a rack; 7. a steam injection mechanism; 8. positioning the chute; 9. a cabinet door; 10. a sealing strip; 11. a through hole; 12. a heat dissipation window; 51. a first upright post; 52. a second upright post; 53. a third upright post; 54. column four; 55. a wheel; 56. a cross beam; 57. a card slot; 61. a clamping block; 62. a connecting rod; 63. a sock mold; 71. a gas storage bin; 72. a steam interface; 73. a fixing plate; 74. a nozzle; 75. and ejecting the hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

A sock setting machine comprises a device body, as shown in figure 1, a setting chamber 1 is arranged in the device body, installation chambers 2 are respectively arranged on the left side and the right side of the device body, and a mechanism chamber 3 is arranged at the top of the device body.

Wherein, the steam injection mechanism 7 as shown in fig. 5 is arranged in the mounting chamber 2, and the steam injection mechanism 7 can inject steam for realizing the shaping of socks. A steam generator 4 is fixed in the mechanism chamber 3, and the steam generator 4 generates hot steam and transmits the hot steam to a steam injection mechanism 7.

The shaping chamber 1 mainly performs shaping operation, a movable handcart 5 shown in figure 3 is movably arranged in the shaping chamber 1, a placing frame 6 shown in figure 4 is arranged in the movable handcart 5, socks are sleeved on the placing frame 6, the placing frame 6 is arranged on the movable handcart 5 (shown in figure 2), and the movable handcart 5 is pushed into the shaping chamber 1 so as to perform shaping operation. Simultaneously, the sealed cabinet door 9 that is provided with in front side of device body, cabinet door 9 and the articulated and cabinet door 9 of device body are gone up and are fixed with sealing strip 10, can effectively improve cabinet door 9's leakproofness through fixing strip 10.

To removing handcart 5, can remove in a flexible way, it is very convenient to use, as shown in fig. 3, four angles departments in the bottom of removing handcart 5 all are provided with wheel 55, the bottom top symmetry of design room 1 is fixed with location spout 8, wheel 55 is located location spout 8, when removing handcart 5 and getting into design room 1 from this, wheel 55 that removes handcart 5 slides along location spout 8, can realize quick location, and close behind the cabinet door 9, can prevent to remove handcart 5 and remove everywhere in design room 1. Remove handcart 5 and include four stands, be stand 51 No. one respectively, No. two stands 52, No. three stand 53, No. four stands 54, between stand 51 and No. two stands 52, No. three stand 53 and No. four stands 54 all transversely are provided with crossbeam 56, draw-in groove 57 has been seted up on the crossbeam, draw-in groove 57 provides the site for rack 6's installation, set up a plurality of draw-in grooves on a crossbeam and crossbeam 56 can be provided with many, thereby the more racks of mountable, realize the operation of finalizing the design to a large amount of socks simultaneously, the efficiency of finalizing the design has not only been improved, and avoid the waste of steam use, and the production cost is reduced.

With the rack 6, it is mainly used to hold and spread the socks for the sizing operation. As shown in fig. 3, the placing frame 6 is composed of a fixture block 61, a plurality of connecting rods 62 and a plurality of sock molds 63, the socks are sleeved on the sock molds 63, the plurality of sock molds 63 are arranged, and the sock molds 63 are rotatably mounted on the connecting rods 62; secondly, the rotatable installation of socks mould 63 is on connecting rod 62 for the activity of socks mould 62 is more nimble, has made things convenient for the socks cover to establish the operation on the socks mould, and simultaneously, the socks after also being convenient for stereotype are concentrated and are collected, effectual improvement work efficiency. Meanwhile, two ends of the connecting rod 62 are respectively fixed on the clamping blocks 61, the clamping blocks 61 are clamped in the clamping grooves 57 of the cross beam 56, and the placing frame 6 is convenient to take through the clamping of the clamping blocks 62 and the clamping grooves 57.

With the steam injection mechanism 7, hot steam generated by the steam generator 4 is injected to steam-set the socks on the sock molds 63 of the rack 6. As shown in fig. 5, the steam injection mechanism 7 includes a gas storage bin 71 and a nozzle 74, a steam connector 72 is disposed at the top of the gas storage bin 71, the gas storage bin 71 is communicated with the steam generator 4 through the steam connector 72, so that the hot steam generated by the steam generator 4 can enter the gas storage bin 71, and the gas storage bin 71 is communicated with the nozzle 74, so that the hot steam is injected through the nozzle. The two ends of the air storage bin 71 are respectively and fixedly connected with a fixing plate 73, and the air storage bin 71 is fixedly arranged in the installation chamber 2 through the fixing plates 73; the nozzle 74 is located the design chamber 1 to in spraying hot steam and stereotype, all seted up through-hole 11 on the left side wall of design chamber 1, the right side wall, the nozzle 74 passes through-hole 11 and is linked together with gas storage bin 71, a plurality of jet orifices 75 have been seted up to the head of nozzle 74, jet orifice 75 makes the more even injection of hot steam, effectively improves the design effect. Meanwhile, a plurality of nozzles 74 of the steam injection mechanism 7 may be provided, and the plurality of nozzles may be horizontally arranged on the front side wall of the gas storage bin 71 to increase the injection area. In addition, to ensure efficient injection of the hot vapor, the cross member 56 of the moving hand truck 5 is arranged at intervals with the nozzle 74 of the vapor injection mechanism 7 to avoid the cross member 56 from blocking smooth injection of the hot vapor.

The utility model discloses a sock setting machine, its concrete working process is: firstly, socks are sleeved on a sock mold 63 of the placing frame 6 through manual operation, and the placing frame 6 is mounted on the movable handcart 6 through the clamping effect of the clamping block 61 and the clamping groove 57; after the installation is finished, the movable handcart 6 is pushed, the wheels 55 enter the sizing chamber 1 along the positioning chutes 9, and then the cabinet door 9 is closed; and (3) opening the steam generator 4, sending the generated hot steam into the air storage bin 71 of the steam injection mechanism 7 by the steam generator 4, and injecting the hot steam into the shaping chamber 1 through the nozzle for steam shaping.

The above embodiments are not intended to limit the present invention, and the present invention is not limited to the above examples, and the technical personnel in the technical field are in the present invention, which can also belong to the protection scope of the present invention.

Claims (3)

1. The utility model provides a socks forming machine, includes the device body, its characterized in that: the device comprises a device body, wherein a shaping chamber (1) is arranged inside the device body, an installation chamber (2) is respectively arranged on the left side and the right side of the device body, a mechanism chamber (3) is arranged at the top of the device body, a cabinet door (9) is arranged on the front side of the device body in a sealing mode, the cabinet door (9) is hinged to the device body, and a sealing strip (10) is fixed on the cabinet door (9);

a movable handcart (5) is movably arranged in the shaping chamber (1), a placing frame (6) is arranged in the movable handcart (5), a steam injection mechanism (7) is arranged in the mounting chamber (2), and a steam generator (4) is fixed in the mechanism chamber (3);

wheels (55) are arranged at four corners of the bottom of the movable handcart (5), positioning chutes (8) are symmetrically fixed above the bottom of the shaping chamber (1), and the wheels (55) are positioned in the positioning chutes (8); the movable handcart (5) comprises four upright posts, namely a first upright post (51), a second upright post (52), a third upright post (53) and a fourth upright post (54), wherein cross beams (56) are transversely arranged between the first upright post (51) and the second upright post (52) and between the third upright post (53) and the fourth upright post (54), the cross beams (56) are provided with a plurality of cross beams, and each cross beam is provided with a clamping groove (57);

the storage rack (6) is composed of a plurality of clamping blocks (61), a plurality of connecting rods (62) and a plurality of sock molds (63), the plurality of sock molds are rotatably mounted on the connecting rods (62), two ends of each connecting rod (62) are respectively fixed on the corresponding clamping block (61), and the clamping blocks (61) are clamped in clamping grooves (57) of the cross beam (56);

the steam injection mechanism (7) comprises a gas storage bin (71) and a nozzle (74), two ends of the gas storage bin (71) are respectively and fixedly connected with a fixing plate (73), and the gas storage bin (71) is fixedly arranged in the mounting chamber (2) through the fixing plate (73); the spray nozzle (74) is positioned in the shaping chamber (1), through holes (11) are formed in the left side wall and the right side wall of the shaping chamber (1), the spray nozzle (74) penetrates through the through holes (11) and is communicated with the air storage bin (71), and a plurality of spray holes (75) are formed in the head of the spray nozzle (74); the top of the gas storage bin (71) is provided with a steam interface (72), and the gas storage bin (71) is communicated with the steam generator (4) through the steam interface (72).

2. A sock setter as set forth in claim 1, wherein: the steam injection mechanism (7) is provided with a plurality of nozzles (74), and the plurality of nozzles are horizontally arranged on the front side wall of the air storage bin (71).

3. A sock setter as claimed in claim 2, wherein: the cross beams (56) of the movable handcart (5) and the nozzles (74) of the steam injection mechanism (7) are arranged at intervals.

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