CN212172794U - Automatic efficient bag breaking and discharging device for white sugar feeding - Google Patents

Abstract

The utility model discloses an automatic high-efficient broken package discharge apparatus for white sugar is thrown material, including white sugar conveying mechanism, the broken package mechanism of cutting knife, bag material sieve mechanism and frame, white sugar conveying mechanism, the broken package mechanism of cutting knife and bag material sieve mechanism are all fixed in the frame, and bag material sieve mechanism is located the below of the broken package mechanism of cutting knife, and white sugar conveying mechanism meets with the entrance of the broken package mechanism of cutting knife, and the position that lies in bag material sieve mechanism below in the frame is provided with the white sugar discharge gate, and broken package mechanism includes a translation knife rest, the translation knife rest is just to the pan feeding mouth of the broken package mechanism of cutting knife. The utility model has the advantages that: the integrated design is adopted, the cutting knife bag breaking mechanism adopts the translation knife rest to break bags, the bag breaking area is large, the emptying rate is high, broken filaments are few during bag breaking, the screening mechanism adopts the movable screen cloth and the double-layer reciprocating screen, three-time screening is carried out, broken filaments of materials are thoroughly separated, bag breaking and screening are carried out simultaneously, automatic high-efficiency bag breaking of white sugar is realized, and food safety is guaranteed simultaneously.

Description

Automatic efficient bag breaking and discharging device for white sugar feeding

Technical Field

The utility model relates to a broken package discharge apparatus especially relates to a broken package discharge apparatus of automatic high efficiency that is used for white sugar to throw the material.

Background

In the prior art, the scale of industrial production of food is large, the daily usage amount of white sugar is large, the traditional manual white sugar feeding mode is high in efficiency due to high labor intensity and low feeding precision, and the problem that white sugar breaking is the primary solution of white sugar conveying and feeding is solved. Present broken package mode is mostly single round saw sword, one row or double round saw sword, has if broken package area is little, the shredded many, the problem of inefficiency, and present screening mode is mostly single drum sieve, shale shaker or fixed screen cloth, has that the material clearance is low, shredded more problem that gets into the material, especially to the food industry, the braided bag shredded that the broken package of material produced has great influence to food safety.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is how to improve the broken package efficiency of unloading in the white sugar course of working, to the above-mentioned technical problem that will solve, present a broken package discharge apparatus of automatic high efficiency that is used for white sugar to throw the material.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an automatic high-efficient broken package discharge apparatus for white sugar is thrown material, includes white sugar conveying mechanism, cutting knife broken package mechanism, bag material sieve mechanism and frame, white sugar conveying mechanism, cutting knife broken package mechanism and bag material sieve mechanism are all fixed in the frame, bag material sieve mechanism is located the below of the broken package mechanism of cutting knife, white sugar conveying mechanism meets with the entrance of the broken package mechanism of cutting knife, the position that lies in bag material sieve mechanism below in the frame is provided with the white sugar discharge gate, broken package mechanism includes a cutting knife rest, the translation knife rest is just to the pan feeding mouth of broken package mechanism of cutting knife.

Further, white sugar conveying mechanism includes conveyer roller, pinch roller and belt, the belt is around on the conveyer roller, conveyer roller drive belt rotates, the pinch roller is pressed on the belt, the conveyer roller passes through to rotate between bearing and the frame and is connected, the pinch roller passes through to be connected between connecting piece and the frame, pass through the bearing connection between pinch roller and this connecting piece.

Further, the cutting knife bag breaking mechanism comprises a bag breaking machine inlet, bag breaking transmission rollers, chains, a translation knife rest, a bag breaking machine frame and a knife rest driving mechanism, the bag breaking machine frame is a box type frame, the bag breaking machine inlet is located at the front end of the bag breaking machine frame, the bag breaking transmission rollers are located above the inner side of the bag breaking machine frame, the bag breaking transmission rollers are located above the bag breaking machine inlet, the bag breaking transmission rollers are arranged opposite to the bag breaking machine inlet, the bag breaking transmission rollers are provided with two bag breaking transmission rollers, the two bag breaking transmission rollers are connected through the chains in a transmission mode, the translation knife rest is opposite to the bag breaking machine inlet, the translation knife rest is in transmission connection with the knife rest driving mechanism and driven by the translation knife rest driving mechanism, and the bag breaking machine frame is.

Further, the tool rest driving mechanism comprises three hanger eccentric shafts and three tool rest transmission shafts, the three tool rest transmission shafts are rotatably connected with the bag breaker rack through bearings, two ends of each hanger eccentric shaft are rotatably connected to the tool rest transmission shafts and the translation tool rests respectively, the three tool rest transmission shafts are connected with the front end, the middle position and the rear end of the translation tool rest respectively, and the tool rest transmission shafts in the middle positions are connected with the driving part.

Further, PVC dustproof curtains are arranged at the inlets of the white sugar discharge port and the bag breaking machine.

Further, the bag material screening mechanism comprises a movable screen and a double-layer reciprocating screen, the movable screen is arranged below a knife edge of the translation knife rest, a mesh belt of the movable screen and a blade of the translation knife rest are arranged at intervals, and the double-layer reciprocating screen is arranged below the movable screen.

Further, the rear end of the rack is provided with an empty bag outlet and a shredded tobacco outlet, the empty bag outlet is arranged relative to the movable screen, the shredded tobacco outlet is arranged relative to the double-layer reciprocating sieve, a guide bag baffle is arranged between the empty bag outlet and the movable screen, a guide wire baffle is arranged between the shredded tobacco outlet and the double-layer reciprocating sieve, and the guide bag baffle and the guide wire baffle are respectively and fixedly connected with the rack.

Furthermore, one end of the double-layer reciprocating sieve is provided with a reciprocating sieve eccentric shaft, the reciprocating sieve eccentric shaft is connected with the double-layer reciprocating sieve through a connecting rod, the reciprocating sieve eccentric shaft is respectively connected with the rack and the connecting rod in a rotating manner, the connecting rod is connected with the double-layer reciprocating sieve in a rotating manner, and the reciprocating sieve eccentric shaft is connected with a driving piece in a connecting manner.

Furthermore, the double-layer reciprocating sieve is obliquely arranged on the rack, rollers are arranged between the double-layer reciprocating sieve and the rack, the double-layer reciprocating sieve slides on the rack in a reciprocating mode through the rollers, and an elastic shifting sheet is arranged below the double-layer reciprocating sieve.

Furthermore, two rows of splayed baffles are arranged on the screen mesh of the double-layer reciprocating sieve, a damping spring is arranged at the rear end of the double-layer reciprocating sieve, a material guide baffle is arranged between the movable screen mesh and the double-layer reciprocating sieve, the material guide baffle is arranged below the translation knife rest, and the material guide baffle is fixedly connected with the rack.

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

the utility model discloses a broken package of white sugar and the integration design of bag material screening, the overall design is compact, small, the broken package mechanism of cutting knife adopts the translation knife rest to break the package, broken package area is big, the empty rate is high, shredded silk produces fewly when breaking the package, screening mechanism adopts one deck movable screen cloth and double-deck reciprocating sieve, the cubic screening, hierarchical screening, one sieves out empty bag, shredded silk is removed to two sieves, three sieves pick up the hourglass, the separating rate is fast efficient, screening is effectual, the separation of material shredded silk is thorough, broken package and screening go on simultaneously, the automatic high-efficient broken package and the bag material screening of realizing white sugar, broken package action of unloading is automatic going on in sealed frame, reduce shredded silk, the pollution of dust etc. to white sugar, realize the automatic high-efficient broken package of white sugar, guarantee food safety simultaneously.

Drawings

Fig. 1 is a schematic side view of the present invention;

fig. 2 is a perspective view of the internal structure of the present invention;

fig. 3 is a schematic structural view of a white sugar conveying mechanism in the present invention;

FIG. 4 is a schematic structural view of a bale breaking transmission roller in the present invention;

fig. 5 is a schematic structural view of a movable screen according to the present invention;

fig. 6 is a schematic structural view of a double-layer reciprocating sieve in the present invention;

fig. 7 is a schematic structural diagram of a tool rest driving mechanism according to the present invention.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-6, the present embodiment discloses an automatic efficient bag breaking and discharging device for white sugar feeding, which comprises a white sugar conveying mechanism, a cutting knife bag breaking mechanism, a bag material sieving mechanism and a frame 4, wherein the white sugar conveying mechanism, the cutting knife bag breaking mechanism and the bag material sieving mechanism are all fixed on the frame 4, the bag material sieving mechanism is located below the cutting knife bag breaking mechanism, the white sugar conveying mechanism is connected with an inlet of the cutting knife bag breaking mechanism, a white sugar discharge port 21 is arranged on the frame 4 below the bag material sieving mechanism, the cutting knife bag breaking mechanism comprises a flat knife rest 11, and the flat knife rest 11 is opposite to a feeding port of the cutting knife bag breaking mechanism. The white sugar discharge port 21 is positioned below the double-layer reciprocating sieve 23 and used for outputting white sugar;

the cutting knife bag breaking mechanism comprises a bag breaking machine inlet 7, bag breaking transmission rollers 8, chains 9, a translation knife rest 11, a bag breaking machine frame 27 and a knife rest driving mechanism 10, the bag breaking machine frame 27 is a box-type frame, the bag breaking machine inlet 7 is located at the front end of the bag breaking machine frame 27, the bag breaking transmission rollers 8 are located above the inner side of the bag breaking machine frame 27, the bag breaking transmission rollers 8 are located above the bag breaking machine inlet 7, the bag breaking transmission rollers 8 are arranged opposite to the bag breaking machine inlet 7, the two bag breaking transmission rollers 8 are in transmission connection through the chains 9, the translation knife rest 11 is right opposite to the bag breaking machine inlet 7, the translation knife rest 11 is in transmission connection with the knife rest driving mechanism 10 and driven by the knife rest driving mechanism, and the bag breaking machine frame 27 is arranged above the frame 4. The bale breaker frame 27 may be integrally formed with the frame 4 or may be connected by a fixed connection such as welding.

The tool rest driving mechanism 10 comprises three hanger eccentric shafts 101 and three tool rest transmission shafts 102, the three tool rest transmission shafts 102 are rotatably connected with the bag breaker frame 27 through bearings, two ends of each hanger eccentric shaft 101 are rotatably connected to the tool rest transmission shafts 102 and the translation tool rests 11 respectively, the three tool rest transmission shafts 102 are connected with the front ends, the middle positions and the rear ends of the translation tool rests 11 respectively, the tool rest transmission shaft 102 in the middle position is connected with a driving piece, and the tool rest transmission shaft 102 in the middle position can be connected with a driving motor to drive and rotate. The knife rest 11 is composed of a row of long blades, the knife rest 11 is installed on the bag breaker frame 27 and located behind the transmission roller 8, the knife rest 11 is controlled to move in a translation mode by a parallelogram mechanism composed of three rows of knife rest eccentric shafts 101, the middle knife rest transmission shaft 102 drives the three rows of knife rest eccentric shafts 101 during working, and therefore the knife rest 11 is driven to cut in a translation mode, the bag breaking effect is good, the emptying rate is high, and broken wires are few.

Feasible, white sugar conveying mechanism includes conveyer roller 1, pinch roller 2 and belt 3, and belt 3 is around on conveyer roller 1, and conveyer roller 1 drive belt 3 rotates, and pinch roller 2 presses on belt 3, and conveyer roller 1 rotates between bearing and the frame 4 to be connected, and pinch roller 2 is connected between connecting piece and the frame 4, connects through the bearing between pinch roller 2 and this connecting piece. Conveyer roller 1 can be driven by a band conveyer, it can be driven by servo drive motor, a transport for bagged white sugar, this conveyer adopts the band conveyer of "Z" font, band conveyer includes belt 3, conveyer roller 1, pinch roller 2, conveyer roller 1 is installed in frame 4, belt 3 winds on conveyer roller 1, install pinch roller 2 in "Z" font department of bending, band conveyer is connected with bale breaker entry 7, drive belt 3 transmission through conveyer roller 1 transmission, carry bagged white sugar to bale breaker entry 7, transmission roller 8 has the awl, be equipped with the sprocket on two rollers, adopt chain 9 linkage transmission, transmission roller 8 is located bale breaker entry 7 top, a transport for further carry bagged white sugar to knife rest 11 top.

Preferably, the white sugar discharge port 21 and the bag breaker inlet 7 are both provided with a PVC dustproof curtain 15, and the PVC dustproof curtain 15 can effectively prevent dust from entering the device to pollute the white sugar.

The bag material screening mechanism comprises a movable screen 12 and a double-layer reciprocating screen 23, the movable screen 12 is arranged below a knife edge of the translation knife rest 11, a mesh belt of the movable screen 12 and a blade of the translation knife rest 11 are arranged at intervals, and the double-layer reciprocating screen 23 is arranged below the movable screen 12.

Preferably, the movable screen 12 can be a strip-shaped net, screen bars and blades of the screen are distributed at intervals, the movable screen 12 is supported by a first screen support 6 and a second screen support 13, the first screen support 6 is hinged with a cylinder connecting rod 5 and can be bent, the cylinder connecting rod 5 is connected with a cylinder 14, the second screen support 13 is directly connected with the cylinder 14, the movable screen 12 is controlled by the cylinder 14 to complete up-and-down movement, vibration, dumping, shaking and other actions, after the white sugar is broken, the movable screen 12 is lifted to be separated from a knife rest 11 and vibrates up and down, under the action of the self gravity of the vibration and the white sugar, the first vibration screening of the empty bags and the white sugar is completed, after the screening, the first screen support 6 is lifted, the second screen support 13 is lowered to generate a slope and shake up and down, and the empty bags.

The rear end of the frame 4 is provided with an empty bag outlet 16 and a shredded tobacco outlet 18, the empty bag outlet 16 is arranged relative to the movable screen 12, the empty bag outlet 16 and the shredded tobacco outlet 18 are formed by the frame of the frame 4 at intervals, the shredded tobacco outlet 18 is arranged relative to the double-layer reciprocating sieve 23, a bag guide baffle 17 is arranged between the empty bag outlet 16 and the movable screen 12, a yarn guide baffle 19 is arranged between the shredded tobacco outlet 18 and the double-layer reciprocating sieve 23, and the bag guide baffle 17 and the yarn guide baffle 19 are respectively and fixedly connected with the frame 4. The bag guide baffle 17 is used for guiding the empty bag to the empty bag outlet 16; a guide wire baffle plate 19 is arranged between the double-layer reciprocating sieve 23 and is used for intensively discharging the shredded fibers separated by the upper-layer screen mesh and the lower-layer screen mesh from a shredded fiber discharge port 18; an elastic shifting sheet 20 is arranged below the double-layer reciprocating sieve 23, and the screen mesh is shifted when the double-layer reciprocating sieve 23 reciprocates back and forth to prevent the sieve from being blocked.

Preferably, one end of the double-layer reciprocating sieve 23 is provided with a reciprocating sieve eccentric shaft 25, the reciprocating sieve eccentric shaft 25 is connected with the double-layer reciprocating sieve 23 through a connecting rod 24, the reciprocating sieve eccentric shaft 25 is respectively and rotatably connected with the frame 4 and the connecting rod 24, the connecting rod 24 is rotatably connected with the double-layer reciprocating sieve 23, and the reciprocating sieve eccentric shaft 25 is connected with a driving part. The double-layer reciprocating sieve 23 is positioned below the knife rest 11 and the movable screen 12, the double-layer reciprocating sieve 23 is provided with a roller 28 and is arranged on a slope of the rack, the roller 28 can roll on the slope, power is input by a reciprocating sieve eccentric shaft 25, a crank slider mechanism formed by the reciprocating sieve eccentric shaft 25 and a connecting rod 24 controls the double-layer reciprocating sieve 23 to reciprocate, sieve pores of the reciprocating sieve are reduced layer by layer, second and third sieving of bag materials is completed, and broken filaments of woven bags are mainly separated.

Feasible, the double-layer reciprocating sieve 23 is obliquely arranged on the rack 4, the idler wheels 28 are arranged between the double-layer reciprocating sieve 23 and the rack 4, the double-layer reciprocating sieve 23 slides on the rack 4 in a reciprocating mode through the idler wheels 28, and the elastic shifting sheet 20 is arranged below the double-layer reciprocating sieve 23.

More preferably, two rows of splayed baffles 22 are arranged on the screen mesh of the double-layer reciprocating screen 23 to prevent the white sugar from being discharged from the shredded tobacco outlet 18. The rear end of the double-layer reciprocating sieve 23 is provided with a damping spring 29, two ends of the damping spring 29 can be fixed with the double-layer reciprocating sieve 23 and the frame 4 through fixed connection modes such as welding or bolt fixing, and damping of the double-layer reciprocating sieve 23 is achieved through the damping spring 29. A material guiding baffle 26 is arranged between the movable screen 12 and the double-layer reciprocating screen 23, the material guiding baffle 26 is arranged below the translational knife rest 11, and the material guiding baffle 26 and the frame 4 can be connected in a welding mode. The white sugar screened by the movable screen 12 can be well guided to the double-layer reciprocating sieve 23 through the material guide baffle 26.

In the embodiment, the bag breaking and discharging device is longitudinally broken, so that the application universality of the invention is improved, the bag breaking and discharging device can be transversely widened, and transverse bag breaking or simultaneous bag counting of bagged materials is realized. The utility model discloses an adopted broken package of white sugar and the integration design of bag material screening, the overall design is compact, small, the broken package mechanism of cutting knife adopts the translation knife rest to break the package, broken package area is big, the empty rate is high, shredded when breaking the package produces fewly, screening mechanism adopts one deck movable screen cloth and double-deck reciprocating sieve, the cubic screening, hierarchical screening, one sieves out the empty bag, shredded is removed to two sieves, three sieves are picked up the hourglass, the separating rate is fast efficient, screening is effectual, the separation of material shredded is thorough, broken package and screening go on simultaneously, the automatic high-efficient broken package and the bag material screening of realizing white sugar, broken package action of unloading is automatic going on in sealed frame, reduce shredded, the pollution of dust etc. to white sugar, realize the automatic high-efficient broken package of white sugar, guarantee food safety simultaneously.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and the scope of the invention is to be accorded the full scope of the claims.

Claims (10)

1. The utility model provides an automatic high-efficient broken package discharge apparatus for white sugar is thrown material which characterized in that: the bag breaking mechanism comprises a white sugar conveying mechanism, a cutting knife bag breaking mechanism, a bag material screening mechanism and a rack (4), wherein the white sugar conveying mechanism, the cutting knife bag breaking mechanism and the bag material screening mechanism are fixed on the rack (4), the bag material screening mechanism is located below the cutting knife bag breaking mechanism, an inlet of the white sugar conveying mechanism and an inlet of the cutting knife bag breaking mechanism are connected, a white sugar discharge hole (21) is formed in the position, below the bag material screening mechanism, on the rack (4), of the cutting knife bag breaking mechanism, the cutting knife bag breaking mechanism comprises a translational knife rest (11), and the translational knife rest (11) is right aligned to a feeding hole of the cutting knife bag breaking mechanism.

2. The automatic efficient bag breaking and unloading device for the white sugar feeding according to claim 1, characterized in that: white sugar conveying mechanism includes conveyer roller (1), pinch roller (2) and belt (3), belt (3) are around on conveyer roller (1), conveyer roller (1) driving belt (3) rotate, pinch roller (2) are pressed on belt (3), conveyer roller (1) is connected through rotating between bearing and frame (4), pinch roller (2) are connected through being connected between connecting piece and frame (4), be connected through the bearing between pinch roller (2) and this connecting piece.

3. The automatic efficient bag breaking and unloading device for the white sugar feeding according to claim 1, characterized in that: the cutting knife bag breaking mechanism comprises a bag breaking machine inlet (7), bag breaking transmission rollers (8), a chain (9), a translation knife rest (11), a bag breaking machine frame (27) and a knife rest driving mechanism (10), the bag breaking machine frame (27) is a box-type frame, the bag breaking machine inlet (7) is positioned at the front end of the bag breaking machine frame (27), the bag breaking transmission rollers (8) are positioned above the inner side of the bag breaking machine frame (27), the bag breaking transmission rollers (8) are positioned above the bag breaking machine inlet (7), the bag breaking transmission rollers (8) are arranged opposite to the bag breaking machine inlet (7), the two bag breaking transmission rollers (8) are in transmission connection through the chain (9), the translation knife rest (11) is opposite to the bag breaking machine inlet (7), the translation knife rest (11) is in transmission connection with the knife rest driving mechanism (10) and is driven by the translation knife rest driving mechanism, the bale breaker frame (27) is arranged above the frame (4).

4. The automatic efficient bag breaking and unloading device for the white sugar feeding according to claim 3, characterized in that: the tool rest driving mechanism (10) comprises three hanger eccentric shafts (101) and three tool rest transmission shafts (102), the three tool rest transmission shafts (102) are rotatably connected with the bag breaker rack (27) through bearings, two ends of each hanger eccentric shaft (101) are rotatably connected to the tool rest transmission shafts (102) and the translational tool rests (11) respectively, the three tool rest transmission shafts (102) are connected with the front ends, the middle positions and the rear ends of the translational tool rests (11) respectively, and the tool rest transmission shafts (102) in the middle positions are connected with driving pieces.

5. The automatic efficient bag breaking and unloading device for the white sugar feeding according to claim 3, characterized in that: PVC dustproof curtains (15) are arranged at the positions of the white sugar discharge hole (21) and the bag breaker inlet (7).

6. The automatic efficient bag breaking and unloading device for the white sugar feeding according to claim 1, characterized in that: the bag material screening mechanism comprises a movable screen (12) and a double-layer reciprocating screen (23), the movable screen (12) is arranged below a knife edge of the translation knife rest (11), a mesh belt of the movable screen (12) and a blade of the translation knife rest (11) are arranged at intervals, and the double-layer reciprocating screen (23) is arranged below the movable screen (12).

7. The automatic efficient bag breaking and unloading device for the white sugar feeding according to claim 6, characterized in that: the novel silk screen is characterized in that an empty bag outlet (16) and a shredded silk outlet (18) are formed in the rear end of the rack (4), the empty bag outlet (16) is arranged relative to the movable screen (12), the shredded silk outlet (18) is arranged relative to the double-layer reciprocating screen (23), a bag guide baffle (17) is arranged between the empty bag outlet (16) and the movable screen (12), a silk guide baffle (19) is arranged between the shredded silk outlet (18) and the double-layer reciprocating screen (23), and the bag guide baffle (17) and the silk guide baffle (19) are fixedly connected with the rack (4) respectively.

8. The automatic efficient bag breaking and unloading device for the white sugar feeding according to claim 7, characterized in that: one end of the double-layer reciprocating sieve (23) is provided with a reciprocating sieve eccentric shaft (25), the reciprocating sieve eccentric shaft (25) is connected with the double-layer reciprocating sieve (23) through a connecting rod (24), the reciprocating sieve eccentric shaft (25) is respectively connected with the rack (4) and the connecting rod (24) in a rotating mode, the connecting rod (24) is connected with the double-layer reciprocating sieve (23) in a rotating mode, and the reciprocating sieve eccentric shaft (25) is connected with a driving piece.

9. The automatic efficient bag breaking and unloading device for the white sugar feeding according to claim 6, characterized in that: the double-layer reciprocating sieve is characterized in that the double-layer reciprocating sieve (23) is obliquely arranged on the rack (4), idler wheels (28) are arranged between the double-layer reciprocating sieve (23) and the rack (4), the double-layer reciprocating sieve (23) slides on the rack (4) in a reciprocating mode through the idler wheels (28), and elastic poking pieces (20) are arranged below the double-layer reciprocating sieve (23).

10. The automatic efficient bag breaking and unloading device for the white sugar feeding according to claim 6, characterized in that: two rows of splayed baffles (22) are arranged on a screen of the double-layer reciprocating screen (23), a damping spring (29) is arranged at the rear end of the double-layer reciprocating screen (23), a material guide baffle (26) is arranged between the movable screen (12) and the double-layer reciprocating screen (23), the material guide baffle (26) is arranged below the translation knife rest (11), and the material guide baffle (26) is fixedly connected with the rack (4).

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